ALUMINUM ELECTROLYTIC NIPPON CHEMI-CON QS 9000/ISO 9001 REGISTERED CAT. No. 12 PX Surface Mount Rated Terminal voltage range type (Vdc) Capacitance range (mF) Functional-polymer, super low ESR 105C 2,000 hours SMD 4 to 25 6.8 to 680 Solid aluminum, high heat resistance 125C 2,000 hours +R SMD 4 to 16 6.8 to 56 MFZ Solid aluminum, low ESR, high cap. 85/105C 1,000 hours +R SMD 4 to 20 3.3 to 56 MFX Solid aluminum, low ESR 85/105C 1,000 hours +R SMD 4 to 16 4.7 to 47 MFS/MFA 3.5 to 4.5mm height, downsized 85C 1,000 to 2,000hours SMD 4 to 35 0.1 to 100 MF 3.2 to 4.7mm max. height 85C 2,000 hours SMD 4 to 50 0.1 to 150 MFK 3.7 to 4.7mm max. height 105C 1,000 hours SMD 6.3 to 50 0.1 to 100 MFY 4.7mm max. height 105C 1,000 hours SMD 6.3 to 50 3.3 to 100 MFJ 4.7mm max. height 105C 2,000 hours SMD 6.3 to 50 3.3 to 100 MFK-Large 9.2mm max. height 105C 2,000 hours SMD 10 to 50 47 to 1,000 4.5mm height 85C 2,000 hours SMD 4 to 50 0.1 to 220 5.5 to 22.0mm max. height, downsized 85C 2,000 hours SMD 4 to 450 0.1 to 10,000 5.5 to 10.5mm max. height 85C 1,000 to 2,000 hours SMD 4 to 63 0.1 to 1,000 5.5 to 22.0mm max. height, downsized 105C 1,000 to 2,000 hours SMD 6.3 to 450 0.47 to 6,800 5.5 to 10.5mm max. height 105C 1,000 to 2,000 hours SMD 6.3 to 50 0.1 to 1,000 5.5 to 22.0mm max. height 105C 1,000 to 5,000 hours SMD 6.3 to 100 1.0 to 8,200 6.0mm max. height 105C 2,000 hours SMD 6.3 to 50 0.1 to 100 MVL Upgrade! 6.0mm max. height 105C 3,000 to 5,000 hours SMD 6.3 to 50 0.1 to 100 MVH Upgrade! 6.0 to 22.0mm max. height 125C 1,000 to 5,000 hours SMD 10 to 450 3.3 to 4,700 MF-BP 3.7 to 4.7mm max. height, bi-polar 85C 2,000 hours SMD 4 to 50 0.1 to 22 MFK-BP 3.7 to 4.7mm max. height, bi-polar 105C 1,000 hours SMD 6.3 to 50 0.1 to 10 MV-BP 5.5mm max. height, bi-polar 85C 2,000 hours SMD 4 to 50 0.1 to 47 MVK-BP 6.0mm max. height, bi-polar 105C 1,000 hours SMD 6.3 to 50 0.1 to 47 SRM 5mm height, downsized 85C 1,000 hours Radial 4 to 50 0.1 to 330 SRE 5mm height 85C 1,000 hours Radial 4 to 50 0.1 to 100 KRE 5mm height 105C 1,000 hours Radial 6.3 to 50 0.1 to 100 Low Profile SRA 7mm height 85C 1,000 hours Radial 4 to 63 0.1 to 470 KMA 7mm height 105C 1,000 hours Radial 4 to 63 0.1 to 220 SRG F4B7 to F18B25mm, low profile 85C 1,000 to 2,000 hours Radial 4 to 50 0.1 to 10,000 KRG F4B7 to F18B25mm, low profile 105C 1,000 hours Radial 6.3 to 50 0.1 to 10,000 SMG General, downsized 85C 2,000 hours Radial 6.3 to 450 0.1 to 39,000 KMG General SME Purpose KME General, downsized 105C 1,000 to 2,000 hours +R Radial 6.3 to 450 0.1 to 22,000 General 85C 2,000 hours Radial 6.3 to 450 0.1 to 15,000 General 105C 1,000 hours +R Radial 6.3 to 400 0.1 to 15,000 Long life, general 105C 4,000 to 7,000 hours Radial 10 to 50 0.47 to 10,000 Bi-polar, general 85C 2,000 hours Radial 6.3 to 100 0.47 to 6,800 Bi-polar, general 105C 1,000 hours Radial 6.3 to 100 0.47 to 6,800 LXZ Lowest impedance, downsized 105C 2,000 to 8,000 hours +R Radial 6.3 to 63 12 to 18,000 LXY Low impedance, high reliability 105C 2,000 to 8,000 hours +R Radial 10 to 63 10 to 8,200 LXV Low impedance, general 105C 2,000 to 5,000 hours +R Radial 6.3 to 100 5.6 to 15,000 High SXE Frequency LXJ Use Low impedance, general 105C 1,000 to 2,000 hours Radial 6.3 to 100 1.5 to 15,000 Low impedance, general 105C 2,000 to 5,000 hours +R Radial 6.3 to 50 0.47 to 15,000 6.3 to 50 22 to 6,800 22 to 18,000 Low ESR MX MVS General MVA purpose MV MVE NEW! Upgrade! NEW! MVK MVY Upgrade! MVJ Bi-Polar Miniature Solvent-proof Features Low impedance Series Endurance (+R=With ripple) Standard type CAPACITOR SERIES TABLE, CONTENTS KMY Bi-Polar, SME-BP General KME-BP KZE NEW! Lowest impedance, long life 105C 2,000 to 5,000 hours +R Radial KY NEW! Low impedance, long life 105C 3,000 to 6,000 hours +R Radial 6.3 to 50 Low impedance, high CV, general 105C 2,000 to 5,000 hours +R Radial 6.3 to 450 0.47 to 15,000 Long life, for input filtering 105C 8,000 to 10,000 hours +R Radial 160 to 450 3.3 to 680 F20B20 to F22B50mm 85C 2,000 hours +R Radial 160 to 450 33 to 470 F20B20 to F22B50mm 105C 2,000 hours +R Radial 160 to 450 33 to 470 KMF KMX High SMH Reliability KMH : Promotional products : Some of range are solvent-proof. CAT. No. 12 Miniature Capacitance range (mF) Low profile, for input filtering 105C 2,000 hours +R Radial 200 & 400 KLG No sparks with DC overvoltage 105C 2,000 hours +R Radial 200 & 400 22 to 220 FL Long life 105C 3,000 to 6,000 hours +R Radial 6.3 to 50 0.47 to 1,500 Long life 105C 5,000 to 7,000 hours Radial 10 to 63 0.47 to 4,700 Long life 105C 5,000 hours Radial 100 to 250 0.47 to 68 105C and 125C lifetime specified 105C 2,000 to 5,000 hours +R Radial 10 to 63 0.1 to 10,000 125C, downsize, low impedance 125C 2,000 to 5,000 hours +R Radial 10 to 450 4.7 to 4,700 125C 125C 1,000 to 2,000 hours Radial 10 to 63 0.47 to 1,000 For airbag 105C 5,000 hours +R Radial 16 to 35 820 to 6,800 Low DC leakage, general 85C 1,000 hours Radial 6.3 to 50 0.1 to 15,000 Radial 300 & 330 50 to 240 NEW! LXA High Reliability LX EX GXE Upgrade! LBG Special LLA Application PH 10 to 150 For photo flash 55C 5,000 times charging SMQ NEW! Snap-in terminal, more downsized 85C 2,000 hours +R Pin 160 to 450 82 to 3,900 KMQ NEW! Snap-in terminal, more downsized 105C 2,000 hours +R Pin 160 to 450 68 to 3,300 SMM Snap-in terminal, downsized 85C 3,000 hours +R Pin 160 to 450 47 to 3,300 KMM Snap-in terminal, downsized 105C 2,000 to 3,000 hours +R Pin 160 to 450 39 to 3,300 SMH Snap-in terminal, general 85C 2,000 hours +R Pin 6.3 to 450 56 to 100,000 KMH Snap-in terminal, general 105C 2,000 hours +R Pin 6.3 to 450 47 to 82,000 SLM 15mm height 85C 2,000 hours +R Pin 160 to 400 47 to 560 KLM 15mm height 105C 2,000 hours +R Pin 160 to 400 39 to 390 Long life 105C 7,000 hours +R Pin 160 to 450 47 to 2,200 LXG Long life 105C 5,000 hours +R Pin 10 to 450 39 to 47,000 LXH No sparks with DC overvoltage 105C 3,000/5,000 hours +R Pin 200 & 400 68 to 1,500 No sparks with DC overvoltage 105C 2,000 hours +R Pin 200 & 400 33 to 1,500 KSL Mechanically open mode cap 105C 2,000 hours +R Pin 200 & 400 180 to 1,500 RWE-LR For air-conditioning 85C 3,000 hours +R Lug 250 to 450 330 to 2,200 SME Screw terminal, general 85C 2,000 hours +R Screw KMH Screw terminal, general 105C 2,000 hours +R Screw 10 to 400 180 to 680,000 RWE High ripple 85C 2,000 hours +R Screw 350 to 550 100 to 12,000 RWY High ripple, long life, low cost 85C 5,000 hours +R Screw 350 to 450 500 to 14,000 RWF High ripple, long life 85C 5,000 hours +R Screw 350 to 450 1,200 to 22,000 For Inverter RWL High ripple, long life 85C 20,000 hours +R Screw 350 to 450 2,200 to 12,000 Long life 105C 2,000/5,000 hours +R Screw 10 to 525 330 to 390,000 LX Long life 105C 5,000 hours +R Screw 350 to 450 2,200 to 12,000 LXR High ripple, long life 105C 5,000 hours +R Screw 350 to 450 2,200 to 15,000 Low impedance 105C 2,000 hours Screw 10 to 100 1,000 to 100,000 General Purpose Large Sized Rated Terminal voltage range type (Vdc) PA GXD Low Profile LXM NEW! High Reliability KLG Screw-mount Terminal Type Solvent-proof Features Low impedance Series Endurance (+R=With ripple) Standard type CAPACITOR SERIES TABLE, CONTENTS General Purpose LXA Upgrade! Low Impedance KW 10 to 250 560 to 680,000 : Promotional products CAT. No. 12 GROUP CHART ?SURFACE MOUNT Miniaturization Low Profile Upgrade! NEW! MVA 85C High CV MFA MVS 85C High CV MFS 4.5mmL Smaller Mounting Area Large SMT Upgrade! NEW! MVA MVE 85C High CV 105C High CV Upgrade! MFK Large Capacitance Upgrade! MVY MVH 105C Low Z 125C SURFACE MOUNT(Vertical-Horizontal) MV 85C 1k to 2kHrs. MF 85C 2000h Low Impedance Upgrade! MVK 105C 1k to 2kHrs. MVY MFK 105C 1k to 2kHrs 105C 2000h Functional Polymer Lowest Z Upgrade! MFY Digitalization 105C 1000h PX Solid Electrolyte NEW! MX Long Life High Temperature Upgrade! MVH 125C Upgrade! Automotive Application ?RADIAL LEAD MVJ 105C 2000h MFJ 105C 2000h PowerSupply Output Filter 105c Low Impedance 7mmL & Low Profile SRM SRG 85C KRG 85C KMY LXY Long Life * Low Z 105C SRA 105C KMF KMA 85C High Reliability High CV High CV KRE LXZ High Reliability Low Z 105C LXJ Long Life * Low Z Longer Life High CV 85C MFZ Low Profile 5mmL SRE MFX MVL 105C 3000-5000h LXV Long Life * Low Z SXE Low Z Adapter/ Ballast RADIAL TYPE STANDARD High CV SME KME SMH KMH 85C 105C SMG 85C KMG Low Z Power Supply Input Filter 105C For Value PC Miniature Standard Miniature Standard KY Low ESR PA Low Profile KMX 8000 to 10000Hrs. KZE Low ESR Automotive Application Low LC Long Life Strobe Application No Sparks High Temperature (125c) Custom-Made Upgrade! NEW! LLA FL PH KLG GXE GXD 2K to 5KHrs High Reliability NEW! LBG Airbag LXA Long Life EX 105C/125C High CV CAT. No. 12 GROUP CHART ?SNAP-IN SNAP-IN TYPES STANDARD 15mm Height SMH 85C KMH SLM 105C 85C Miniature * Longer Life KLM 105C No Sparks against Over-voltage Long life NEW! SMM KMM 85C Miniaturized 105C Miniaturized LXG LXM 5000Hrs. 7000Hrs. KLG LXH Safety Design 2000Hrs. 3000 to 5000Hrs. KSL Safety 85c Lug Terminal More downsized NEW! NEW! SMQ 85C Mechanically open end capacitor Inverter RWE-LR Air-conditioning KMQ 105C ?SCREW-MOUNT TERMINAL 85c SCREW-MOUNT STANDARD SME 85C KMH RWF 5000Hrs. RWY 5000Hrs. * Low Price 105C RWE to 550Vdc 105c 5000Hours Life RWL 20000Hrs. Low Z Upgrade! LXA 10 to 525V LX LXR High ripple KW 105C CAT. No. 12 STANDARDIZATION The following series are discontinued. Please use the recommended replacements in the table. ?LEAD TYPE REPLACEMENTS Discontinued series SL SM SMC KM KMC SM-BP KM-BP SR SRC SRJ SX SXA SXC RX RXC LXE SXF LXF TXF LX (10 to 63Vdc) KX KXC GX EU LL LR KHA KXB BX SM (VP-type) SRF KRF GX-VH SD KRL KSA Characteristics Replacements 85C standard SME 105C standard KME 85C bi-polarized 105C bi-polarized SME-BP KME-BP 85C low profile SRG Low impedance LXJ Low impedance Long life LXY Long life LXA & EX High heat resistance GXD & GXE High temperature performance LXY Low leakage current LLA High ripple current KMF & KMX JIS B X-characteristices KMG 85C large radial SMG 105C large radial High operating temperature 2 volt 105C low leakage current Bi-polarized high ripple KMH * ?SNAP-IN REPLACEMENTS Discontinued series SM SME SMG KM KME KMG NM NMA BK NM-HR BX LX LXA RZ Characteristics Replacements 85C standard SMH & SMM 105C standard KMH & KMM Long case size Long height High ripple current JIS B X-characteristics SMH KMH, KMM Long life LXG Low impedance * ?SCREW-MOUNT TERMINAL REPLACEMENTS Discontinued series EW PW MW GW SW RW RWA KM KME FW Characteristics Replacements 85C standard SME 100C KMH For inverter RWE & RWF High reliability KMH Low impedance KW *Please consult us GX-VH, SD, KRL, KSA, and RZ series. CAT. No. 12 WORLD-WIDE MANUFACTURING LOCATIONS Korea factory China factory U.S.A factory Nippon Chemi-Con Taiwan factory Malaysia factory Singapore factory Indonesia factory ?AVAILABLE ITEMS BY MANUFACTURING LOCATIONS Classification Low profile Series Korea factory China factory Singapore factory Indonesia factory Taiwan factory Malaysia factory U.S.A. factory SRE SRA KMA SRG General purpose SMG KMG SME KME Bi-polar SME-BP KME-BP Low impedance LXV LXJ SXE Snap-in SMH KMH KMM Screw-mount Terminal KMH RWE RWF RWL LXA LX CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS Designing Device Circuits 1 Select the capacitors to suit installation and operating conditions, and use the capacitors to meet the performance limits prescribed in this catalog or the product specifications. 2 Polarity Aluminum Electrolytic Capacitors are polarized. Apply neither reverse voltage nor AC voltage to polarized capacitors. Using reversed polarity causes a short circuit or venting. Before use, refer to the catalog, product specifications or capacitor body to identify the polarity marking. Use a bi-polar type of non-solid aluminum electrolytic capacitor for a circuit where the polarity is occasionally reversed. However, note that even a bi-polar aluminum electrolytic capacitor must not be used for AC voltage applications. (Solid electrolyte capacitors of MFX and MFZ series can withstand a maximum reverse voltage of 15% of the rated voltage for 250 hours at 85C. MX series can do 15% of the rated voltage for 250 hours at 125C.) 3 Operating voltage Do not apply a DC voltage which exceeds the full rated voltage. The peak voltage of a superimposed AC voltage (ripple current) on the DC voltage must not exceed the full rated voltage. A surge voltage value, which exceeds the full rated voltage, is prescribed in the catalogs, but it is a restricted condition, for especially short periods of time. Also, when using MFX or MFZ series solid aluminum electrolytic capacitors at temperatures of more than 85C, apply a low voltage in accordance with the catalogs or the product specifications. 4 Ripple current The use of a capacitor outside the rated operating temperature will considerably shorten the life or cause the capacitor to vent. The maximum permissible ripple current has been specified at a certain ripple frequency. The rated ripple current at several frequencies must be calculated by multiplying the rated ripple current at the original frequency using the frequency multipliers for each product series. For more details, refer to the paragraph of Life of Aluminum Electrolytic Capacitors. or ripple current. b) Solid aluminum electrolytic capacitors, MX, MFX and MFZ series, in general, have a random failure period in that the lifetime ends with a short circuit. Take account of this failure mode in designing devices. Decreasing operating voltage, ambient temperature, and inrush current can reduce the failure rate. 9 Insulating a) Electrically isolate the following parts of a capacitor from the negative terminal, the positive terminal and the circuit traces. * The outer can case of a non-solid aluminum capacitor. * The dummy terminal of a non-solid aluminum capacitor, which is designed for mounting stability. * The dummy terminal of a surface mount type capacitor such as non-solid type MF/MFK/MFY/MFJ series capacitors or solid type MX, MFX, and MFZ series capacitors. b) The outer sleeve of a capacitor is not assured as an insulator. For applications that require an insulated outer sleeve, a custom-design capacitor is recommended to. 10 Condition Do not use/expose capacitors to the following conditions. a) Oil, water, salty water take care to avoid storage in damp locations. b) Toxic gases such as hydrogen sulfide, sulfurous acid, nitrous acid, chlorine or its compounds, and ammonium c) Ozone, ultraviolet rays or radiation d) Severe vibration or mechanical shock conditions beyond the limits prescribed in the catalogs or the product specification. 11 Mounting a) The paper separators and the electrolytic-conductive electrolytes in a non-solid aluminum electrolytic capacitor are flammable. Leaking electrolyte on a printed circuit board can gradually erode the copper traces, possibly causing smoke or burning by short-circuiting the copper traces. Verify the following points when designing a PC board. * Provide the appropriate hole spacing on the PC board to match the terminal spacing of the capacitor. * Make the following open space over the vent so that the vent can operate correctly 5 Category temperature Case diameter Clearance The use of a capacitor outside the maximum rated category temperature will considerably shorten the life or cause the capacitor to vent. The relation between the lifetime of aluminum electrolytic capacitors and ambient temperature follows Arrhenius' rule that the lifetime is approximately halved with each 10C rise in ambient temperature. F6.3 to F16mm F18 to F35mm F40mm and up 2mm minimum 3mm minimum 5mm minimum 6 Life expectancy Select the capacitors to meet the service life of a device. 7 Charge and discharge Do not use capacitors in circuits where heavy charge and discharge cycles are frequently repeated. Frequent and sharp heavy discharging cycles will result in decreasing capacitance and damage to the capacitors due to generated heat. Specified capacitors can be designed to meet the requirements of charging-discharging cycles, frequency, operating temperature, etc. 8 Failure mode of capacitors a) Non-solid aluminum electrolytic capacitors, in general, have a lifetime which ends in an open circuit, the period is dependent upon temperature. Consequently, lifetime of capacitors can be extended by reducing the ambient temperature and/ * Do not place any wires or copper traces over the vent of the capacitor. * Installing a capacitor with the vent facing the PC board needs an appropriate ventilation hole in PC board. * Do not pass any copper traces beneath the seal side of a capacitor. The trace must pass 1 or 2mm to the side of the capacitor. * Avoid placing any heat-generating objects adjacent to a capacitor or even on the reverse side of the PC board. * Do not pass any via holes or underneath a capacitor. * In designing double-sided PC boards, do not locate any copper trace under the seal side of a capacitor. b) Do not mount the terminal side of a screw mount capacitor downwards. If a screw terminal capacitor is mounted on its side, make sure the positive terminal is higher than the negative terminal. Do not fasten the screws of the terminals and the mounting clamps over the specified torque prescribed in the catalog or the production specification. c) For a surface mount capacitor, design the copper pads of the PC board in accordance with the catalog or the product specifications. CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS 12 Others a) The electrical characteristics of capacitors vary in respect to temperature, frequency and service life. Design the device circuits by taking these changes into account. b) Capacitors mounted in parallel need the current to flow equally through the individual capacitors. c) Capacitors mounted in series require resistors in parallel with the individual capacitors to balance the voltage. Installing Capacitors 1 Installing a) Used capacitors are not reusable, except in the case that the capacitors are detached from a device for periodic inspection to measure their electrical characteristics. b) If the capacitors have self charged, discharge in the capacitors through a resistor of approximately 1kO before use. c) If capacitors are stored at a temperature of 35C or more and more than 75%RH, the leakage current may increase. In this case, they can be reformed by applying the rated voltage through a resistor of approximately 1kO. d) Verify the rated capacitance and voltages of the capacitors when installing. f ) Verify the polarity of the capacitors. g) Do not use the capacitors if they have been dropped on the floor. h) Do not deform the cases of capacitors. g) Verify that the lead spacing of the capacitor fits the hole spacing in the PC board before installing the capacitors. Some standard pre-formed leads are available. h) For pin terminals or snap-in terminals, insert the terminals into PC board and press the capacitor downward until the bottom of the capacitor body reaches PC board surface. i ) Do not apply any mechanical force in excess of the limits prescribed in the catalogs or the product specifications of the capacitors. Also, note the capacitors may be damaged by mechanical shocks caused by the vacuum/insertion head, component checker or centering operation of an automatic mounting or insertion machine. 2 Soldering and Solderability a) When soldering with a soldering iron * Soldering conditions (temperature and time) should be within the limits prescribed in the catalogs or the product specifications. * If the terminal spacing of a capacitor does not fit the terminal hole spacing of the PC board, reform the terminals in a manner to minimize a mechanical stress into the body of the capacitor. * Remove the capacitors from the PC board, after the solder is completely melted, reworking by using a soldering iron minimizes the mechanical stress to the capacitors. * Do not touch the capacitor body with the hot tip of the soldering iron. b) Flow soldering * Do not dip the body of a capacitor into the solder bath only dip the terminals in. The soldering must be done on the reverse side of PC board. * Soldering conditions (preheat, solder temperature and dipping time) should be within the limits prescribed in the catalogs or the product specifications. * Do not apply flux to any part of capacitors other than their terminals. * Make sure the capacitors do not come into contact with any other components while soldering c) Reflow soldering * Soldering conditions (preheat, solder temperature and dipping time) should be within the limits prescribed in the cata- logs or the product specifications. * When setting the temperature infrared heaters, consider that the infrared absorption causes material to be discolored and change in appearance. * Do not solder capacitors more than once using reflow. If you need to twice, be sure to consult us. * Make sure capacitors do not come into contact with copper traces. d) Do not re-use surface mount capacitors which have already been soldered. In addition, when installing a new capacitor onto the assembly board to rework, remove old residual flux from the surface of the PC board, and then use a soldering iron within the prescribed conditions. 3 Handling after soldering Do not apply any mechanical stress to the capacitor after soldering onto the PC board. a) Do not lean or twist the body of the capacitor after soldering the capacitors onto the PC board. b) Do not use the capacitors for lifting or carrying the assembly board. c) Do not hit or poke the capacitor after soldering to PC board. When stacking the assembly board, be careful that other components do not touch the aluminum electrolytic capacitors. d) Do not drop the assembly board. 4 Cleaning PC board a) Do not wash capacitors by using the following cleaning agents. Solvent-proof capacitors are only suitable for washing using the cleaning conditions prescribed in the catalogs or the product specifications. In particular, ultrasonic cleaning will accelerate damaging capacitors. * Halogenated solvents; cause capacitors to fail due to corrosion. * Alkali system solvents; corrode (dissolve) an aluminum case. * Petroleum system solvents; cause the rubber seal material to deteriorate. * Xylene; causes the rubber seal material to deteriorate. * Acetone; erases the marking. b) Verify the following points when washing capacitors. * Monitor conductivity, pH, specific gravity, and the water content of cleaning agents. Contamination adversely affects these characteristics. * Be sure not to expose the capacitors under solvent rich conditions or keep capacitors inside a closed container. In addition, please dry the solvent sufficiently on the PC board and the capacitor with an air knife (temperature should be less than the maximum operating temperature of the capacitor) over 10 minutes. Aluminum electrolytic capacitors can be characteristically and catastrophically damaged by halogen ions, particularly by chlorine ions, though the degree of the damage mainly depends upon the characteristics of the electrolyte and rubber seal material. When halogen ions come into contact with the capacitors, the foil corrodes when voltages applied. This corrsion causes ; extremely high leakage current, which causes in line with, venting, and an open circuit. Global environmental warnings (Greenhouse effects and other environmental destruction by depletion of the ozone layer), new types of cleaning agents have been developed and commercialized as substitutes for CFC113,1,1,2-trichloroethlene and 1,1,1-trichloroethylene. The following are recommended as cleaning conditions for some of new cleaning agents. CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS -Higher alcohol system cleaning agents Recommended cleaning agents: Pine Alpha ST-100S (Arakawa Chemical) Clean Through 750H, 750K, 750L, and 710M (Kao) Technocare FRW-14 through 17 (Toshiba) Cleaning conditions: Using these cleaning agents capacitors are capable of withstanding immersion or ultrasonic cleaning for 10 minutes at a maximum liquid temperature of 60C. Find optimum condition for washing, rinsing, and drying. Be sure not to rub the marking off the capacitor by contacting any other components or the PC board. Note that shower cleaning adversely affects the markings on the sleeve. -Non-Halogenated Solvent Cleaning AK225AES (Asahi Glass) Cleaning conditions: Solvent-proof capacitors are capable of withstanding any one of immersion, ultrasonic or vapor cleaning for 5 minutes; exception is 2 minutes max. for KRE, and KRE-BP series capacitors and 3 minutes for SRM series capacitors. However, from a view of the global environmental problems, these types of solvent will be banned in near future. We would recommended not using them as much as possible. Isopropyl alcohol cleaning agents IPA (Isopropyl Alcohol) is one of the most acceptable cleaning agents; it is necessary to maintain a flux content in the cleaning liquid at a maximum limit of 2 Wt.%. 5 Precautions for using adhesives and coating materials a) Do not use any adhesive and coating materials containing halogenated solvent. b) Verify the following before using adhesive and coating material. * Remove flux and dust leftover between the rubber seal and the PC board before applying adhesive or coating materials to the capacitor. * Dry and remove any residual cleaning agents before applying adhesive and coating materials to the capacitors. Do not cover over the whole surface of the rubber seal with the adhesive or coating materials. * For permissible heat conditions for curing adhesives or coating materials, follow the instructions in the catalogs or the product specifications of the capacitors. * Covering over the whole surface of the capacitor rubber seal with resin may result in a hazardous condition because the inside pressure cannot release completely. Also, a large amount of halogen ions in resins will cause the capacitors to fail because the halogen ions penetrate into the rubber seal and the inside of the capacitor. c) Some of coating material cannot be curred over the capacitor. 6 Fumigation Fumigation process may be required when exporting the end electrical product. The process, actually halogenated ions, may cause the aluminum electrolytic capacitor to corrode. The fumigation solvent must not directly adhere to the electrical product and the solvent must be dried completely. Please consult us if solvent adheres to the aluminum electrolytic capacitors or drying condition is not satisfaction. The Operation of Devices a) Do not touch a capacitor directly with bare hands. b) Do not short-circuit the terminal of a capacitor by letting it come into contact with any conductive object. Also, do not spill electric-conductive liquid such as acid or alkaline solution over the capacitor. c) Do not use capacitors in circumstance where they would be subject to exposure to the following materials exist or expose. * Oil, water, salty water or damp location. * Direct sunlight. * Toxic gases such as hydrogen sulfide, sulfurous acid, nitrous acid, chlorine or its compounds, and ammonium. * Ozone, ultraviolet rays or radiation. *Severe vibration or mechanical shock conditions beyond the limits prescribed in the catalogs or product specification. Maintenance Inspection a) Make periodic inspections of capacitors that have been used in industrial applications. Before inspection, turnoff the power supply and carefully discharge the electricity in the capacitors. Verify the polarity when measuring the capacitors with a volt-ohm meter. Also, do not apply any mechanical stress to the terminals of the capacitors. b) The following items should be checked during the periodic inspections. * Significant damage in appearance : venting and electrolyte leakage. * Electrical characteristics: leakage current, capacitance, tanE and other characteristics prescribed in the catalogs or product specifications. We recommend replacing the capacitors if the parts are out of specification. In Case of Venting a) If a non-solid aluminum electrolytic capacitor expells gas when venting, it will discharge odors or smoke, or burn in the case of a short-circuit failure. Immediately turn off or unplug the main power supply of the device. b) When venting, a non-solid aluminum electrolytic capacitor blows out gas with a temperature of over 100C. (A solid aluminum electrolytic capacitor discharges decomposition gas or burning gas while the outer resin case is burning.) Never expose the face close to a venting capacitor. If your eyes should inadvertently become exposed to the spouting gas or you inhale it, immediately flush the open eyes with large amounts of water and gargle with water respectively. If electrolyte is on the skin, wash the electrolyte away from the skin with soap and plenty of water. Do not lick the electrolyte of non-solid aluminum electrolytic capacitors. Storage We recommend the following conditions for storage. a) Do not store capacitors at a high temperature or in high humidity. Store the capacitors indoors at a temperature of 5 to 35C and a humidity of less than 75%RH. b) Store the capacitors in places free from water, oil or salt water. c) Store the capacitors in places free from toxic gasses (hydrogen sulfide, sulfurous acid, chlorine, ammonium, etc.) d) Store the capacitors in places free from ozone, ultraviolet rays or radiation. e) Keep capacitors in the original package. Disposal Please consult a local specialist regarding the disposal of industrial waste when disposing aluminum electrolytic capacitors. Catalogs Specifications in catalogs may be subject to change without notice. For more details of precautions and guidelines for aluminum electrolytic capacitors, please refer to Engineering Bulletin No. 634A. CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS Structure of Aluminum Electrolytic Capacitors The aluminum electrolytic capacitor contains an internal element of an anode foil, a cathode foil and paper separator rolled together, impregnated with an electrolyte, then attached to external terminals connecting the tabs with the anode or the cathode foils, and sealed in a can case. Electrolyte and separator: In a non-solid aluminum electrolytic capacitor, the electrolyte, an electrically conductive liquid, functions as a true cathode by contacting the dielectric oxide layer. Accordingly, the "cathode foil" serves as an electrical connection between the electrolyte and terminal. The separator functions to retain the electrolyte and prevent the anode and cathode foils from short-circuiting. Can case and sealing materials: Lead Wire Lead Wire Aluminum Tab Separator Paper Cathode Foil Aluminum Tab Anode Foil Rubber Seal The foils and separator are wound into a cylinder to make an internal element, which is impregnated with the electrolyte, inserted into an aluminum can case and sealed. During the service life of a capacitor, electrolyte slowly and naturally vaporizes by electrochemical reaction on the boundary of the aluminum foils. The gas will increase the pressure inside the case and finally cause the pressure relief vent to open or the sealing materials to bulge. The sealing material functions not only to prevent electrolyte from drying out but also to allow the gas to escape out of the can case in a controlled manner. Sleeve Can The Equivalent Circuit Element As the equivalent circuit of an aluminum electrolytic capacitor is shown below, it forms a capacitance, a series resistance, an inductance, and a parallel resistance. Among various types of capacitors, an aluminum electrolytic capacitor offers large CV to volume and features low cost. The capacitance (C) of aluminum electrolytic capacitors, as well as other capacitors, is expressed by the following equation: RLC RESR Dielectric (Al2O3) Electrolyte Cathode foil This equation shows that the capacitance increases in proportion as the dielectric constant becomes high, its surface area becomes large and the thickness of dielectric becomes thin. In aluminum electrolytic capacitors the dielectric constant of an aluminum oxide (Al2 O3) layer is 8 to 10, which is not as high as compared with the other types of capacitors. However, the dielectric layer of the aluminum oxide is extremely thin (about 15A per volt) and the surface area is very large. An electrochemical formed electrode foil makes the dielectric on the etched surface of aluminum electrode foil. Electrochemical etching creates 20 to 100 times more surface area as plain foil. Therefore, an aluminum electrolytic capacitor can offer a large capacitance compared with other types. LESL Separator Where : =Dielectric constant S=Surface area of dielectric (cm2) d=Thickness of dielectric (cm) C RESR=Equivalent series resistance (ESR) RLC =Resistance due to leakage current C =Capacitance LESL =Equivalent series inductance Anode foil C=8.855B10-8BS/d (MF) Dca Dan Lan Lca Can R Cca Primary of Composition Material Ran Rca Anode aluminum foil: First, the etching process is carried out electromechanically with a chloride solution which dissolves metal and increases the surface area of the foil; forming a dense network like innumerable microscopic channels. Secondly, the formation process is carried out with a solution such as ammonium borate which forms the aluminum oxide layer (Al2 O3) as a dielectric at a thickness of 15A / volt. The process needs to charge 140 to 200% of the rated voltage into the foil. Cathode aluminum foil: As in the first manufacturing process of the positive foil, the cathode foil requires etching process. Generally, it does not require the formation process; therefore, the natural oxide layer of Al 2O3 , which gives a characteristic dielectric voltage of 0.2 to 1.0 volts, is formed. From a composition material point wise, the equivalent circuit is subdivided as follows. Can, CCa=Capacitance due to anode and cathodes foils R =Resistance of electrolyte and separator Ran, RCa=Internal resistance of oxide layer on anode and cathode foils Dan, DCa=Diode effects due to oxide layer on anode and cathode foils Lan, LCa =Inductance due to anode and cathode terminals Basic Electrical Characteristics Capacitance: The capacitance of capacitor is expressed as AC capacitance CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS tanE by measuring impedance and separating factors. Also, the AC capacitance depends upon frequency, voltage and other measuring methods. In fact, JIS C 5101 prescribes that the series capacitive factor of an equivalent series( ) circuit shall be the capacitance measured at a frequency of 120Hz and applying a maximum AC voltage of 0.5V rms with a DC bias voltage of 1.5 or 2.0V to aluminum electrolytic capacitors. The capacitance of an aluminum electrolytic capacitor becomes smaller with increasing frequency. See the typical behavior shown below. 10 1 100 1k 10k Frequency (Hz) 100k 110 1 100 90 tanE Capacitance Change (%) tanE VS. Frequency 80 0.1 70 60 50 100 1k 0.01 10k -40 -25 Frequency (Hz) Capacitance VS. Frequency Capacitance Change (%) The capacitance value is highly dependent upon temperature and frequency. As the temperature decreases, the capacitance becomes smaller. See the typical behavior shown below. 16V 35-100V 350V +10 0 -20 0 20 40 60 Temperature (C) Temperature Characteristics of Capacitance On the other hand, DC capacitance, which can be measured by applying a DC voltage, shows a slightly larger value than the AC capacitance at a normal temperature and has the flatter characteristic over the temperature range. tane(tangent of loss angle or dissipation factor): The tanE is expressed as the ratio of the resistive component (ResR) to the capacitive reactance (1/C) in the equivalent series circuit. Its measuring conditions are the same as the capacitance. RESR LESL 85 Temperature Characteristics of tanE Equivalent series resistance (ESR): The ESR is the series resistance consisting of the aluminum oxide layer, electrolyte/separator combination, and other resistance related factors, foil length, foil surface area and others. The ESR value depends upon the temperature. Decreasing the temperature makes the resistivity of the electrolyte increase and leads to increasing ESR. As the measuring frequency increases, the ESR decreases and reaches an almost constant value that mainly dominates the frequency-independent resistance relating electrolyte/ separator combination. Impedance (Z): The impedance is the resistance of the alternating current at a specific frequency. It is related to capacitance (C) and inductance (L) in terms of capacitive and inductive reactance, and also related to the ESR. It is expressed as follows: -10 -20 0 20 60 Temperature (C) Z= ESR2+ (XL-XC)2 Where : XC=1/C=1/2fC X L =L=2fL As shown below, the capacitive reactance (Xc) dominates at the range of low frequencies, and the impedance decreases with increasing frequency until it reaches the ESR in the middle frequency range. At the range of the higher frequencies the inductive reactance (XL) comes to dominate, so that the impedance increases when increasing the measuring frequency. C 1/C E tanE=RESR/ (1/C) =C RESR Where : RESR=ESR at 120Hz =2f f =120Hz O XC Z XL ESR RESR Frequency Impedance VS.Frequency The tanE shows higher values as the measured frequency increases and the measured temperature decreases. As shown at the next page, the impedance value varies with temperature because the resistance of the electrolyte is strongly affected by temperature. CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS a 0.1 b c Failure Rate Impedance (O) 1.0 -55C -25C 0.01 +20C Time +85C 2 3 10 4 10 5 10 6 10 10 Frequency (Hz) Temperature Characteristics of Impedance Leakage current: Leakage Current The dielectric of a capacitor has a very high resistance that does not allow DC current to flow. However, due to the characteristics of the aluminum oxide layer that functions as a dielectric in contact with electrolyte, a small amount of current, called leakage current, will flow to reform and repair the oxide layer when a voltage is being applied. As shown below, a high leakage current flows to charge voltage to the capacitor for the first seconds, and then the leakage current will decrease and reach an almost steady-state value with time. Time (minutes) Leakage Current VS. Time Measuring temperature and voltage influences the leakage current. The leakage current shows higher values as the temperature and voltage increase. a) Infant failure period This initial period accounts for the failures caused by deficiencies in design, structure, the manufacturing process or severe misapplications. In other words the initial failures occur as soon as the components are installed in a circuit. In the case of aluminum electrolytic capacitors, these failures do not occur at customers, field because aging process reforms an incomplete oxide layer, or eliminate the defective parts at the aging process and the sorting process. Misapplication of the capacitor such as inappropriate ambient conditions, over-voltage, reverse voltage, or excessive ripple current should be avoided for proper use of the capacitor in a circuit. b) Useful life period This random failure period exhibits an extremely low failure rate. These failures are not related to operating time but to application conditions. During this period, non-solid aluminum electrolytic capacitors lose a small amount of electrolyte. The electrolyte loss shows as a slow decrease in capacitance and a slow increase in tanE and ESR. Nonsolid aluminum electrolytic capacitors still exhibit lower catastrophic failures than semiconductors and solid tantalum capacitors. c) Wear-out failure period This period reflects a deterioration in the component properties of the capacitor ; the failure rate increases with time. Non-solid aluminum electrolytic capacitors end their useful life during this period. Leakage Current (MA) Failure types: -10 -25 0 20 60 85 Temperature (C) Typical Temperature Characteristics In general, the leakage current is measured at 20C by applying the rated voltage to capacitor through a resistor of 1000O in series. The leakage current is the value several minutes later after the capacitor has reached the rated voltage. The catalog prescribes the measuring temperature and time. Reliability The two types of failures are classified as catastrophic failures and wear-out failures as follows. 1) Catastrophic failures This is a failure mode that destroys the function of the capacitor like a short circuit or open circuit failure. 2) Wear-out failures This is a failure mode where gradually deteriorates; the electrical parameters of the capacitor. The criteria of judging the failures, vary with application and design factors. Capacitance decreases and tanE increases are caused by the loss of electrolyte in the wear-out failure period. This is primary due to loss of electrolyte by diffusion (as vapor) through the sealing material. Gas molecules can diffuse out through the material of the end seal. High temperature increase the electrolyte vapor pressure within the capacitor and the diffusion rate is therefore increased. This increases internal pressure may cause the seal to bulge caused by elevated temperatures. This bulging may accelerate diffusion and mechanically degrade the seal. Factors that can increase the capacitor temperature, such as ambient temperature and ripple current, can accelerate the wear-out phase of a capacitor. The bathtub curve: Failure modes: Aluminum electrolytic capacitors feature failure rates shown by the following bathtub curve. Aluminum electrolytic capacitors show various failure modes in different applications.(See Table 1.) CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS Failure Modes Short Circuit Primary Factors Internal Causes Mismanaged Production Short Circuit Between Electrodes Burred Foil/ Metal Particle Dielectrical Break of Oxide Layer Local Deficiency in Oxide Layer Dielectrical Break of Separator Open Circuit Mishandled Application Mechanical Stress Disconnection of Terminal Construction Mechanical Stress Poor Terminal Connection Poor Connection Deterioration With Time Less Electrolyte tanE (ESR) Increase Leakage Current Increase Open Vent Electrolyte Leakage Electrolyte Vaporization Excessive Thermal Stress Anode Foil Capacitance Drop Excessive Operating Voltage Cathode Foil Capacitance Drop Deterioration of Oxide Layer Corrosion Internal Pressure Rise Electrochemical Reaction Capacitance Drop Unavoidable Factors in Normal Service Reverse Voltage Excessive Ripple Current Contamination By Chloride Excessive Charge-Discharge Duty Chloride Contamination By Assembly Board Cleaning Poor Sealing Poor Sealing Table1 Life of Aluminum Electrolytic Capacitors The life of aluminum electrolytic capacitors is largely dependent on environmental and electrical factors. Environmental factors include temperature, humidity, atmospheric pressure and vibration. Electrical factors include operating voltage, ripple current and charge-discharge duty cycles. The factor of temperature (ambient temperature and internal heating due to ripple current) is the most critical to the life of aluminum electrolytic capacitors. General formula to estimate lifetime: The lifetime of non-solid aluminum electrolytic capacitors is generally expressed by using three elements representing the effects of ambient temperature, applying voltage and ripple current, which is shown by the following equation: LX=L*KTemp*KVoltage*KRipple Where : LX =Lifetime of capacitor to be estimated Lo =Base lifetime of capacitor KTemp =Ambient temperature accelation term KVoltage=Voltage accelation term KRipple =Ripple current accelation term KTemp (Effects of ambient temperature on life): Because an aluminum electrolytic capacitor is essentially an electrochemical component, increased temperatures accelerate the chemical reaction producing gas within the capacitor which is diffused through the end seal, and consequently accelerates a gradual decrease in capacitance and a gradual increase in tanE and ESR. The following equation has been experimentally found to express the relationship between the temperature acceleration factor and the deterioration of the capacitor. LX=LO*KTemp=LO*B (TO-TX) /10 KTemp=B (TO-TX) /10 Where : LX =Lifetime (hour) of capacitor to be estimated Lo =Base lifetime (hour) of capacitor To =Maximum rated operating temperature (C) of capacitor shown in catalog TX =Actual ambient temperature (C) of capacitor ~ 2) B =Temperature accelation factor (~ This equation is similar to Arrhenius' equation that expresses a relationship between chemical reaction rates and temperature, and called Arrhenius' rule of aluminum electrolytic capacitors. The temperature acceleration factor (B) is approximately 2 over an ambient temperature range (Tx) from 40C to the maximum rated operating temperature of each capacitor. It means that the lifetime is approximately halved with every 10C rise in ambient temperature and can be extended by using the capacitors at low temperatures. For an ambient temperature range (Tx) of 20C to 40C, the factor B will be close to 2, and the lifetime will actually be extended. However, operating and surrounding conditions, especially the operating conditions influence ambient temperatures mutually. The ambient temperature in this range will be very changeable; therefore, lifetime estimation under 40C should use 40 as Tx. Kvoltage (Effects of applying voltage to life): Miniature and large sized aluminum electrolytic capacitors for popular applications, such as surface mount types, radial lead types, snap-in types and block types, have little voltage effect on their life. Other factors like temperature and ripple current determine the life in comparison with voltage, as long as the capacitors are used at voltages and temperatures within the specifications prescribed in the catalog. Consequently, Kvoltage=1 is used for these capacitors. 350V and higher screwmount terminal types of capacitors for customer-use power electronics applications allow the life time to extend by applying low voltage, relating to the characteristics of their aluminum oxide layer. RWE, RWY, RWL, RWF, LX(Screw-mount), LXA(Screw-mount) and LXR series are applicable to the method. For Kvoltage values of these products, please contact a representative of Nippon Chemi-Con. Kripple (Effects of ripple current to life): Aluminum electrolytic capacitors have higher tanE than any other types of capacitors; therefore, the ripple current gives aluminum electrolytic capacitors higher internal heat. Be sure to check the maximum permissible ripple current which is specified in the catalog for assuring the life. CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS The ripple current through the capacitor produces heat by dissipating power from the capacitor. This leads to temperature increase. Internal heating produced by ripple currents can be expressed by: W=(IRipple)2*RESR+V*I Leakage Where : W =Internal power loss IRipple =R.M.S. ripple current RESR =Internal resistance (ESR) at ripple frequency V =Applied voltage ILeakage=Leakage current KRipple 2(-DT /5) Leakage current may be 5 to 10 times higher than the values measured at 20C, but compared with Iripple , the leakage current value is very small and negligible. Thus, the above equation can be simplified: W=(IRipple)2*RESR 2(DTo-DT) /5 The following equation gives the internal heat rise; it is heat rise to stable condition. ( It is necessary to input several factors.): (IRipple)2*RESR= *A*DT Where : =Heat transfer constant A =Surface area of can case A=(/4) * D * (D+4L) Where : D=Can diameter L=Can length DT=An increase in core temperature by internal heating due to ripple current (DT=Core temperature-Ambient temperature) From the above equation, internal temperature rise (DT) produced by ripple current is given by: DT=(IRipple)2*RESR/ ( *A) When the ripple frequency is 120Hz, RESR at 120Hz is expressed by RESR=tanE/ (*C) DT=(IRipple)2*tanE/ ( *A**C) Where : tanE=120Hz value =2*f=2*120Hz C =120Hz capacitance value As above equation, DT varies with frequency of ripple, frequency and temperature dependent ESR, and application dependent (even ripple current is constant). We really recommend that customers measure DT with a thermocouple at the actual operating conditions of the application in lieu of using the above equation. (Another approximation of DT will be stated later.) As mentioned in the paragraph of KTemp, aluminum electrolytic capacitors will slowly increase in tanE and ESR during their service life. The application without ripple current has no influence on the life of the capacitor even though the ESR will increase during life. In other words, the application with ripple current makes DT increase; furthermore, a DT increase results in ESR increase. The ESR increase then makes DT increase. It is a chain reaction. Theoretically, the ripple current acceleration term(KRipple) cannot be simply expressed like the ambient temperature acceleration term (KTemp). Practically, the ripple current acceleration term (KRipple) can be approximately expressed by an equation using a DT initially measured. The following table shows the ripple current acceleration term (KRipple) for each capacitor design group. Type Products Series MFS/MFA, MF, MFK, MFY, MFJ, Surface mount MF-BP, MFK-BP, MVA, MVS, MV, (FC/FD/VC) MVK, MVH, MVE, MVL, MVY, MV-BP, MVK-BP, MVJ, MFK-large GXD, KMA, KME-BP, KRE, Radial lead KMY, KRG, LLA, LX, LXA, (VB) SME, SME-BP, SMG, SRA, SRE, SRG, SRM, SXE Screw-mount KW terminal (LG) FL, GXE(To[105C), KLG, KME, Radial lead KMF, KMG, KMH, KMX, LBG, (VB) LXJ, LXV, LXY, LXZ, KY, KZE DTo=5 deg Pin terminal KLG, KLH, KMH, KMM, (VN/VS/VR) KMQ, KSL, LXG, LXM, LXH Screw-mount LXA (10 to 250Vdc), KMH terminal (LG) Radial lead SMH (VB) DTo=5 to 10 deg Contact us for Pin terminal SMH, SMM, SMQ, SLM, RWE-LR (VN/VS/VR/LASN) details Screw-mount terminal (LG) SME Screw-insert LX, LXA (350 to 525Vdc), terminal (LG) RWE, RWF, RWL, LXR, RWY 2[-2+(25-DT) /b] = An increase (deg) in core temperature produced by internal heating due to actual operating ripple current. The DT is the difference between the core temperature and ambient temperature measured at the actual operating conditions. DTo = An increase (deg) in core temperature by internal heating due to rated maximum permissible ripple current. b = Factor b varies from 5 to 10 by the conditions of ripple frequency and DT. Please contact a representative of Nippon Chemi-Con for the details Note : DT Note that a DT over a certain maximum limit may over-heat the capacitors, though the lifetime estimation will not give you practical lifetime. For instance, the following shows a guide limit of DT at each ambient temperature for 105C maximum rated products. Ambient temperature Tx (c) Guide limit of dT (deg) Core temperature (=Tx+dT) 40 30 70 55 30 85 65 25 90 85 15 100 105 5 110 Approximation of dT Estimation of the lifetime requires two temperature measurements; first obtain DT by actually measuring the core temperature, inserting the thermocouple inside the operating capacitor and secondary, the ambient temperature. A more convenient way to get the DT is to convert the surface temperature of the capacitor case and the ambient temperature by using a coefficient specified for each case diameter as follows: DT=Kc * (Ts-Tx) Where : Kc=Coefficient from table below Ts=Surface temperature (deg) of capacitor can case Tx=Ambient temperature (deg) No air flow conditions. Diameter (mm) Kc Diameter (mm) Kc F5 to F8 1.10 F30 F35 1.50 1.65 F10 F12.5 F16 F18 1.15 1.20 1.25 1.30 F40 F50 F63.5 F76 1.75 1.90 2.20 2.50 F22 F25 1.35 1.40 F89 F100 2.80 3.10 Also, you can roughly estimate a DT by using the following equation without need to measure. CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS DT=DT*(Ix/Io)2 Where : DT=5 deg for 105C maximum rated capacitors. Io =Rated maximum permissible ripple current (ARMS) : if its frequency is different from operating ripple current Ix, it needs converting by using a frequency multiplier prescribed in the catalog. lk =Operating ripple current (ARMS) actually flowing into a capacitor Like switching power supplies, if the operating ripple current consists of commercial frequency element and switching frequency element(s), an internal power loss is expressed by the following equation. W= (If1)2 *ESRf1+ (If2)2 *ESRf2+***+ (Ifn)2 *ESRfn Where : W =Internal power loss If1***If1 =Ripple currents at every frequencies f1***fn ESRf1***ESRfn=ESR's at every frequenciesf 1***fn The above equation can be transformed into another equation to get a ripple current value in accordance with the frequency of the rated maximum permissible ripple current, each of ESRf1,***ESRfn is approximately equal to ESRf0 divided by square value of the frequency multiplier (Ff1***Ffn). Here ESRf0 is the value at the frequency of the rated maximum permissible ripple current and Ff1***Ffn is a conversion coefficient from one frequency to another in accordance with the frequency f1***fn. *** *** ESRf1=ESRf0 / (Ff1)2 ESRfn=ESRf0 / (Ffn)2 Relationship of w=(LRipple) 2*R ESR leads lx as follows: Ix= W/ESRf0 The above is rewritten in the following equation: Ix= (If1/Ff1)2+(If2/Ff2)2+******(Ifn/Ffn)2 Where : Ix =Ripple current in accordance with the frequency of the rated max. permissible ripple current If1******Ifn =Operating ripple currents at every frequencyf1***fn Ff1******Ffn=Frequency multipliers for every frequencyf1***fn prescribed in the catalog, based on the fact that the internal resistance of a capacitor varies with frequency. Cleaning Agents a. Cleaning agents penetrate into a capacitor. Solvent contacts the rubber seal of a capacitor. Some percentage of solvent does not penetrate but a percentage suceeds in entering and defusing inside the capacitor. b. Cleaning agents decompose and release halogen ions. In the electrolyte of the inside element, the halides in the cleaning agents become hydrolyzed and release halogen ions as follows, RX+H2O c. Corrosion The halogen ions attack the aluminum foil by the following anodic half-cell reaction: AI+3X- AIX3+3e The AlX3 further becomes hydrolyzed and release the halogen ion again: AIX3+3H2O AI (OH)3+3H++3X- The halogen ions release by this hydrolysis reaction further attacks the aluminum according to the previous reaction formula, and these reactions are repeated and accelerated when voltage and temperature is applied. Also, the hydrogen ions increase the local acidity which causes the oxide dielectric to dissolve. Thus, localized corrosion accelerates to corrode both the aluminum metal and the dielectric. In addition, a terpene or petroleum system cleaning solvent will be absorbed into the rubber seal of the capacitor. The rubber seal finally weakens. An alkaline saponification detergent will damage the aluminum metal and marking. In summary, recommended cleaning agents are halogen free. Terpene, petroleum, alkali detergent and any solvent making the rubber seal material deteriorate are not recommended. Compatible cleaning agents: In line with recent global environmental warnings (Greenhouse effect and other environmental destruction by depletion of the ozone layer), new types of cleaning agents have been commercialized and substituted as CFC-113,1,1,2-trichloroethlene and 1,1,1-trichloroethylene. The following are recommended cleaning conditions for some of new cleaning agents. Higher alcohol system cleaning agents Recommended cleaning agents: Pine Alpha ST-100S (Arakawa Chemical) Clean Through 750H, 750K, 750L, and 710M (Kao) Technocare FRW-14 through 17 (Toshiba) Cleaning conditions: 1) Capacitors are capable of withstanding immersion or ultrasonic cleaning for 10 minutes at a maximum liquid temperature of 60C using the above cleaning agents. Find the optimum conditions for washing, rinsing, and drying. Be sure not to rub the marking off the capacitor by contact with any other components on the PC board. Note that shower cleaning adversely affects the marking. 2) To rinse by water, control the conditions such as temperature and water pressure to avoid sleeve shrinkage. 3) Clean Through 750H and similar are weak-alkaline solvents. Do not leave the alkaline on the capacitor after cleaning process. CFCs substitute solvents(HCFC system) Asahi Glass AK225AES solvent is usable only with solventproof type capacitors, which are designed with reinforced seal constructions and modified electrolyte. This product does not penetrate the capacitor and deactivate halogen ions. However, AK225AES is one of the solvents which will have a restricted usage in future from the environmental point of view. ROH+H++X- RX : Halide X - : Halogen ion CAT. No. 12 PRECAUTIONS AND GUIDELINES FOR USERS Non-Halogenated Solvent Cleaning HCFC solvents: AK225AES (Asahi Glass) Cleaning conditions: Solvent-proof type capacitors are capable of withstanding immersion, ultrasonic or vapor cleaning for 5 minutes; exception is 2 minutes max. for KRE and KRE-BP series capacitors for 3 minutes and SRM and KRF series capacitors. Applicable series (only for solvent-proof products): Surface mount : MF, MFK, MFJ, MFY, MFS, MFA, MFBP, MFK-BP, MVS, MV, MVK, MVE(6.3 to 63V dc ), MVK-large, MVJ, MVA(4 to 63Vdc), MVH(10 to 50V dc), MVY(6.3 to 63V dc ), MVL, MV-BP, MVK-BP, PX, MFX, MFZ, MX R a d i a l le a d : EX, KMA, KME( to 250V), KME-BP, KMF(to 100V), KMG(to 250V), KRE, KRG, LBG, LLA, LX, LXA, LXV, LXY, LXJ, LXZ, SME(to 250V), SME-BP, SMG(to 250V), SRG, SRM, SXE Isopropyl alcohol cleaning agents IPA (Isopropyl Alcohol) is one of the most acceptable cleaning agents; it is necessary to maintain a flux content in the cleaning liquid at a maximum limit of 2 Wt. %, because chlorides in flux dissolves in the cleaning liquid during the cleaning process. Xylene -additive IPA may make the rubber seal deteriorate. Non-clean flux Both ionic halogen and non-ionic halogens damage the capacitor when they penetrate in through the rubber seal. Note that some of the fluxes called non-halogenated flux contains less ionic halogen activator but actually a large amount of non-ionic halogen. Per our analysis, AHQ3100K(Asahi) and POZ6(Senjyu) minimize ionic and non-ionic halogens. Other Precautions to wash capacitors c) Monitor conductivity, pH, specific gravity and water content of cleaning agents. Contamination adversely affects the characteristics. d) The solvent may stay between the end seal and the PC board if the capacitor is mounted directly onto the PCB without a small gap. The residual solvent can cause defects. Also, washing for more than the specified time causes solvent residual. Therefore, wash the assembly board for at least 10 minutes at the recommended temperature. Be sure not to expose the capacitors under solvent rich conditions or keep capacitors inside a closed container. e) Reforming the leads of the capacitor to fit lead spacing on the PC board causes cleaning agents to get into the inside capacitor. This may result in corrosion to the foil. Therefore, use the capacitors, which fit the hole spacing on the PC board or reform the lead wires in a manner which will not cause mechanical stress to the capacitor body. CAT. No. 12 PART NUMBERING SYSTEM Expressed in microfarads. Capacitance Code 0.1MF = R1 4.7MF = 4R7 10MF = 10 100MF = 100 1000MF = 1000 Indicates a basic capacitor design. TC04R SMG Taping code Series Indicates the tolerance of a nominal capacitance value. Tolerance Code =K P10% =M P20% -10 to +30% = Q -10 to +50% = T 0 to +30% = S 6.3 VB 1000 M F50 Rated voltage Terminal type Nominal capacitance Capacitance tolerance Supplement (If necessary) (If necessary) Expressed in Volts. Voltage Code Indicates options or designs deviated from the standard. Bi-polar=BP Bracket=B, C Case code=22A Lead forming=FC Taping lead spacing=F25 SMT tray=TR PET sleeve=PS 6.3Vdc = 6.3 10Vdc = 10 100Vdc = 100 Indicates basic terminal type of capacitors. Type code=VC Type code=FC Type code=VB Vertical SMT Horizontal SMT Radial lead Type code=VSSN Type code=LGSN Snap-in terminal for Screw-mount terminal large-sized capacitors Dummy terminal=FD ?TAPING CODE (only applicable for radial type) T C 0 4 R Taping Lead forming code Radial lead type P dimension Polarization C D Formed Straight P 3 : 15mm 4 : 12.7mm 5 : 25.9mm R : Polarized N : Non-(Bi) polarized CAT. No. 12 MINIMUM ORDER QUANTITY Please order by units of minimum order quantity. ?SURFACE MOUNT @Horizontal Series R Alchip MFS/MFA/MF/MFK MFY/MFJ PX (Horizontal) MFZ/MFX Case code Quantity (pcs) A6 B46, B6 C46, C6 D46, D6, D8, D80, D10, D13 E8 H15, H20, H25 3,000 3,000 2,500 2,500 2,000 500 @Vertical Series R Alchip MVS/MVA/MV/ MVK/MVY/MVJ MVH/MVE/MVL PX(Vertical) Quantity (pcs) Case code Taping 2,000 2,000 1,000 1,000 900 1,000 500 500 200 150 - B55 D46, D55, D60 E46, E55, E60 F46, F55, F60 F80 H63 H70, H10 J80, J10 K14 K16 L17, L22 M17, M22 Tray 120 120 80 60 ?RADIAL Size f3 (f3.5) f4 f5 f6.3 f8 (f7) Height[25mm f10 Height]30mm f12.5 f16 f18 Quantity (pcs) Bulk Taping 200 200 200 200 200 200 200 100 50 50 3,000 2,000 2,000 2,000 1,000 800 500 500 250 250 * : The quantity of bulk is a typical example. ?SNAP-INS 200 pieces CAT. No. 12 TAPING SPECIFICATIONS SURFACE MOUNT TYPE (TAPING) Fig.4 2P0.1 (If W=12, 2P0.05) F1.5 +-00.1 4P0.1 F1.5 +-00.1 2P0.1 0.6max. 0.6max. B B W F W S F 4P0.1 1.75P0.1 Fig.1 1.75P0.1 ?CARRIER TAPE [mm] A P Feed direction t 0. 75 P0 . 05 Feed direction 1.75P0.1 0.6max. Sporatic hole Fig.5 B W F 2P0.1 4P0.1 (If W=12, 2P0.05) F1.5 +-00.1 1.75P 0.1 Fig.2 4P0.1 A P 0.2P0.05 P t Sporatic hole A F1.5 +0.1 -0 2P0.1 0.6max. t 4P0.1 2P0.1 F1.5 +-00.1 P t Sporatic hole F 0. 75 P0 .0 5 Feed direction B W B S B A 0.6max. 0.2P0.05 Fig.3 1.75P0.1 W F Feed direction A P Feed direction t Sporatic hole [mm] W A B F P t S Series p0.3 p0.2 p0.2 p0.1 p0.1 p0.2 p0.1 A6 B46 B6 C46 R Alchip C6 MFS/MFA D46 MF/MFK MFY/MFJ D6 D8 (D80) PX D10 (Horizontal) MFZ/MFX D13 E8 H15 H20 H25 B55 D46 D55 D60 E46 R E55 Alchip MVS/MVA E60 F46 MVE/MV MVK/MVY F55 MVJ/MVH F60 MVL F80 PX(Vertical) H63 H70 H10 J80 J10 K14 K16 12.0 12.0 12.0 12.0 12.0 12.0 12.0 16.0 16.0 24.0 16.0 24.0 32.0 44.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 16.0 16.0 16.0 16.0 16.0 24.0 24.0 24.0 24.0 32.0 32.0 3.7 4.2 4.2 4.7 4.7 5.2 5.2 5.2 5.2 5.2 7.5 9.2 9.2 9.2 3.5 4.7 4.7 4.7 5.7 5.7 5.7 7.0 7.0 7.0 7.0 8.7 8.7 8.7 10.7 10.7 13.4 13.4 6.7 5.2 6.7 5.2 6.7 5.2 6.7 8.7 10.7 13.7 8.8 17.3 21.8 26.8 3.5 4.7 4.7 4.7 5.7 5.7 5.7 7.0 7.0 7.0 7.0 8.7 8.7 8.7 10.7 10.7 13.4 13.4 5.5 5.5 5.5 5.5 5.5 5.5 5.5 7.5 7.5 11.5 7.5 11.5 14.2 20.2 5.5 5.5 5.5 5.5 5.5 5.5 5.5 7.5 7.5 7.5 7.5 7.5 11.5 11.5 11.5 11.5 14.2 14.2 8.0 8.0 8.0 8.0 8.0 8.0 8.0 8.0 8.0 8.0 8.0 16.0 16.0 16.0 8.0 8.0 8.0 8.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 16.0 16.0 16.0 24.0 24.0 3.5 4.0 4.0 4.5 4.5 5.0 5.0 5.0 5.0 5.0 6.0 9.9 9.9 9.9 5.9 4.9 5.7 6.3 4.9 5.7 6.3 4.9 5.7 * 6.3 8.2 6.8 7.2 11.0 8.2 11.0 14.0 16.5 28.4 40.4 28.4 28.4 Items Fig. 1 1 1 1 1 1 1 1 1 1 1 3 4 4 1 1 1 1 2 2 2 2 2 2 2 2 3 3 3 3 5 5 *:toleranceP0.3 CAT. No. 12 TAPING & TRAY SPECIFICATIONS ?REEL DIMENSIONS [mm] ?QUANTITY PER REEL/BOX F50min. Series R Alchip MFS/MFA MF/MFK MFY/MFJ 13P0.5 PX (Horizontal) MFZ/MFX W1 F382max. R Alchip MVS/MVA MV/MVK MVY/MVJ MVH/MVE /MVL ?POLARITY Feed Direction R Alchip- MFS/MFA/MF (Horizontal) MFK/MFY/MFJ PX(Vertical) PX/MFZ/MFX Feed Direction R Alchip- MVS/MV/MVK Case code A6 B46, B6 C46, C6 D46, D6 D8, D80, D10 D13 E8 H15 H20 H25 B55 D46, D55, D60 E46, E55, E60 F46, F55, F60 F80 H63 H70, H10 J80, J10 K14 K16 Quantity (pcs/reel) 3,000 3,000 2,500 2,500 2,500 2,500 2,000 500 500 500 2,000 2,000 1,000 1,000 900 1,000 500 500 200 150 Quantity (pcs/box) 15,000 15,000 12,500 12,500 12,500 7,500 10,000 1,500 1,000 1,000 10,000 10,000 5,000 5,000 4,500 5,000 1,500 1,500 600 450 W1 (mm) 14 14 14 14 18 26 18 26 34 46 14 14 14 18 18 18 26 26 34 34 (Vertical) MVY/MVJ/MVH/ MVE/MVL/PX SURFACE MOUNT TYPE (TRAY) ?DIMENSIONS [mm] Case code H [mm] W1 [mm] H1 [mm] K14 & K16 21.0 284 18.5 L17 & L22 28.0 284 24.0 M17 & M22 28.0 284 24.0 230 320 W1 H H1 ?QUANTITY PER TRAY Case code Quantity (pcs/tray) Quantity (pcs/box) K14 & K16 120 600 L17 & L22 80 400 M17 & M22 60 300 ?TRAY CODE Example Capacitor's D/N TR MVE6.3VC 4700M L22TR CAT. No. 12 TAPING SPECIFICATIONS RADIAL LEAD TYPE ?CARRIER TAPE [mm] P2.0 P2 P2.0 P P2 Fig.2 P FD FD H1 W W W0 Fd 0.7P0.2 F P1 W2 1.0max. 0.7P0.2 W2 W1 W0 H0 H Fd H H1 1.0max. F P1 A FD=F5 FDBL=F4B7 A FD=F3 to 8 W1 Fig.1 1.0 max. P0 Base tape P0 Base tape 4.0P0.2 Adhesive tape Adhesive tape 1.0 max. 4.0P0.2 P2.0 P2.0 Fig.4 P P2 FD FD H1 H1 A FD=F12.5 A FD=F6.3 to 8 FD=F10 & 12.5 P 1.0 max. tol. Case size P P0 P1 P2 F W W0 W1 W2 H H0 - p0.05 p1.0 p0.2 p0.7 p1.0 +0.8 -0.2 p0.5 min. p0.5 max. p0.75 p0.5 3 5 0.4 12.7 12.7 5.1 6.35 2.5 18.0 6.0 9.0 1.5 17.5 3.5 5 0.4 12.7 12.7 5.1 6.35 2.5 18.0 6.0 9.0 1.5 17.5 5 to 7 0.45 12.7 12.7 6.35 6.0 9.0 1.5 0.45 12.7 12.7 18.0 10.0 9.0 1.5 17.5 17.5 5 to 7 0.45 12.7 12.7 18.0 6.0 9.0 1.5 18.5 17.5 16.0 9 to 15 0.5 12.7 12.7 18.0 10.0 9.0 1.5 18.5 16.0 5 to 7 0.45 12.7 12.7 18.0 6.0 9.0 1.5 18.5 17.5 16.0 9 to 15 0.5 12.7 12.7 18.0 10.0 9.0 1.5 18.5 16.0 7 0.45 12.7 12.7 18.0 6.0 9.0 1.5 5 0.45 12.7 12.7 6.35 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 18.0 9 to 11.5 5.1 3.85 5.1 3.85 5.1 3.85 5.1 3.85 5.1 3.85 5.1 3.85 5.1 3.85 5.1 3.85 18.0 6.0 9.0 1.5 18.5 17.5 18.5 17.5 7 0.45 12.7 12.7 3.85 6.35 5 18.0 6.0 9.0 1.5 17.5 16.0 9 to 20 0.6 12.7 12.7 3.85 6.35 5 18.0 10.0 9.0 1.5 20.0 16.0 A - 5 6.3 7 6.35 6.35 6.35 6.35 6.35 4.0P0.2 H1 Fig. Taping code 16.0 1 TC04R F25 16.0 1 TC04R F25 16.0 2 1 2 1 2 1 3 1 3 1 3 1 3 1 TD04R TC04R TC04R TC04R TD04R TC04R TD04R TC04R TD04R TC04R TD04R TC04R TD04R TC04R TD04R TC04R 1 TC04R F50 1 TC04R F50 16.0 16.0 16.0 1 F25 F50 F25 F50 F25 F50 F25 F50 F25 F50 F25 F50 F25 F50 F25 F50 tol. p0.5 max. p0.05 p1.0 p0.3 p0.7 p1.3 +0.8 -0.2 p0.5 min. p0.5 max. +2.0 -0 Nominal 8 6.35 *1 1.0 max. Adhesive tape Base tape fd fD 4 Nominal P0 4.0P0.2 Adhesive tape H1=H+A Check insertion machine specs. P0 Base tape Code W W W0 H Fd F P1 W2 1.0max. 0.7P0.2 W1 Fd W0 H W2 1.0max. F P1 0.7P0.2 P2 W1 Fig.3 10 21 0.6 12.7 12.7 3.85 6.35 5 18.0 12.5 9.0 1.5 18.0 3 TD04R F50 H18 15 5.0 7.5 5 18.0 12.5 9.0 1.5 18.0 3 TD03R F50 H18 12.7 3.85 6.35 5 18.0 12.5 9.0 1.5 18.0 4 TD05R F50 H18 12.5 26 0.6 0.6 *2 15 25.4 -0.5/+0.75 * 1 : For F4b7 (A=7, F=25), shall be 18.5 (code : TD04R F25) at Fig.2. * 2 : P=15 taping is not standard. Use P=25.4 taping. TAPING CODE QUANTITY PER AMMO PACK Example Ammo pack box T D 0 4 R Capacitor's P/N Typical example Line for tear-off F50 Case size fD L(mm) F4 Lead spacing code F25 : F=2.5 F50 : F=5.0 R : Polarized (Right lead is positive.) N : Non (Bi)-Polarized P dimension Radial lead type Lead forming code C : Formed lead D : Straight lead Taping A 3 : 15mm 4 : 12.7mm 5 : 25.4mm F5 F6.3 B F8 325mm (FD=8 and smaller) 340mm (FD=10 and larger) F10 F3 F3.5 L=5 to 9mm L=11.5mm L=5 & 7mm L=9 to 17mm L=5 & 7mm L=9 to 17mm F7 L=5 & 7mm L=9 to 17mm L=20 to 22mm L=9 to 25mm L=30 to 40mm F12.5 A B Quantity (mm) (mm) (pcs.) 210 230 186 190 218 236 282 284 174 236 236 236 308 308 308 45 45 45 54 45 54 45 54 45 45 54 62 62 67 67 3,000 3,000 2,000 2,000 2,000 1,000 1,000 800 500 500 CAT. No. 12 CUT/FORMED LEAD TYPE (Radial Lead Capacitors) The following lead configurations are available upon request. When ordering, please indicate the type of lead configurations by using the appropriate supplement code, such as C5, FC, MC or RC in the product part number. [mm] @Lead Configuration : C5 @Lead Configuration : C3.5 Fd FD Fd FD PP0.5 FD=3 to 18 PP0.5 FD=3 to 18 C Case diameter C:Lead length FD=3 to 8 3.5P0.5 : 5.0P0.5 FD=10 to 18 : 5.0 +1.0 -0 @Lead Configuration : FC @Lead Configuration : FM Fd FD=5 to 8 4.5 +1.0 -0 2max. 5P0.5 (1.1) FD PP0.5 FD PP0.5 Fd FD=5 to 8 1max. 2max. @Lead Configuration : RC FD=10 to 18 FD=20 & 22 Fd PP0.5 @Lead Configuration : MC FD 4.0P1.0 2max. (2.5) 5 0. .5 P 10 Fd=1.0 1max. (1.1) FD 4.5 +1.0 -0 2.8 2.4 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Surface Mount RECOMMENDED REFLOW SOLDERING CONDITIONS R Alchip-MFS/MFA/MF/MFK/MFK-Large/MFY/MFJ/MVS/MV/MVA/MVE/MVK/MVY/MVJ/MVH/MVL The following conditions are recommended for air or infrared reflow soldering of the surface mount capacitors onto a glass epoxy circuit board of 90B50B0.8mm (with resist) by cream solder (eutectic solder). The temperatures shown are the surface temperature values on the top of the can. @Recommended Solder Land on PC Board Series : MFS/MFA/MF/MFK/MFK-Large/MFY/MFJ (Horizontal SMT) (C) Peak temp. Without dummy terminal (FC) MFK-large b 2.4 1.6 a a a a Time in 200C or higher 150 Soldering Preheat 150C max., 120sec. max. 1.6 2.4 Time (sec.) 3.5 Location of capacitor Fig.1 25 Case code A6 B46 B6 C46 C6 D46 D6 D8 D10 D13 H15 H20 H25 b 3.5 1.1 200 1.1 Surface temp. (top of the capacitor) @Reflow Profile Method : Air or Infrated Reflow Location of capacitor Fig.3 With dummy terminal (FD) b 2.4 c 1.5 (C) 240 2.4 230 Peak temp. W1 1.1 No.1 a @Recommended Range a 1.1 TEMPERATURE PROFILE c 1.65 1.65 1.65 1.65 2.65 3.65 5.15 - W1 Fig. Range 3.1 3.6 Fig.1 4.1 or No.1 Fig.2 4.6 4.6 4.6 4.6 - Fig.3 No.2 - Location of capacitor Fig.2 220 : Solder land on PC board 210 200 Series : MVS/MVA/MV/MVK/MVY/MVJ/MVH/MVL (Vertical SMT) 0 10 20 30 40 Time in 200C and higher (sec.) No.2 (C) 230 Peak temp. b a 0.75 1.2 1.0 0.45 1.0 1.2 1.3 0.45 1.3 1.2 1.5 0.45 1.5 1.2 1.5 2.2 1.5 3.2 1.5 4.7 2.9 5.4 2.9 7.9 2.9 10.4 c 220 a 210 200 0 10 20 30 Time in 200C and higher (sec.) c f e b a Location of capacitor Fig.4 b Location of capacitor Fig.5 d : Solder land on PC board Case code B55 D46, D55, D60 E46, E55, E60 F46, F55, F60, F80 H63 H10 J10 K14, K16 L17, L22 M17, M22 a 0.8 1.0 1.4 1.9 2.3 3.1 4.5 4.0 6.0 6.0 b 2.2 2.6 3.0 3.5 4.5 4.2 4.4 5.7 6.9 7.9 c 1.6 1.6 1.6 1.6 1.6 2.2 2.2 2.5 2.5 2.5 d e f Fig. Range - - - - Fig.4 No.1 - - - - - - - - - - Fig.5 No.2 - - 6.5 11.0 19.2 6.5 13.0 21.2 ?PRECAUTIONS FOR USERS Soldering method Cleaning assembly board The capacitors of Alchip-series have no capability to withstand such dip or wave soldering as totally immerses components into a solder bath. Immediately after solvent cleaning, remove residual solvent for at least 10 minutes with an air knife. The solvent is so insufficiently dry for a long period of time that the capacitors may be corroded. Reflow soldering Reflow the capacitors within Recommended Reflow Soldering Conditions. Verify no temperature stress to the capacitors because the following differences might degrade capacitors electrically and mechanically. Please consult us if other reflow conditions are employed. 1.Location of components ; Temperature increases at the edge of PC board more than the center. 2.Population of PC board ; The less the component population is, the more temperature rises. 3.Material of PC board ; A ceramic made board needs more heat than a glass epoxy made board. The heat increase may cause damage of the capacitors. 4.Thickness of PC board ; A thicker board needs more heat than a thinner board. The heat increase may damage the capacitors. 5.Size of PC board ; A larger board needs more heat than a smaller board. The heat increase may damage the capacitors. 6.Location of infrared ray lamps ; IR reflow as well as hot plate reflow applies heat only on the reverse side of the PC board to lessen heat stress to the capacitors. Coating on assembly board 1.Before curing coating material, remove the cleaning solvents from the assembly board. 2.Before conformal coating, a chloride free pre-coat material is recommended to use for lessening stress to the capacitors. Molding with resin Internal chemical reaction gradually produces gas in the capacitor; then, internal pressure is increasing. If the end seal of the capacitor is completely molded with a resin, the gas stays inside the capacitor. It will face dangerous situation. The chlorine contained resin will penetrate into the end seal, reach the inside element, and cause damage of the capacitor. Dummy terminal (FD type) Avoid reflow soldering more than once. Use a soldering iron for rework. Do not exceed an iron tip temperature of 300C and an exposure time of 5 seconds. The dummy terminal is purpose for preventing the capacitor body from sliding or lifting up the PC board during reflow soldering. The following mechanical stresses to the capacitor after the soldering causes peeling off the dummy terminal from the PC board or from the body of the capacitor. 1.Mechanical shock when bending or cutting a multi-board. 2.Transportation shock 3.Mechanical shock when grabbing, poking or hitting the body of the capacitor. Mechanical stress Others Do not use the capacitors for lifting the PC board and give stress to the capacitor. Avoid bending the PC board. These may damage the capacitors. Precautions to users for Aluminum Electrolytic Capacitors shall be referred. Rework of soldering CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS R NP-CAP-PX Functional polymer electrolyte capacitors RECOMMENDED REFLOW SOLDERING CONDITIONS (C) 250 Peak temp. 240 200 Peak temp. (C) Surface temp. (top of the capacitor) The following conditions are recommended for air or infrared reflow soldering PXseries onto a glass epoxy circuit board of 90B50B0.8mm (with resist) by cream solder (eutectic solder). The temperatures shown are the surface temperature values on the top of the can. Time in 200C or higher 150 Preheat 150C max., 120sec. max. 25 Soldering 230 220 210 Within 30 sec. 0 Time (sec.) 10 TEMPERATURE PROFILE 20 30 40 50 60 Time over 200C (seconds) @Recommended Solder Land on PC Board VC FC 2.2 Sold land on PC board b Case code a 1.9 F60 3.1 H70 4.5 J80 b 3.5 4.2 4.4 c 1.6 2.2 2.2 1.1 c a 1.51.5 1.1 2.4 2.4 ?PRECAUTIONS FOR USERS Soldering method The capacitors of NP-CAP-PX series have no capability to withstand such dip or wave soldering as totally immersing components into a solder bath. Reflow soldering Reflow the capacitors within Recommended Reflow Soldering Conditions. Verify no temperature stress to the capacitors because the following differences might degrade capacitors electrically and mechanically. Please consult us if other reflow conditions are employed. 1.Location of components ; Temperature increases at the edge of PC board more than the center. 2.Population of PC board ; The less the component population is, the more temperature rises. 3.Material of PC board ; A ceramic-made board needs more heat than a glass epoxy-made board. The heat increase may cause damage of the capacitors. 4.Thickness of PC board ; A thicker board needs heat than a thinner board. The heat may damage the capacitors. 5.Size of PC board ; A larger board needs heat than a smaller board. The heat may damage the capacitors. 6.Location of infrared ray lamps ; IR reflow as well as hot plate reflow applies heat only on the reverse side of the PC board to lessen heat stress to the capacitors. Rework of soldering Avoid reflow soldering more than once. Use a soldering iron for rework. Do not exceed an iron tip temperature of 300C and an exposure time of 5 seconds. capacitor. Avoid bending the PC board. These may damage the capacitors. Cleaning assembly board Immediately after solvent cleaning, remove residual solvent for at least 10 minutes with an air knife. The solvent is so insufficiently dry that the capacitors may be corroded. Coating on assembly board 1.Before curing coating material, remove the cleaning solvents from the assembly board. 2.Before conformal coating, a chloride free pre-coat material is recommended to use for lessening stress to the capacitors. Molding with resin Internal chemical reaction gradually produces gas in the capacitor; then, internal pressure is increasing. If the end seal of the capacitor is completely molded with a resin, the gas stays inside the capacitor. It will face dangerous situation. The chlorine in resin will penetrate into the end seal, reach the inside element, and cause damage of the capacitor. Glue Glue is recommended to fix the FC type without dummy terminal on PC board. The followings are requirements of glue. 1.A low curing temperature for short period of time 2.Strong adhension and heat resistance after curing 3.Long shelf life 4.No corrosion Others Mechanical stress Do not grab the capacitors to lift the PC board and give stress to the Precautions for users for Aluminum Electrolytic Capacitors shall be referred. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Solid electrolyte capacitors RECOMMENDED REFLOW SOLDERING CONDITION The following conditions are recommended for air or infrared reflow soldering of the surface mount capacitors onto a glass epoxy circuit board of 90B50B0.8mm (with resist) by cream solder (eutectic solder). The temperatures shown are the surface temperature values on the top of the cap. @Hot plate reflow @Infrared reflow 260 Peak temp. Temp. (C) Peak temp. (C) 150 Reflow Preheat 240 220 200 0 25 Time (sec.) 10 20 30 Reflow time (sec.) preheat : 150C max. within 120 seconds @Recommended Solder Land on PC Board 2.5 b c 1.5 [mm] d a a W1 d : Solder land on PC board 2.5 Location of capacitor Case code a b D6 0.8 1.15 E8 0.95 2.15 c 1.7 2.7 d 1.7 2.1 W1 4.6 5.7 ?PRECAUTIONS FOR USERS Failure mode 1.MX, MFX and MFZ series contain a solid electrolyte, MnO2 (Manganese Dioxide) ; therefore, the life ends mostly due to random failure mode, mainly short circuit. The failure rate specified in the catalogue will vary by applying voltage and the ambient temperature. Designing device circuit needs to consider the failure rate under your condition. 2.Continuously a large amount of current through a capacitor results in short circuit of the capacitors. The capacitor is overheated at a higher than 500C. The heat incurs damage of PC board. The current through capacitor is restricted to less than 5A. Applying voltage 1.Do not apply an over-voltage exceeding the full rated operating voltage of capacitors. The over-voltage may cause increasing the leakage current and giving short circuit. 2.Reducing an applying voltage minimizes a failure rate. For instance, 50% of the full rated operating voltage can reduce failure rate at one hundredth. and population of the components, the material and the thickness of PC board. Verify temperature profies prior to actual production run ; then, set reflow condition within the limits prescribed in the catalogue. MX, MFZ and MFX series might have a high leakage current, a few to 100MA, after reflow soldering. However, the applying voltage to the capacitors gradually decreases the leakage current because of dielectric stabilizing. Cleaning conditions As long as the cleaning agents prescribed are used, the cleaning does not give the capacitor any damages. For CFCs substitutions and other cleaning agents, consult us before actual use. For ultrasonic cleaning, take a pretest under the customer's condition and verify that the condition cannot incur breaking terminals due to vibration. Storage Operating temperature By applying less-full operating voltage to MX at maximum 125C and MFZ / MFX at maximum 105C, the capacitor exhibits stable characteristics. The temperature as well as the applying voltage is related to the faiIure rate. For instance, operating at maximum 60C can reduce to approximately 1/4 failure rate. Reverse voltage MX, MFZ and MFX are polarized capacitors. Do not use the capacitors in wrong polarity. Both series still show stable characteristics even if the reverse voltage up to 15% of the rated voltage at 85C, or 15% of the maximum operating voltage at 105C is applied for 250 hours(for MX, 15% of the rated voltage at 125C). However, this characteristics is not assured for a long period of time. Permissible ripple current 1. Do not exceed the rated permissible ripple current of the capacitors. 2. The sum of the DC bias voltage and AC voltage must not exceed the specified full rated or maximum operating voltage of the capacitors. Storage MX, MFZ and MFX without no mechanical stress to the capacitors. The storage maintains dry and low temperature, approximately 20C, to prevent the leads and the dummy terminal from degrading. Dummy terminal The purpose of the dummy terminal is to prevent the capacitor body from sliding or lifting up on PC board during reflow soldering. The dummy terminal may be peeled off by the foIlowing mechanical stress. 1. Mechanical shock by bending or cutting a multi-board 2. Transportation shock 3. Mechanical stress like lifting up, poking or hitting Terminal strength Terminal strength is specified 10N maximum from the side for 5seconds without loosening or cutting off terminals. Do not apply any excessive force to the side of a capacitor soldered on a PC board. Reflow soldering High soldering temperature and long soldering time will affect the characteristics of the capacitors. Use reflow soldering conditions within the recommended range. Also, the temperature varies with the location CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Functional polymer electrolyte capacitors @A new conducting functional polymer is employed as electrolyte @For digital equipment @4 to 25Vdc @High heat reflow capability & solvent-proof type @Solder land pad is the same as conventional lytics ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Surge Voltage Leakage Current -55 to +105C 4 to 25Vdc P20% (M) Rated voltageB1.15 (V) I=0.2CV (max.) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.12max. Low Temperature Characteristics (Max. Impedance Ratio) Z(-25C)/Z(+20C)[1.15 Z(-55C)/Z(+20C)[1.25 Endurance Bias Humidity Surge Voltage Failure Rate (at 100kHz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 105C. Appearance No significant damage Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value ESR [150% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after subjecting them to the DC rated voltage at 60C, 90 to 95% RH for 500 hours. Appearance No significant damage Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value ESR [150% of the initial specified value Leakage current [The initial specified value The capacitors shall be subjected to 1000 cycles each consisting of charge with the surge voltage specified at 105C for 30 seconds through a protective resistor(R=1kO) and discharge for 5 minutes 30 seconds. Appearance No significant damage Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value ESR [150% of the initial specified value Leakage current [The initial specified value 1% per 1000 hours maximum (Confidence level 60% at 105C) ?MARKING @Terminal Type : VC @Terminal Type : FC VC Type EX) PX16VC39M H+0.2max. P CP0.2 BP0.2 FDP0.5 W P94A 0.2max. PP0.3 0.3max. LP0.3 fD 6.3 8 10 L 5.7 6.7 7.7 (at 20C after 2 minutes) (at 20C, 120Hz) ?DIMENSIONS [mm] Case code F60 H70 J80 (at 20C, 120Hz) (at 105C) AP0.2 1.5P0.2 L+0.2max. W+0.2max. A B C 6.6 6.6 7.2 8.3 8.3 9.0 10.3 10.3 11.0 W 0.5 to 0.8 0.7 to 1.1 0.7 to 1.1 P 1.9 3.1 4.5 Case code L D8 8.3 39 16V W 4.6 H 4.5 P 4.0 ?PART NUMBERING SYSTEM PX 16 VC 39 M F60 Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC or FC) Rated voltage in volts Series name Capacitance 6.8MF 10MF 33MF 100MF Code 6R8 10 33 100 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Functional polymer electrolyte capacitors ?STANDARD RATINGS @Terminal Type : VC Capacitance (mF) ESR (momax./ 20c, 100kHz) 20 100 150 82 100 56 39 22 27 15 220 330 150 220 120 150 82 39 470 680 330 470 270 330 150 180 82 40 40 40 40 50 60 65 65 75 35 35 35 35 40 40 45 50 25 25 25 25 30 30 35 35 40 Rated voltage (Vdc) Capacitance (mF) ESR (momax./ 20c, 100kHz) 47 68 33 39 22 33 15 6.8 80 80 80 80 100 100 120 150 Rated voltage (Vdc) Case code 4 6.3 F60 10 16 20 25 4 6.3 H70 10 16 20 4 6.3 J80 10 16 Rated ripple current (mArms/100k to 300kHz) -55 to +85c +85c to +105c 1,550 1,550 1,550 1,550 1,500 1,500 1,550 1,550 1,450 1,450 1,400 1,400 1,350 1,350 1,350 1,350 1,300 1,300 2,400 2,000 2,400 2,000 2,200 1,900 2,200 1,900 2,000 1,800 2,000 1,800 1,800 1,600 1,500 1,400 3,500 2,500 3,500 2,500 3,100 2,400 3,100 2,400 2,800 2,300 2,800 2,300 2,500 2,000 2,500 2,000 2,000 1,600 Part number PX4VC100MF60 PX4VC150MF60 PX6.3VC82MF60 PX6.3VC100MF60 PX10VC56MF60 PX16VC39MF60 PX20VC22MF60 PX20VC27MF60 PX25VC15MF60 PX4VC220MH70 PX4VC330MH70 PX6.3VC150MH70 PX6.3VC220MH70 PX10VC120MH70 PX10VC150MH70 PX16VC82MH70 PX20VC39MH70 PX4VC470MJ80 PX4VC680MJ80 PX6.3VC330MJ80 PX6.3VC470MJ80 PX10VC270MJ80 PX10VC330MJ80 PX16VC150MJ80 PX16VC180MJ80 PX20VC82MJ80 @Terminal Type : FC Case code 4 6.3 D8 10 16 25 Rated ripple current (mArms/100k to 300kHz) -55 to +85c +85c to +105c 1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 800 800 720 720 Part number PX4FC47MD8 PX4FC68MD8 PX6.3FC33MD8 PX6.3FC39MD8 PX10FC22MD8 PX10FC33MD8 PX16FC15MD8 PX25FC6R8MD8 Sub standard ?CASE CODE Vdc mF 6.8 8.2 10 15 22 27 33 39 47 56 68 82 100 120 150 180 220 270 330 390 470 560 680 4V 6.3V 10V 16V 20V D8 D8 D8 D8 25V D8 F60 F60 F60 D8 F60 H70 H70 J80 D8 F60 D8 F60 F60 F60 F60 H70 H70 H70 H70 J80 J80 J80 J80 H70 H70 J80 J80 J80 J80 Sub standard CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Solid electrolyte capacitors New! MX @125C SMT Aluminum Solid Electrolyte Capacitors @Manganese dioxide is employed as electrolyte @High heat reflow capability @Solvent-proof type, see page16 125C MFX ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Surge Voltage Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Endurance Bias Humidity Surge Voltage Test Reverse Voltage Thermal Shock Failure Rate Others -55 to +125C 4 to 16Vdc P20% (M) Rated voltageB1.15 (V) I=0.1CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C, 120Hz) (at 20C after 2 minutes) 0.12max. (at 20C, 120Hz) Z(-25C)/Z(+20C)[1.5 (at 500kHz) Z(-55C)/Z(+20C)[2.0 The following specifications shall be satisfied after the capacitors are subjected to DC voltage at 125C for 2000 hours with the rated ripple current applied. Appearance No significant damage Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value ESR [200% of the initial specified value* * : 300% for MX16FD6R8MD6 Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after subjecting them to the DC rated voltage at 60C, 90 to 95% RH for 500 hours. Appearance No significant damage Capacitance change [P10% of the initial value DF (tanE) [150% of the initial specified value ESR [150% of the initial specified value Leakage current [The initial specified value The capacitors shall be subjected to 1000 cycles to charge the surge voltage specified at 125C for 30 seconds through a protective resistor (R=1kO), then discharge for 5-1/2 minutes through a resistor with the same value. Appearance No significant damage Capacitance change [P5% of the initial value DF (tanE) [The initial specified value ESR [The initial specified value Leakage current [The initial specified value The capacitors shall be subjected to 15% of the rated voltage at 125C, in the reverse polarity direction for 125 hours, and shall be subjected to the rated voltage at 125C, in the forward polarity direction for 125 hours. Appearance No significant damage Capacitance change [P10% of the initial value DF (tanE) [The initial specified value ESR [The initial specified value Leakage current [The initial specified value After the capacitors are subjected to -55C for 30 minutes and +125C for 30 minutes for 5 cycles, they shall be conducted in accordance with the endurance test or the bias humidity test specified above. 1% per 1000 hours maximum (Confidence level 60% at 105C) IEC 384-18-1 (Fixed Aluminum Electrolytic Chip Capacitors with Solid Electrolyte) ?DIMENSIONS (Terminal Type=FD) [mm] LP0.2 PP0.1 AP0.1 0.3max. HP0.2 0.5min. WP0.2 Case code L 6.4 D6 8.4 E8 W 4.6 5.7 H 4.6 5.7 P 3.3 4.0 A 1.1 1.5 1.5P0.2 1.6P0.2 Dummy terminal ?PART NUMBERING SYSTEM MX 16 FD 15 M E8 Case code Cap tolerance (P20%) Nominal cap code Terminal type (FD) Rated voltage in volts Series name Capacitance 6.8MF 10MF 33MF Code 6R8 10 33 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Solid electrolyte capacitors New! ?STANDARD RATINGS Rated voltage Capacitance (Vdc) (mF) Case code ESR (mo) [20c/500kHz] 27 D6 270 56 E8 180 22 D6 270 47 E8 180 15 D6 270 33 E8 180 6.8 D6 425 15 E8 270 4 6.3 10 16 Rated ripple current (mArms) Temperature (c) 125 105 85 60 125 105 85 60 125 105 85 60 125 105 85 60 125 105 85 60 125 105 85 60 125 105 85 60 125 105 85 60 Frequency 500kHz 320 500 570 660 390 580 700 810 320 500 570 660 390 580 700 810 320 500 570 660 390 580 700 810 130 190 220 250 320 500 570 660 300kHz 100kHz 300 480 540 630 370 550 660 770 300 480 540 630 370 550 660 770 300 480 540 630 370 550 660 770 110 170 200 230 300 480 540 630 270 440 490 570 350 530 630 740 270 440 490 570 350 530 630 740 270 440 490 570 350 530 630 740 100 150 180 200 270 440 490 570 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Solid electrolyte capacitors MFZ @Manganese dioxide is employed as electrolyte @For digital equipment @High heat reflow capability @Solvent-proof type, see page 16 downsized MFX ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Surge Voltage Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Endurance Bias Humidity Surge Voltage Test Reverse Voltage Thermal Shock Failure Rate Others -55 to +105C 4 to 20Vdc P20% of the initial value (For the maximum operating voltage at 105C, see STANDARD RATINGS) (at 20C, 120Hz) P20% (M) 105C : (value at 105C in STANDARD RATINGS) B1.15 85C and below : Rated voltageB1.15 (V) I=0.1CV (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 0.12max. (at 20C, 120Hz) Z(-25C)/Z(+20C)[1.5 (at 500kHz) Z(-55C)/Z(+20C)[2.0 The following specifications shall be satisfied after the capacitors are subjected to DC voltage at 85C or 105C for 1000 hours with the specified rated ripple current applied. Appearance No significant damage Capacitance change [P10% of the initial value DF (tanE) [150% of the initial specified value ESR [150% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after subjecting them to the DC rated voltage at 60C, 90 to 95% RH for 500 hours. Appearance No significant damage Capacitance change [P10% of the initial value DF (tanE) [150% of the initial specified value ESR [150% of the initial specified value Leakage current [The initial specified value The capacitors shall be subjected to 1000 cycles to charge the surge voltage specified at 85C or 105C for 30 seconds through a protective resistor (R=1kO), then discharge for 5-1/2 minutes through a resistor with the same value. Appearance No significant damage Capacitance change [P5% of the initial value DF (tanE) [The initial specified value ESR [150% of the initial specified value Leakage current [The initial specified value The capacitors shall be subjected to 15% of the rated voltage at 85C, or 15% of the maximum operating voltage at 105C, in the reverse polarity direction for 125 hours, and shall be subjected to the rated voltage at 85C, or the maximum operating voltage at 105C, in the forward polarity direction for 125 hours. Appearance No significant damage Capacitance change [P10% of the initial value DF (tanE) [The initial specified value ESR [The initial specified value Leakage current [The initial specified value After the capacitors are subjected to -55C, for 30 minutes and +125C for 30 minutes for 5 cycles, they shall be conducted in accordance with the endurance test or the bias humidity test specified above. 1% per 1000 hours maximum (Confidence level 60% at 105C) IEC 384-18-1 (Fixed Aluminum Electrolytic Chip Capacitors with Solid Electrolyte) ?DIMENSIONS (Terminal Type=FD) [mm] LP0.2 PP0.1 AP0.1 0.3max. HP0.2 0.5min. WP0.2 Case code L 6.4 D6 8.4 E8 W 4.6 5.7 H 4.6 5.7 P 3.3 4.0 A 1.1 1.5 1.5P0.2 1.6P0.2 Dummy terminal ?PART NUMBERING SYSTEM MFZ 16 FD 15 M E8 Case code Cap tolerance (P20%) Nominal cap code Terminal type (FD) 85C rated voltage in volts Series name Capacitance 6.8MF 10MF 33MF Code 6R8 10 33 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Solid electrolyte capacitors ?STANDARD RATINGS MFZ Case Rated code voltage (Vdc) Cap (mF) ESR Max operating Rated ripple (mArms) Case Rated Temp. voltage (mo) voltage (c) 500kHz 300kHz 100kHz code (Vdc) (Vdc) [20c/500kHz] 4 27 270 6.3 22 270 15 270 D6 10 16 6.8 425 105 85 60 45 105 85 60 45 105 85 60 45 105 85 60 45 3.2 4 4 4 5 6.3 6.3 6.3 8 10 10 10 13 16 16 16 320 500 570 660 320 500 570 660 320 500 570 660 130 190 220 250 300 480 540 630 300 480 540 630 300 480 540 630 110 170 200 230 270 440 490 570 270 440 490 570 270 440 490 570 100 150 180 200 E8 Cap (mF) ESR Max operating Rated ripple (mArms) Temp. voltage (mo) (c) 500kHz 300kHz 100kHz (Vdc) [20c/500kHz] 4 56 180 6.3 47 180 10 33 180 16 15 270 20 3.3 270 105 85 60 45 105 85 60 45 105 85 60 45 105 85 60 45 105 85 60 45 3.2 4 4 4 5 6.3 6.3 6.3 8 10 10 10 13 16 16 16 16 20 20 20 390 580 700 810 390 580 700 810 390 580 700 810 320 500 570 660 320 500 570 660 370 550 660 770 370 550 660 770 370 550 660 770 300 480 540 630 300 480 540 630 350 530 630 740 350 530 630 740 350 530 630 740 270 440 490 570 270 440 490 570 MFX Case Rated code voltage (Vdc) Cap (mF) ESR Max operating Rated ripple (mArms) Case Rated Temp. voltage (mo) voltage (c) 500kHz 300kHz 100kHz code (Vdc) (Vdc) [20c/500kHz] 105 4 6.3 22 15 270 270 10 16 10 4.7 270 425 ESR Max operating Rated ripple (mArms) Temp. voltage (mo) (c) 500kHz 300kHz 100kHz (Vdc) [20c/500kHz] 3.2 320 300 270 105 3.2 390 370 350 85 4 500 480 440 85 4 580 550 530 60 4 570 540 490 60 4 700 660 630 45 4 660 630 570 45 4 810 770 740 105 5 320 300 270 105 5 390 370 350 6.3 500 480 440 85 6.3 580 550 530 6.3 570 540 490 60 6.3 700 660 630 45 85 60 45 D6 Cap (mF) 6.3 660 630 570 105 8 320 300 270 85 10 500 480 440 60 10 570 540 490 45 10 105 85 60 45 4 6.3 47 33 180 180 6.3 810 770 740 105 8 390 370 350 85 10 580 550 530 60 10 700 660 630 660 630 570 45 10 810 770 740 13 130 110 100 105 13 320 300 270 16 190 170 150 85 16 500 480 440 16 220 200 180 60 16 570 540 490 16 250 230 200 45 16 660 630 570 E8 10 16 22 10 180 270 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 85C MFS MFA @Downsized from current standard MF series @3.5 to 4.5 mm height @MFS : case code B46 to D46, MFA : case code D80 @Capable of reducing mounting area on PC board downsized MF ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current -40 to +85C 4 to 35Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) Rated voltage (Vdc) 4V 6.3V 10V 16V 25V 35V tanE (Max.) (at 20C, 120Hz) 0.65 0.55 0.45 0.35 0.20 0.18 Rated voltage (Vdc) 4V 6.3V 10V 16V 25V 35V 2 2 3 4 9 6 B46 & C46 MFS Z(-25C)/Z(+20C) 2 2 2 3 7 4 D46 2 2 2 3 7 4 MFA D80 4 5 7 9 17 12 B46 & C46 MFS Z(-40C)/Z(+20C) 3 4 6 8 15 10 D46 3 4 6 (at 120Hz) 8 15 10 MFA D80 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours (B46 & C46 sizes 1000 hours) at 85C. Case code B46 & C46 D46 & D80 D46 & D80 4 to 6.3Vdc 10 to 35Vdc Rated Voltage 4 to 35Vdc Capacitance change [P25% of the initial value [P30% of the initial value [P25% of the initial value DF (tanE) [200% of the initial specified value [300% of the initial specified value [300% of the initial specified value Leakage current [The initial specified value [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life ?MARKING MFS 1.5P0.2 L+0.2max. PP0.3 W+0.2max. MFA Case code B46 C46 D46 D80 L 4.8 4.8 4.8 8.3 W 3.6 4.1 4.6 4.6 H 3.5 4.0 4.5 4.5 P 3.0 3.5 4.0 4.0 MFA EX) 25V22MF MFS EX) 16V10MF N 1 0 C Series 0.2max. 2 2 2 5 A H+0.2max. ?DIMENSIONS (Terminal Type=FC) [mm] Negative mark Negative mark Vdc Mark ?PART NUMBERING SYSTEM MFS 16 FC 4R7 M Capacitance 0.1MF 1.0MF 4.7MF 10MF 100MF Code R1 1 4R7 10 100 represent MFA series ?STANDARD RATINGS Vdc 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 4 6.3 10 16 25 35 Case code Ratede ripple current (mArms) at 85C, 120Hz B46 B46 C46 D46 D80 Voltage marking 4 6.3 10 16 25 35 g j A C E V B46 Case code Cap tolerance (P20%) Nominal cap code Terminal type (FC) Rated voltage in volts MFS (case code : B46 to D46), MFA (case code : D80) mF Capacitance 7.5 11 14 21 32 B46 C46 D46 D46 D80 8.2 16 19 22 35 B46 B46 D46 D46 D80 6.0 8.5 18 20 27 B46 B46 B46 D46 D80 D80 5.5 6.8 10 20 25 35 B46 B46 B46 D46 D80 D80 6.0 7.5 9.4 15 27 34 B46 B46 B46 B46 B46 B46 B46 D46 D80 D80 0.9 2.0 2.6 3.2 4.6 6.5 8.3 12 20 29 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Standard, 85C MFS MFA @Wide variety of case sizes (7 sizes) @Suitable to fit for downsized equipment @Solvent-proof type, see page 16 downsized MF MFK 105C ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 50Vdc P20% (M) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C, 120Hz) (at 20C after 2 minutes) See STANDARD RATINGS. Rated voltage (Vdc) 50V 35V 25V 16V 6.3V 10V 4V A6 2 2 3 5 4 7 10 Z(-25C)/Z(+20C) B6 & C6 2 2 2 3 4 6 9 D6 to D13 2 2 2 3 2 4 7 A6 5 5 6 10 8 13 18 Z(-40C)/Z(+20C) B6 & C6 4 4 5 7 9 12 17 D6 to D13 (at 120Hz) 3 3 4 6 10 8 15 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 85C. Case code A6 B6 & C6 D6 to D13 Capacitance change [P30% of the initial value [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=FC or FD <dummy terminal>) [mm] A6 B6 to D13 H+0.2max. 0.1max. 1.6P0.1 PP0.3 Case code A6 B6 C6 D6 D8 D10 D13 1.1 1.5P0.2 Dummy terminal (only for FD type) L+0.2max. W+0.2max. L 6.3 6.3 6.3 6.3 8.3 10.3 13.3 W 3.1 3.6 4.1 4.6 4.6 4.6 4.6 Marking H 3.0 3.5 4.0 4.5 4.5 4.5 4.5 EX) 6.3V47MF 4 7 6 H+0.1max. Marking ?MARKING 0.2max. PP0.3 W+0.2max. Negative mark 1.5P0.2 Dummy terminal (only for FD type) 1.5P0.2 L+0.2max. ?PART NUMBERING SYSTEM P 2.4 3.0 3.5 4.0 4.0 4.0 4.0 MF 6.3 FC 10 M B6 Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Case code Cap tolerance (P20%) Nominal cap code Terminal type (FC or FD) Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 68 100 150 Note : 4 6.3 10 16 25 35 50 Case code Max. tanE at 20C, 120Hz Rated ripple current (mArms) at 85C, 120Hz A6 B6 C6 D8 D10 D13 0.65 0.50 0.50 0.50 21 35 46 67 A6 B6 0.55 0.40 8.2 11 B6 C6 D6 D10 D13 0.55 0.55 0.55 0.32 0.32 16 21 29 44 63 A6 B6 0.45 0.30 7.5 10 B6 C6 D6 D10 D13 0.45 0.45 0.45 0.28 0.28 14 19 24 41 58 A6 B6 0.35 0.24 6.8 9.0 B6 B6 C6 D8 D10 D13 0.35 0.35 0.35 0.35 0.24 0.24 10 12 17 24 37 53 0.20 0.18 6.1 8.3 B6 0.20 C6 0.20 D6 0.20 D8 0.16 D10 0.16 D13 0.16 9.9 13 18 25 34 51 A6 0.18 5.3 A6 B6 0.18 0.16 5.3 7.2 B6 C6 D6 D8 D10 D13 0.18 0.18 0.18 0.14 0.14 0.14 8.8 11 16 22 30 43 A6 B6 A6 B6 A6 B6 A6 B6 A6 B6 0.16 0.14 0.16 0.14 0.16 0.14 0.16 0.14 0.16 0.14 1.3 1.3 2.2 2.2 2.6 2.6 3.2 3.2 4.6 4.6 B6 B6 C6 D6 D8 D10 D13 0.14 0.16 0.16 0.16 0.12 0.12 0.12 6.4 7.7 10 14 19 26 38 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Standard, 105C MFY lower Z @Wide variety of case sizes (6 sizes) @Suitable to fit for downsized equipment @From 3.5mm height @Solvent-proof type, see page 16 MFK MFJ longer life ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.40 0.30 0.24 0.18 0.16 0.14 B6 & C6 tanE (Max.) 0.32 0.28 0.24 0.16 0.14 0.12 D6 to D13 (at 20C,120Hz) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 6 4 3 2 2 2 B6 & C6 Z(-25C)/Z(+20C) 4 3 2 2 2 2 D6 to D13 12 9 7 5 4 4 B6 & C6 Z(-40C)/Z(+20C) 10 8 6 4 3 3 D6 to D13 (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 105C. Case code B6 & C6 D6 to D13 Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Case code B6 & C6 D6 to D13 Capacitance change [P25% of the initial value [P15% of the initial value DF (tanE) [200% of the initial specified value [150% of the initial specified value Leakage current [The initial specified value [The initial specified value ?MARKING ?DIMENSIONS (Terminal Type=FC or FD <dummy terminal>) [mm] 0.2max. PP0.3 1.5P0.2 1.5P0.2 Dummy terminal (only for FD type) L+0.2max. W+0.2max. Case code L B6 6.3 C6 6.3 D6 6.3 D8 8.3 D10 10.3 D13 13.3 W 3.6 4.1 4.6 4.6 4.6 4.6 H 3.5 4.0 4.5 4.5 4.5 4.5 EX) 10V22MF P 3.0 3.5 4.0 4.0 4.0 4.0 2 2 1 0 K H+0.2max. Marking Negative mark ?PART NUMBERING SYSTEM MFK 25 FC 4R7 M C6 Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Case code Cap tolerance (P20%) Nominal cap code Terminal type (FC or FD) Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 68 100 Note : 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 105C, 120Hz B6 C6 D6 D8 D10 D13 11 15 20 27 44 63 B6 10 D6 D8 19 25 D10 D13 41 58 B6 C6 C6 D8 D10 D13 9.0 12 14 23 37 53 B6 C6 D6 D8 D10 D13 8.3 11 16 21 34 51 B6 C6 D6 D8 D10 D13 7.2 9.7 14 18 30 43 B6 B6 B6 B6 B6 B6 B6 B6 C6 D6 D8 D10 D10 D13 1.3 2.0 2.4 3.0 3.5 4.3 5.2 6.4 8.4 13 16 20 26 38 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C MFY @Chose 4 case sizes, from 4.5mm height @Low impedance, 105C 1000-hour-life @Solvent-proof type, see page 16 low Z MFK ?SPECIFICATIONS Items Characteristics Category Temperature Range -40 to +105C 6.3 to 50Vdc (at 20C, 120Hz) P20% (M) I=0.01CV or 3MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) (at 20C, 120Hz) 0.24 0.20 0.16 0.14 0.12 0.12 tanE (Max.) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 2 2 2 2 2 2 Z(-25C)/Z(+20C) (at 120Hz) 3 3 3 3 3 3 Z(-40C)/Z(+20C) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 105C. Rated voltage 6.3Vdc 10 to 50Vdc Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Rated voltage 6.3Vdc 10 to 50Vdc Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life ?DIMENSIONS (Terminal Type=FC or FD <dummy terminal>)[mm] ?MARKING EX) 6.3V22MF Case code D6 D8 D10 D13 0.2max. PP0.3 1.5P0.2 1.5P0.2 Dummy terminal (only for FD type) L+0.2max. W+0.2max. L 6.3 8.3 10.3 13.3 W 4.6 4.6 4.6 4.6 H 4.5 4.5 4.5 4.5 2 2 6 Y H+0.2max. Marking P 4.0 4.0 4.0 4.0 Negative mark ?PART NUMBERING SYSTEM MFY 35 FC 4R7 M D6 Case code Cap tolerance (P20%) Nominal cap code Terminal type (FC or FD) Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF Code 4R7 10 100 ?STANDARD RATINGS Vdc mF 3.3 4.7 6.8 10 15 22 33 47 68 100 Note : 6.3 10 16 25 Case code Max. impedance (O) at 20C, 100kHz Rated ripple current (mArms) at 105C, 100kHz D6 D8 2.8 2.4 51 61 D10 D13 1.3 0.9 87 133 D6 D8 2.8 2.4 51 61 D10 D13 1.3 0.9 87 133 D6 D8 D8 D10 D13 2.8 2.4 2.4 1.3 0.9 51 61 61 87 133 35 D6 D8 2.8 2.4 51 61 D10 D13 1.3 0.9 87 133 D6 D8 D10 D10 D13 2.8 2.4 1.3 1.3 0.9 51 61 87 87 133 D6 D8 D10 D10 D13 50 4.6 3.9 2.1 2.1 1.5 40 48 69 69 103 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Long life, 105C MFJ @Chose 4 case sizes from 4.5mm height @Endurance : 105C 2000 hours @Solvent-proof type, see page 16 longer life MFK ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current -40 to +105C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.32 0.28 0.24 0.16 0.14 0.12 tanE (Max.) (at 20C, 120Hz) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 2 2 2 2 3 4 Z(-25C)/Z(+20C) 3 3 4 6 8 12 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 105C. Rated voltage 6.3Vdc 10 & 16Vdc 25 to 50Vdc Capacitance change [P30% of the initial value [P25% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Rated voltage 6.3Vdc 10 & 16Vdc 25 to 50Vdc Capacitance change [P30% of the initial value [P25% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value [The initial specified value Dissipation Factor (tan e) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life ?DIMENSIONS (Terminal Type=FC or FD <dummy terminal>) [mm] ?MARKING EX) 6.3V22MF 0.2max. PP0.3 1.5P0.2 1.5P0.2 L 6.3 8.3 10.3 13.3 W 4.6 4.6 4.6 4.6 H 4.5 4.5 4.5 4.5 P 4.0 4.0 4.0 4.0 Negative mark Dummy terminal (only for FD type) L+0.2max. W+0.2max. Case code D6 D8 D10 D13 2 2 6 J H+0.2max. Marking ?PART NUMBERING SYSTEM MFJ 35 FC 4R7 M D6 Case code Cap tolerance (P20%) Nominal cap code Terminal type (FC or FD) Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF Code 4R7 10 100 ?STANDARD RATINGS Vdc mF 3.3 4.7 6.8 10 15 22 33 47 68 100 Note : 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 105C, 120Hz D6 D8 D10 D13 20 27 44 63 D6 D8 19 25 D10 D13 41 58 D6 D8 D10 D13 16 23 37 53 D6 D8 16 21 D10 D13 34 51 D6 D8 14 18 D10 D13 30 43 D6 D8 D10 D10 D13 13 16 20 26 38 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Large capacitance, 105C @Endurance : 105C 2000 hours @Solvent-proof type, see page 16 ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 10 to 50Vdc (at 20C, 120Hz) P20% (M) I=0.01CV or 3MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 10V 16V 25V 35V 50V Rated voltage (Vdc) (at 20C, 120Hz) 0.30 0.25 0.22 0.18 0.18 tanE (Max.) Rated voltage (Vdc) 10V 16V 25V 35V 50V Z(-25C)/Z(+20C) 2 2 2 2 3 (at 120Hz) Z(-40C)/Z(+20C) 3 3 4 6 8 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=FC) [mm] ?MARKING PP0.3 1.5 C 2P0.5 H 9.0 9.0 9.0 P 7.4 7.4 7.4 C 0 5 10 +- 1.5 0.2max. W 9.0 9.0 9.0 9 J 330 35V H+0.2max. EX) 35V330MF Case code L H15 17.1 H20 21.5 H25 26.5 L+0.5max. W+0.1max. ?PART NUMBERING SYSTEM MFK 10 FC 1000 M H25 Case code Cap tolerance (P20%) Nominal cap in MF Terminal type (FC) Rated voltage in volts Series name ?STANDARD RATINGS Vdc mF 47 100 180 220 330 470 680 1,000 10 H15 H20 H25 0.47 0.27 0.20 16 330 440 570 H15 H20 H25 0.40 0.27 0.20 25 330 440 570 H15 H20 H25 0.40 0.27 0.20 35 330 440 570 H15 H20 H25 0.40 0.27 0.20 330 440 570 H15 H15 H20 H25 50 0.40 0.40 0.27 0.20 330 330 440 570 Rated ripple current (mArms) at 105C, 100kHz Max. impedance (O) at 20C, 100kHz Case code CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS 4.5mm height, 85C MVS @4.5mm height @Endurance : 85C 2000 hours @Reflow capability @Solvent-proof type, see page 16 downsized MV ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 4V 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.50 0.30 0.24 0.19 0.16 0.14 0.14 tanE (Max.) (at 20C, 120Hz) 4V 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 2 2 2 2 3 4 7 Z(-25C)/Z(+20C) 3 3 4 4 8 8 15 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 85C. Rated voltage 4 & 6.3Vdc 10 to 50Vdc Capacitance change [P30% of the initial value [P25% of the initial value DF (tanE) [300% of the initial specified value [300% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Rated voltage 4 & 6.3Vdc 10 to 50Vdc Capacitance change [P30% of the initial value [P25% of the initial value DF (tanE) [300% of the initial specified value [300% of the initial specified value Leakage current [The initial specified value [The initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] ?MARKING EX) 16V47MF W P CP0.2 BP0.2 FDP0.5 7hS 0.3max. 4.5 +0.1 -0.2 Case code D D46 4 E46 5 F46 6.3 AP0.2 A 4.3 5.3 6.6 B 4.3 5.3 6.6 C 5.1 5.9 7.2 W 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 47 16V P 1.0 1.4 1.9 ?PART NUMBERING SYSTEM MVS 16 VC 47 M F46 Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 Note : 4 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 85C, 120Hz D46 D46 E46 F46 28 33 56 96 D46 28 E46 F46 45 70 E46 D46 E46 23 37 F46 58 41 D46 E46 F46 F46 18 29 46 D46 D46 D46 D46 D46 D46 D46 E46 F46 1.0 2.0 2.8 4.0 8.4 13 17 20 33 52 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 85C Upgrade! MVA @F4 through F18 case sizes are fully lined up @Endurance : 85C 2000 hours @Suitable to fit for downsized equipment @Solvent-proof type except (100 to 450Vdc), see page 16 downsized MV ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 450Vdc P20% (M) (at 20C, 120Hz) Rated voltage (Vdc) 4 to 100V 160 to 450V D55 to J10 I=0.01CV or 3MA, whichever is greater.(after 2 minutes) K14 to M22 I=0.03CV or 4MA, whichever is greater.(after 1 minute) I=0.03CV or 4MA, whichever is greater.(after 1 minute) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C) Rated voltage (Vdc) 4V 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 400 & 450V D55 to J10 0.42 0.35 0.30 0.26 0.16 0.14 0.12 0.12 0.12 tanE (Max.) K14 to M22 0.38 0.34 0.30 0.26 0.22 0.18 0.14 0.10 0.20 0.25 When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) Rated voltage (Vdc) 4V 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 400 & 450V Z(-25C)/Z(+20C) 3 2 2 2 2 2 3 4 7 D55 to J10 Z(-40C)/Z(+20C) 4 3 3 3 4 6 8 10 17 Z(-25C)/Z(+20C) 2 2 2 2 2 3 4 5 3 6 K14 to M22 Z(-40C)/Z(+20C) (at 120Hz) 3 3 3 4 5 8 10 12 6 10 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 85C. Case code D55 to J10 D55 to J10 K14 to M22 Rated voltage (Vdc) 4V & 6.3V 10 to 100V 6.3 to 450V Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Case code D55 to J10 D55 to J10 K14 to M22 Rated voltage 4V & 6.3V 10 to 100V 6.3 to 450V Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] ?MARKING D55 to J10 EX) 16V47MF B55 to K16 P CP0.2 BP0.2 FDP0.5 W 0.3max. LP0.3(Note) AP0.2 Note : LP0.5 for H10 to K16 L17 to M22 P CP0.2 BP0.2 FDP0.5 W 0.3max. LP0.5 Case code D55 E55 F55 F80 H10 J10 K14 K16 L17 L22 M17 M22 D 4 5 6.3 6.3 8 10 12.5 12.5 16 16 18 18 L 5.2 5.2 5.2 7.7 10.0 10.0 13.5 16.0 16.5 21.5 16.5 21.5 A 4.3 5.3 6.6 6.6 8.3 10.3 13.0 13.0 17.0 17.0 19.0 19.0 B 4.3 5.3 6.6 6.6 8.3 10.3 13.0 13.0 17.0 17.0 19.0 19.0 C 5.1 5.9 7.2 7.2 9.0 11.0 13.7 13.7 18.0 18.0 20.0 20.0 W 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 0.7 to 1.1 0.7 to 1.1 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 P 1.0 1.4 1.9 1.9 3.1 4.5 4.2 4.2 6.5 6.5 6.5 6.5 7hA 47 16V K14 to H22 EX) 25V1000MF 0V MVA 1000 25V AP0.2 ?PART NUMBERING SYSTEM MVA 16 VC 47 M E55 Tray code (TR : If necessary) Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Capacitance 0.1MF 1.0MF 4.7MF 10MF 100MF 1000MF Code R1 1 4R7 10 100 1000 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 85C Upgrade! ?STANDARD RATINGS Vdc mF 3.3 4.7 10 22 33 47 56 100 150 220 330 4 6.3 10 55 F55 F80 80 135 F55 F80 88 135 F55 F55 F80 H10 F80 150 H10 280 H10 H10 H10 290 320 J10 430 1,500 J10 480 2,200 K14 890 3,300 K16 L17 1000 1200 L17 1400 L22 M17 M22 1750 1700 2000 1,000 320 H10 4,700 6,800 10,000 120 210 260 360 J10 400 K14 600 J10 380 280 E55 F80 H10 H10 J10 280 F55 F80 F80 H10 50 18 24 41 54 64 H10 70 79 130 270 E55 D55 D55 E55 F55 F60 70 110 130 270 26 37 44 30 33 50 24 41 47 60 66 120 210 260 300 D55 E55 E55 D55 D55 35 D55 E55 E55 F55 F55 F80 H10 H10 H10 26 30 44 25 30 680 820 25 D55 D55 E55 D55 D55 470 16 J10 430 K14 710 K14 820 L17 1100 K14 960 L17 1150 L22 M17 1450 1400 M22 1700 L17 1300 L22 M17 1450 1450 M22 1800 L22 M17 1550 1600 M22 1750 M22 1850 D55 D55 E55 F55 F80 F80 15 18 30 47 70 85 H10 190 J10 K14 K16 L17 320 600 740 850 L22 M22 1300 1400 Rated ripple current (mArms) at 85C, 120Hz Case code Non solvent-proof Vdc mF 63 100 160 200 0.10 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 D55 D55 D55 D55 D55 D55 E55 E55 F55 1.3 3 4 5 8 12 17 20 32 22 F80 60 H10 90 K14 33 H10 110 J10 120 47 H10 130 56 J10 160 68 J10 170 K14 100 K14 380 220 K14 580 K16 L17 L17 M17 720 820 950 1000 330 470 250 400 K14 150 240 K16 240 K16 310 L17 L22 M17 340 420 420 M22 490 K16 370 L17 420 380 L17 500 L22 M17 510 510 K14 440 L22 M17 590 590 M22 590 L22 M17 850 800 M22 1000 K14 L17 L22 M17 M22 450 120 140 280 280 350 K14 L17 120 140 L22 280 M22 350 Rated ripple current (mArms) at 85C, 120Hz Case code CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Standard, 85C MVA downsized MVS @From 5.5mm height @Suitable to fit for downsized equipment @Solvent-proof type, see page16 MV low profile MVK 105C ?SPECIFICATIONS Items Characteristics Category Temperature Range -40 to +85C Rated Voltage Range Capacitance Tolerance Leakage Current 4 to 63Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 63V 50V 35V 25V 16V 4V 6.3V 10V Rated voltage (Vdc) 0.12 0.14 0.16 0.19 0.42 0.27 0.23 B55 0.10 0.12 0.14 0.16 0.42 0.24 0.20 0.12 tanE (Max.) D55 to F60 0.12 0.14 0.16 0.26 0.30 0.40 0.12 H63 to J10 (at 20C,120Hz) 50V 35V 25V 16V 6.3V 10V 63V 4V Rated voltage (Vdc) 2 2 2 2 4 3 2 7 Z(-25C)/Z(+20C) 3 3 4 6 8 10 17 B55 3 3 4 6 8 10 3 15 Z(-40C)/Z(+20C) D55 to F60 3 3 4 6 8 3 10 H63 to J10 (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours (B55 size 1000 hours) at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Case code B55 D55 to J10 Capacitance change [P20% of the initial value [P15% of the initial value DF (tanE) [200% of the initial specified value [150% of the initial specified value Leakage current [The initial specified value [The initial specified value Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life ?MARKING ?DIMENSIONS (Terminal Type=VC) [mm] P CP0.2 BP0.2 FDP0.5 W 0.3max. AP0.2 LP0.3 (Note) Note : LP0.5 for F8B6 (H63), F8B10 (H10) & F10B10 (J10). Case code D L A B C W B55 3 5.2 3.3 3.3 3.7 0.45 to 0.75 D55 & D60 4 *5.2 4.3 4.3 5.1 0.5 to 0.8 E55 5 5.2 5.3 5.3 5.9 0.5 to 0.8 F55 & F60 6.3 *5.2 6.6 6.6 7.2 0.5 to 0.8 H63 8 6.3 8.3 8.3 9.0 0.5 to 0.8 H10 8 10.0 8.3 8.3 9.0 0.7 to 1.1 J10 10 10.0 10.3 10.3 11.0 0.7 to 1.1 * : L=5.7 for D60 and F60. B55 EX)16V10MF P 0.8 1.0 1.4 1.9 2.3 3.1 4.5 D55 to J10 EX)6.3V100MF 7h 10 h16 100 6.3V ?PART NUMBERING SYSTEM MV 50 VC R1 M D55 Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF 1000MF Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 1000 ?STANDARD RATINGS Vdc mF 0.1 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 68 100 220 330 470 1,000 Note : 4 6.3 10 16 25 35 Case code Rated ripple current (mArms) at 85C, 120Hz B55 D55 D55 E55 E55 F55 14 23 27 38 46 74 B55 14.5 B55 D55 17.5 23 B55 D55 E55 E55 38 F55 60 H63 H10 J10 190 265 400 F55 F60 H63 11.6 B55 12.8 B55 D55 14 17 20 26 E55 32 E55 35 50 F55 54 78 F60 70 175 215 H10 270 H10 330 J10 B55 D55 10.5 16 F55 F60 H63 H63 45 65 115 J10 305 145 B55 B55 D55 E55 E55 F55 F55 F60 H63 H10 H10 J10 7.7 9.4 15 20 25 33 40 55 105 157 175 265 50 B55 D55 1.0 1.3 B55 D55 2.0 2.0 B55 D55 2.0 2.9 B55 D55 3.0 3.5 B55 D55 3.8 4.2 B55 D55 4.6 5.1 B55 D55 5.6 6.2 B55 D55 6.9 7.5 B55 D55 8.3 10 D55 14 E55 19 F55 24 F55 29 F60 32 F60 45 H63 95 H10 140 J10 170 J10 195 63 D55 D55 D55 D55 D55 D55 D60 D60 D60 D60 F60 F60 H10 H10 H10 H10 H10 J10 1.3 2.0 2.9 3.5 4.2 5.1 7.0 8.4 10 13 18.5 21 46 52 69 85 101 125 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 105C New! MVE @Rated voltage range : 6.3 to 450V, capacitance range : 0.47 to 6800MF @Endurance : 1000 to 2000 hours at 105C @Case size range : F4B5.5 to F18B21.5 @Solvent-proof type except 160V to 450V products, see page 16 downsized MV ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 450Vdc P20%(M) Rated voltage(Vdc) 6.3 to 100V 160 to 450V D55 to J10 I=0.01CV or 3MA, whichever is greater (2 minutes) K14 to M22 I=0.03CV or 4MA, whichever is greater (1 minute) I=0.04CV+100MA (1minute) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) See STANDARD RATINGS ?MARKING D55 to K16 D55 to J10 Ex)16V22MF W 0.3max. LP0.3 (Note) AP0.2 Note : LP0.5 for H10, J10, K14 and K16 L17 to M22 BP0.2 P CP0.2 W 0.3max. LP0.5 7hA P CP0.2 BP0.2 FDP0.5 (20C) (20C, 120Hz) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 400 to 450V Z(-25C)/Z(+20C) 2 2 2 2 2 3 4 3 D55 to J10 Z(-40C)/Z(+20C) 3 3 3 4 6 8 12 4 Z(-25C)/Z(+20C) 2 2 2 2 3 4 5 2 3 6 K14 to M22 Z(-40C)/Z(+20C) (120Hz) 3 3 3 4 6 8 10 3 6 10 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for the specified period of time at 105C. Case code D55 to F80 H10 to M22 2000 hours Time 1000 hours [P20% of the initial value Capacitance change [P30% of the initial value [200% of the initial specified value DF (tanE) [300% of the initial specified value [The initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours (500 hours for B55 to F80 size) at 105C without voltage applied. H10 to H22 Case code D55 to F80 Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] FDP0.5 (20C, 120Hz) AP0.2 22 16V Case code D55 E55 F55 F60 F80 H10 J10 K14 K16 L17 L22 M17 M22 D 4 5 6.3 6.3 6.3 8 10 12.5 12.5 16 16 18 18 L 5.2 5.2 5.2 5.7 7.7 10.0 10.0 13.5 16.0 16.5 21.5 16.5 21.5 A 4.3 5.3 6.6 6.6 6.6 8.3 10.3 13.0 13.0 17.0 17.0 19.0 19.0 B 4.3 5.3 6.6 6.6 6.6 8.3 10.3 13.0 13.0 17.0 17.0 19.0 19.0 C 5.1 5.9 7.2 7.2 7.2 9.0 11.0 13.7 13.7 18.0 18.0 20.0 20.0 W 0.5K0.8 0.5K0.8 0.5K0.8 0.5K0.8 0.5K0.8 0.7K1.1 0.7K1.1 1.0K1.3 1.0K1.3 1.0K1.3 1.0K1.3 1.0K1.3 1.0K1.3 P 1.0 1.4 1.9 1.9 1.9 3.1 4.5 4.2 4.2 6.5 6.5 6.5 6.5 K14 to M22 Ex)25V1000MF 0V MVE 1000 25V ?PART NUMBERING SYSTEM MVE 50 VC 220 M J10 Tray code (TR : If necessary) Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Capacitance 10MF 100MF 1000MF Code 10 100 1000 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Down sized, 105C New! ?STANDARD RATINGS Vdc 6.3 mF 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 150 D55 E55 E55 F55 22 34 38 69 10 16 0.30 0.30 0.30 0.30 E55 E55 F55 F55 F80 30 34 48 69 100 0.24 0.24 0.24 0.30 0.35 D55 E55 F55 F55 F55 F80 25 35 17 30 45 48 69 100 0.20 0.20 0.20 0.20 0.26 0.28 E55 F55 F55 F55 F80 H10 27 44 50 60 100 240 0.16 0.16 0.16 0.16 0.18 0.18 D55 E55 F55 F60 F80 F80 H10 16 27 44 54 80 100 260 50 0.14 0.14 0.14 0.14 0.16 0.16 0.16 220 F80 120 0.45 F80 120 0.35 F80 120 0.28 H10 320 0.18 J10 375 0.16 330 H10 290 0.40 H10 290 0.35 H10 290 0.28 J10 450 0.16 J10 450 0.16 470 H10 320 0.45 H10 320 0.35 H10 320 0.28 J10 490 0.18 K14 L17 520 0.22 650 0.22 680 H10 340 0.45 1,000 J10 410 0.40 J10 K14 L17 470 550 650 0.28 0.30 0.30 L17 M17 820 880 0.26 0.26 750 0.22 L17 M17 1000 0.22 1,500 J10 K14 L17 K16 M17 L22 M17 L22 M22 950 L17 M17 1000 L22 1200 M17 1200 0.32 0.32 0.34 0.34 L22 1250 M22 1300 0.28 0.28 M22 1450 0.24 2,200 3,300 4,700 6,800 550 680 840 850 1000 1200 1200 1200 1350 0.45 0.40 0.40 0.42 0.42 0.44 0.44 0.48 0.48 J10 410 0.35 K16 L17 L17 M17 L22 M22 750 850 1000 1100 1300 1350 0.36 0.36 0.38 0.38 0.40 0.40 63 D55 D55 D55 D55 E55 F55 F60 F80 F80 H10 5 8 12 15 20 32 47 65 80 230 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.14 0.14 0.14 J10 375 0.14 K14 L17 L17 M17 500 600 700 750 0.18 0.18 0.18 0.18 M22 1200 0.18 D55 D55 D55 E55 F55 F55 F80 H10 H10 J10 5 8 12 17 22 32 58 140 170 310 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 K14 L17 L17 M17 L22 M17 470 560 700 750 900 900 0.14 0.14 0.14 0.14 0.14 0.14 DF (tanE at 20C, 120Hz) Rated ripple current (mArms at 105C, 120Hz) Case code Non solvent-proof Vdc 100 mF 160 200 3.3 4.7 10 250 400 65 105 0.15 0.15 K16 L17 50 0.20 85 0.20 M22 130 0.20 M22 K14 80 0.15 K14 K16 K16 110 0.15 L17 180 0.15 22 H10 100 0.12 33 J10 150 0.12 K14 95 0.15 L17 220 0.15 L22 M17 230 230 0.15 0.15 47 K14 250 0.10 L17 260 0.15 L22 M17 270 270 0.15 0.15 M22 280 0.15 68 K14 300 0.10 L22 M17 320 320 0.15 0.15 M22 330 0.15 K14 L17 L22 M17 M22 380 450 750 750 980 L22 380 0.15 100 220 330 0.10 0.10 0.10 0.10 0.10 450 K14 K16 L17 40 50 85 0.20 0.20 0.20 130 0.20 DF (tanE at 20C, 120Hz) Rated ripple current (mArms at 105C, 120Hz) Case code CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS MVY @Endurance : 105C 1000 to 2000 hours @Suitable to fit for downsized equipment @Solvent-proof type, see page16 low Z Standard, 105C MVH 125C MVK MVL MVJ longer life ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 50V 35V 25V 16V 6.3V 10V Rated voltage (Vdc) 0.30 0.24 0.20 0.16 0.14 0.12 D55 to F55 tanE (Max.) 0.40 0.30 0.26 0.16 0.14 0.12 H63 to J10 (at 20C,120Hz) 50V 35V 25V 16V 6.3V 10V Rated voltage (Vdc) 2 2 2 2 3 4 Z(-25C)/Z(+20C) 3 3 4 6 8 10 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for the specified period of time at 105C. Case code D55 to F55 H63 to J10 Time 1000hours 2000hours Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for the specified time at 105C without voltage applied. Case code D55 to F55 H63 to J10 Time 500hours 1000hours Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] ?MARKING Case code D D55 4 E55 5 F55 6.3 H63 8 H10 8 J10 10 P CP0.2 BP0.2 FDP0.5 W 0.3max. AP0.2 LP0.3 (Note) Note : LP0.5 for F8B6 (H63), F8B10 (H10), and F10B10 (J10) . L A B C 5.2 4.3 4.3 5.1 5.2 5.3 5.3 5.9 5.2 6.6 6.6 7.2 6.3 8.3 8.3 9.0 10.0 8.3 8.3 9.0 10.0 10.3 10.3 11.0 W 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 0.7 to 1.1 0.7 to 1.1 EX) 6.3V100MF P 1.0 1.4 1.9 2.3 3.1 4.5 7hK 100 6.3V ?PART NUMBERING SYSTEM MVK 50 VC R47 M D55 Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF 1000MF Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 1000 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1000 Note : 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 105C, 120Hz D55 21 E55 F55 36 56 H10 290 J10 410 E55 H63 H10 D55 E55 16 30 F55 48 34 90 180 J10 F55 H63 H10 45 80 180 J10 450 D55 E55 F55 H63 15 25 40 80 J10 375 D55 D55 D55 D55 D55 D55 D55 E55 F55 H63 H10 H10 J10 1.3 2.6 3.2 3.8 5.6 10 14 19 29 70 140 170 310 460 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C Upgrade! MVY @Expand up to F18 case size @Expand up to 100Vdc @Low impedance, 105C 1000 to 5000 hour-life @For digital equipment, especially DC-DC converters and VRM lower Z MVK ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -55 to +105C (6.3 to 63Vdc) -40 to +105C (80 & 100Vdc) 6.3 to 100Vdc (at 20C, 120Hz) P20% (M) I=0.01CV or 3MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V When nominal capacitance exceeds D55 to F80 0.24 0.20 0.16 0.14 0.12 0.12 - 1000MF, add 0.02 to the value above tanE (Max.) H10 & J10 0.28 0.24 0.20 0.16 0.14 0.12 - for each 1000MF increase. (at 20C, 120Hz) K14 to M22 0.26 0.22 0.18 0.16 0.14 0.12 0.14 0.10 0.10 Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V D55 to J10 2 2 2 2 2 3 Z(-40C)/Z(+20C) (at 120Hz) K14 to M22 10 3 3 4 6 8 3 3 3 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for specified time at 105C. Time D55 to F80 : 1000 hours H10 & J10 : 2000 hours K14 to M22 : 5000 hours 6.3 to 100Vdc Rated voltage 6.3Vdc (D55 to J10) Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Rated voltage 6.3Vdc (D55 to J10) 6.3 to 50Vdc Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value ?MARKING ?DIMENSIONS (Terminal Type=VC) [mm] D55 to J10 P CP0.2 BP0.2 FDP0.5 W 0.3max. LP0.3 (Note) AP0.2 Note : LP0.5 for H10 to K16 K14 to M22 0.3max. LP0.5 FD 4.0 5.0 6.3 6.3 8 10 12.5 12.5 16 16 18 18 L 5.2 5.2 5.2 7.7 10.0 10.0 13.5 16.0 16.5 21.5 16.5 21.5 A 4.3 5.3 6.6 6.6 8.3 10.3 13.0 13.0 17.0 17.0 19.0 19.0 B 4.3 5.3 6.6 6.6 8.3 10.3 13.0 13.0 17.0 17.0 19.0 19.0 C 5.1 5.9 7.2 7.2 9.0 11.0 13.7 13.7 18.0 18.0 20.0 20.0 W 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 0.7 to 1.1 0.7 to 1.1 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 P 1.0 1.4 1.9 1.9 3.1 4.5 4.2 4.2 6.5 6.5 6.5 6.5 P CP0.2 BP0.2 FDP0.5 W Case code D55 E55 F55 F80 H10 J10 K14 K16 L17 L22 M17 M22 D55 to J10 EX) 6.3V100MF 7hY 100 6.3V K14 to M22 EX) 16V1000MF 0V MVY 1000 16V AP0.2 ?PART NUMBERING SYSTEM MVY 50 VC 220 M J10 Tray code (TR : If necessary) Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Capacitance 1.0MF 4.7MF 10MF 100MF 1000MF Code 1 4R7 10 100 1000 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C Upgrade! ?STANDARD RATINGS Vdc mF 6.3 10 16 25 35 3.0 1.8 1.0 1.0 1.0 0.34 0.30 0.30 60 95 140 140 140 280 450 450 670 D55 E55 E55 3.0 1.8 1.8 60 95 95 E55 E55 F55 1.8 1.8 1.0 95 95 140 D55 E55 F55 F55 F55 F55 1.0 1.0 140 140 F55 F80 1.0 0.34 140 280 F55 F80 1.0 0.34 140 280 F80 H10 0.34 0.30 280 450 D55 E55 F55 F55 F55 F80 H10 H10 330 F80 0.34 280 H10 0.30 450 H10 0.30 450 H10 0.30 450 J10 0.15 470 H10 0.30 450 H10 0.30 450 H10 0.30 450 J10 0.15 670 K14 L17 0.070 0.054 820 1,260 J10 K14 L17 0.15 0.070 0.054 670 820 1,260 L17 M17 0.054 0.054 1,260 1,350 L17 M17 0.054 0.054 1,260 1,350 L17 M17 L22 M17 0.054 0.054 0.038 0.054 1,260 1,350 1,630 1,350 L22 M22 0.038 0.038 1,630 1,750 M22 0.038 1,750 M22 0.038 1,750 M22 0.038 1,750 4.7 10 22 33 47 68 100 220 680 H10 0.30 450 J10 0.15 670 1,000 H10 0.30 450 J10 0.15 670 1,500 J10 K14 L17 K16 M17 L22 M17 L22 M22 M22 0.15 0.070 0.054 0.060 0.054 0.038 0.054 0.038 0.038 0.038 K16 L17 L17 M17 L22 M22 0.060 0.054 0.054 0.054 0.038 0.038 950 1,260 1,260 1,350 1,630 1,750 M22 0.038 1,750 D55 D55 D55 E55 F55 F55 F80 F80 H10 50 5.0 5.0 5.0 3.0 2.0 2.0 0.60 0.60 0.60 30 30 30 50 70 70 170 170 300 K14 0.19 500 100 H10 0.60 300 K14 0.19 500 220 J10 0.30 500 K14 L17 L17 M17 M22 0.11 0.087 0.087 0.087 0.050 K14 L17 L17 M17 L22 M17 0.19 0.12 0.12 0.12 0.085 0.12 2,200 3,300 4,700 6,800 8,200 670 820 1,260 950 1,350 1,630 1,350 1,630 1,750 1,750 3.0 1.8 1.0 1.0 60 95 140 140 E55 F55 F55 F55 1.8 1.0 1.0 1.0 95 140 140 140 Rated ripple current (mArms) at 105C, 100kHz Impedance (O) at 20C, 100kHz Case code Non solvent-proof Vdc mF 1.0 2.2 3.3 4.7 10 22 33 47 68 330 470 1,000 63 650 900 900 1,060 1,520 80 100 Case code Impedance (O) at 20C, 100kHz Rated ripple current (mArms) at 105C, 100kHz 500 845 845 905 1,100 905 K14 0.33 450 K16 0.26 550 L22 M17 0.16 0.24 900 700 M22 0.16 950 K14 K14 K14 L17 L22 M17 0.33 0.33 0.33 0.24 0.16 0.24 450 450 450 650 900 700 M22 0.16 950 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Long life, 105C MVJ @Endurance : 105C 2000 hours @Solvent-proof type, see page 16 longer life MVK ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc (at 20C, 120Hz) P20% (M) I=0.01CV or 3MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) (at 20C, 120Hz) 0.30 0.24 0.20 0.16 0.14 0.12 tanE (Max.) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 2 2 2 2 3 4 Z(-25C)/Z(+20C) (at 120Hz) 3 3 4 6 8 12 Z(-40C)/Z(+20C) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 105C. Rated voltage 6.3Vdc 10 & 16Vdc 25 to 50Vdc Capacitance change [P30% of the initial value [P25% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [300% of the initial specified value [200% of the initial specified value Leakage current The initial specified value [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Rated voltage 6.3Vdc 10 & 16Vdc 25 to 50Vdc Capacitance change [P30% of the initial value [P25% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value [The initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] ?MARKING EX) 6.3V100MF Case code D D60 4 E60 5 F60 6.3 P CP0.2 BP0.2 FDP0.5 W 0.3max. LP0.3 L 5.7 5.7 5.7 A 4.3 5.3 6.6 B 4.3 5.3 6.6 C 5.1 5.9 7.2 W 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 7hJ P 1.0 1.4 1.9 100 6.3V AP0.2 ?PART NUMBERING SYSTEM MVJ 16 VC 22 M E60 Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Capacitance 0.1MF 1.0MF 4.7MF 10MF 100MF Code R1 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 Note : 6.3 16 10 25 35 50 Case code Rated ripple current (mArms) at 105C, 120Hz D60 21 E60 F60 36 56 E60 D60 E60 16 30 F60 48 D60 E60 F60 F60 34 15 25 40 D60 D60 D60 D60 D60 D60 D60 E60 F60 1.3 2.6 3.2 3.8 5.6 10 14 19 29 45 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS 3000 to 5000-hour-life, 105C Upgrade! MVL @Load life : 105C 3000 to 5000 hours (F80 to J10 added) @Solvent-proof type @Suitable for applications requiring long life such as continuously operating equipment, industrial applications, etc Longer life MVJ ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc P20%(M) (at 20C,120Hz) I=0.03CV or 4MA, whichever is greater Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C, after 2 minutes) 50V 35V 25V 16V 6.3V 10V Rated voltage (Vdc) 0.28 0.24 0.20 0.16 0.13 0.12 Max. tanE (at 20C,120Hz) 50V 35V 25V 16V 6.3V 10V Rated voltage(Vdc) 2 2 2 2 3 4 Z(-25C)/Z(+20C) 3 3 3 5 7 10 Z(-40C)/Z(+20C) (120Hz) After the capacitors are subjected to the rated DC voltage for 3000 hours (H10 & J10 sizes 5000 hours) at 105C, the follorwing specifications shall be satisfied when the capacitors are restored to 20C. Capacitance change [P30% of the initial measured value D.F. (tanE) [300% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. The rated voltage shall be applied to the capacitors for a minimum of 30 minutes, at least 24 hours and not more than 48 hours before the measurements. Capacitance change [P30% of the initial measured value D.F. (tanE) [300% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] ?MARKING 0.3max. LP0.3 (Note) Case code D60 E60 F60 F80 H63 H10 J10 P CP0.2 BP0.2 FDP0.5 W AP0.2 Note : LP0.5 for H10 to J10 D 4.0 5.0 6.3 6.3 8 8 10 Outer dimensions L A B C 5.7 4.3 4.3 5.1 5.7 5.3 5.3 5.9 5.7 6.6 6.6 7.2 7.7 6.6 6.6 7.2 6.3 8.3 8.3 9.0 10.0 8.3 8.3 9.0 10.0 10.3 10.3 11.0 W 0.5 - 0.8 0.5 - 0.8 0.5 - 0.8 0.5 - 0.8 0.5 - 0.8 0.7 - 1.1 0.7 - 1.1 P 1.0 1.4 1.9 1.9 2.3 3.1 4.5 a 1.0 1.4 1.9 1.9 2.3 3.1 4.5 Land b 2.6 3.0 3.5 3.5 4.5 4.2 4.4 EX) 16V47MF c 1.6 1.6 1.6 1.6 1.6 2.2 2.2 9hL 47 16V ?PART NUMBERING SYSTEM MVL 35 VC 10 M E60 Case code Capacitance tolerance (M = P20%) Capacitance code Terminal type Rated voltage in volts Series name Capacitance 0.1MF 2.2MF 10MF 100MF Code R1 2R2 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 Note : 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 105C, 120Hz D60 22 E60 F60 F80 H10 36 60 101 160 J10 313 E60 H10 D60 E60 18 30 F60 F80 50 81 35 48 63 116 J10 238 141 J10 Use a next higher voltage capacitor. Contact us for reflow soldering conditions. F60 F80 H10 D60 E60 F60 F80 15 25 42 57 J10 216 D60 D60 D60 D60 D60 D60 D60 E60 F60 F80 H10 H10 J10 1.0 2.6 3.2 3.8 6.2 11 14 19 30 49 77 92 151 254 * Specifications are subject to change without notice. CAT. No. 12A SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS High heat resistance, 125C Upgrade! MVH @Endurance : 125C 1000 to 5000 hours @Suitable to fit for automotive equipment @Solvent-proof type (10 to 50V), see page16 125C MVK ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +125C 10 to 450Vdc P20% (M) (at 20C, 120Hz) 10 to 100Vdc 160 to 450Vdc I=0.03CV or 4MA, whichever is greater. I=0.04CV+100 (160 to 450Vdc) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) Rated voltage (Vdc) 10V 16V 25V 35V 50V 63V 100V 160 to 250V 400 & 450V 0.24 0.20 0.16 0.14 0.14 0.18 0.18 F60 to J10 tanE (Max.) 0.22 0.18 0.16 0.14 0.12 0.14 0.10 0.24 0.20 K14 to M22 When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) Rated voltage (Vdc) 10V 16V 25V 35V 50V 63V 100V 160 to 250V 400 & 450V Z(-25C)/Z(+20C) 4 2 2 2 2 2 3 F60 to J10 Z(-40C)/Z(+20C) 10 4 4 4 4 6 8 Z(-25C)/Z(+20C) 4 2 2 2 2 2 3 6 3 K14 to M22 Z(-40C)/Z(+20C) 8 (at 120Hz) 3 3 3 3 4 6 10 6 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for the specified time at 125C. F60 to H63 (10 to 100Vdc) : 1000hours H10 to J10 (10 to 100Vdc) : 2000hours Time K14 to M22 (10 to 100Vdc) : 5000hours K14 to M22 (160 to 450Vdc) : 2000hours Capacitance change [P30% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours (500 hours for 350 to 450WV) at 125C without voltage applied. Rated voltage(Vdc) 10 to 50Vdc 63 to 450Vdc Capacitance change [P30% of the initial value [P30% of the initial value DF (tanE) [300% of the initial specified value [300% of the initial specified value Leakage current [The initial specified value [500% of the initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] ?MARKING F60 to K16 P CP0.2 BP0.2 FDP0.5 W 0.3max. LP0.3 (Note) Note : LP0.5 for H63 to K16 AP0.2 L17 to M22 0.3max. LP0.5 D 6.3 6.3 8 8 10 12.5 12.5 16 16 18 18 L 5.7 7.7 6.3 10.0 10.0 13.5 16.0 16.5 21.5 16.5 21.5 A 6.6 6.6 8.3 8.3 10.3 13.0 13.0 17.0 17.0 19.0 19.0 B 6.6 6.6 8.3 8.3 10.3 13.0 13.0 17.0 17.0 19.0 19.0 C 7.2 7.2 9.0 9.0 11.0 13.7 13.7 18.0 18.0 20.0 20.0 W 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 0.7 to 1.1 0.7 to 1.1 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 1.0 to 1.3 P 1.9 1.9 2.3 3.1 4.5 4.2 4.2 6.5 6.5 6.5 6.5 F60 to J10 EX) 35V47MF 74H 47 35V K14 to M22 EX) 16V1000MF 0V MVH 1000 16V P CP0.2 BP0.2 FDP0.5 W Case code F60 F80 H63 H10 J10 K14 K16 L17 L22 M17 M22 AP0.2 ?PART NUMBERING SYSTEM MVH 35 VC 47 M H10 Tray code (TR : If necessary) Case code Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Capacitance 10MF 100MF 1000MF Code 10 100 1000 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS High heat resistance, 125C Upgrade! ?STANDARD RATINGS Vdc mF 10 16 25 35 10 F60 38 3.3 66.0 22 F60 39 3.3 66.0 33 F60 47 220 H63 F80 H10 72 72 136 2.3 2.3 1.0 46.0 46.0 20.0 330 J10 188 0.7 13.4 100 K14 L17 M17 M17 M22 1,000 2,200 3,300 4,700 750 1,000 1,200 1,200 1,550 0.14 0.10 0.10 0.10 0.058 2.1 1.5 1.5 1.5 0.87 3.3 66.0 K14 750 0.14 2.1 K14 L17 M17 750 1,000 1,200 0.14 0.10 0.10 2.1 1.5 1.5 M17 1,200 0.10 1.5 470 680 43 F60 45 3.3 66.0 H63 F80 62 62 2.3 2.3 46.0 46.0 H63 F80 68 68 2.3 2.3 46.0 46.0 H10 92 1.0 20.0 H10 126 1.0 20.0 J10 151 0.7 13.4 K14 L17 K16 L17 750 1,000 900 1,000 0.14 0.10 0.11 0.10 2.1 1.5 1.5 1.5 M17 1,200 0.10 1.5 J10 211 0.7 13.4 K14 750 0.14 2.1 K14 L17 L17 M17 M22 750 1,000 1,000 1,200 1,550 0.14 0.10 0.10 0.10 0.058 2.1 1.5 1.5 1.5 0.87 ESR (O max.) at -40C, 100kHz ESR (O max.) at 20C, 100kHz Rated Ripple current (mArms) at 125C, 100kHz Case code Non-solvent proof Vdc mF 10 22 33 47 68 100 220 330 470 50 63 F60 38 3.3 66.0 H63 F80 H10 J10 50 50 83 111 2.3 2.3 1.0 0.7 46.0 46.0 20.0 13.4 K14 K14 L17 K16 L17 M17 550 550 850 700 850 920 0.23 0.23 0.15 0.18 0.15 0.15 3.5 3.5 2.3 2.7 2.3 2.3 100 H63 F80 42 42 2.3 2.3 H10 56 1.0 50.0 J10 77 0.7 35.0 115 115 H10 53 1.0 50 J10 63 0.70 35 450 550 650 0.33 0.26 0.24 16.5 13.0 12.0 950 0.16 8.0 K14 500 0.25 12.5 K14 K16 L17 K16 600 0.20 10.0 M22 L17 820 0.18 9.0 L22 1,100 0.11 5.5 ESR (O max.) at -40C, 100kHz ESR (O max.) at 20C, 100kHz Rated Ripple current (mArms) at 125C, 100kHz Case code Non-solvent proof Vdc mF 160 200 250 400 3.3 4.7 6.8 10 K14 100 K14 100 22 L17 180 L17 180 33 M17 245 47 68 L22 M17 M22 250 245 315 M22 380 K16 110 L22 M17 M22 205 200 260 K14 L17 L22 M17 450 70 100 140 135 K16 L17 65 85 M22 145 Rated Ripple current (mArms) at 125C, 120Hz Case code CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Bi-polarized, 85C MF-BP @3.5 to 4.5mm height @Bipolarized chip type for the circuit, of which polarity is frequently reversed @Solvent-proof type, see page 16 bi-polarized MF ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.05CV or 10MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) Rated voltage (Vdc) 4V 6.3V 10V 16V 25V 35V 50V B6 & C6 0.50 0.35 0.30 0.26 0.24 0.22 0.22 tanE (Max.) D6 & D8 0.45 0.32 0.26 0.24 0.22 0.20 0.20 (at 20C, 120Hz) Rated voltage (Vdc) 4V 6.3V 10V 16V 25V 35V 50V B6 & C6 2 2 2 3 4 6 9 Z(-25C)/Z(+20C) D6 & D8 2 2 2 2 3 4 7 B6 & C6 4 4 5 7 9 12 17 Z(-40C)/Z(+20C) D6 & D8 3 3 4 6 8 10 15 (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 85C, however the polarization shall be reversed every 250 hours. Case code B6 & C6 D6 & D8 Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=FC or FD <dummy terminal>) [mm] ?MARKING EX) 16V3.3MF 0.2max. 1.5P0.2 L+0.2max. PP0.3 W+0.2max. 1.5P0.2 Dummy terminal (only for FD type) Case code B6 C6 D6 D8 L 6.3 6.3 6.3 8.3 W 3.6 4.1 4.6 4.6 H 3.5 4.0 4.5 4.5 P 3.0 3.5 4.0 4.0 3 . 3 1 6 H+0.2max. Marking ?PART NUMBERING SYSTEM MF 6.3 FC 10 M BP D6 Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF Case code Bi-polar type Cap tolerance (P20%) Nominal cap code Terminal type (FC or FD) Rated voltage in volts Series name Code R1 R47 1 4R7 10 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 4 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 85C, 120Hz C6 D8 9.5 19 B6 B6 D6 6.2 7.4 14 B6 C6 D8 6.9 9.0 16 B6 C6 D6 6.1 8.2 12 C6 D6 D8 7.0 10 13 B6 D6 D8 4.6 9.1 12 B6 B6 B6 B6 C6 D8 1.3 2.3 2.8 3.3 5.3 10 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Bi-polarized, 105C MFK-BP @3.5 to 4.5mm height @Bipolarized chip type for the circuit, of which polarity is frequently reversed @Solvent-proof type, see page 16 bi-polarized MFK ?SPACIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.05CV or 10MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.35 0.30 0.26 0.24 0.22 0.22 tanE (Max.) (at 20C, 120Hz) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 2 2 2 3 4 6 Z(-25C)/Z(+20C) 4 4 5 7 9 12 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 105C, however the polarization shall be reversed every 250 hours. Case code B6 & C6 D6 & D8 Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Case code B6 & C6 D6 & D8 Capacitance change [P25% of the initial value [P15% of the initial value DF (tanE) [200% of the initial specified value [150% of the initial specified value Leakage current [The initial specified value [The initial specified value ?DIMENSIONS (Terminal Type=FC or FD <dummy terminal>) [mm] ?MARKING Case code B6 C6 D6 D8 0.2max. 1.5P0.2 L+0.2max. PP0.3 W+0.2max. L 6.3 6.3 6.3 8.3 W 3.6 4.1 4.6 4.6 H 3.5 4.0 4.5 4.5 EX) 16V3.3MF P 3.0 3.5 4.0 4.0 3 . 3 1 6 K H+0.2max. Marking 1.5P0.2 Dummy terminal (only for FD type) ?PART NUMBERING SYSTEM MFK 6.3 FC 10 M BP D6 Case code Bi-polar type Cap tolerance (P20%) Nominal cap code Terminal type (FC or FD) Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF Code R1 R47 1 4R7 10 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 105C, 120Hz B6 B6 D6 6.2 7.1 12.7 B6 C6 D8 6.4 8.4 15 B6 C6 D6 5.6 7.6 10.1 C6 D6 D8 6.4 8.8 11.5 B6 D6 D8 4.1 7.5 10.1 B6 B6 B6 B6 C6 D8 1.3 1.9 2.4 2.8 4.5 8.2 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Bi-polarized 85C MV-BP @Bipolarized chip type for the circuit, of which polarity is frequently reversed @Solvent-proof type, see page 16 bi-polarized MV ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 50Vdc (at 20C, 120Hz) P20% (M) I=0.05CV or 10MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 50V 4V 6.3V 10V 16V 25V 35V Rated voltage (Vdc) (at 20C, 120Hz) 0.45 0.32 0.26 0.24 0.22 0.20 0.20 tanE (Max.) 50V 4V 6.3V 10V 16V 25V 35V Rated voltage (Vdc) 2 2 2 2 3 4 7 Z(-25C)/Z(+20C) (at 120Hz) 3 3 4 6 8 10 15 Z(-40C)/Z(+20C) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 85C, however the polarization shall be reversed every 250 hours. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] ?MARKING EX) 35V4.7MF 94 P CP0.2 BP0.2 FDP0.5 W 0.3max. Case code D55 E55 F55 D 4 5 6.3 L 5.2 5.2 5.2 A 4.3 5.3 6.6 B 4.3 5.3 6.6 C 5.1 5.9 7.2 W 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 4.7 35V P 1.0 1.4 1.9 AP0.2 LP0.3 ?PART NUMBERING SYSTEM MV 50 VC R47 M BP D55 Case code Bi-polar type Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF Code R1 R47 1 4R7 10 ?STANDARD RATINGS Vdc mF 0.1 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 Note : 4 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 85C, 120Hz D55 D55 D55 D55 12 E55 21 13 14 E55 23 F55 36 F55 D55 9 E55 15 F55 24 11 E55 18 F55 28 D55 8 E55 F55 F55 13 17 21 D55 D55 D55 D55 D55 D55 D55 D55 E55 E55 F55 1.3 1.9 2.3 2.8 3.4 4.1 5.5 6.5 9 11 14 33 Use next higher voltage part. CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS Bi-polarized, 105C MVK-BP @Bipolarized chip type for the circuit, of which polarity is frequently reversed @Solvent-proof type, see page 16 bi-polarized MVK ?SPACIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.05CV or 10MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 50V 6.3V 10V 16V 25V 35V Rated voltage (Vdc) 0.35 0.26 0.24 0.20 0.18 0.18 tanE (Max.) (at 20C, 120Hz) 50V 6.3V 10V 16V 25V 35V Rated voltage (Vdc) 2 2 2 2 3 4 Z(-25C)/Z(+20C) 3 3 4 6 8 10 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 105C, however the polarization shall be reversed every 250 hours. Capacitance change [P30% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Capacitance change [P25% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=VC) [mm] ?MARKING BP0.2 EX) 35V4.7MF W AP0.2 FDP0.5 94K Case code D 4 D60 5 E60 6.3 F60 P CP0.2 0.3max. L 5.7 5.7 5.7 A 4.3 5.3 6.6 B 4.3 5.3 6.6 C 5.1 5.9 7.2 W 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 4.7 35V P 1.0 1.4 1.9 LP0.3 ?PART NUMBERING SYSTEM MVK 50 VC R1 M BP D60 Case code Bi-polar type Cap tolerance (P20%) Nominal cap code Terminal type (VC) Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF Code R1 R47 1 4R7 10 ?STANDARD RATINGS Vdc mF 0.10 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 Note : 6.3 10 16 25 35 50 Case code Rated ripple current (mArms) at 105C, 120Hz D60 D60 D60 E60 F60 D60 13 E60 22 F60 35 E60 14 F60 25 D60 10 E60 17 F60 28 12 20 8.8 E60 15 F60 23 D60 D60 D60 D60 D60 D60 D60 D60 E60 E60 F60 F60 1.3 1.9 2.3 2.8 3.4 4.1 5.5 7.5 10 13 16 20 32 39 Use next higher voltage part. CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 5mm height, 85C SRM @Coating case covered products are also available @Downsized from current standard SRE series @5mm height, 1000-hour-life at 85C @Solvent-proof type, see page 16 downsized SRE ?SPACIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 4V 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.40 0.38 0.30 0.23 0.17 0.15 0.13 tanE (Max.) (at 20C, 120Hz) Rated voltage (Vdc) 4V 6.3V 10V 16V 25V 35V 50V 2 2 Z(-25C)/Z(+20C) 2 2 3 4 7 3 3 Z(-40C)/Z(+20C) 4 6 8 8 15 (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 fD fd F fD' L' FD' Fd Sleeve* FP0.3 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. 3 0.4 1.0 5 4 8 6.3 0.45 0.45 0.45 0.45 1.5 2.0 2.5 2.5 FD+0.5max. L+1.0max. (F4 to F8) Gas escaped end seal (F3) *F8 : coating case ?PART NUMBERING SYSTEM SRM 10 VB 100 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 Note : 4 6.3 10 16 25 35 50 Case size FDBL (mm) Rated ripple current (mArms) at 85C, 120Hz 3B5 22 4B5 40 4B5 5B5 6.3B5 6.3B5 8B5 55 88 8B5 36 78 148 3B5 4B5 5B5 5B5 18 33 47 55 3B5 4B5 5B5 13 25 41 6.3B5 8B5 63 116 3B5 12 6.3B5 8B5 56 85 3B5 3B5 3B5 3B5 3B5 3B5 4B5 4B5 5B5 6.3B5 8B5 1.3 2.9 4.2 5.0 7.2 10 14 19 31 49 76 141 Use next higher voltage part. CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 5mm height, 85C SRM @Coating case covered products are also available @5mm height, 1000-hour-life at 85C @Non solvent-proof downsized SRE ?SPACIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 6.3V 10V 16V 25V 35V 50V 4V Rated voltage (Vdc) 0.35 0.24 0.20 0.16 0.14 0.12 0.10 tanE (Max.) (at 20C, 120Hz) 6.3V 10V 16V 25V 35V 50V 4V Rated voltage (Vdc) 2 2 2 2 3 4 7 Z(-25C)/Z(+20C) 3 3 4 6 8 10 15 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 FD' Fd Sleeve FP0.3 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F3 & F3.5) (F4 to F6.3) Gas escape end seal fD fd F fD' L' 3 0.4 1.0 6.3 5 4 3.5 0.4 0.45 0.45 0.45 1.0 1.5 2.0 2.5 FD+0.5max. L+1.0max. ?PART NUMBERING SYSTEM SRE 6.3 VB 100 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 68 100 4 6.3 10 16 25 35 50 Case size FDBL (mm) Rated ripple current (mArms) at 85C, 120Hz 4B5 3B5 3.5B5 4B5 12 17 23 5B5 38 6.3B5 60 23 3B5 11 4B5 20 5B5 35 6.3B5 3B5 3.5B5 3.5B5 5B5 5B5 10 14 17 26 32 6.3B5 50 3B5 3.5B5 4B5 9.3 12 16 6.3B5 45 3B5 3.5B5 4B5 5B5 5B5 6.3B5 6.3B5 8.3 11 15 20 25 33 40 3B5 3B5 3B5 3B5 3B5 3B5 3B5 3B5 3.5B5 4B5 5B5 6.3B5 6.3B5 1.3 2.0 2.9 3.5 4.2 5.1 6.2 7.5 10 14 19 24 29 54 Note1 : Use next higher voltage part. Note2 : The parts of F3.5B5 will be unified to F4B5. CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 5mm height, 105C KRE @Coating case covered products are also available @5mm height, 1000-hour-life at 105C @Solvent-proof type, see page 16 105C SRE ?SPACIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -55 to +105C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V tanE (Max.) 0.27 0.23 0.19 0.15 0.13 0.11 Add 0.02 for F3 products. (at 20C, 120Hz) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V Z(-25C)/Z(+20C) 3 3 2 2 2 2 Z(-40C)/Z(+20C) (at 120Hz) 9 7 5 3 3 3 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 105C. FD F3 & F3.5 F4 to F6.3 Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. FD F3 & F3.5 F4 to F6.3 Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value FP0.5 fD fd F fD' L' FD' Fd Sleeve FP0.3 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F3 & F3.5) (F4 to F6.3) Gas escape end seal 3 0.4 1.0 6.3 5 4 3.5 0.4 0.45 0.45 0.45 1.0 1.5 2.0 2.5 FD+0.5max. L+1.0max. ?PART NUMBERING SYSTEM KRE 16 VB 47 M Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 68 100 6.3 16 10 25 35 50 Case size FDBL (mm) Rated ripple current (mArms) at 105C, 120Hz 3B5 3.5B5 4B5 12 16 21 5B5 36 6.3B5 56 3B5 11 4B5 20 5B5 34 6.3B5 3B5 3.5B5 3.5B5 5B5 5B5 9.4 13 16 25 30 6.3B5 48 3B5 3.5B5 4B5 8.8 12 16 6.3B5 45 3B5 3.5B5 4B5 5B5 5B5 6.3B5 6.3B5 7.7 11 15 20 25 33 40 3B5 3B5 3B5 3B5 3B5 3B5 3B5 3B5 3.5B5 4B5 5B5 6.3B5 6.3B5 1.3 2.0 2.6 3.2 3.8 4.6 5.6 6.9 10 14 19 24 29 52 Note1 : Use next higher voltage part. Note2 : The parts of F3.5B5 will be unified to F4B5. CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 7mm height, 85C SRG @Coating case covered products are also available @7mm height, 1000-hour-life at 85C @Non solvent-proof downsized SRA ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 63Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 4V 6.3V 10V 16V 25V 35V 50V 63V Rated voltage (Vdc) 0.35 0.24 0.20 0.16 0.14 0.12 0.10 0.08 tanE (Max.) (at 20C, 120Hz) 4V 6.3V 10V 16V 25V 35V 50V 63V Rated voltage (Vdc) 2 2 2 2 2 3 4 4 Z(-25C)/Z(+20C) 3 3 3 4 6 8 10 10 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value 8 6.3 5 4 fD fd 0.45 0.45 0.45 0.45 1.5 2.0 2.5 3.5 F fD' FD+0.5max. L' L+1.0max. FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. Gas escaped end seal ?PART NUMBERING SYSTEM SRA 50 VB R1 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 Note : 6.3 4 10 16 25 35 Case size FDBL (mm) Rated ripple current (mArms) at 85C, 120Hz 4B7 4B7 5B7 6.3B7 26 34 61 95 8B7 154 4B7 31 5B7 47 5B7 6.3B7 8B7 8B7 4B7 5B7 25 39 6.3B7 6.3B7 59 97 43 80 140 6.3B7 6.3B7 53 71 4B7 5B7 6.3B7 6.3B7 8B7 20 30 47 64 83 50 4B7 4B7 4B7 4B7 4B7 4B7 4B7 5B7 6.3B7 6.3B7 8B7 1.3 2.9 3.5 5.0 10 15 18 23 34 57 76 63 4B7 4B7 4B7 4B7 4B7 4B7 5B7 6.3B7 6.3B7 1.3 2.9 4.4 7.9 11 17 21 26 47 156 Use next higher voltage part. CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 7mm height, 105C KMA @Coating case covered products are also available @7mm height, 1000-hour-life at 105C @Solvent-proof type, see page 16 105C SRA ?SPECIFICATIONS Items Characteristics Category Temperature Range -55 to +105C Rated Voltage Range Capacitance Tolerance Leakage Current 4 to 63Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 63V 50V 35V 25V 16V 6.3V 10V 4V Rated voltage (Vdc) 0.10 0.08 0.35 0.22 0.19 0.16 0.14 0.12 tanE (Max.) (at 20C, 120Hz) 63V 50V 35V 25V 16V 6.3V 10V 4V Rated voltage (Vdc) 2 2 2 2 2 2 3 4 Z(-25C)/Z(+20C) 3 3 3 3 3 5 6 10 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 105C. Rated voltage 4 to 16Vdc 25 to 63Vdc Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Rated voltage 4 to 16Vdc 25 to 63Vdc Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life 6.3 5 4 fD fd 0.45 0.45 0.45 1.5 2.0 2.5 F fD' FD+0.5max. L' L+1.0max. FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. Gas escape end seal ?PART NUMBERING SYSTEM KMA 6.3 VB 47 M Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc mF 0.1 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 68 100 220 Note : 4 6.3 10 16 25 35 Case size FDBL (mm) Rated ripple current (mArms) at 105C, 120Hz 4B7 4B7 4B7 5B7 6.3B7 26 34 5B7 4B7 28 5B7 43 6.3B7 6.3B7 63 80 31 47 61 95 4B7 4B7 5B7 5B7 20 25 31 39 6.3B7 59 6.3B7 97 6.3B7 6.3B7 53 71 4B7 5B7 5B7 6.3B7 6.3B7 6.3B7 20 24 30 37 47 64 50 4B7 4B7 4B7 4B7 4B7 4B7 4B7 4B7 4B7 4B7 5B7 6.3B7 6.3B7 1.3 2.0 2.9 3.5 5.0 7.1 10 12 15 18 23 28 34 63 6.3B7 57 4B7 4B7 4B7 4B7 4B7 4B7 4B7 4B7 4B7 5B7 6.3B7 1.3 1.9 2.9 4.4 7.9 9.2 11 13 17 21 26 6.3B7 43 Use next higher voltage part. CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low profile, 85C SRG @Low Profile : F4B7mm to F18B25mm @Endurance : 85C 1000 to 2000 hours @Solvent-proof type, see page 16 downsized SRA downsized low profile SME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 4 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 4V 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.38 0.28 0.24 0.20 0.16 0.14 0.12 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.03 to the value above for each 1000MF increase. (at 20C, 120Hz) 4V 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 6 5 2 2 2 3 4 Z(-25C)/Z(+20C) 12 12 3 4 5 8 10 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours (1000 hours for F8 and smaller) at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value or L' 15min. 4min. (F4 to F10) Vent (F10 and larger) fd FP0.5 FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] (F12.5 to F18) Gas escape end seal 10 & 12.5 16 & 18 8 6.3 4 5 fD 7L 0.45 0.45 0.45 0.45 0.5 0.5 0.6 0.6 0.8 ]9L 5.0 7.5 1.5 2.0 2.5 3.5 F fD' FD+0.5max. L' L+1.5max. (7L : L+1.0max.) ?PART NUMBERING SYSTEM SRG 10 VB 220 M H07 Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 ?CASE CODE fD (mm) L (mm) 4 5 6.3 8 10 12.5 16 18 7 D07 E07 F07 H07 9 12.5 E09 F09 H09 J09 J12 13 15 20 25 K13 K15 L15 M15 M20 M25 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low profile, 85C ?STANDARD RATINGS Vdc mF 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 10,000 6.3 10 16 25 35 50 5B9 5B9 6.3B9 6.3B9 Note : 5B9 6.3B9 132 218 8B9 8B9 10B9 12.5B13 16B15 18B15 18B20 18B25 247 10B9 505 16B15 18B15 18B20 1,410 1,660 2,020 8B9 10B12.5 12.5B15 16B15 18B15 18B20 18B25 385 625 970 1,310 1,560 1,870 2,370 290 355 410 715 1,160 1,460 1,770 2,170 10B9 10B12.5 12.5B15 18B15 18B20 18B25 105 172 380 525 830 1,360 1,720 2,070 5B9 5B9 5B9 5B9 5B9 5B9 6.3B9 6.3B9 10B9 10B12.5 12.5B13 16B15 18B20 94 8B9 10B9 10B12.5 12.5B13 16B15 18B20 220 335 475 585 1,010 1,560 13 26 32 38 64 86 113 135 240 415 525 745 1,160 Rated ripple current (mArms) at 85C, 120Hz Case size FDBL (mm) Use next higher voltage part. ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 Note : 4 10 6.3 4B7 4B7 5B7 6.3B7 8B7 8B7 50 87 133 191 8B7 16 25 4B7 42 5B7 6.3B7 73 110 46 171 5B7 6.3B7 35 66 80 4B7 5B7 6.3B7 8B7 50 32 57 73 101 4B7 4B7 4B7 4B7 4B7 4B7 4B7 4B7 5B7 6.3B7 8B7 1.3 2.9 3.5 5.0 10 15 19 24 42 64 93 Rated ripple current (mArms) at 85C, 120Hz Case size FDBL (mm) 154 Use next higher voltage part. ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) to 4.7 10 to 47 100 to 1,000 2,200 to 50 0.65 0.75 0.80 0.85 120 1.00 1.00 1.00 1.00 300 1.35 1.25 1.15 1.03 1k 1.75 1.50 1.30 1.05 10k 2.30 1.75 1.40 1.08 100k 2.50 1.80 1.50 1.08 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low profile, 105C KRG @Low profile : F4B7mm to F18B25mm @Endurance : 105C 1000 hours @Solvent-proof type, see page 16 downsized KMA downsized low profile KME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -55 to +105C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.28 0.24 0.20 0.16 0.14 0.12 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.03 to the value above for each 1000MF increase. (at 20C, 120Hz) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 2 2 2 3 5 4 Z(-25C)/Z(+20C) 3 3 4 6 8 10 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 105C. Rated voltage 6.3 to 16Vdc 25 to 50Vdc Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. 25 to 50Vdc Rated voltage 6.3 to 16Vdc Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value FP0.5 FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] or L' 15min. 4min. (F4 to F10) Vent (F10 and larger) (F12.5 to F18) Gas escape end seal 6.3 4 10 & 12.5 5 8 fD 7 7L 0.45 0.45 0.45 0.45 fd 0.5 0.5 0.6 0.6 ]9L 5.0 1.5 2.0 2.5 2.5 3.5 F fD' FD+0.5max. L' L+1.5max. (7L : L+1.0max.) 16 & 18 0.8 7.5 ?PART NUMBERING SYSTEM KRG 6.3 VB 1000 M J09 Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 ?CASE CODE fD (mm) L (mm) 4 5 6.3 7 8 10 12.5 16 18 7 D07 E07 F07 G07 9 12.5 13 15 20 25 K13 K15 L15 M15 M20 M25 E09 F09 H09 J09 J12 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low profile, 105C ?STANDARD RATINGS Vdc mF 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 10,000 6.3 10 16 25 35 Case size FDBL (mm) Rated ripple current (mArms) at 105C, 120Hz 5B9 93 154 5B9 6.3B9 6.3B9 175 10B9 365 16B15 18B15 18B20 Note : 1,010 1,190 1,440 272 445 690 940 1,120 1,330 1,700 8B9 10B12.5 12.5B15 16B15 18B15 18B20 18B25 75 121 5B9 6.3B9 205 251 290 515 830 1,050 1,260 1,560 8B9 8B9 10B9 12.5B13 16B15 18B15 18B20 18B25 10B9 10B12.5 12.5B15 18B15 18B20 18B25 270 370 590 970 1,220 1,470 67 8B9 10B9 10B12.5 12.5B13 16B15 18B20 155 235 340 415 720 1,110 50 5B9 5B9 5B9 5B9 5B9 5B9 6.3B9 6.3B9 10B9 10B12.5 12.5B13 16B15 18B20 12 18 22 27 46 61 80 95 170 290 370 535 830 Use next higher voltage part. ?STANDARD RATINGS Vdc mF 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 Note : 6.3 10 16 25 35 50 Case size FDBL (mm) Rated ripple current (mArms) at 105C, 120Hz 4B7 5B7 35 5B7 6.3B7 6.3B7 50 6.3B7 80 53 68 97 4B7 5B7 6.3B7 6.3B7 30 46 63 71 5B7 6.3B7 6.3B7 36 57 64 4B7 4B7 4B7 4B7 4B7 4B7 4B7 4B7 6.3B7 6.3B7 1.3 2.9 3.5 5 10 15 18 25 44 57 Use next higher voltage part. ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 0.1 to 4.7 10 to 47 100 to 1,000 2,200 to 50 0.65 0.75 0.80 0.85 120 1.00 1.00 1.00 1.00 300 1.35 1.25 1.15 1.03 1k 1.75 1.50 1.30 1.05 10k 2.30 1.75 1.40 1.08 100k 2.50 1.80 1.50 1.08 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 85C SMG @Downsized from current standard SME series @Endurance : 85C 2000 hours @Solvent-proof type, except 350 to 450Vdc, see page 16 downsized SME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Low Temperature Characteristics (Max. Impedance Ratio) Shelf Life -25 to +85C(450Vdc) 6.3 to 450Vdc P20% (M) 6.3 to 100Vdc [F18 I=0.03CV or 4MA, whichever is greater. Dissipation Factor (tane) Endurance -40 to +85C(6.3 to 400Vdc) (at 20C, 120Hz) 160 to 450Vdc Time After 1minute CV CV[1000 I=0.1CV+40 CV>1000 I=0.04CV+100 After 5minutes I=0.03CV+15 I=0.02CV+25 (at 20C) (at 20C after 1 minute) (at 20C after 3 minutes) ]F20 I=0.03CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 315 to 400V 450V [F18 0.24 0.20 0.24 0.34 0.24 0.20 0.16 0.14 0.12 0.09 0.08 tanE (Max.) ]F20 0.15 0.15 0.20 0.28 0.24 0.20 0.16 0.14 0.12 0.09 0.08 (at 20C, 120Hz) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 315 to 400V 450V Z(-25C)/Z(+20C) [F18 6 2 2 2 2 2 3 4 5 6 3 ]F20 6 2 2 2 2 2 3 4 5 6 4 Z(-40C)/Z(+20C) [F18 3 3 3 4 5 8 10 12 6 4 - (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Rated voltage 6.3 to 100Vdc 160 to 450Vdc Capacitance change [P20% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [500% of the initial specified value ?PART NUMBERING SYSTEM SMG 6.3 VB 1000 M Case code (]F20) Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 ?CASE CODE [mm] Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL 20S 20A 20B 20C 20D 20B20 20B25 20B30 20B35 20B40 22B 22C 22D 22B30 22B35 22B40 25D 25.4B40 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 85C FP0.5 Fd Sleeve FD' f5 to f18 FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent (except F5) 4min. (F5 to F10) (F12.5 to F18) Fd Sleeve FP0.5 Gas escape end seal fD fd F fD' L' FD' ]f20 15min. L' Vent 15min. 4min. 5 0.5 2.0 6.3 0.5 2.5 8 10 12.5 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 20 22 25.4 0.8 1.0 1.0 1.0 7.5 10.0 10.0 12.5 FD+0.5max. L+2.0max. ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers (F5 to F18) Capacitance (mF) Frequency (Hz) 0.1 to 4.7 10 to 47 100 to 1,000 2,200 to (F20 to F25.4) 50 0.65 0.75 0.80 0.85 120 1.00 1.00 1.00 1.00 300 1.35 1.25 1.15 1.03 1k 1.75 1.50 1.30 1.05 10k 2.30 1.75 1.40 1.08 100k 2.50 1.80 1.50 1.08 Frequency (Hz) Rated Voltage (Vde) 6.3 to 50 63 to 100 160 to 250 315 to 450 50 0.95 0.92 0.81 0.77 120 1.00 1.00 1.00 1.00 300 1.03 1.07 1.17 1.16 1k 1.05 1.13 1.32 1.30 10k 1.08 1.19 1.45 1.41 100k 1.08 1.20 1.50 1.43 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 85C ?STANDARD RATINGS Vdc mF 6.3 10 16 25 35 50 63 100 0.1 5B11 1.3 5B11 0.22 5B11 2.9 5B11 4.7 0.33 5B11 4.3 5B11 7 6.2 0.47 5B11 2.1 5B11 10 5B11 17 5B11 21 2.2 5B11 28 5B11 30 3.3 5B11 35 5B11 40 4.7 5B11 41 5B11 45 10 5B11 60 5B11 65 22 5B11 95 5B11 100 5B11 125 6.3B11 6.3B11 155 6.3B11 Case size FDBL (mm) 1.0 Rated ripple current (mArms) at 85C, 120Hz 33 47 100 220 330 470 5B11 200 5B11 240 6.3B11 270 6.3B11 290 6.3B11 320 6.3B11 350 130 140 8B11.5 180 170 10B12.5 230 5B11 115 5B11 130 6.3B11 190 6.3B11 210 8B11.5 260 10B12.5 300 10B20 370 5B11 160 6.3B11 260 8B11.5 330 8B11.5 385 10B12.5 430 10B16 490 12.5B25 620 370 8B11.5 440 10B12.5 490 10B16 585 10B20 710 12.5B25 760 8B11.5 8B11.5 440 10B12.5 545 10B16 645 10B20 755 820 8B11.5 540 10B12.5 650 10B16 785 10B20 955 12.5B20 1,145 12.5B25 1,340 1,500 20B20 1,000 10B20 1,070 12.5B20 1,295 12.5B25 1,540 10B20 1,185 12.5B20 1,420 12.5B25 1,655 20B30 1,360 1,370 22B30 1,540 16B25 1,300 18B40 1,380 20B25 1,600 20B35 1,720 22B40 1,980 25.4B40 2,490 1,570 20B30 1,850 1,785 16B35.5 2,075 20B35 2,330 20B20 1,670 20B25 1,880 22B30 2,190 20B30 2,150 20B40 2,640 3,300 22B40 2,810 25.4B40 3,100 16B25 1,975 16B35.5 2,275 18B35.5 2,500 20B20 1,850 20B25 20B35 2,420 22B30 2,420 20B40 2,590 22B35 2,590 22B40 2,960 25.4B40 3,360 3,900 12.5B20 1,545 12.5B25 1,780 4,700 20B30 2,310 16B25 2,090 16B31.5 2,420 18B35.5 2,700 20B20 1,960 20B25 2,420 20B35 2,510 22B30 2,380 20B40 2,690 22B35 2,690 22B40 3,090 25.4B40 3,480 5,600 12.5B25 1,915 6,800 10,000 18,000 22,000 27,000 2,220 16B31.5 2,520 18B35.5 2,880 20B20 2,080 20B25 2,330 20B35 2,680 22B30 2,510 20B40 2,810 22B35 2,810 22B40 3,240 20B30 2,500 2,330 16B35.5 2,670 18B35.5 2,920 20B25 2,310 20B25 2,410 20B35 2,720 22B30 2,660 20B40 2,900 22B35 2,900 22B40 3,240 22B40 3,380 25.4B40 3,610 25.4B40 3,720 20B30 2,620 16B35.5 2,845 18B35.5 3,080 20B30 2,660 20B35 2,870 22B30 2,660 22B35 3,050 22B40 3,480 25.4B40 3,560 20B35 2,890 22B30 2,860 18B40 3,320 20B40 3,130 22B35 3,130 22B40 3,280 25.4B40 3,560 33,000 39,000 2,430 16B25 12,000 15,000 20B30 16B25 8,200 2,050 1,000 20B20 16B25 2,700 870 16B25 900 1,800 10B20 20B20 12.5B20 1,200 2,200 75 8B11.5 680 1,000 6.3B11 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Downsized, 85C ?STANDARD RATINGS Vdc mF Non solvent-proof 160 200 0.47 250 6.3B11 2.2 3.3 6.3B11 40 4.7 6.3B11 48 10B12.5 94 22 33 47 350 Case size FDBL (mm) Rated ripple current (mArms) at 85C, 120Hz 1.0 10 315 400 6.3B11 15 6.3B11 22 8B11.5 38 10B12.5 32 8B11.5 46 8B11.5 46 10B12.5 54 10B16 44 8B11.5 55 8B11.5 55 10B12.5 65 10B16 71 10B20 56 10B12.5 94 10B16 105 10B20 115 10B20 115 12.5B20 91 16B25 165 10B20 170 10B20 170 10B20 170 12.5B20 185 12.5B25 205 20B20 180 10B20 205 10B20 205 12.5B20 230 16B25 275 16B25 275 16B31.5 215 20B20 260 20B25 240 16B31.5 350 16B35.5 265 20B25 290 12.5B20 270 12.5B20 270 12.5B25 295 20B20 20B25 20B20 12.5B25 430 100 475 16B31.5 515 20B20 460 20B25 490 20B25 20B25 180 420 16B25 120 660 20B30 530 680 18B40 825 16B31.5 760 20B30 750 20B35 780 20B25 730 18B35.5 810 22B30 820 20B30 830 20B40 880 22B35 880 22B40 1,060 25.4B40 1,200 270 18B35.5 995 20B35 1,070 20B30 920 22B30 1,070 20B35 1,160 20B40 1,190 22B30 1,160 22B30 1,160 22B40 1,350 20B40 1,340 22B35 1,340 560 22B40 1,470 22B40 1,430 680 25.4B40 1,570 25.4B40 1,620 470 19 38 40 6.3B11 82 390 10B12.5 8B11.5 68 330 13 22 32 310 16B25 325 20B20 310 56 220 6.3B11 450 10B12.5 20B25 20B30 20B30 400 20B25 400 20B25 350 20B30 320 20B30 420 20B35 370 22B30 370 20B40 420 22B35 420 22B40 470 25.4B40 520 440 500 550 20B40 720 22B35 720 22B40 810 25.4B40 920 18B31.5 530 20B30 500 20B35 25.4B40 560 20B35 520 22B30 520 20B40 580 22B35 580 25.4B40 790 890 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Standard, Downsized, 105C KMG @Downsized from current standard KME series @Solvent-proof type, except 350 to 450Vdc, see page 16 downsized KME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current 6.3 to 450Vdc P20% (M) 6.3 to 100Vdc I=0.03CV or 4MA, whichever is greater. Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -55 to +105C(6.3 to 100Vdc) -40 to +105C(160 to 400Vdc) -25 to +105C(450Vdc) (at 20C, 120Hz) 160 to 450Vdc Time After 1minute CV CV[1000 I=0.1CV+40 CV>1000 I=0.04CV+100 After 5minutes I=0.03CV+15 I=0.02CV+25 (at 20C after 1 minute) (at 20C) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 350 to 400V 450V tanE (Max.) 0.34 0.24 0.20 0.16 0.14 0.12 0.10 0.08 0.24 0.20 0.24 When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 350 to 400V 450V Z(-25C)/Z(+20C) 6 2 2 2 2 2 3 4 5 3 6 Z(-40C)/Z(+20C) (at 120Hz) 3 3 3 4 5 8 10 12 4 6 The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 1000 hours (2000 hours to meet the following two conditions 1) : 160Vdc and larger, 2) : F12.5 and larger) at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Rated voltage 6.3 to 100Vdc 160 to 450Vdc Capacitance change [P20% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [500% of the initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) Vent (except F5) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max 16 0.8 7.5 18 0.8 7.5 Gas escape end seal ?PART NUMBERING SYSTEM KMG 6.3 VB 1000 M Capacitance tolerance (P20%) Nominal capacitance code Radial lead type Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Standard, Downsized, 105C ?STANDARD RATINGS Vdc mF 10 6.3 16 50 35 25 100 63 0.1 5B11 1.3 5B11 1.5 0.22 5B11 2.9 5B11 3.4 0.33 5B11 4.3 5B11 5.0 0.47 5B11 6.2 5B11 1.0 5B11 13 5B11 15 7.1 2.2 Case size FDBL (mm) 5B11 20 5B11 21 3.3 Rated ripple current (mArms) at 105C, 120Hz 5B11 25 5B11 29 5B11 30 5B11 32 10 5B11 40 5B11 46 6.3B11 54 22 5B11 65 5B11 71 8B11.5 93 33 5B11 90 6.3B11 100 8B11.5 130 6.3B11 4.7 47 100 5B11 80 5B11 90 110 6.3B11 120 10B12.5 165 6.3B11 130 6.3B11 150 8B11.5 180 10B12.5 215 10B20 265 8B11.5 270 10B12.5 300 10B16 335 12.5B25 440 5B11 110 6.3B11 180 8B11.5 230 220 5B11 140 6.3B11 170 330 6.3B11 190 6.3B11 200 8B11.5 260 8B11.5 310 10B12.5 350 10B16 410 10B20 510 16B25 540 470 6.3B11 230 8B11.5 250 8B11.5 310 10B12.5 380 10B16 460 10B20 530 12.5B20 640 16B31.5 715 380 10B12.5 460 10B16 560 10B20 680 12.5B20 810 12.5B25 950 16B25 930 18B40 985 710 10B20 760 12.5B20 920 12.5B25 1,090 16B25 1,260 16B35.5 1,470 18B35.5 1,770 1,000 8B11.5 2,200 10B20 3,300 10B20 840 12.5B20 1,000 12.5B25 1,170 16B25 1,400 16B35.5 1,610 4,700 12.5B20 1,090 12.5B25 1,260 16B25 1,480 16B31.5 1,710 18B35.5 1,910 18B35.5 2,040 6,800 12.5B25 1,350 16B25 1,570 16B31.5 1,780 10,000 16B25 1,650 16B35.5 1,890 18B35.5 2,060 15,000 16B35.5 2,010 18B35.5 2,180 22,000 18B40 2,350 Non solvent-proof Vdc mF 160 200 250 350 400 0.47 6.3B11 11 1.0 6.3B11 15 6.3B11 450 15 10B12.5 9 10B12.5 13 23 8B11.5 26 8B11.5 26 10B12.5 23 28 8B11.5 32 10B12.5 38 10B12.5 38 10B16 31 39 8B11.5 39 10B16 50 10B16 50 10B20 40 10B16 74 10B20 80 10B20 80 12.5B20 65 12.5B20 130 12.5B20 130 12.5B25 145 16B25 115 160 12.5B20 160 16B25 195 16B25 195 16B31.5 155 195 12.5B25 210 16B25 230 16B31.5 250 16B35.5 185 16B31.5 365 18B31.5 375 16B40 350 18B40 585 6.3B11 2.2 3.3 6.3B11 28 4.7 6.3B11 34 10 10B12.5 67 10B16 74 22 10B20 120 10B20 120 33 10B20 145 12.5B20 47 12.5B20 195 12.5B20 100 16B25 335 16B25 335 220 16B31.5 540 18B35.5 575 330 18B35.5 705 6.3B11 8B11.5 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 0.1 to 4.7 10 to 47 100 to 1,000 2,200 to 50 0.65 0.75 0.80 0.85 120 1.00 1.00 1.00 1.00 300 1.35 1.25 1.15 1.03 1k 1.75 1.50 1.30 1.05 10k 2.30 1.75 1.40 1.08 100k 2.50 1.80 1.50 1.08 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS @Endurance : 85C 2000 hours @Solvent-proof type, except 350 to 450Vdc, see page 16 SMG Standard, 85C SME downsized ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current 6.3 to 450Vdc P20% (M) 6.3 to 100Vdc I=0.03CV or 4MA, whichever is greater. I=0.01CV or 3MA, whichever is greater. Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C (6.3 to 400Vdc) -25 to +85C (450Vdc) (at 20C, 120Hz) 160 to 450Vdc Time After 1minute (at 20C after 1 minute) CV (at 20C after 2 minutes) CV[1000 I=0.1CV+40 CV>1000 I=0.04CV+100 After 5minutes I=0.03CV+15 I=0.02CV+25 (at 20C) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 350 to 400V 450V tanE (Max.) 0.24 0.22 0.19 0.16 0.14 0.12 0.10 0.09 0.08 0.20 0.24 When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 350 to 400V 450V Z(-25C)/Z(+20C) 16 2 2 2 2 2 2 3 6 4 3 Z(-40C)/Z(+20C) (at 120Hz) 3 3 3 3 3 4 6 6 8 4 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 85C. Rated voltage 6.3 to 100Vdc 160 to 400Vdc 450Vdc Capacitance change [P20% of the initial value [P20% of the initial value [P20% of the initial value DF (tanE) [150% of the initial specified value [200% of the initial specified value [150% of the initial specified value Leakage current [The initial specified value [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Rated voltage 6.3 to 100Vdc 160 to 400Vdc 450Vdc Capacitance change [P20% of the initial value [P20% of the initial value [P20% of the initial value DF (tanE) [150% of the initial specified value [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [500% of the initial specified value [500% of the initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) Vent (except F5) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max 16 0.8 7.5 18 0.8 7.5 Gas escape end seal ?PART NUMBERING SYSTEM SME 6.3 VB 1000 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 0.1 to 4.7 10 to 47 100 to 1,000 2,200 to 50 0.65 0.75 0.80 0.85 120 1.00 1.00 1.00 1.00 300 1.35 1.25 1.15 1.03 1k 1.75 1.50 1.30 1.05 10k 2.30 1.75 1.40 1.08 100k 2.50 1.80 1.50 1.08 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Standard, 85C ?STANDARD RATINGS Vdc mF 10 6.3 16 50 35 25 100 63 0.1 5B11 1.3 5B11 2.6 0.22 5B11 2.9 5B11 5.8 0.33 5B11 4.4 5B11 0.47 5B11 7 5B11 12 8.8 5B11 13 5B11 22 2.2 Case size FDBL (mm) 5B11 29 5B11 33 3.3 Rated ripple current (mArms) at 85C, 120Hz 5B11 35 5B11 40 5B11 42 5B11 45 5B11 48 10 5B11 65 5B11 70 6.3B11 22 5B11 95 6.3B11 115 6.3B11 1.0 4.7 33 135 5B11 105 6.3B11 125 140 10B12.5 195 6.3B11 145 6.3B11 150 8B11.5 190 10B16 255 255 10B12.5 320 12.5B20 450 5B11 110 5B11 115 6.3B11 180 6.3B11 190 8B11.5 240 47 80 8B11.5 100 5B11 130 5B11 145 220 6.3B11 230 6.3B11 250 8B11.5 300 8B11.5 320 10B12.5 420 10B16 490 10B20 565 16B25 810 330 6.3B11 280 8B11.5 350 8B11.5 370 10B12.5 470 10B16 570 10B20 650 12.5B20 765 16B25 990 380 8B11.5 415 10B12.5 520 10B16 620 10B20 740 12.5B20 860 12.5B25 990 16B31.5 1,250 12.5B25 1,530 8B11.5 470 650 10B16 790 10B20 910 12.5B20 1,090 2,200 12.5B20 1,150 12.5B20 1,240 12.5B25 1,420 16B25 1,660 3,300 12.5B20 1,380 12.5B25 1,590 16B25 1,840 16B31.5 4,700 16B25 1,880 16B25 1,980 16B31.5 2,260 18B35.5 6,800 16B25 2,120 16B31.5 2,390 18B35.5 2,690 18B40 2,830 10,000 16B31.5 2,500 18B35.5 2,840 18B40 2,920 15,000 18B35.5 2,990 10B12.5 1,000 8B11.5 1,300 16B25 16B31.5 1,890 18B35.5 2,160 2,070 18B35.5 2,340 2,520 18B40 2,690 16B31.5 1,700 Non solvent-proof Vdc mF 160 200 250 350 0.47 6.3B11 12 6.3B11 12 6.3B11 12 1.0 6.3B11 17 6.3B11 17 6.3B11 2.2 6.3B11 26 6.3B11 26 8B11.5 400 450 8B11.5 15 17 8B11.5 22 8B11.5 22 10B12.5 25 30 10B12.5 39 10B12.5 39 10B16 42 56 3.3 8B11.5 36 8B11.5 36 10B12.5 43 10B16 53 10B16 53 10B20 4.7 8B11.5 44 10B12.5 51 10B12.5 51 10B16 63 10B20 69 12.5B20 75 10B16 83 10B16 83 10B20 90 12.5B20 115 12.5B20 115 12.5B25 120 22 10B20 130 10B20 130 12.5B25 160 12.5B25 180 16B25 200 16B31.5 210 33 12.5B20 180 12.5B25 190 12.5B25 190 16B25 245 16B31.5 265 18B35.5 275 47 12.5B25 230 12.5B25 230 16B25 260 16B31.5 315 16B35.5 325 100 16B25 380 16B31.5 400 18B35.5 440 18B40 500 220 18B35.5 640 18B40 660 10 ?MAXIMUM ESR mF Vdc 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 10,000 15,000 6.3 3.70 1.66 1.11 0.776 0.370 0.181 0.131 0.0988 0.0781 0.0630 0.0531 (O) at 20C, 120Hz 10 3.15 1.43 0.955 0.671 0.315 0.158 0.116 0.0882 0.0707 0.0581 16 5.65 2.65 1.21 0.804 0.565 0.265 0.136 0.101 0.0776 0.0634 0.0531 25 4.94 2.32 1.06 0.704 0.494 0.232 0.121 0.0905 0.0706 0.0585 35 6.03 4.23 1.99 0.905 0.603 0.423 0.199 0.106 0.0804 0.0635 50 1,660 754 503 353 166 75.4 50.3 35.3 16.6 7.54 5.03 3.53 1.66 0.754 0.503 0.353 0.166 0.0905 63 31.8 14.9 6.79 4.52 3.18 1.49 0.679 0.452 0.318 0.149 100 1,330 603 402 282 133 60.3 40.3 28.2 13.3 6.03 4.02 2.82 1.33 0.603 0.402 0.282 160 to 250 350 to 450 706 332 151 101 70.6 33.2 15.1 10.1 7.06 3.32 1.51 847 398 181 121 84.7 39.8 18.1 12.1 8.47 3.98 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS @Endurance with ripple current : 105C 1000 hours @Solvent-proof type, except 350 to 400Vdc, see page 16 Standard, 105C KME KMG downsized ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -55 to +105C(6.3 to 100Vdc) -40 to +105C(160 to 400Vdc) 6.3 to 400Vdc P20% (M) 6.3 to 100Vdc I=0.03CV or 4MA, whichever is greater. I=0.01CV or 3MA, whichever is greater. (at 20C, 120Hz) 160 to 400Vdc Time After 1minute (at 20C after 1 minute) CV (at 20C after 2 minutes) CV[1000 I=0.1CV+40 CV>1000 I=0.04CV+100 After 5minutes I=0.03CV+15 I=0.02CV+25 (at 20C) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 350 to 400V tanE (Max.) 0.22 0.19 0.16 0.14 0.12 0.10 0.09 0.08 0.20 0.24 When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 350 to 400V Z(-25C)/Z(+20C) 6 3 2 2 2 2 2 2 3 4 Z(-40C)/Z(+20C) (at 120Hz) 6 4 3 3 3 3 3 4 6 8 The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 1000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Rated voltage 6.3 to 100Vdc 160 to 400Vdc Capacitance change [P20% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [500% of the initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) Vent (except F5) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max 16 0.8 7.5 18 0.8 7.5 Gas escape end seal ?PART NUMBERING SYSTEM KME 50 VB R1 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 0.1 to 4.7 10 to 47 100 to 1,000 2,200 to 50 0.65 0.75 0.80 0.85 120 1.00 1.00 1.00 1.00 300 1.35 1.25 1.15 1.03 1k 1.75 1.50 1.30 1.05 10k 2.30 1.75 1.40 1.08 100k 2.50 1.80 1.50 1.08 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Standard, 105C ?STANDARD RATINGS Vdc mF 10 6.3 16 50 35 25 100 63 0.1 5B11 1.3 5B11 2.6 0.22 5B11 2.9 5B11 5.8 0.33 5B11 4.4 5B11 0.47 5B11 7 5B11 10 7.8 5B11 13 5B11 15 2.2 Case size FDBL (mm) 5B11 20 5B11 23 3.3 Rated ripple current (mArms) at 105C, 120Hz 5B11 25 5B11 29 5B11 30 5B11 32 5B11 34 10 5B11 46 5B11 50 6.3B11 56 22 5B11 68 6.3B11 82 8B11.5 96 6.3B11 100 10B12.5 140 1.0 4.7 33 110 8B11.5 135 10B16 180 180 10B12.5 225 12.5B20 320 8B11.5 170 8B11.5 230 10B12.5 300 10B16 345 10B20 400 16B25 570 260 10B12.5 335 10B16 400 10B20 460 12.5B20 540 16B25 700 10B12.5 370 10B16 440 10B20 520 12.5B20 610 12.5B25 700 16B31.5 880 550 10B20 640 12.5B20 770 12.5B25 920 16B25 1,080 6.3B11 160 6.3B11 175 8B11.5 215 330 6.3B11 195 8B11.5 245 8B11.5 8B11.5 290 10B16 6.3B11 82 135 220 460 100 5B11 6.3B11 105 10B12.5 6.3B11 77 5B11 1,000 90 125 95 270 6.3B11 5B11 5B11 8B11.5 75 6.3B11 47 100 470 5B11 2,200 12.5B20 810 12.5B20 860 12.5B25 1,000 16B25 1,170 16B31.5 1,340 3,300 12.5B20 960 12.5B25 1,100 16B25 1,300 16B31.5 1,460 18B35.5 1,650 4,700 16B25 1,330 16B25 1,400 16B31.5 1,600 18B35.5 1,780 18B40 1,900 6,800 16B25 1,500 16B31.5 1,690 18B35.5 1,900 18B40 1,950 10,000 16B31.5 1,765 18B35.5 1,950 18B40 2,060 15,000 18B35.5 2,075 8B11.5 16B31.5 1,210 18B35.5 1,530 Non solvent-proof Vdc mF 160 200 250 350 400 8B11.5 10 12 10B12.5 18 10B12.5 18 21 10B16 30 10B16 30 0.47 6.3B11 9 6.3B11 9 6.3B11 9 1.0 6.3B11 12 6.3B11 12 6.3B11 2.2 6.3B11 19 6.3B11 19 8B11.5 3.3 8B11.5 26 8B11.5 26 10B12.5 30 10B16 37 10B20 40 4.7 8B11.5 31 10B12.5 36 10B12.5 36 10B20 48 10B25 52 10 10B16 59 10B16 59 10B20 64 12.5B20 79 12.5B25 79 22 10B20 95 10B20 95 12.5B25 110 16B20 130 16B25 145 33 12.5B20 125 12.5B25 140 12.5B25 140 16B25 175 16B31.5 185 47 12.5B25 165 12.5B25 165 16B25 180 16B35.5 230 18B31.5 230 100 16B25 270 16B31.5 285 18B35.5 310 18B40 330 220 18B35.5 450 18B40 470 ?MAXIMUM ESR mF Vdc 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 10,000 15,000 6.3 3.70 1.66 1.11 0.776 0.370 0.181 0.131 0.0988 0.0781 0.0630 0.0531 (O) at 20C, 120Hz 10 3.15 1.43 0.955 0.671 0.315 0.158 0.116 0.0882 0.0707 0.0581 16 5.65 2.65 1.21 0.804 0.565 0.265 0.136 0.101 0.0776 0.0634 0.0531 25 4.94 2.32 1.06 0.704 0.494 0.232 0.121 0.0905 0.0706 0.0585 35 6.03 4.23 1.99 0.905 0.603 0.423 0.199 0.106 0.0804 0.0635 50 1,660 754 503 353 166 75.4 50.3 35.3 16.6 7.54 5.03 3.53 1.66 0.754 0.503 0.353 0.166 0.0905 63 31.8 14.9 6.79 4.52 3.18 1.49 0.679 0.452 0.318 0.149 100 1,330 603 402 282 133 60.3 40.3 28.2 13.3 6.03 4.02 2.82 1.33 0.603 0.402 0.282 160 to 250 350 to 400 706 332 151 101 70.6 33.2 15.1 10.1 7.06 3.32 1.51 847 398 181 121 84.7 39.8 18.1 12.1 8.47 3.98 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS @Endurance : 105C 4000 to 7000 hours @Long life and impedance specified version of KME series @Non solvent-proof KMY Long life, 105C KME longer life ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 10 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.19 0.16 0.14 0.12 0.10 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) 10V 16V 25V 35V 50V Rated voltage (Vdc) 2 2 2 2 3 Z(-25C)/Z(+20C) 3 3 3 4 6 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time F5 & 6.3 : 4000hours F8 & 10 : 5000hours F12.5 and larger : 7000hours Capacitance change [P25% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P25% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 0.8 7.5 Gas escape end seal Vent (except F5 & F6.3) ?PART NUMBERING SYSTEM KMY 50 VB 1000 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.47MF 1.0MF 4.7MF 10MF 100MF Code R47 1 4R7 10 100 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Long life, 105C ?STANDARD RATINGS Vdc Items 10 Case size fDbL (mm) mF 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 10,000 5B11.5 6.3B11.5 8B12 8B12 10B16 12.5B20 12.5B25 16B25 16B31.5 18B35.5 33 47 100 220 330 470 1,000 2,200 3,300 4,700 5B11.5 5B11.5 6.3B11.5 8B12 10B12.5 10B16 12.5B20 16B25 16B31.5 18B35.5 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 2,200 -10c 3.6 3.6 1.6 1.0 0.65 0.46 0.21 0.096 0.087 0.058 20c 0.9 0.9 0.4 0.25 0.16 0.12 0.062 0.034 0.029 0.025 Rated ripple current (mArms/105c, 100kHz) 150 150 245 395 580 765 1,300 1,850 2,000 2,200 fDbL (mm) 5B11.5 6.3B11.5 8B12 8B12 10B12.5 10B20 12.5B25 16B25 16B31.5 18B35.5 Impedance (omax/100kHz) 5B11.5 5B11.5 5B11.5 5B11.5 5B11.5 5B11.5 5B11.5 6.3B11.5 6.3B11.5 8B12 10B16 10B20 12.5B20 16B25 18B35.5 Impedance (omax/100kHz) 20c 5.5 4.0 2.5 2.2 1.9 1.5 0.9 0.4 0.4 0.25 0.12 0.088 0.062 0.034 0.025 -10c 3.6 1.6 1.0 1.0 0.65 0.30 0.16 0.096 0.087 0.058 20c 0.9 0.4 0.25 0.25 0.16 0.078 0.048 0.034 0.029 0.025 Rated ripple current (mArms/105c, 100kHz) 150 245 395 395 580 1,010 1,650 1,850 2,000 2,200 Case size fDbL (mm) 5B11.5 6.3B11.5 8B12 10B12.5 10B16 10B20 12.5B25 16B31.5 18B35.5 Impedance (omax/100kHz) 20c 0.9 0.4 0.25 0.16 0.12 0.078 0.048 0.029 0.025 -10c 3.6 1.6 1.0 0.65 0.46 0.30 0.16 0.087 0.058 Rated ripple current (mArms/105c, 100kHz) 150 245 395 580 765 1,010 1,650 2,000 2,200 ?RATED RIPPLE CURRENT MULTIPLIERS 50 Case size fDbL (mm) mF 150 245 395 395 765 1,300 1,650 1,850 2,000 2,200 Case size 35 Impedance (omax/100kHz) Vdc Items 3.6 1.6 1.0 1.0 0.46 0.21 0.16 0.096 0.087 0.058 0.9 0.4 0.25 0.25 0.12 0.062 0.048 0.034 0.029 0.025 Rated ripple current (mArms/105c, 100kHz) 25 Case size fDbL (mm) mF -10c 20c Vdc Items 16 Impedance (omax/100kHz) -10c 22.0 16.0 10.0 8.8 7.6 6.0 3.6 1.6 1.6 1.0 0.46 0.34 0.21 0.096 0.058 Rated ripple current (mArms/105c, 100kHz) 17 30 43 53 88 100 150 245 245 395 765 1,010 1,300 1,850 2,200 @Frequency Multipliers Capacitance (mF) Frequency (Hz) 0.47 to 4.7 10 to 330 470 to 1,000 2,200 to 10,000 120 0.40 0.55 0.70 0.80 1k 0.70 0.80 0.85 0.95 10k 0.90 0.95 0.95 1.00 100k 1.00 1.00 1.00 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Bi-polarized, 85C SME-BP @Standard Bi-polarized type @Endurance : 85C 2000 hours @Solvent-proof type, see page 16 bi-polarized SME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C 6.3 to 100Vdc P20% (M) (at 20C, 120Hz) I=0.06CV or 10MA, whichever is greater. (at 20C after 2 minutes) I=0.03CV or 3MA, whichever is greater. (at 20C after 5 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V Rated voltage (Vdc) 0.24 0.24 0.20 0.20 0.16 0.14 0.12 0.12 0.10 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) 16V 25V 35V 50V 63V 80V 100V 6.3V 10V Rated voltage (Vdc) 2 2 2 2 2 2 2 4 3 Z(-25C)/Z(+20C) 3 3 3 3 3 4 6 10 8 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 85C, however the polarization shall be reversed every 250 hours. Rated voltage 6.3 to 16Vdc 25 to 100Vdc Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Rated voltage 6.3 to 16Vdc 25 to 100Vdc Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value FP0.5 fD fd F fD' L' FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) Vent (except F5) (F12.5 to F18) 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 0.8 7.5 Gas escape end seal ?PART NUMBERING SYSTEM SME 6.3 VB 1000 M BP Capacitance 0.47MF 1.0MF 4.7MF 10MF 100MF Bi-polar type Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code R47 1 4R7 10 100 ?STANDARD RATINGS mF Vdc 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 6.3 10 16 25 35 Case size FDBL (mm) Rated ripple current (mArms) at 85C, 120Hz 6.3B11 8B11.5 8B11.5 10B12.5 10B20 12.5B25 16B25 16B31.5 18B35.5 76 5B11 125 6.3B11 125 215 8B11.5 215 265 345 10B16 370 410 10B16 650 12.5B20 720 1,160 1,280 16B25 1,570 16B31.5 1,690 2,020 18B35.5 2,160 2,600 43 5B11 65 6.3B11 73 57 6.3B11 5B11 80 8B11.5 100 70 6.3B11 5B11 95 8B11.5 120 95 6.3B11 6.3B11 8B11.5 160 230 10B16 8B11.5 160 305 12.5B20 10B16 410 10B12.5 275 450 12.5B20 505 375 12.5B20 10B16 540 12.5B25 655 485 12.5B20 10B20 950 16B25 16B31.5 1,140 855 12.5B25 18B35.5 1,620 16B31.5 1,510 18B35.5 1,980 50 5B11 5B11 5B11 5B11 5B11 6.3B11 8B11.5 8B11.5 10B12.5 10B20 12.5B25 16B25 16B31.5 63 11 17 25 27 5B11 34 6.3B11 52 6.3B11 89 8B11.5 105 10B12.5 150 10B16 265 12.5B20 480 16B25 650 16B31.5 835 18B35.5 80 28 34 57 95 135 180 320 575 655 965 5B11 6.3B11 6.3B11 8B11.5 10B16 10B16 10B20 12.5B25 16B31.5 18B35.5 29 39 47 65 125 150 195 350 615 755 100 5B11 5B11 6.3B11 6.3B11 6.3B11 8B11.5 10B16 12.5B20 12.5B20 16B25 18B35.5 14 21 34 39 47 71 135 220 240 425 720 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Bi-polarized, 105C KME-BP @Standard Bi-polarized type @Endurance : 105C 1000 hours @Solvent-proof type, see page 16 bi-polarized KME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -55 to +105C 6.3 to 100Vdc P20% (M) (at 20C, 120Hz) I=0.06CV or 10MA, whichever is greater. (at 20C after 2 minutes) I=0.03CV or 3MA, whichever is greater. (at 20C after 5 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V Rated voltage (Vdc) 0.24 0.24 0.20 0.20 0.16 0.14 0.12 0.12 0.10 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) 16V 25V 35V 50V 63V 80V 100V 6.3V 10V Rated voltage (Vdc) 2 2 2 2 2 2 2 3 4 Z(-25C)/Z(+20C) 3 3 3 3 3 4 6 8 10 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 105C, however the polarization shall be reversed every 250 hours. Rated voltage 6.3 to 16Vdc 25 to 100Vdc Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Rated voltage 6.3 to 16Vdc 25 to 100Vdc Capacitance change [P25% of the initial value [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value FP0.5 fD fd F fD' L' FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) Vent (except F5) (F12.5 to F18) 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 0.8 7.5 Gas escape end seal ?PART NUMBERING SYSTEM KME 6.3 VB 1000 M BP Capacitance 0.47MF 1.0MF 4.7MF 10MF 100MF Bi-polar type Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code R47 1 4R7 10 100 ?STANDARD RATINGS mF Vdc 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 6.3 10 16 25 35 Case size FDBL (mm) Rated ripple current (mArms) at 105C, 120Hz 54 5B11 90 6.3B11 6.3B11 90 150 8B11.5 150 8B11.5 185 10B16 8B11.5 240 260 10B16 10B12.5 290 460 12.5B20 10B20 510 820 16B25 12.5B25 910 1,110 16B31.5 1,200 16B25 16B31.5 1,430 18B35.5 1,520 18B35.5 1,830 5B11 46 6.3B11 40 6.3B11 5B11 8B11.5 56 49 6.3B11 5B11 8B11.5 67 67 6.3B11 6.3B11 10B16 8B11.5 110 110 8B11.5 215 12.5B20 10B16 195 10B12.5 320 12.5B20 265 12.5B20 10B16 380 12.5B25 345 12.5B20 10B20 16B31.5 670 16B25 605 12.5B25 18B35.5 1,140 16B31.5 1,070 18B35.5 1,400 30 51 72 86 160 290 350 465 805 50 5B11 5B11 5B11 5B11 5B11 6.3B11 8B11.5 8B11.5 10B12.5 10B20 12.5B25 16B25 16B31.5 63 7 10 15 18 5B11 22 6.3B11 37 6.3B11 63 8B11.5 77 10B12.5 105 10B16 190 12.5B20 340 16B25 460 16B31.5 590 18B35.5 80 5B11 20 6.3B11 24 6.3B11 40 8B11.5 68 10B16 98 10B16 130 10B20 225 12.5B25 405 16B31.5 535 18B35.5 680 16 23 27 46 89 105 140 245 435 570 100 5B11 5B11 6.3B11 6.3B11 6.3B11 8B11.5 10B16 12.5B20 12.5B20 16B25 18B35.5 8 12 20 25 30 50 97 140 170 300 510 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS LXZ longer life @Newly innovative electrolyte and internal architecture are employed @Lowest impedance at high frequency range @Endurance with ripple current: 105C 2000 to 8000 hours @Solvent-proof type Low impedance, Downsized, 105C LXV KME lower Z ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Endurance Shelf Life -55 to +105C 6.3 to 63Vdc (at 20C, 120Hz) P20% (M) I=0.01CV or 3MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V tanE (Max.) 0.22 0.19 0.16 0.14 0.12 0.10 0.08 (at 20C, 120Hz) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time F5 & 6.3 : 2000hours F8 : 3000hours F10 : 5000hours F12.5 : 7000hours F16 & 18 : 8000hours Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 0.8 7.5 Gas escape end seal Vent (except F5 & F6.3) ?PART NUMBERING SYSTEM LXZ 16 VB 2200 M K25 Case code Capacitance tolerance (P20%) Nominal capacitance code Radial lead type Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF 2200MF Code 4R7 10 100 2200 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, Downsized, 105C ?STANDARD RATINGS Vdc fDBL 5b11.5 6.3b11.5 6.3b15 8b12 8b15 8b20 10b12.5 10b16 10b20 10b25 10b30 12.5b20 12.5b25 12.5b30 12.5b35 12.5b40 16b20 16b25 16b30 16b35 16b40 18b20 18b25 18b30 18b35 18b40 6.3 Impedance Case Capacitance (omax/100kHz) code (mF) 20c -10c E11 1.0 150 0.50 F11 0.50 330 0.25 F15 0.36 470 0.18 H12 0.24 680 0.12 H15 1,000 0.090 0.18 H20 1,200 0.080 0.16 820 0.090 0.18 J12 1,200 0.068 0.136 J16 1,500 0.052 0.104 J20 2,200 0.045 0.090 J25 2,700 0.037 0.074 J30 3,300 0.038 0.076 K20 3,900 0.030 0.060 K25 4,700 0.025 0.050 K30 5,600 0.022 0.044 K35 6,800 0.017 0.034 K40 5,600 0.029 0.058 L20 6,800 0.022 0.044 L25 8,200 0.019 0.038 L30 L35 10,000 0.017 0.034 L40 12,000 0.015 0.030 6,800 0.028 0.056 M20 M25 10,000 0.020 0.040 M30 12,000 0.018 0.036 M35 15,000 0.016 0.032 M40 18,000 0.015 0.030 Vdc fDBL 5b11.5 6.3b11.5 6.3b15 8b12 8b15 8b20 10b12.5 10b16 10b20 10b25 10b30 12.5b20 12.5b25 12.5b30 12.5b35 12.5b40 16b20 16b25 16b30 16b35 16b40 18b20 18b25 18b30 18b35 18b40 10 Rated ripple current Capacitance (mArms/ 105C (mF) 100kHz) 175 100 290 220 400 330 555 470 730 680 810 1,000 760 680 1,050 1,000 1,220 1,200 1,440 1,500 1,690 1,800 1,660 2,200 1,950 3,300 2,310 3,900 2,510 4,700 2,870 5,600 2,210 3,900 2,560 5,600 3,010 6,800 3,150 8,200 3,710 10,000 2,490 5,600 2,740 6,800 3,330 8,200 3,680 10,000 3,800 12,000 35 Impedance (omax/100kHz) 20c -10c 0.50 0.25 0.18 0.12 0.090 0.080 0.090 0.068 0.052 0.045 0.037 0.038 0.030 0.025 0.022 0.017 0.029 0.022 0.019 0.017 0.015 0.028 0.020 0.018 0.016 0.015 1.0 0.50 0.36 0.24 0.18 0.16 0.18 0.136 0.104 0.090 0.074 0.076 0.060 0.050 0.044 0.034 0.058 0.044 0.038 0.034 0.030 0.056 0.040 0.036 0.032 0.030 16 Rated ripple current Capacitance (mArms/ 105C (mF) 100kHz) 175 47 290 100 400 220 555 330 730 470 810 560 760 470 1,050 680 1,220 1,000 1,440 1,200 1,690 1,500 1,660 1,500 1,950 2,200 2,310 2,700 2,510 3,300 2,870 3,900 2,210 2,700 2,560 3,900 3,010 4,700 3,150 5,600 3,710 6,800 2,490 3,900 2,740 4,700 3,330 5,600 3,680 8,200 3,800 10,000 50 Impedance Rated ripple Capacitance current Case Capacitance (omax/100kHz) (mArms/ code (mF) 105C (mF) 20c -10c 100kHz) E11 175 1.0 22 33 0.50 F11 290 0.50 47 56 0.25 F15 400 0.36 68 100 0.18 H12 555 0.24 100 150 0.12 730 H15 120 220 0.090 0.18 810 180 H20 270 0.080 0.16 760 120 220 0.090 0.18 J12 1,050 180 330 0.068 0.136 J16 1,220 220 470 0.052 0.104 J20 1,440 330 560 0.045 0.090 J25 1,690 390 680 0.037 0.074 J30 1,660 390 680 0.038 0.076 K20 1,950 560 1,000 0.030 0.060 K25 2,310 680 1,200 0.025 0.050 K30 2,510 820 1,500 0.022 0.044 K35 2,870 1,000 1,800 0.017 0.034 K40 2,210 680 1,200 0.029 0.058 L20 2,560 1,000 1,800 0.022 0.044 L25 3,010 1,200 2,200 0.019 0.038 L30 3,150 1,500 2,700 0.017 0.034 L35 3,710 1,800 3,300 0.015 0.030 L40 2,490 820 1,800 0.028 0.056 M20 2,740 1,200 2,200 0.020 0.040 M25 3,330 1,800 2,700 0.018 0.036 M30 3,680 2,200 3,300 0.016 0.032 M35 3,800 2,700 3,900 0.015 0.030 M40 Impedance Rated ripple Capacitance current (omax/100kHz) (mArms/ 105C (mF) 20c -10c 100kHz) 155 0.90 1.8 12 260 0.45 0.90 22 360 0.31 0.62 39 485 0.22 0.44 68 635 0.16 0.32 100 730 0.12 0.24 150 620 0.16 0.32 100 850 0.13 0.26 120 1,050 0.088 0.18 180 1,250 0.073 0.15 220 1,500 0.054 0.11 330 1,480 0.059 0.12 330 1,840 0.044 0.088 390 2,220 0.039 0.078 470 2,290 0.033 0.066 680 2,500 0.029 0.058 820 1,840 0.048 0.096 470 2,240 0.034 0.068 680 2,700 0.028 0.056 820 2,800 0.025 0.050 1,000 3,200 0.021 0.042 1,200 1,980 0.042 0.084 680 2,610 0.029 0.058 820 3,000 0.025 0.050 1,200 3,100 0.023 0.046 1,500 3,400 0.020 0.040 1,800 Impedance (omax/100kHz) 20c -10c 0.50 0.25 0.18 0.12 0.090 0.080 0.090 0.068 0.052 0.045 0.037 0.038 0.030 0.025 0.022 0.017 0.029 0.022 0.019 0.017 0.015 0.028 0.020 0.018 0.016 0.015 1.0 0.50 0.36 0.24 0.18 0.16 0.18 0.136 0.104 0.090 0.074 0.076 0.060 0.050 0.044 0.034 0.058 0.044 0.038 0.034 0.030 0.056 0.040 0.036 0.032 0.030 25 Rated ripple current Capacitance (mArms/ 105C (mF) 100kHz) 47 175 100 290 150 400 220 555 330 730 390 810 330 760 470 1,050 680 1,220 820 1,440 1,000 1,690 1,000 1,660 1,500 1,950 1,800 2,310 2,200 2,510 2,700 2,870 1,800 2,210 2,700 2,560 3,300 3,010 3,900 3,150 4,700 3,710 2,200 2,490 3,300 2,740 3,900 3,330 4,700 3,680 5,600 3,800 Impedance Rated ripple current (omax/100kHz) (mArms/ 105C 20c -10c 100kHz) 175 0.50 1.0 290 0.25 0.50 400 0.18 0.36 555 0.12 0.24 730 0.090 0.18 810 0.080 0.16 760 0.090 0.18 1,050 0.068 0.136 1,220 0.052 0.104 1,440 0.045 0.090 1,690 0.037 0.074 1,660 0.038 0.076 1,950 0.030 0.060 2,310 0.025 0.050 2,510 0.022 0.044 2,870 0.017 0.034 2,210 0.029 0.058 2,560 0.022 0.044 3,010 0.019 0.038 3,150 0.017 0.034 3,710 0.015 0.030 2,490 0.028 0.056 2,740 0.020 0.040 3,330 0.018 0.036 3,680 0.016 0.032 3,800 0.015 0.030 63 Impedance Rated ripple current (omax/100kHz) (mArms/ 105C 20c -10c 100kHz) 145 1.9 4.0 240 1.0 2.0 330 0.61 1.4 405 0.34 0.75 535 0.27 0.65 690 0.21 0.52 540 0.255 0.510 600 0.190 0.380 890 0.145 0.290 1,050 0.130 0.260 1,300 0.090 0.180 1,290 0.085 0.170 1,720 0.070 0.140 2,090 0.055 0.110 2,270 0.047 0.094 2,560 0.042 0.084 1,770 0.059 0.120 2,160 0.050 0.100 2,670 0.043 0.086 2,770 0.036 0.072 2,850 0.030 0.060 2,290 0.055 0.110 2,590 0.043 0.086 2,950 0.032 0.064 3,100 0.030 0.060 3,210 0.025 0.050 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 12 to 180 220 to 560 680 to 1,800 2,200 to 3,900 4,700 to 18,000 120 0.40 0.50 0.60 0.75 0.85 1k 0.75 0.85 0.87 0.90 0.95 10k 0.90 0.94 0.95 0.95 0.98 100k 1.00 1.00 1.00 1.00 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS High reliability, Low impedance, 105C LXZ lower Z downsized @Newly innovative electrolyte and internal architecture are employed @Endurance with ripple current : 105C 2000 to 8000 hours @Solvent-proof type, see page 16 LXY ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -55 to +105C 10 to 63Vdc P20% (M) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 10V 16V 25V 35V 50V 63V Rated voltage (Vdc) 0.19 0.16 0.14 0.12 0.10 0.10 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. 10Vdc to 50Vdc : 3max. Z(-55C)/Z(+20C) 63Vdc : 6max. (at 20C, 120Hz) (at 20C after 2 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time F5 & 6.3 : 2000hours F8 : 3000hours F10 : 5000hours F12.5 : 7000hours F16 & 18 : 8000hours Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) (F12.5 to F16) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 Gas escape end seal Vent (except F6.3 and smaller) ?PART NUMBERING SYSTEM LXY 16 VB 2200 M K30 Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF 2200MF Code 4R7 10 100 2200 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS High reliability, Low impedance, 105C ?STANDARD RATINGS Vdc 10 ripple Impedance Rated current Capacitance Items Capacitance (omax/100kHz) (mArms/ (mF) 105c (mF) Case 20c -10c 100kHz) fDbL (mm) code 163 56 82 0.75 1.5 5b11.5 E11 273 120 180 0.35 0.70 6.3b11.5 F11 390 180 220 0.25 0.50 6.3b15 F15 445 270 330 0.17 0.34 8b12 H12 555 330 470 0.13 0.26 8b15 H15 740 470 680 0.095 0.19 8b20 H20 625 270 390 0.12 0.24 10b12.5 J12 825 470 680 0.084 0.17 10b16 J16 1,040 680 1,000 0.062 0.13 10b20 J20 1,260 820 1,200 0.052 0.11 10b25 J25 1,440 1,200 1,500 0.044 0.088 10b30 J30 1,340 1,200 1,800 0.046 0.092 12.5b20 K20 1,690 1,500 2,200 0.034 0.068 12.5b25 K25 1,950 2,200 2,700 0.030 0.060 12.5b30 K30 2,220 2,700 3,300 0.024 0.048 12.5b35 K35 2,390 3,300 3,900 0.022 0.044 12.5b40 K40 1,630 2,200 3,300 0.038 0.076 16b20 L20 2,070 2,700 3,900 0.028 0.056 16b25 L25 2,350 3,900 5,600 0.025 0.050 16b30 L30 2,550 4,700 6,800 0.022 0.044 16b35 L35 2,900 5,600 8,200 0.018 0.036 16b40 L40 Vdc 50 ripple Impedance Rated current Capacitance Items Capacitance (omax/100kHz) (mArms/ (mF) 105c (mF) Case 20c -10c 100kHz) fDbL (mm) code 129 2.4 10 18 1.2 5b11.5 E11 219 18 39 0.54 1.1 6.3b11.5 F11 310 33 56 0.34 0.68 6.3b15 F15 340 47 68 0.30 0.60 8b12 H12 470 68 82 0.20 0.40 8b15 H15 610 82 120 0.14 0.28 8b20 H20 480 56 82 0.20 0.40 10b12.5 J12 755 68 120 0.13 0.26 10b16 J16 945 120 180 0.088 0.18 10b20 J20 1,150 150 220 0.073 0.15 10b25 J25 1,260 180 330 0.054 0.11 10b30 J30 1,190 220 330 0.059 0.12 12.5b20 K20 1,490 270 470 0.044 0.088 12.5b25 K25 1,720 390 560 0.039 0.078 12.5b30 K30 1,890 470 680 0.033 0.066 12.5b35 K35 2,030 560 820 0.029 0.058 12.5b40 K40 1,420 330 680 0.050 0.10 16b20 L20 1,880 470 820 0.034 0.068 16b25 L25 2,150 680 1,000 0.030 0.060 16b30 L30 2,320 820 1,200 0.027 0.054 16b35 L35 2,540 1,000 1,500 0.024 0.048 16b40 L40 16 25 ripple Impedance Rated current Capacitance (omax/100kHz) (mArms/ 105c (mF) 20c -10c 100kHz) 163 0.75 1.5 39 273 0.35 0.70 82 390 0.25 0.50 120 445 0.17 0.34 150 555 0.13 0.26 220 740 0.095 0.19 330 625 0.12 0.24 180 825 0.084 0.17 330 1,040 0.062 0.13 470 1,260 0.052 0.11 560 1,440 0.044 0.088 820 1,340 0.046 0.092 820 1,690 0.034 0.068 1,000 1,950 0.030 0.060 1,500 2,220 0.024 0.048 1,800 2,390 0.022 0.044 2,200 1,630 0.038 0.076 1,500 2,070 0.028 0.056 1,800 2,350 0.025 0.050 2,700 2,550 0.022 0.044 3,300 2,900 0.018 0.036 3,900 63 ripple Impedance Rated current (omax/100kHz) (mArms/ 105c 20c -10c 100kHz) 103 1.9 4.8 161 1.0 2.5 233 0.61 1.6 274 0.47 1.2 360 0.34 0.85 500 0.21 0.53 418 0.27 0.68 525 0.21 0.53 650 0.16 0.40 783 0.13 0.33 960 0.10 0.25 870 0.11 0.28 1,150 0.074 0.19 1,280 0.068 0.17 1,390 0.063 0.16 1,530 0.051 0.13 1,100 0.085 0.22 1,480 0.055 0.14 1,720 0.046 0.12 1,910 0.040 0.10 2,070 0.036 0.090 35 ripple Impedance Rated current Capacitance (omax/100kHz) (mArms/ 105c (mF) 20c -10c 100kHz) 27 163 0.75 1.5 56 273 0.35 0.70 82 390 0.25 0.50 120 445 0.17 0.34 180 555 0.13 0.26 220 740 0.095 0.19 120 625 0.12 0.24 220 825 0.084 0.17 330 1,040 0.062 0.13 390 1,260 0.052 0.11 560 1,440 0.044 0.088 560 1,340 0.046 0.092 680 1,690 0.034 0.068 1,000 1,950 0.030 0.060 1,200 2,220 0.024 0.048 1,500 2,390 0.022 0.044 1,000 1,630 0.038 0.076 1,200 2,070 0.028 0.056 1,800 2,350 0.025 0.050 2,200 2,550 0.022 0.044 2,700 2,900 0.018 0.036 ripple Impedance Rated current (omax/100kHz) (mArms/ 105c 20c -10c 100kHz) 163 0.75 1.5 273 0.35 0.70 390 0.25 0.50 445 0.17 0.34 555 0.13 0.26 740 0.095 0.19 625 0.12 0.24 825 0.084 0.17 1,040 0.062 0.13 1,260 0.052 0.11 1,440 0.044 0.088 1,340 0.046 0.092 1,690 0.034 0.068 1,950 0.030 0.060 2,220 0.024 0.048 2,390 0.022 0.044 1,630 0.038 0.076 2,070 0.028 0.056 2,350 0.025 0.050 2,550 0.022 0.044 2,900 0.018 0.036 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 10 to 180 220 to 560 680 to 1800 2200 to 3900 4700 to 8200 120 0.40 0.50 0.60 0.75 0.85 1k 0.75 0.85 0.87 0.90 0.95 10k 0.90 0.94 0.95 0.95 0.98 100k 1.00 1.00 1.00 1.00 1.00 The following case sizes are also available upon request : F4B7mm, F5B7mm, F5B15mm, F6.3B7mm F12.5B15mm, F16B15mm, and F18B15mm. CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C longer life LXZ @Low impedance @Endurance with ripple current: 105C 2000 to 5000 hours @Solvent-proof type, see page16 LXV KME lower Z ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Endurance Shelf Life -55 to +105C 6.3 to 100Vdc (at 20C, 120Hz) P20% (M) I=0.01CV or 3MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V tanE (Max.) 0.22 0.19 0.16 0.14 0.12 0.10 0.10 0.09 0.08 (at 20C, 120Hz) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. Capacitance changeDC (-55C /+20C) [P30% (at 120Hz) Max. impedance ratio (-55C /+20C) 3max.(6.3Vdc : 4max.) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time F5 to 6.3 : 2000hours F8 & 10 : 3000hours F12.5 to F18 : 5000hours Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) Vent (except F5 & F6.3) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 0.8 7.5 Gas escaped end seal ?PART NUMBERING SYSTEM LXV 6.3 VB 1200 M J20 Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF 2200MF Code 4R7 10 100 2200 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C ?STANDARD RATINGS Vdc fDbL Case code 5b11.5 6.3b11.5 6.3b15 8b12 8b15 8b20 10b12.5 10b16 10b20 10b25 10b30 12.5b20 12.5b25 12.5b30 12.5b35 12.5b40 16b20 16b25 16b30 16b35 16b40 18b20 18b25 18b30 18b35 18b40 E11 F11 F15 H12 H15 H20 J12 J16 J20 J25 J30 K20 K25 K30 K35 K40 L20 L25 L30 L35 L40 M20 M25 M30 M35 M40 6.3 Capacitance (mF) 120 220 330 390 560 820 470 680 1,200 1,500 2,200 2,200 2,700 3,900 4,700 5,600 3,900 5,600 6,800 8,200 10,000 5,600 6,800 10,000 12,000 15,000 Impedance (omax/100kHz) 20C -10C 0.72 0.38 0.27 0.20 0.16 0.11 0.12 0.084 0.062 0.052 0.044 0.046 0.034 0.030 0.027 0.024 0.038 0.028 0.025 0.022 0.018 0.036 0.027 0.024 0.021 0.017 1.8 0.95 0.68 0.50 0.40 0.28 0.30 0.21 0.16 0.13 0.11 0.12 0.085 0.075 0.068 0.060 0.095 0.070 0.063 0.055 0.045 0.090 0.068 0.060 0.053 0.043 Vdc fDbL Case code 5b11.5 6.3b11.5 6.3b15 8b12 8b15 8b20 10b12.5 10b16 10b20 10b25 10b30 12.5b20 12.5b25 12.5b30 12.5b35 12.5b40 16b20 16b25 16b30 16b35 16b40 18b20 18b25 18b30 18b35 18b40 E11 F11 F15 H12 H15 H20 J12 J16 J20 J25 J30 K20 K25 K30 K35 K40 L20 L25 L30 L35 L40 M20 M25 M30 M35 M40 10 Rated ripple current Capacitance (mArms / (mF) 105c 100kHz) 165 82 255 180 330 270 415 330 495 470 640 680 635 390 825 680 1,060 1,000 1,260 1,200 1,450 1,500 1,360 1,800 1,700 2,200 1,980 2,700 2,230 3,300 2,460 3,900 1,770 3,300 2,190 3,900 2,510 5,600 2,770 6,800 3,110 8,200 1,940 3,900 2,350 4,700 2,720 6,800 3,050 8,200 3,300 10,000 Impedance (omax/100kHz) 20C -10C 0.72 0.38 0.27 0.20 0.16 0.11 0.12 0.084 0.062 0.052 0.044 0.046 0.034 0.030 0.027 0.024 0.038 0.028 0.025 0.022 0.018 0.036 0.027 0.024 0.021 0.017 1.8 0.95 0.68 0.50 0.40 0.28 0.30 0.21 0.16 0.13 0.11 0.12 0.085 0.075 0.068 0.060 0.095 0.070 0.063 0.055 0.045 0.090 0.068 0.060 0.053 0.043 25 Capacitance (mF) 39 82 120 150 220 330 180 330 470 560 820 820 1,000 1,500 1,800 2,200 1,500 1,800 2,700 3,300 3,900 2,200 2,700 3,300 3,900 4,700 Impedance (omax/100kHz) 20C -10C 0.72 0.38 0.27 0.20 0.16 0.11 0.12 0.084 0.062 0.052 0.044 0.046 0.034 0.030 0.027 0.024 0.038 0.028 0.025 0.022 0.018 0.036 0.027 0.024 0.021 0.017 1.8 0.95 0.68 0.50 0.40 0.28 0.30 0.21 0.16 0.13 0.11 0.12 0.085 0.075 0.068 0.060 0.095 0.070 0.063 0.055 0.045 0.090 0.068 0.060 0.053 0.043 16 Rated ripple current Capacitance (mArms / (mF) 105c 100kHz) 165 56 255 120 330 180 415 270 495 330 640 470 635 270 825 470 1,060 680 1,260 820 1,450 1,200 1,360 1,200 1,700 1,500 1,980 2,200 2,230 2,700 2,460 3,300 1,770 2,200 2,190 2,700 2,510 3,900 2,770 4,700 3,110 5,600 1,940 3,300 2,350 3,900 2,720 4,700 3,050 6,800 3,300 8,200 Impedance (omax/100kHz) 20C -10C 0.72 0.38 0.27 0.20 0.16 0.11 0.12 0.084 0.062 0.052 0.044 0.046 0.034 0.030 0.027 0.024 0.038 0.028 0.025 0.022 0.018 0.036 0.027 0.024 0.021 0.017 1.8 0.95 0.68 0.50 0.40 0.28 0.30 0.21 0.16 0.13 0.11 0.12 0.085 0.075 0.068 0.060 0.095 0.070 0.063 0.055 0.045 0.090 0.068 0.060 0.053 0.043 35 Rated ripple current Capacitance (mArms / (mF) 105c 100kHz) 165 27 255 56 330 82 415 120 495 180 640 220 635 120 825 220 1,060 330 1,260 390 1,450 560 1,360 560 1,700 680 1,980 1,000 2,230 1,200 2,460 1,500 1,770 1,000 2,190 1,200 2,510 1,800 2,770 2,200 3,110 2,700 1,940 1,500 2,350 1,800 2,720 2,200 3,050 2,700 3,300 3,300 Impedance (omax/100kHz) 20C -10C 0.72 0.38 0.27 0.20 0.16 0.11 0.12 0.084 0.062 0.052 0.044 0.046 0.034 0.030 0.027 0.024 0.038 0.028 0.025 0.022 0.018 0.036 0.027 0.024 0.021 0.017 1.8 0.95 0.68 0.50 0.40 0.28 0.30 0.21 0.16 0.13 0.11 0.12 0.085 0.075 0.068 0.060 0.095 0.070 0.063 0.055 0.045 0.090 0.068 0.060 0.053 0.043 Rated ripple current (mArms / 105c 100kHz) 165 255 330 415 495 640 635 825 1,060 1,260 1,450 1,360 1,700 1,980 2,230 2,460 1,770 2,190 2,510 2,770 3,110 1,940 2,350 2,720 3,050 3,300 50 Rated ripple current Capacitance (mArms / (mF) 105c 100kHz) 165 18 255 39 330 56 415 68 495 82 640 120 635 82 825 120 1,060 180 1,260 220 1,450 330 1,360 330 1,700 470 1,980 560 2,230 680 2,460 820 1,770 680 2,190 820 2,510 1,000 2,770 1,200 3,110 1,500 1,940 820 2,350 1,000 2,720 1,500 3,050 1,800 3,300 2,200 Impedance (omax/100kHz) 20C -10C 1.1 0.56 0.41 0.29 0.24 0.18 0.16 0.12 0.088 0.068 0.059 0.059 0.045 0.039 0.033 0.029 0.043 0.033 0.029 0.025 0.021 0.039 0.030 0.026 0.023 0.020 3.3 1.6 1.2 0.84 0.72 0.52 0.40 0.30 0.22 0.17 0.15 0.15 0.11 0.098 0.083 0.073 0.11 0.083 0.073 0.063 0.053 0.098 0.075 0.065 0.058 0.050 Rated ripple current (mArms / 105c 100kHz) 165 255 310 415 505 610 530 755 945 1,150 1,260 1,190 1,500 1,720 1,900 2,120 1,500 1,880 2,150 2,320 2,650 1,660 2,020 2,340 2,620 2,790 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C ?STANDARD RATINGS Vdc 63 fDbL Case code 5b11.5 6.3b11.5 6.3b15 8b12 8b15 8b20 10b12.5 10b16 10b20 10b25 10b30 12.5b20 12.5b25 12.5b30 12.5b35 12.5b40 16b20 16b25 16b30 16b35 16b40 18b20 18b25 18b30 18b35 18b40 E11 F11 F15 H12 H15 H20 J12 J16 J20 J25 J30 K20 K25 K30 K35 K40 L20 L25 L30 L35 L40 M20 M25 M30 M35 M40 Capacitance (mF) 12 27 39 47 68 82 56 68 120 150 180 220 270 390 470 560 390 470 680 820 1,000 560 680 820 1,000 1,200 Impedance (omax/100kHz) 20C -10C 1.9 1.1 0.62 0.49 0.34 0.21 0.27 0.21 0.16 0.13 0.10 0.11 0.074 0.068 0.063 0.051 0.085 0.055 0.046 0.040 0.036 0.085 0.055 0.046 0.040 0.036 4.8 2.8 1.6 1.3 0.85 0.53 0.68 0.53 0.40 0.33 0.25 0.28 0.19 0.17 0.16 0.13 0.22 0.14 0.12 0.10 0.090 0.22 0.14 0.12 0.10 0.090 80 Rated ripple current Capacitance (mArms / (mF) 105c 100kHz) 100 8.2 160 18 230 27 275 33 360 47 500 56 420 39 523 56 650 82 780 100 960 150 870 150 1,150 180 1,280 270 1,390 330 1,530 390 1,100 270 1,480 330 1,720 470 1,910 560 2,070 680 1,170 390 1,520 470 1,770 680 1,970 820 2,130 1,000 Impedance (omax/100kHz) 20C -10C 1.9 1.1 0.62 0.53 0.35 0.27 0.47 0.33 0.26 0.19 0.15 0.15 0.11 0.094 0.087 0.060 0.11 0.081 0.058 0.052 0.041 0.085 0.070 0.058 0.052 0.041 5.1 3.0 1.7 1.5 0.97 0.74 1.3 0.90 0.70 0.52 0.41 0.41 0.30 0.26 0.24 0.17 0.30 0.22 0.16 0.14 0.11 0.23 0.19 0.16 0.14 0.11 100 Rated ripple current Capacitance (mArms / (mF) 105c 100kHz) 100 5.6 150 12 220 18 275 22 360 33 490 39 380 27 500 33 620 56 795 68 955 100 890 100 1,040 120 1,270 180 1,450 220 1,610 270 1,240 180 1,440 220 1,790 330 2,000 390 2,200 470 1,450 270 1,650 330 1,850 390 1,990 560 2,370 680 Impedance (omax/100kHz) 20C -10C 1.9 1.1 0.62 0.53 0.35 0.27 0.47 0.33 0.26 0.19 0.15 0.15 0.11 0.094 0.087 0.060 0.11 0.081 0.058 0.052 0.041 0.085 0.070 0.058 0.052 0.041 5.1 3.0 1.7 1.5 0.97 0.74 1.3 0.90 0.70 0.52 0.41 0.41 0.30 0.26 0.24 0.17 0.30 0.22 0.16 0.14 0.11 0.23 0.19 0.16 0.14 0.11 Rated ripple current (mArms / 105c 100kHz) 100 150 220 275 360 490 380 500 620 795 955 890 1,040 1,270 1,450 1,610 1,240 1,440 1,790 2,000 2,200 1,450 1,650 1,850 1,990 2,370 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Rated voltage (Vdc) Case size fD (mm) 1k 10k 100k 0.65 0.83 0.95 1.00 10 & 12.5 0.70 0.85 0.96 1.00 16 & 18 0.85 0.92 0.97 1.00 5 to 8 0.55 0.76 0.91 1.00 10 & 12.5 0.65 0.83 0.93 1.00 16 & 18 0.70 0.87 0.96 1.00 5 to 8 0.40 0.66 0.85 1.00 10 & 12.5 0.50 0.73 0.89 1.00 16 & 18 0.60 0.81 0.94 1.00 5 to 8 0.20 0.55 0.80 1.00 10 & 12.5 0.35 0.65 0.85 1.00 16 & 18 0.50 0.75 0.90 1.00 5 to 8 6.3 & 10 16 & 25 35 & 50 63 to 100 Frequency (Hz) 120 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C @Low impedance capacitors, operating temperature range from -55 to 105C @Solvent-proof type, see page 16 ?SPECIFICATIONS Items Characteristics Category Temperature Range -55 to +105C Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation factor (tane) Endurance Shelf Life 6.3 to 100Vdc P20%(M) (at 20C, 120Hz) I=0.03CV (after 1 minute at 20C) Where: I:Max. leakage current (MA), C:Nominal capacitance (MF), V:Rated voltage (V) I=0.01CV (after 2 minutes at 20C) 6.3 10 16 25 35 50 63 80 100 Rated voltage(Vdc) 0.22 0.19 0.16 0.14 0.12 0.10 0.08 0.08 0.07 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for the specified period of lifetime at 105C. Lifetime 2,000 hours (F10 to 18) 1,000 hours (F4 to 8) Capacitance change [P20% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [the initial specified value [the initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1,000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [the initial specified value FP0.5 FD+0.5max. Fd Sleeve L+1.5max. FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] 15min. 4min. (F4 to F10) (F12.5 to F18) Gas escape end seal (One example for D=F4 to F8) Vent (except FD=6.3 and smaller) fD fd F 4 0.45 1.5 5 0.5* 2.0 6.3 0.5* 2.5 8 0.6 3.5 10 & 12.5 16 & 18 0.6 0.8 5.0 7.5 *For L=7mm, Fd is 0.45 ?PART NUMBERING SYSTEM SXE 10 VB 1000 M K15 Capacitance 3.3MF 10MF 100MF 470MF 1000MF Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code 3R3 10 100 470 1000 ?CASE CODE L(mm) fD(mm) 4 5 6.3 8 10 12.5 16 18 7 11.5 D07 E07 F07 D11 E11 F11 12 12.5 15 20 25 30 35 40 J12 E15 F15 H15 J15 K15 L15 M15 H20 J20 K20 L20 M20 J25 K25 L25 M25 J30 K30 L30 M30 K35 L35 M35 K40 L40 M40 H12 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C ?STANDARD RATINGS Vdc 6.3 10 16 Case size Items Capacitance Impedance (omax) Rated ripple current (mArms) Capacitance Impedance (omax) Rated ripple current (mArms) Capacitance Impedance (omax) Rated ripple current (mArms) fDbL (mm) (mF) (mF) (mF) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) 5.5 14.3 50 25 22 5.4 14.0 50 25 15 4b7 5.3 27 13.8 50 25 2.2 5.7 102 74 47 2.2 5.6 102 74 33 4b11.5 2.1 68 5.5 102 51 3.4 8.8 75 68 39 3.3 8.6 75 68 27 5b7 3.3 56 8.6 75 49 1.3 3.4 154 108 82 1.3 3.4 154 108 56 5b11.5 1.3 120 3.4 154 108 0.92 2.4 210 147 120 0.91 2.4 210 147 82 5b15 0.89 150 2.3 210 147 1.4 3.6 140 98 82 1.4 3.6 140 98 56 6.3b7 1.4 120 3.6 140 98 0.61 1.6 260 182 180 0.59 1.5 260 182 120 6.3b11.5 0.58 220 1.5 260 182 0.40 1.0 350 245 270 0.39 1.0 350 245 180 6.3b15 0.38 330 0.99 350 245 0.34 0.88 400 320 330 0.33 0.86 400 280 220 8b12 0.33 390 0.86 400 280 0.24 0.62 500 400 470 0.24 0.62 500 400 330 8b15 0.23 560 0.60 500 350 0.19 0.49 650 520 560 0.18 0.47 650 520 470 8b20 0.18 820 0.47 650 520 0.28 0.73 510 410 390 0.27 0.70 510 410 270 10b12.5 0.27 470 0.70 510 360 0.22 0.57 635 510 560 0.22 0.57 635 510 390 10b15 0.21 680 0.55 635 510 0.14 0.36 860 775 820 0.14 0.36 860 690 680 10b20 0.14 1,200 0.36 860 690 0.12 0.31 1,030 930 1,200 0.12 0.31 1,030 930 820 10b25 0.12 1,500 0.31 1,030 825 0.095 0.25 1,150 1,035 1,500 0.093 0.24 1,150 1,035 1,000 10b30 0.091 2,200 0.24 1,150 920 0.12 0.31 970 875 1,000 0.12 0.31 970 780 680 12.5b15 0.12 1,200 0.31 970 780 0.089 0.23 1,120 1,010 1,800 0.087 0.23 1,120 1,010 1,200 12.5b20 0.086 2,200 0.22 1,120 1,010 0.075 0.20 1,320 1,190 2,200 0.073 0.19 1,320 1,190 1,500 12.5b25 0.072 2,700 0.19 1,320 1,190 0.065 0.17 1,540 1,390 2,700 0.064 0.17 1,540 1,390 2,200 12.5b30 0.063 3,900 0.16 1,540 1,390 0.053 0.14 1,770 1,595 3,300 0.052 0.14 1,770 1,595 2,700 12.5b35 0.051 4,700 0.13 1,770 1,595 0.046 0.12 1,980 1,785 3,900 0.045 0.12 1,980 1,785 3,300 12.5b40 0.045 5,600 0.12 1,980 1,785 0.10 0.26 1,100 990 1,500 0.10 0.26 1,100 990 1,200 16b15 0.099 2,200 0.26 1,100 990 0.076 0.20 1,370 1,235 3,300 0.075 0.20 1,370 1,235 2,200 16b20 0.073 3,900 0.19 1,370 1,235 0.066 0.17 1,570 1,415 3,900 0.065 0.17 1,570 1,415 2,700 16b25 0.064 5,600 0.17 1,570 1,415 0.055 0.14 1,810 1,630 4,700 0.054 0.14 1,810 1,630 3,900 16b30 0.053 6,800 0.14 1,810 1,630 0.047 0.12 2,030 1,830 6,800 0.046 0.12 2,030 1,830 4,700 16b35 0.046 8,200 0.12 2,030 1,830 0.039 0.10 2,320 2,090 8,200 0.038 0.099 2,320 2,090 5,600 16b40 0.037 10,000 0.096 2,320 2,090 0.081 0.21 1,280 1,155 2,200 0.080 0.21 1,280 1,150 1,500 18b15 0.078 3,300 0.20 1,280 1,155 0.063 0.16 1,580 1,425 3,900 0.062 0.16 1,580 1,425 3,300 18b20 0.060 5,600 0.16 1,580 1,425 0.054 0.14 1,830 1,650 4,700 0.053 0.14 1,830 1,650 3,900 18b25 0.052 6,800 0.14 1,830 1,650 0.047 0.12 2,030 1,830 6,800 0.046 0.12 2,030 1,830 4,700 18b30 0.046 10,000 0.12 2,030 1,830 0.042 0.11 2,240 2,020 8,200 0.041 0.11 2,240 2,020 6,800 18b35 0.040 12,000 0.10 2,240 2,020 0.037 0.096 2,460 2,215 10,000 0.037 0.096 2,460 2,215 8,200 18b40 0.036 15,000 0.094 2,460 2,215 Vdc 25 35 50 Case size Items Capacitance Impedance (omax) Rated ripple current (mArms) Capacitance Impedance (omax) Rated ripple current (mArms) Capacitance Impedance (omax) Rated ripple current (mArms) fDbL (mm) (mF) (mF) (mF) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) 5.3 13.7 50 25 6.8 5.2 13.4 50 25 4.7 4b7 5.0 10 13.0 50 20 2.1 5.5 102 51 15 2.1 5.4 102 51 10 4b11.5 2.0 22 5.2 102 51 3.3 8.6 75 45 12 3.2 8.3 75 38 8.2 5b7 3.1 22 8.1 75 38 1.3 3.3 154 108 27 1.2 3.1 154 77 18 5b11.5 1.2 39 3.1 154 77 0.88 2.3 210 147 39 0.87 2.3 210 147 27 5b15 0.84 56 2.2 210 105 1.4 3.6 140 98 27 1.3 3.4 140 70 18 6.3b7 1.3 39 3.4 140 70 0.58 1.5 260 182 56 0.57 1.5 260 182 39 6.3b11.5 0.55 82 1.4 260 182 0.38 0.99 350 245 82 0.37 0.96 350 245 56 6.3b15 0.36 120 0.94 350 245 0.33 0.86 400 280 100 0.32 0.83 400 280 68 8b12 0.31 150 0.81 400 280 0.23 0.60 500 350 150 0.23 0.60 500 350 82 8b15 0.22 220 0.57 500 350 0.18 0.47 650 455 220 0.18 0.47 650 455 120 8b20 0.17 270 0.44 650 455 0.26 0.68 510 360 120 0.26 0.68 510 360 82 10b12.5 0.25 180 0.65 510 360 0.21 0.55 635 445 180 0.21 0.55 635 445 100 10b15 0.20 270 0.52 635 445 0.14 0.36 860 690 330 0.13 0.34 860 605 180 10b20 0.13 470 0.34 860 605 0.12 0.31 1,030 825 390 0.11 0.29 1,030 825 220 10b25 0.11 560 0.29 1,030 725 0.090 0.23 1,150 920 470 0.089 0.23 1,150 920 330 10b30 0.086 680 0.22 1,150 805 0.12 0.31 970 780 330 0.11 0.29 970 680 180 12.5b15 0.11 470 0.29 970 680 0.085 0.22 1,120 900 560 0.083 0.22 1,120 900 330 12.5b20 0.081 820 0.22 1,120 785 0.071 0.18 1,320 1,060 680 0.070 0.18 1,320 1,060 470 12.5b25 0.068 1,000 0.19 1,320 1,060 0.062 0.16 1,540 1,390 1,000 0.061 0.16 1,540 1,390 560 12.5b30 0.059 1,500 0.16 1,540 1,235 0.050 0.13 1,770 1,595 1,200 0.049 0.13 1,770 1,595 680 12.5b35 0.048 1,800 0.14 1,770 1,420 0.044 0.11 1,980 1,785 1,500 0.043 0.11 1,980 1,785 820 12.5b40 0.042 2,200 0.12 1,980 1,585 0.098 0.25 1,100 880 560 0.096 0.25 1,100 880 330 16b15 0.093 820 0.20 1,100 770 0.072 0.19 1,370 1,235 1,000 0.071 0.18 1,370 1,100 680 16b20 0.069 1,500 0.15 1,370 1,100 0.063 0.16 1,570 1,415 1,200 0.062 0.16 1,570 1,415 820 16b25 0.060 1,800 0.13 1,570 1,260 0.053 0.14 1,810 1,630 1,800 0.052 0.14 1,810 1,630 1,000 16b30 0.050 2,700 0.13 1,810 1,450 0.045 0.12 2,030 1,830 2,200 0.044 0.11 2,030 1,830 1,200 16b35 0.043 3,300 0.11 2,030 1,830 0.037 0.096 2,320 2,090 2,700 0.036 0.094 2,320 2,090 1,500 16b40 0.035 3,900 0.091 2,320 2,090 0.078 0.20 1,280 1,155 820 0.076 0.20 1,280 1,155 470 18b15 0.074 1,200 0.19 1,280 1,025 0.060 0.16 1,580 1,425 1,500 0.059 0.15 1,580 1,425 820 18b20 0.057 2,200 0.15 1,580 1,265 0.051 0.13 1,830 1,650 1,800 0.050 0.13 1,830 1,650 1,000 18b25 0.049 2,700 0.13 1,830 1,465 0.045 0.12 2,030 1,830 2,200 0.044 0.11 2,030 1,830 1,500 18b30 0.043 3,300 0.11 2,030 1,830 0.040 0.10 2,240 2,020 2,700 0.039 0.10 2,240 2,020 1,800 18b35 0.038 3,900 0.099 2,240 2,020 0.036 0.094 2,460 2,215 3,300 0.035 0.091 2,460 2,215 2,200 18b40 0.034 4,700 0.088 2,460 2,215 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C ?STANDARD RATINGS Vdc 80 100 63 Case size Items Capacitance Impedance (omax) Rated ripple current (mArms) Capacitance Impedance (omax) Rated ripple current (mArms) Capacitance Impedance (omax) Rated ripple current (mArms) fDbL (mm) (mF) (mF) (mF) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) (20c/100kHz) (-10c/100kHz) (105c/100kHz) (105c/120Hz) 30.2 38 15 2.2 11.0 29.7 38 15 1.5 10.8 4b7 3.3 11.2 29.2 38 15 4.3 11.6 73 37 4.7 4.2 11.3 73 29 3.3 4b11.5 4.1 6.8 11.1 73 29 5.1 13.8 61 31 3.9 5.0 13.5 61 24 2.7 5b7 4.9 5.6 13.2 61 24 2.0 5.4 124 62 8.2 1.9 5.2 124 62 5.6 5b11.5 1.9 12 5.1 124 62 1.4 3.8 170 85 12 1.4 3.7 170 85 8.2 5b15 1.3 18 3.6 170 85 3.0 8.1 95 48 8.2 2.9 7.8 95 48 5.6 6.3b7 2.8 12 7.6 95 48 1.2 3.2 180 90 18 1.1 3.0 180 90 12 6.3b11.5 1.1 27 3.0 180 90 0.66 1.8 270 190 27 0.64 1.7 270 135 18 6.3b15 0.62 39 1.7 270 135 0.56 1.5 305 215 33 0.54 1.5 305 155 22 8b12 0.53 47 1.4 305 155 0.36 0.97 410 290 47 0.36 0.97 410 290 33 8b15 0.35 68 0.95 410 205 0.22 0.57 605 425 56 0.28 0.74 605 425 39 8b20 0.27 82 0.73 605 425 0.50 1.4 380 270 39 0.49 1.3 380 270 27 10b12.5 0.48 56 1.3 380 190 0.35 0.95 500 350 56 0.34 0.90 500 350 33 10b15 0.33 68 0.89 500 250 0.27 0.74 620 435 82 0.26 0.71 620 435 56 10b20 0.26 120 0.70 620 435 0.20 0.53 795 560 100 0.19 0.51 795 560 68 10b25 0.19 150 0.50 795 560 0.16 0.42 955 670 150 0.15 0.41 955 670 100 10b30 0.15 180 0.40 955 670 0.25 0.67 640 450 100 0.24 0.64 640 450 68 12.5b15 0.23 150 0.63 640 450 0.16 0.42 890 625 150 0.15 0.41 890 625 100 12.5b20 0.15 220 0.40 890 625 0.14 0.38 1,040 730 180 0.14 0.37 1,040 730 120 12.5b25 0.13 270 0.36 1,040 730 0.11 0.29 1,270 1,020 270 0.10 0.28 1,270 890 180 12.5b30 0.10 390 0.27 1,270 890 0.091 0.25 1,450 1,160 330 0.088 0.24 1,450 1,015 220 12.5b35 0.087 470 0.23 1,450 1,015 0.080 0.22 1,610 1,290 390 0.076 0.21 1,610 1,290 270 12.5b40 0.074 560 0.20 1,610 1,130 0.15 0.41 960 675 180 0.14 0.38 960 675 120 16b15 0.14 220 0.38 960 675 0.12 0.32 1,240 995 270 0.11 0.31 1,240 870 180 16b20 0.11 390 0.30 1,240 870 0.091 0.25 1,440 1,155 330 0.088 0.24 1,440 1,010 220 16b25 0.086 470 0.23 1,440 1,010 0.065 0.18 1,790 1,435 470 0.063 0.17 1,790 1,435 330 16b30 0.062 680 0.17 1,790 1,255 0.056 0.15 2,000 1,600 560 0.054 0.15 2,000 1,600 390 16b35 0.059 820 0.16 1,990 1,595 0.049 0.13 2,200 1,780 680 0.048 0.13 2,200 1,780 470 16b40 0.047 1,000 0.13 2,200 1,780 0.13 0.35 1,130 795 220 0.13 0.34 1,130 795 150 18b15 0.12 330 0.33 1,130 795 0.091 0.25 1,450 1,160 390 0.088 0.24 1,450 1,160 270 18b20 0.086 560 0.23 1,450 1,015 0.078 0.21 1,650 1,320 470 0.075 0.20 1,650 1,320 330 18b25 0.074 680 0.20 1,650 1,155 0.065 0.18 1,850 1,480 680 0.063 0.17 1,850 1,480 390 18b30 0.062 820 0.17 1,850 1,480 0.061 0.16 1,990 1,595 820 0.060 0.16 1,990 1,595 560 18b35 0.053 1,000 0.14 2,000 1,600 0.046 0.12 2,370 2,135 1,000 0.044 0.12 2,370 1,900 680 18b40 0.043 1,200 0.12 2,370 1,900 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 1.5 to 4.7 5.6 to 33 39 to 330 390 to 1,000 1,200 50 0.30 0.40 0.60 0.65 0.80 120 0.40 0.50 0.70 0.80 0.90 300 0.50 0.60 0.80 0.90 0.95 1k 0.70 0.80 0.90 0.98 0.98 10k 0.80 0.90 0.95 1.00 1.00 100k 1.00 1.00 1.00 1.00 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C LXV @Low impedance @Endurance with ripple current: 105C 2000 to 5000 hours @Solvent-proof type, see page 16 LXJ SXE ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Endurance Shelf Life -55 to +105C 6.3 to 50Vdc P20% (M) I=0.03CV or 4MA, whichever is greater. (at 20C after 1 minute) I=0.01CV or 3MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.22 0.19 0.16 0.14 0.12 0.10 tanE (at 20C, 120Hz) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) Capacitance changeDC(-55C/20C) within P30% Max. impedance ratio(-55C/20C) 3max. (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time F5 & F6.3 : 2000hours F8 & F10 : 3000hours F12.5 and larger : 5000hours Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 0.8 7.5 Gas escape end seal Vent (except F5 & 6.3) ?PART NUMBERING SYSTEM LXJ 16 VB 2200 M K30 Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF 2200MF Code 4R7 10 100 2200 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C ?STANDARD RATINGS Vdc 6.3 Impedance Items Capacitance (omax/100kHz) (mF) Case 20c -10c fDbL (mm) code E11 3.3 120 1.1 5b11.5 E15 3.0 150 1.0 5b15 F11 220 0.55 1.6 6.3b11.5 F15 6.3b15 330 0.41 1.2 H12 8b12 390 0.29 0.84 H15 8b15 560 0.25 0.75 H20 8b20 820 0.18 0.52 J12 10b12.5 470 0.16 0.40 J16 10b16 680 0.12 0.30 J20 10b20 1,200 0.088 0.22 J25 10b25 1,500 0.068 0.17 J30 10b30 2,200 0.059 0.15 K20 12.5b20 2,200 0.059 0.15 K25 12.5b25 2,700 0.045 0.11 K30 12.5b30 3,900 0.039 0.098 K35 12.5b35 4,700 0.033 0.083 K40 12.5b40 5,600 0.029 0.073 L20 16b20 3,900 0.043 0.11 L25 16b25 5,600 0.033 0.083 L30 16b30 6,800 0.029 0.073 L35 16b35 8,200 0.025 0.063 L40 10,000 0.021 0.053 16b40 M20 18b20 5,600 0.039 0.098 M25 18b25 6,800 0.030 0.075 M30 10,000 0.026 0.065 18b30 M35 12,000 0.023 0.058 18b35 M40 15,000 0.020 0.050 18b40 Vdc 10 Rated ripple current Capacitance (mArms/ 105C (mF) 100kHz) 165 82 180 120 255 180 330 270 415 330 495 470 640 680 635 390 795 680 1,060 1,000 1,240 1,200 1,450 1,500 1,360 1,800 1,700 2,200 1,980 2,700 2,230 3,300 2,460 3,900 1,770 3,300 2,190 3,900 2,510 4,700 2,770 6,800 3,110 8,200 1,940 3,900 2,350 4,700 2,720 6,800 3,050 8,200 3,300 10,000 35 Impedance Rated ripple Capacitance current Items Capacitance (omax/100kHz) (mArms/ (mF) 105C (mF) Case 20c -10c 100kHz) fDbL (mm) code 165 3.3 18 27 1.1 5b11.5 E11 180 3.0 27 39 1.0 5b15 E15 255 1.6 39 56 0.55 6.3b11.5 F11 330 1.2 56 82 0.41 6.3b15 F15 415 0.84 68 120 0.29 8b12 H12 495 0.75 82 180 0.25 8b15 H15 640 0.52 120 220 0.18 8b20 H20 635 0.40 82 120 0.16 10b12.5 J12 795 0.30 120 220 0.12 10b16 J16 1,060 180 330 0.088 0.22 10b20 J20 1,240 220 390 0.068 0.17 10b25 J25 1,450 330 560 0.059 0.15 10b30 J30 1,360 330 560 0.059 0.15 12.5b20 K20 1,700 470 680 0.045 0.11 12.5b25 K25 560 12.5b30 K30 1,000 0.039 0.098 1,980 680 12.5b35 K35 1,200 0.033 0.083 2,230 820 12.5b40 K40 1,500 0.029 0.073 2,460 1,770 680 16b20 L20 1,000 0.043 0.11 820 16b25 L25 1,200 0.033 0.083 2,190 1,000 16b30 L30 1,800 0.029 0.073 2,510 1,200 16b35 L35 2,200 0.025 0.063 2,770 1,500 16b40 L40 2,700 0.021 0.053 3,110 820 18b20 M20 1,500 0.039 0.098 1,940 1,000 18b25 M25 1,800 0.030 0.075 2,350 1,500 18b30 M30 2,200 0.026 0.065 2,720 1,800 18b35 M35 2,700 0.023 0.058 3,050 2,200 18b40 M40 3,300 0.020 0.050 3,300 Impedance Rated ripple Capacitance current (omax/100kHz) (mArms/ 105C (mF) 20c -10c 100kHz) 165 3.3 1.1 39 180 3.0 1.0 56 255 1.6 0.55 82 330 1.2 0.41 120 415 0.84 0.29 150 495 0.75 0.25 220 640 0.52 0.18 330 635 0.40 0.16 180 795 0.30 0.12 330 1,060 0.088 0.22 470 1,240 0.068 0.17 560 1,450 0.059 0.15 820 1,360 0.059 0.15 820 1,700 0.045 0.11 1,000 0.039 0.098 1,980 1,500 0.033 0.083 2,230 1,800 0.029 0.073 2,460 2,200 1,770 0.043 0.11 1,500 0.033 0.083 2,190 1,800 0.029 0.073 2,510 2,700 0.025 0.063 2,770 3,300 0.021 0.053 3,110 3,900 0.039 0.098 1,940 2,200 0.030 0.075 2,350 2,700 0.026 0.065 2,720 3,300 0.023 0.058 3,050 3,900 0.020 0.050 3,300 4,700 50 Impedance Rated ripple current (omax/100kHz) (mArms/ 105C 20c -10c 100kHz) 165 1.2 3.6 170 1.0 3.0 255 0.57 1.7 310 0.46 1.4 415 0.29 0.90 505 0.24 0.72 605 0.20 0.58 530 0.23 0.58 675 0.17 0.43 860 0.13 0.33 1,060 0.096 0.24 1,230 0.083 0.21 1,170 0.083 0.21 1,500 0.061 0.16 1,680 0.056 0.14 1,900 0.046 0.12 2,120 0.041 0.10 1,500 0.061 0.16 1,880 0.046 0.12 2,150 0.041 0.10 0.037 0.093 2,320 0.030 0.075 2,650 1,660 0.056 0.14 2,020 0.042 0.11 0.037 0.093 2,340 0.031 0.078 2,620 0.029 0.073 2,790 25 16 Impedance Rated ripple Capacitance current (omax/100kHz) (mArms/ 105C (mF) 20c -10c 100kHz) 165 3.3 56 1.1 180 3.0 82 1.0 255 1.6 120 0.55 330 1.2 180 0.41 415 0.84 270 0.29 495 0.75 330 0.25 640 0.52 470 0.18 635 0.40 270 0.16 795 0.30 470 0.12 1,060 680 0.088 0.22 1,240 820 0.068 0.17 1,450 1,200 0.059 0.15 1,360 1,200 0.059 0.15 1,700 1,500 0.045 0.11 2,200 0.039 0.098 1,980 2,700 0.033 0.083 2,230 3,300 0.029 0.073 2,460 1,770 2,200 0.043 0.11 2,700 0.033 0.083 2,190 3,900 0.029 0.073 2,510 4,700 0.025 0.063 2,770 5,600 0.021 0.053 3,110 3,300 0.039 0.098 1,940 3,900 0.030 0.075 2,350 4,700 0.026 0.065 2,720 6,800 0.023 0.058 3,050 8,200 0.020 0.050 3,300 Impedance Rated ripple current (omax/100kHz) (mArms/ 105C 20c -10c 100kHz) 165 3.3 1.1 180 3.0 1.0 255 1.6 0.55 330 1.2 0.41 415 0.84 0.29 495 0.75 0.25 640 0.52 0.18 635 0.40 0.16 795 0.30 0.12 1,060 0.088 0.22 1,240 0.068 0.17 1,450 0.059 0.15 1,360 0.059 0.15 1,700 0.045 0.11 0.039 0.098 1,980 0.033 0.083 2,230 0.029 0.073 2,460 1,770 0.043 0.11 0.033 0.083 2,190 0.029 0.073 2,510 0.025 0.063 2,770 0.021 0.053 3,110 0.039 0.098 1,940 0.030 0.075 2,350 0.026 0.065 2,720 0.023 0.058 3,050 0.020 0.050 3,300 50Vdc f5b11.5r (E11) Capacitance Rated ripple current (mArms/ 105C -10c 100kHz) Impedance (omax/100kHz) (mF) 20c 0.47 7.0 21.0 65 1.0 5.0 15.0 80 2.2 4.0 12.0 90 3.3 3.5 11.0 95 4.7 3.0 9.0 100 2.0 6.0 125 10 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Rated Voltage Case size (Vdc) fD (mm) Frequency (Hz) 120 1k 10k 100k 0.65 0.83 0.95 1.00 10 & 12.5 0.70 0.85 0.96 1.00 16 & 18 0.85 0.92 0.97 1.00 5 to 8 0.55 0.76 0.91 1.00 10 & 12.5 0.65 0.83 0.93 1.00 16 & 18 0.70 0.87 0.96 1.00 5 to 8 0.40 0.66 0.85 1.00 10 & 12.5 0.50 0.73 0.89 1.00 16 & 18 0.60 0.81 0.94 1.00 50Vdc (0.47 to 3.3mF) 0.20 0.66 0.90 1.00 50Vdc (4.7 to 10mF) 0.40 0.76 0.93 1.00 5 to 8 6.3 to 10 16 to 25 35 to 50 The following case sizes are also available upon request : F 12.5B 15mm, F16B15mm, and F18B15mm. CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C New! KZE lower Z @Ultra Low impedance for Personal Computer and Storage Equipment @Endurance with ripple current: 105C 2000 to 5000 hours @Non solvent-proof @PET sleeve is also available upon requests KY Lower Z KMY ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc P20% (M) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V tanE (Max.) 0.22 0.19 0.16 0.14 0.12 0.10 When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. Z (-25C) / Z (+20C) 2max. Z (-40C) / Z (+20C) 3max. (at 20C, 120Hz) (at 20C after 2 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time F5 & F6.3 : 2000hours F8 : 3000hours F10 : 4000hours F12.5 & F16 : 5000hours Capacitance change [P25% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Capacitance change [P25% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 fD fd F fD' L' FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent (except F5 & F6.3) 15min 4min (F5 to F10) (F12.5 to F16) 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FDP0.5max. LP1.5max. 16 0.8 7.5 Gas escaped end seal ?PART NUMBERING SYSTEM KZE 6.3 VB 1500 M J20 Sleeve code Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF 2200MF Code 4R7 10 100 2200 Material PVC PET Code PS CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C New! ?STANDARD RATINGS Vdc 6.3 Impedance Case size fDbL(mm) Case code Capacitance (omax/100kHz) (mF) 20c -10c 5b11 E11 0.30 1.0 150 6.3b11 F11 0.13 0.41 330 8b11.5 H11 0.072 0.22 560 8b15 H15 0.056 0.17 820 8b20 0.041 0.13 1,200 H20 10b12.5 0.053 0.16 1,000 J12 10b16 0.038 0.12 1,200 J16 10b20 0.023 0.069 1,500 J20 10b25 0.022 0.066 2,200 J25 0.021 0.053 12.5b20 3,300 K20 0.018 0.045 3,900 12.5b25 K25 0.016 0.041 4,700 12.5b30 K30 0.015 0.039 5,600 12.5b35 K35 0.018 0.045 5,600 16b20 L20 0.016 0.043 6,800 16b25 L25 Vdc 10 Rated ripple current Capacitance (mArms/ 105c (mF) 100kHz) 250 405 760 995 1,250 1,030 1,430 1,820 2,150 2,360 2,770 3,290 3,400 3,140 3,460 100 220 470 680 1,000 680 1,000 1,200 1,500 2,200 3,300 3,900 4,700 3,900 5,600 Impedance (omax/100kHz) 20c -10c 0.30 0.13 0.072 0.056 0.041 0.053 0.038 0.023 0.022 0.021 0.018 0.016 0.015 0.018 0.016 1.0 0.41 0.22 0.17 0.13 0.16 0.12 0.069 0.066 0.053 0.045 0.041 0.039 0.045 0.043 25 Impedance Case size Case code Capacitance (omax/100kHz) fDbL (mm) (mF) 20c -10c 5b11 E11 0.30 1.0 47 6.3b11 F11 0.13 0.41 100 8b11.5 H11 0.072 0.22 220 8b15 H15 0.056 0.17 330 8b20 0.041 0.13 470 H20 10b12.5 0.053 0.16 330 J12 10b16 0.038 0.12 470 J16 10b20 0.023 0.069 680 J20 10b25 0.022 0.066 820 J25 0.021 0.053 12.5b20 1,000 K20 0.018 0.045 1,500 12.5b25 K25 0.016 0.041 1,800 12.5b30 K30 0.015 0.039 2,200 12.5b35 K35 0.018 0.045 1,800 16b20 L20 0.016 0.043 2,700 16b25 L25 16 Rated ripple current Capacitance (mArms/ 105c (mF) 100kHz) 250 405 760 995 1,250 1,030 1,430 1,820 2,150 2,360 2,770 3,290 3,400 3,140 3,460 56 120 330 470 680 470 680 1,000 1,200 1,500 2,200 2,700 3,300 2,700 3,900 Impedance 20c -10c Rated ripple current (mArms/ 105c 100kHz) 0.30 0.13 0.072 0.056 0.041 0.053 0.038 0.023 0.022 0.021 0.018 0.016 0.015 0.018 0.016 1.0 0.41 0.22 0.17 0.13 0.16 0.12 0.069 0.066 0.053 0.045 0.041 0.039 0.045 0.043 250 405 760 995 1,250 1,030 1,430 1,820 2,150 2,360 2,770 3,290 3,400 3,140 3,460 (omax/100kHz) 35 Rated ripple current Capacitance (mArms/ 105c (mF) 100kHz) 250 405 760 995 1,250 1,030 1,430 1,820 2,150 2,360 2,770 3,290 3,400 3,140 3,460 33 56 150 220 270 220 330 470 560 680 1,000 1,200 1,500 1,200 1,800 Impedance (omax/100kHz) 20c -10c 0.30 0.13 0.072 0.056 0.041 0.053 0.038 0.023 0.022 0.021 0.018 0.016 0.015 0.018 0.016 1.0 0.41 0.22 0.17 0.13 0.16 0.12 0.069 0.066 0.053 0.045 0.041 0.039 0.045 0.043 50 Rated ripple current Capacitance (mArms/ 105c (mF) 100kHz) 250 405 760 995 1,250 1,030 1,430 1,820 2,150 2,360 2,770 3,290 3,400 3,140 3,460 22 56 100 120 180 150 220 270 330 470 560 680 820 820 1,000 Impedance 20c -10c Rated ripple current (mArms/ 105c 100kHz) 0.34 0.14 0.074 0.061 0.046 0.061 0.042 0.030 0.028 0.027 0.023 0.021 0.019 0.023 0.021 1.18 0.50 0.22 0.18 0.14 0.18 0.12 0.090 0.085 0.068 0.059 0.052 0.051 0.059 0.056 238 385 724 950 1,190 979 1,370 1,580 1,870 2,050 2,410 2,860 2,960 2,730 3,010 (omax/100kHz) ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance(mF) Frequency (Hz) 22 to 180 220 to 560 680 to 1,800 2,200 to 3,900 4,700 to 120 0.40 0.50 0.60 0.75 0.85 1k 0.75 0.85 0.87 0.90 0.95 10k 0.90 0.94 0.95 0.95 0.98 100k 1.00 1.00 1.00 1.00 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C New! KZE lower Z @Newly innovative electrolyte is employed to minimize ESR @Endurance with ripple current : 3000 to 6000 hours at 105C @PET sleeve is also available upon request @Non solvent-proof type KY lower Z KMY ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 2 minutes) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.22 0.19 0.16 0.14 0.12 0.10 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 2 2 2 2 3 4 Z(-25C)/Z(+20C) 3 3 3 4 6 8 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time F5 & 6.3 : 3000hours F8 : 4000hours F10 : 5000hours F12.5 to 18 : 6000hours Capacitance change [P25% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Capacitance change [P25% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 fD fd F fD' L' FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent (except F5 & F6.3) 15min. 4min. (F5 to F10) 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 0.8 7.5 (F12.5 to F18) Gas escape end seal ?PART NUMBERING SYSTEM KY 10 VB 1000 M H20 Sleeve code Case code Capacitance tolerance (P20%) Nominal capacitance code Radial lead type Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF 2200MF Code 4R7 10 100 2200 Material PVC PET Code PS ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 22 to 180 220 to 560 680 to 1,800 2,200 to 3,900 4,700 to 120 0.40 0.50 0.60 0.75 0.85 1k 0.75 0.85 0.87 0.90 0.95 10k 0.90 0.94 0.95 0.95 0.98 100k 1.00 1.00 1.00 1.00 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C New! ?STANDARD RATINGS Vdc 6.3 Case size Capacitance Case code FDbL (mm) (mF) 5b11 6.3b11 8b11.5 8b15 8b20 10b12.5 10b16 10b20 10b25 10b30 12.5b15 12.5b20 12.5b25 12.5b30 12.5b35 12.5b40 16b15 16b20 16b25 16b31.5 16b35.5 16b40 18b15 18b20 18b25 18b31.5 18b35.5 18b40 E11 F11 H11 H15 H20 J12 J16 J20 J25 J30 K15 K20 K25 K30 K35 K40 L15 L20 L25 L31 L35 L40 M15 M20 M25 M31 M35 M40 150 330 680 1,000 1,200 820 1,200 1,500 2,200 2,700 1,800 3,300 3,900 4,700 5,600 6,800 2,700 5,600 6,800 8,200 10,000 12,000 3,900 6,800 10,000 12,000 15,000 18,000 Impedance (omax/100kHz) 20c -10c 0.58 0.22 0.13 0.087 0.069 0.080 0.060 0.046 0.042 0.031 0.049 0.035 0.027 0.024 0.020 0.017 0.042 0.027 0.021 0.017 0.015 0.013 0.043 0.026 0.019 0.015 0.014 0.012 2.3 0.87 0.52 0.35 0.27 0.32 0.24 0.18 0.17 0.12 0.16 0.12 0.089 0.078 0.065 0.056 0.12 0.078 0.060 0.050 0.044 0.038 0.11 0.067 0.049 0.040 0.038 0.032 Vdc E11 F11 H11 H15 H20 J12 J16 J20 J25 J30 K15 K20 K25 K30 K35 K40 L15 L20 L25 L31 L35 L40 M15 M20 M25 M31 M35 M40 210 340 640 840 1,050 865 1,210 1,400 1,650 1,910 1,450 1,900 2,230 2,650 2,880 3,350 1,940 2,530 2,930 3,450 3,610 4,080 2,210 2,860 3,140 4,170 4,220 4,280 100 220 470 680 1,000 680 1,000 1,200 1,500 2,200 1,500 2,200 3,300 3,900 4,700 5,600 2,200 3,900 5,600 6,800 8,200 10,000 2,700 5,600 6,800 8,200 10,000 12,000 Impedance (omax/100kHz) 20c -10c 0.58 0.22 0.13 0.087 0.069 0.080 0.060 0.046 0.042 0.031 0.049 0.035 0.027 0.024 0.020 0.017 0.042 0.027 0.021 0.017 0.015 0.013 0.043 0.026 0.019 0.015 0.014 0.012 2.3 0.87 0.52 0.35 0.27 0.32 0.24 0.18 0.17 0.12 0.16 0.12 0.089 0.078 0.065 0.056 0.12 0.078 0.060 0.050 0.044 0.038 0.11 0.067 0.049 0.040 0.038 0.032 25 Case size Capacitance Case code fDbL (mm) (mF) 5b11 6.3b11 8b11.5 8b15 8b20 10b12.5 10b16 10b20 10b25 10b30 12.5b15 12.5b20 12.5b25 12.5b30 12.5b35 12.5b40 16b15 16b20 16b25 16b31.5 16b35.5 16b40 18b15 18b20 18b25 18b31.5 18b35.5 18b40 10 Rated ripple current Capacitance (mArms/ 105c (mF) 100kHz) 47 100 220 330 470 330 470 680 820 1,000 680 1,000 1,500 1,800 2,200 2,700 1,000 1,800 2,700 3,300 3,900 4,700 1,200 2,200 3,300 3,900 4,700 5,600 Impedance (omax/100kHz) 20c 0.58 0.22 0.13 0.087 0.069 0.080 0.060 0.046 0.042 0.031 0.049 0.035 0.027 0.024 0.020 0.017 0.042 0.027 0.021 0.017 0.015 0.013 0.043 0.026 0.019 0.015 0.014 0.012 -10c 2.3 0.87 0.52 0.35 0.27 0.32 0.24 0.18 0.17 0.12 0.16 0.12 0.089 0.078 0.065 0.056 0.12 0.078 0.060 0.050 0.044 0.038 0.11 0.067 0.049 0.040 0.038 0.032 16 Rated ripple current Capacitance (mArms/ 105c (mF) 100kHz) 210 340 640 840 1,050 865 1,210 1,400 1,650 1,910 1,450 1,900 2,230 2,650 2,880 3,350 1,940 2,530 2,930 3,450 3,610 4,080 2,210 2,860 3,140 4,170 4,220 4,280 56 120 330 470 680 470 680 1,000 1,200 1,500 1,000 1,500 2,200 2,700 3,300 3,900 1,500 2,700 3,900 4,700 5,600 6,800 2,200 3,900 4,700 5,600 8,200 10,000 Impedance 20c -10c Rated ripple current (mArms/ 105c 100kHz) 0.58 0.22 0.13 0.087 0.069 0.080 0.060 0.046 0.042 0.031 0.049 0.035 0.027 0.024 0.020 0.017 0.042 0.027 0.021 0.017 0.015 0.013 0.043 0.026 0.019 0.015 0.014 0.012 2.3 0.87 0.52 0.35 0.27 0.32 0.24 0.18 0.17 0.12 0.16 0.12 0.089 0.078 0.065 0.056 0.12 0.078 0.060 0.050 0.044 0.038 0.11 0.067 0.049 0.040 0.038 0.032 210 340 640 840 1,050 865 1,210 1,400 1,650 1,910 1,450 1,900 2,230 2,650 2,880 3,350 1,940 2,530 2,930 3,450 3,610 4,080 2,210 2,860 3,140 4,170 4,220 4,280 (omax/100kHz) 35 Rated ripple current Capacitance (mArms/ 105c (mF) 100kHz) 210 340 640 840 1,050 865 1,210 1,400 1,650 1,910 1,450 1,900 2,230 2,650 2,880 3,350 1,940 2,530 2,930 3,450 3,610 4,080 2,210 2,860 3,140 4,170 4,220 4,280 33 56 150 220 270 220 330 470 560 680 470 680 1,000 1,200 1,500 1,800 680 1,200 1,800 2,200 2,700 3,300 1,000 1,800 2,200 2,700 3,300 3,900 Impedance (omax/100kHz) 20c 0.58 0.22 0.13 0.087 0.069 0.080 0.060 0.046 0.042 0.031 0.049 0.035 0.027 0.024 0.020 0.017 0.042 0.027 0.021 0.017 0.015 0.013 0.043 0.026 0.019 0.015 0.014 0.012 -10c 2.3 0.87 0.52 0.35 0.27 0.32 0.24 0.18 0.17 0.12 0.16 0.12 0.089 0.078 0.065 0.056 0.12 0.078 0.060 0.050 0.044 0.038 0.11 0.067 0.049 0.040 0.038 0.032 50 Rated ripple current Capacitance (mArms/ 105c (mF) 100kHz) 210 340 640 840 1,050 865 1,210 1,400 1,650 1,910 1,450 1,900 2,230 2,650 2,880 3,350 1,940 2,530 2,930 3,450 3,610 4,080 2,210 2,860 3,140 4,170 4,220 4,280 22 56 100 120 180 150 220 270 330 470 270 470 560 680 820 1,000 470 820 1,000 1,200 1,500 1,800 560 1,000 1,200 1,800 2,200 2,700 Impedance (omax/100kHz) 20c 0.70 0.30 0.17 0.12 0.091 0.12 0.084 0.060 0.055 0.043 0.061 0.045 0.034 0.030 0.025 0.021 0.055 0.034 0.025 0.022 0.019 0.016 0.054 0.036 0.026 0.021 0.017 0.014 -10c 2.8 1.2 0.68 0.48 0.36 0.48 0.34 0.24 0.22 0.17 0.20 0.15 0.11 0.10 0.083 0.069 0.17 0.10 0.075 0.066 0.057 0.048 0.15 0.097 0.070 0.057 0.046 0.038 Rated ripple current (mArms/ 105c 100kHz) 180 295 555 730 910 760 1,050 1,220 1,440 1,690 1,260 1,660 1,950 2,310 2,510 2,920 1,690 2,210 2,555 3,010 3,150 3,710 1,930 2,490 2,740 3,635 3,680 3,800 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 6.3 to 450Vdc low impedance, 105C KMF @Endurance with ripple current: 105C 2000 to 5000 hours @Solvent-proof (6.3 to 100Vdc), see page 16 lower Z longer life KME ?SPECIFICATIONS Items Characteristics Category Temperature Range -55 to +105C(6.3 to 100Vdc) -40 to +105C(160 to 400Vdc) -25 to +105C(450Vdc) Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life 6.3 to 450Vdc P20% (M) 6.3 to 100Vdc I=0.03CV or 4MA, whichever is greater. I=0.01CV or 3MA, whichever is greater. (at 20C, 120Hz) 160 to 450Vdc Time After 1minute After 5minutes (at 20C after 1 minute) CV I=0.03CV+15 (at 20C after 2 minutes) CV[1000 I=0.1CV+40 CV>1000 I=0.04CV+100 I=0.02CV+25 Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 400V 450V Rated voltage (Vdc) 0.24 0.24 0.22 0.19 0.16 0.14 0.12 0.10 0.09 0.08 0.20 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) 6.3V 10V 16V 25V 35V 50V 63V 100V 160 to 250V 400V 450V Rated voltage (Vdc) 4 3 2 2 2 2 2 2 5 3 6 Z(-25C)/Z(+20C) 8 6 4 3 3 3 3 3 6 6 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time for 6.3 to 100Vdc F5 & 6.3 : 2000 hours F8 & 10 : 3000 hours F12.5 and larger : 5000 hours Time for 160 to 450Vdc 2000 hours Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Rated voltage 6.3 to 100Vdc 160 to 450Vdc Capacitance change [P20% of the initial value [P20% of the initial value DF (tanE) [200% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [500% of the initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 16 0.8 7.5 18 0.8 7.5 Gas escape end seal Vent (except F5) ?PART NUMBERING SYSTEM KMF 6.3 VB 1000 M Capacitance 0.47MF 4.7MF 10MF 100MF 470MF Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code R47 4R7 10 100 470 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency(Hz) Rated Voltage(Vdc) Case code F5 (to 47mF) 6.3 F5 (100mF), F6.3, F8 10 F10 to F18 F5 (to 22mF) 16 to 35 F5 (33mF to), F6.3, F8 F10 to F18 F5 (to 3.3mF) 50 F5 (4.7mF to), F6.3, F8 63 F10 to F18 F5 (to 1mF) 100 F5 (2.2mF to), F6.3, F8 F10 to F18 F10 160 to 450 F12.5 to F18 120 1k 10k 100k 0.40 0.70 0.85 0.30 0.50 0.70 0.20 0.40 0.60 0.20 0.30 0.40 0.25 0.35 0.75 0.86 0.95 0.68 0.80 0.88 0.66 0.76 0.84 0.60 0.65 0.75 0.61 0.66 0.93 0.96 0.98 0.91 0.94 0.97 0.90 0.93 0.96 0.88 0.90 0.93 0.88 0.89 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 6.3 to 450Vdc low impedance, 105C ?STANDARD RATINGS Cap (mF) Vdc 6.3 10 16 25 Item s Case size Impedance Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 10,000 15,000 Cap (mF) 5B11 5B11 5B11 6.3B11 6.3B11 8B11.5 10B12.5 12.5B20 12.5B20 16B25 16B25 16B31.5 18B35.5 1.3 1.3 1.3 0.60 0.60 0.33 0.25 0.085 0.085 0.060 0.060 0.048 0.037 154 154 154 260 260 400 510 1,120 1,120 1,570 1,570 1,810 2,240 3.9 3.9 3.9 1.8 1.8 0.99 0.75 0.26 0.26 0.18 0.18 0.14 0.11 5B11 5B11 5B11 5B11 6.3B11 8B11.5 8B11.5 10B16 12.5B20 12.5B25 16B25 16B31.5 18B35.5 1.3 1.3 1.3 1.3 0.60 0.33 0.33 0.19 0.085 0.070 0.060 0.048 0.037 154 154 154 154 260 400 400 635 1,120 1,320 1,570 1,810 2,240 3.9 3.9 3.9 3.9 1.8 0.99 0.99 0.57 0.26 0.21 0.18 0.14 0.11 5B11 5B11 5B11 5B11 6.3B11 8B11.5 8B11.5 10B12.5 10B20 12.5B25 16B25 16B31.5 18B35.5 18B40 2.0 1.3 1.3 1.3 0.60 0.33 0.33 0.25 0.14 0.070 0.060 0.048 0.037 0.034 6.0 3.9 3.9 3.9 1.8 0.99 0.99 0.75 0.42 0.21 0.18 0.14 0.11 0.10 124 154 154 154 260 400 400 510 860 1,320 1,570 1,810 2,240 2,460 5B11 5B11 5B11 5B11 5B11 6.3B11 8B11.5 10B12.5 10B16 12.5B20 16B25 16B31.5 18B35.5 18B40 100 124 154 154 154 260 400 510 635 1,120 1,570 1,810 2,240 2,460 9.0 6.0 3.9 3.9 3.9 1.8 0.99 0.75 0.57 0.26 0.18 0.14 0.11 0.10 3.0 2.0 1.3 1.3 1.3 0.60 0.33 0.25 0.19 0.085 0.060 0.048 0.037 0.034 Vdc 35 50 63 100 Item s Case size Impedance Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6,800 5B11 5B11 5B11 5B11 6.3B11 8B11.5 10B12.5 10B16 10B20 12.5B25 16B31.5 18B35.5 18B40 3.0 2.0 1.3 1.3 0.60 0.33 0.25 0.19 0.14 0.070 0.048 0.037 0.034 9.0 6.0 3.9 3.9 1.8 0.99 0.75 0.57 0.42 0.21 0.14 0.11 0.10 100 124 154 154 260 400 510 635 860 1,320 1,810 2,240 2,460 5B11 5B11 5B11 5B11 5B11 5B11 5B11 6.3B11 6.3B11 8B11.5 10B16 10B20 12.5B20 16B25 18B35.5 7.0 5.0 4.0 3.5 3.0 2.0 1.3 0.60 0.60 0.33 0.19 0.14 0.085 0.060 0.037 21.0 15.0 12.0 11.0 9.0 6.0 3.9 1.8 1.8 0.99 0.57 0.42 0.26 0.18 0.11 66 78 88 94 100 124 154 260 260 400 635 860 1,120 1,570 2,240 5B11 5B11 6.3B11 6.3B11 8B11.5 10B12.5 10B20 12.5B20 12.5B25 16B31.5 4.0 14.0 2.5 8.8 1.2 4.2 1.2 4.2 0.56 2.0 0.50 1.8 0.27 0.95 0.16 0.56 0.14 0.49 0.060 0.21 88 124 180 180 305 380 620 890 1,040 1,790 5B11 5B11 5B11 5B11 5B11 6.3B11 8B11.5 10B12.5 10B16 12.5B20 16B25 16B25 16B31.5 10.0 7.0 6.0 5.0 4.0 1.2 0.66 0.50 0.32 0.16 0.090 0.090 0.060 35.0 25.0 21.0 18.0 14.0 4.2 2.3 1.8 1.1 0.56 0.32 0.32 0.21 55 66 72 78 88 180 282 380 500 890 1,440 1,440 1,790 (mArms/105C, 100kHz) (Omax/-10C, 100kHz) (Omax/20C, 100kHz) FDBL (mm) Non solvent-proof Cap (mF) Vdc Item s 4.7 10 22 33 47 100 220 160 Case size 10B16 10B20 12.5B20 12.5B25 16B25 18B35.5 Impedance 1.5 1.1 0.71 0.46 0.24 0.14 200 Rated ripple 250 350 440 600 910 1,370 Case size 10B16 10B20 12.5B20 12.5B25 16B31.5 18B35.5 Impedance 1.5 1.1 0.71 0.46 0.17 0.14 250 Rated ripple 250 350 440 600 1,160 1,370 Case size Impedance Rated ripple 10B16 10B20 12.5B25 12.5B25 16B25 18B35.5 18B40 3.5 2.8 1.2 1.2 0.60 0.30 0.27 165 230 360 360 570 935 1,000 Non solvent-proof Cap (mF) Vdc Item s 2.2 3.3 4.7 10 22 33 47 400 Case size 10B20 10B25 12.5B25 16B25 16B31.5 18B31.5 Impedance 2.9 2.3 1.2 0.61 0.46 0.33 450 Rated ripple 195 220 360 570 700 860 Case size Impedance Rated ripple 10B16 10B20 12.5B20 12.5B25 16B31.5 18B35.5 7.9 6.2 3.7 2.6 1.0 0.62 110 135 190 250 480 650 (mArms/105C, 100kHz) (Omax/20C, 100kHz) FDBL (mm) CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 160 to 450Vdc long life, 105C @Slender case sizes are lined up for laying down small places on PC board @For electronic ballast circuits and other long life required applications @Endurance with ripple current : 105C 8000 to 10000 hours @Non solvent-proof type ?SPECIFICATIONS Items Characteristics Category Temperature Range -40 to +105C (160 to 400Vdc) -25 to+105C (450Vdc) Rated Voltage Range 160 to 450Vdc Capacitance Tolerance P20% (M) (at 20C, 120Hz) time After 1 minute After 5 minutes Leakage Current CV CV[1000 I=0.1CV+40 I=0.03CV+15 CV>1000 I=0.04CV+100 I=0.02CV+25 Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C) Rated voltage (Vdc) Dissipation Factor 160 to 250V 350 & 400V 450V (tanE) tanE (Max.) 0.20 0.24 0.24 (at 20C, 120Hz) Rated voltage (Vdc) Low Temperature 160 to 250V 350 & 400V 450V Characteristics Z(-25C)/Z(+20C) 6 5 3 (Max. Impedance Ratio) Z(-40C)/Z(+20C) (at 120Hz) 6 6 The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated Endurance ripple current is applied for 10000 hours (8000 hours for F10) at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C Shelf Life without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [500% of the initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] Vent L' 15min. 4min. (F10) (F12.5 to F18) fD fd F fD' L' 10 0.6 5.0 18 12.5 16 0.6 0.8 0.8 5.0 7.5 7.5 FD+0.5max. L+1.5max. Gas escaped end seal ?PART NUMBERING SYSTEM KMX 400 VB 33 M L20 Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF 220MF Code 4R7 10 100 220 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 160 to 450Vdc long life, 105C ?STANDARD RATINGS Vdc Items Cap (mF) 22 33 47 68 100 150 220 330 470 560 680 Case size fDbL (mm) Case code 10B20 12.5B20 12.5B25 16B20 J20 K20 K25 L20 1.3 0.91 0.63 0.47 210 270 350 430 565 725 950 970 16B25 18B20 10B50 16B31.5 18B25 12.5B45 16B31.5 18B25 16B40 18B31.5 16B55 16B60 18B55 L25 M20 J50 L31 M25 K45 L31 M25 L40 M31 L55 L60 M55 0.27 0.31 0.77 0.22 0.23 0.52 0.22 0.23 0.35 0.22 0.25 0.23 0.20 475 465 545 625 600 740 750 725 990 960 1,220 1,350 1,480 1,280 1,180 1,020 1,300 1,300 1,200 1,300 1,300 1,540 1,700 1,870 2,140 2,330 Vdc Items Cap (mF) 10 22 33 47 68 100 150 220 330 Case size fDbL (mm) Case code 10B20 12.5B20 12.5B25 12.5B25 16B20 J20 K20 K25 K25 L20 10B50 16B25 18B20 12.5B40 16B31.5 18B25 12.5B55 18B31.5 16B50 18B40 18B50 J50 L25 M20 K40 L31 M25 K55 M31 L50 M40 M50 Vdc Items Cap (mF) 3.3 4.7 10 22 33 47 68 100 150 160 Impedance Rated ripple current (omax./ (mArms/105c) 120Hz 100kHz 20c, 100kHz) Case size fDbL (mm) Case code 250 Rated ripple current Impedance (mArms/105c) (omax./ 120Hz 100kHz 20c, 100kHz) 300 110 3.5 480 185 2.3 630 250 1.7 630 295 1.7 750 300 1.1 0.73 0.78 0.90 0.56 0.63 0.63 0.39 0.42 0.28 0.35 0.23 400 Impedance (omax./ 20c, 100kHz) 340 390 385 500 520 500 650 640 820 820 1,030 840 1,000 900 1,200 1,400 1,345 1,420 1,450 1,710 1,485 2,140 Rated ripple current (mArms/105c) 120Hz 100kHz 10B20 J20 2.9 110 180 12.5B25 16B20 10B40 16B20 K25 L20 J40 L20 1.3 0.91 1.7 0.91 200 200 215 250 300 600 640 600 12.5B40 16B25 18B20 12.5B50 16B31.5 18B25 16B40 18B35.5 16B60 K40 L25 M20 K50 L31 M25 L40 M35 L60 1.1 0.73 0.75 0.81 0.49 0.53 0.63 0.34 0.41 280 325 350 335 420 400 540 545 695 775 700 750 895 1,100 875 1,210 1,250 1,490 Case size fDbL (mm) Case code 200 Impedance Rated ripple current (omax./ (mArms/105c) 120Hz 100kHz 20c, 100kHz) 1.5 440 165 0.91 590 230 0.91 780 270 0.63 950 350 0.47 970 430 0.73 930 430 0.27 1,280 425 0.31 1,180 465 0.56 1,200 615 0.27 1,300 580 10B20 12.5B20 12.5B20 12.5B25 16B20 10B50 16B25 18B20 12.5B40 16B25 J20 K20 K20 K25 L20 J50 L25 M20 K40 L25 12.5B55 K55 0.39 790 1,420 18B31.5 M31 0.22 780 1,700 16B50 L50 0.28 1,020 1,870 18B50 18B60 M50 M60 0.23 0.18 1,230 1,330 2,180 2,390 Case size fDbL (mm) 12.5B20 16B20 10B50 16B25 18B20 12.5B40 16B31.5 18B25 12.5B55 Case code 350 Impedance Rated ripple current (omax./ (mArms/105c) 20c, 100kHz) 120Hz 100kHz Use KMX400VB10MJ20 2.1 K20 0.91 L20 1.2 J50 0.73 L25 0.75 M20 1.1 K40 0.49 L31 0.53 M25 0.71 K55 185 250 270 325 350 335 420 400 435 270 600 705 700 750 895 1,100 875 1,050 18B31.5 M31 0.40 530 1,170 16B50 L50 0.51 690 1,400 18B55 M55 0.32 840 1,610 Case size fDbL (mm) Case code 10B20 12.5B20 12.5B25 10B45 16B25 18B20 12.5B40 16B31.5 18B25 12.5B50 J20 K20 K25 J45 L25 M20 K40 L31 M25 K50 18B31.5 M31 0.93 340 900 16B40 18B35.5 16B60 L40 M35 L60 0.71 0.71 0.45 445 420 570 985 980 1,300 18B60 M60 0.41 690 1,510 450 Impedance Rated ripple current (omax./ (mArms/105c) 20c, 100kHz) 120Hz 100kHz 6.5 150 60 3.6 200 80 2.5 315 125 2.3 520 185 1.7 570 210 2.1 550 200 1.3 710 235 1.1 620 275 1.1 590 280 0.95 845 300 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS F20 & 22 radial lead, 85C SMH @Downsized from current standard SMG series @Endurance with ripple current : 85C 2000 hours @For input filtering of power supplies @Non solvent-proof longer life higher ripple low profile SME SMG ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current -25 to +85C 160 to 450Vdc P20% (M) I=0.03CV or 3 mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.15max. Low Temperature Characteristics (Max. Impedance Ratio) Rated voltage (Vdc) Z(-25C)/Z(+20C) Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) 160 to 250V 400 & 450V 4 6 (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [500% of the initial specified value FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent 15min. 4min. 22 fD 20 1.0 fd 10.0 F fD' FD+0.5max. L' L+2.0max. *Note : The snap-in forming type, RC-type, is available upon request, RC-type fits two F2mm holes and 10mm spacing. See page 23. ?PART NUMBERING SYSTEM SMH 200 VB 470 M 20D ?CASE CODE [mm] RC If RC type lead is required Case code Cap tolerance (P20%) Nominal cap in MF Radial lead type Rated voltage in volts Series name ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) 160 to 250Vdc 400 & 450Vdc 50 0.81 0.77 120 1.00 1.00 300 1.17 1.16 1k 1.32 1.30 10k 1.45 1.41 Case code Case size fDbL Case code Case size fDbL 20S 20B20 22S 22B20 20A 20B25 22A 22B25 20B 20B30 22B 22B30 20C 20B35 22C 22B35 20D 20B40 22D 22B40 20E 20B45 22E 22B45 20F 20B50 22F 22B50 50k 1.50 1.43 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS F20 & 22 radial lead, 85C ?STANDARD RATINGS Vdc fD mF 160 20 200 22 20 250 22 20 400 22 20 450 22 20 22 20B20 0.40 33 47 20B20 0.48 56 20B25 0.57 68 82 20B25 0.52 22B25 0.57 22B25 0.62 20B30 0.62 22B25 0.65 20B25 0.64 22B25 0.69 20B35 0.72 22B30 0.69 20B30 0.75 22B25 0.78 20B35 0.79 22B30 0.80 20B35 0.87 22B30 0.90 20B40 0.92 22B35 0.94 100 20B20 0.67 120 20B25 0.85 22B20 0.83 20B40 1.02 22B35 1.03 20B45 1.07 22B40 1.11 20B50 1.24 22B45 1.29 150 20B20 0.82 22B20 0.87 20B25 0.94 22B25 1.03 20B45 1.20 22B40 1.24 20B50 1.36 22B45 1.41 180 20B20 0.90 22B20 0.95 20B25 0.97 22B25 1.05 20B30 1.12 22B25 1.12 220 20B25 1.07 22B25 1.16 20B25 1.07 22B25 1.16 20B30 1.24 22B30 1.33 270 20B30 1.29 22B25 1.29 20B30 1.29 22B30 1.39 20B35 1.44 22B30 1.47 330 20B30 1.43 22B30 1.53 20B35 1.49 22B30 1.53 20B40 1.70 22B35 1.71 390 20B30 1.55 22B30 1.67 20B35 1.62 22B30 1.67 20B45 1.93 22B40 2.00 470 20B35 1.78 22B30 1.83 20B40 1.90 22B35 1.92 20B50 2.19 22B45 2.29 22B50 1.44 22B50 1.59 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS F20 & 22 radial lead, 105C KMH @Radial lead type ranging from F20B20 to F22B50mm @For input filtering of power supplies @Endurance with ripple current : 105C 2000 hours @Non solvent-proof downsized higher ripple KRF ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current -25 to +105C 160 to 450Vdc P20% (M) I=0.03CV or 3 mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.15max. Low Temperature Characteristics (Max. Impedance Ratio) Rated voltage (Vdc) Z(-25C)/Z(+20C) Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) 160 to 250V 400 & 450V 4 6 (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [500% of the initial specified value FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent 15min. 4min. 22 fD 20 1.0 fd 10.0 F fD' FD+0.5max. L' L+2.0max. *Note : The snap-in forming type, RC-type, is available upon request, RC-type fits two F2mm holes and 10mm spacing. See page 23. ?CASE CODE [mm] ?PART NUMBERING SYSTEM KMH 160 VB 390 M 20C RC If RC type lead is required Case code Cap tolerance (P20%) Nominal cap in MF Radial lead type Rated voltage in volts Series name ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) 160 to 250Vdc 400 & 450Vdc 50 0.81 0.77 120 1.00 1.00 300 1.17 1.16 1k 1.32 1.30 10k 1.45 1.41 Case code Case size fDbL Case code Case size fDbL 20S 20B20 22S 22B20 20A 20B25 22A 22B25 20B 20B30 22B 22B30 20C 20B35 22C 22B35 20D 20B40 22D 22B40 20E 20B45 22E 22B45 20F 20B50 22F 22B50 50k 1.50 1.43 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS F20 & 22 radial lead, 105C ?STANDARD RATINGS Vdc fD mF 160 20 200 22 20 250 22 20 400 22 20 450 22 20B20 0.29 33 20 22 20B25 0.31 22B25 0.42 22B20 0.37 47 56 20B25 0.41 68 20B30 0.49 20B30 0.44 22B25 0.51 20B20 0.46 82 100 20B25 0.60 20B20 0.52 120 22B20 0.59 20B25 0.63 22B20 0.62 22B20 0.68 20B25 0.69 22B25 0.75 20B30 0.79 22B25 0.79 20B25 0.76 22B25 0.82 20B30 0.82 22B25 0.82 20B35 0.92 22B30 0.95 270 20B30 0.91 22B25 0.91 20B30 0.91 22B30 0.98 20B40 1.09 22B35 1.14 330 20B30 1.01 22B30 1.16 20B35 1.05 22B35 1.20 20B45 1.26 22B40 1.30 390 20B35 1.15 22B30 1.27 20B40 1.22 22B35 1.31 20B50 1.41 22B45 1.49 470 20B40 1.34 22B35 1.40 20B45 1.34 22B40 1.45 150 20B20 0.58 180 20B25 0.69 220 20B35 0.51 22B30 0.52 20B40 0.60 22B35 0.60 20B35 0.62 22B30 0.64 20B45 0.69 22B40 0.71 20B40 0.72 22B35 0.73 20B50 0.78 22B45 0.81 20B45 0.85 22B40 0.88 20B50 0.96 22B45 0.99 22B50 0.93 22B50 1.13 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 22B50 1.65 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS 200 & 400V high ripple, 105C @Endurance with ripple current : 105C 2,000 hours @Higher ripple current than KMG, general purpose series @KMG equivalent or even lower profile case sizes @Suitable for low profile equipment such as AC adaptors ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation factor (tane) Low Temperature Characteristics Endurance Shelf Life -40 to 105C 200 & 400Vdc P20%(M) (at 20C, 120Hz) I=0.04CV+100(after 1 minute at 20C) I=0.02CV+25(after 5 minutes at 20C) Where: I : Max. leakage current(MA), C : Nominal capacitance(MF), V : Rated voltage(V) 200 400 Rated voltage(Vdc) 0.20 0.24 tanE(Max.) (at 20C, 120Hz) 200 400 Rated voltage(Vdc) 3 5 Z(-25C)/Z(20C) 6 6 Z(-40C)/Z(20C) (at 20C, 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to the rated voltage with the rated ripple current is applied for 2,000 hours at 105C. Capacitance change [P20% of the initial value DF(tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1,000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF(tanE) [200% of the initial specified value Leakage current [500% of the initial specified value ?DIMENSIONS (Radial Lead Type=VB) [mm] ?PART NUMBERING SYSTEM Fd FD+0.5 L+1.5max. 400 VB 33 15min. 4min. Vent fD fd F Case size Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Gas escape end seal 12.5 0.6 5.0 16 0.8 7.5 16b20 M FP0.5 PA Sleeve Capacitance 10MF 100MF Code 10 100 18 0.8 7.5 ?STANDARD RATINGS 200Vdc Nominal capacitance (mF) 33 47 56 68 82 100 120 150 Case size fDbL (mm) 12.5B20 12.5B20 12.5B25 12.5B25 16B20 16B20 16B20 16B25 18B20 18B25 400Vdc Part number Rated ripple current (mArms) at 105c, 120Hz PA200VB33M12.5B20 PA200VB47M12.5B20 PA200VB56M12.5B25 PA200VB68M12.5B25 PA200VB68RM16B20 PA200VB82M16B20 PA200VB100M16B20 PA200VB120M16B25 PA200VB120M18B20 PA200VB150M18B25 203 242 288 317 323 355 392 465 446 536 Nominal capacitance (mF) 10 22 33 47 56 68 Case size fDbL (mm) Part number Rated ripple current (mArms) at 105c, 120Hz 12.5B20 12.5B25 16B20 16B20 16B25 18B20 18B25 18B25 PA400VB10M12.5B20 PA400VB22M12.5B25 PA400VB22M16B20 PA400VB33M16B20 PA400VB47M16B25 PA400VB47M18B20 PA400VB56M18B25 PA400VB68M18B25 110 180 183 225 291 279 327 360 ?RATED RIPPLE CURRENT MULTIPLIERS Frequency (Hz) 10 to 47mF 56 to 150mF 50 0.45 0.50 120 1.00 1.00 300 1.25 1.15 1k 1.50 1.30 10k 1.75 1.40 100k 1.80 1.50 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Overvoltage-proof design, 105C @No sparks against DC over-voltage @Endurance with ripple current : 105C 2000 hours @Non solvent-proof ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -25 to +105C 200 & 400Vdc P20% (M) I=0.04CV+100 Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 200V 400V Rated voltage (Vdc) 0.20 0.24 tanE (Max.) 200V 400V Rated voltage (Vdc) 4 6 Z(-25C)/Z(+20C) (at 20C, 120Hz) (at 20C after 1 minute) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [500% of the initial specified value ?DIMENSIONS (Radial Lead Type=VB) [mm] L+1.5max. KLG 400 7.5P0.5 F0.8 FD+0.5max. Sleeve ?PART NUMBERING SYSTEM 15min. 4min. VB 33 M L25 Case code Cap tolerance (P20%) Nominal cap in MF Radial lead type Rated voltage in volts Series name Gas escape end seal Vent ?STANDARD RATINGS Vdc 200 Items Case size Case Rated ripple current (mArms/ fDbL (mm) code 105c, 120Hz) mF 100 425 L25 16B25 500 16B31.5 L31 120 475 M25 18B25 560 16B31.5 L31 150 530 M25 18B25 645 L40 16B40 180 630 18B31.5 M31 725 18B35.5 M35 220 735 M40 18B40 Vdc 400 Items Case size Case Rated ripple current (mArms/ fDbL (mm) code 105c, 120Hz) mF 22 200 L25 16B25 33 220 L25 16B25 245 16B31.5 L31 39 250 M25 18B25 47 275 16B31.5 L31 350 L40 16B40 56 315 18B31.5 M31 68 350 18B35.5 M35 82 395 M40 18B40 Part number KLG200VB100ML25 KLG200VB120ML31 KLG200VB120MM25 KLG200VB150ML31 KLG200VB150MM25 KLG200VB180ML40 KLG200VB180MM31 KLG200VB220MM35 KLG200VB220MM40 ?DC OVERVOLTAGE TEST CONDITIONS The vent will be operated and the capacitor shall become an open circuit without burning materials when the following excess DC voltage is applied. @Test DC voltage ?RATED RIPPLE CURRENT MULTIPLIERS @Test circuit Rated voltage Current limit Test DC voltage 200Vdc 4A 300/375Vdc 400Vdc 2A 500/600Vdc Part number KLG400VB22ML25 KLG400VB33ML25 KLG400VB39ML31 KLG400VB39MM25 KLG400VB47ML31 KLG400VB56ML40 KLG400VB56MM31 KLG400VB68MM35 KLG400VB82MM40 Frequency (Hz) 50 22 to 47mF 0.75 56 to 220mF 0.80 120 1.00 1.00 300 1.25 1.15 1k 1.50 1.30 10k 1.75 1.40 50k 1.80 1.50 100k 1.85 1.60 + AC input SW CX - Constant DC voltage/current power supply CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Long life for F4 to F8 product, 105C New! @Long life and high reliability for F4B5 to F8B20mm range @Endurance with ripple current : 105C 3000 to 6000hours @Suitable for long life and high reliability required products @Solvent-proof type, see page16 ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Endurance Shelf Life -40 to +105C 6.3 to 50Vdc (at 20C, 120Hz) P20% (M) I=0.03CV or 3MA, whichever is greater. (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 6.3V 10V 16V 25V 35V 50V (at 20C, 120Hz) tanE (Max.) 0.50 0.40 0.35 0.30 0.25 0.25 The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified period of time at 105C. Time See STANDARD RATINGS Capacitance change [P30% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent (F8B12L and larger) 15min. 4min. (5mm Height) (7mm Height and higher) Gas escaped end seal 5mm Height fD fd F fD' L' 7mm Height fD fd F fD' L' 8 6.3 5 4 0.45 0.45 0.45 0.45 1.5 2.0 2.5 2.5 FD+0.5max. L+1.0max. 8 6.3 5 4 0.45 0.45 0.45 0.45 1.5 2.0 2.5 3.5 FD+0.5max. L+1.0max. 11.5mm and larger fD fd F fD' L' 4 0.45 1.5 8 6.3 5 0.5 0.5 0.6 2.0 2.5 3.5 FD+0.5max. L+1.5max. ?PART NUMBERING SYSTEM FL 10 VB 33 M E05 Case code Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 4.7MF 10MF 100MF 2200MF Code 4R7 10 100 2200 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Long life for F4 to F8 product, 105C New! ?STANDARD RATINGS Vdc 10 6.3 25 16 Impedance Rated ripple Endurance Capacitance Impedance Rated ripple Endurance Capacitance Impedance Rated ripple Endurance Capacitance Impedance Rated ripple Endurance Item Capacitance 20c, current 20c, current 20c, current 20c, current 105c 105c 105c 105c 100kHz (mArms/ 100kHz (mArms/ 100kHz (mArms/ 100kHz (mArms/ (mF) (mF) (mF) (mF) 105c, 105c, 105c, Case (hours) (hours) (hours) (hours) (omax.) (omax.) (omax.) (omax.) 105c, fDbL(mm) code 100kHz) 100kHz) 100kHz) 100kHz) 10 37 5.4 15 37 5.4 22 37 5.4 33 37 5.4 D05 4b5 3,000 3,000 3,000 3,000 15 44 4.5 22 44 4.5 33 44 4.5 47 44 4.5 D07 4b7 3,000 3,000 3,000 3,000 39 83 2.2 68 83 2.2 100 83 2.2 120 83 2.2 D11 4b11.5 5,000 5,000 5,000 5,000 15 57 3.1 22 57 3.1 33 57 3.1 56 57 3.1 E05 5b5 3,000 3,000 3,000 3,000 22 70 2.5 33 70 2.5 47 70 2.5 82 70 2.5 E07 5b7 3,000 3,000 3,000 3,000 68 115 1.5 120 115 1.5 180 115 1.5 220 115 1.5 E11 5b11.5 5,000 5,000 5,000 5,000 100 149 1.2 180 149 1.2 220 149 1.2 270 149 1.2 E15 5b15 6,000 6,000 6,000 6,000 33 82 1.7 47 82 1.7 68 82 1.7 100 82 1.7 F05 6.3b5 3,000 3,000 3,000 3,000 56 1.3 116 68 1.3 116 100 1.3 116 150 1.3 116 F07 6.3b7 3,000 3,000 3,000 3,000 120 0.72 190 270 0.72 190 390 0.72 190 470 0.72 190 F11 6.3b11.5 5,000 5,000 5,000 5,000 180 0.53 245 390 0.53 245 470 0.53 245 560 0.53 245 F15 6.3b15 6,000 6,000 6,000 6,000 68 1.5 110 100 1.5 110 150 1.5 110 220 1.5 110 H05 8b5 3,000 3,000 3,000 3,000 100 0.90 162 150 0.90 162 220 0.90 162 270 0.90 162 H07 8b7 3,000 3,000 3,000 3,000 270 0.41 287 470 0.41 287 680 0.41 287 1,000 0.41 287 H12 8b12 6,000 6,000 6,000 6,000 390 0.30 365 680 0.30 365 0.30 365 1,200 0.30 365 H15 8b15 6,000 6,000 6,000 6,000 1,000 470 0.23 417 820 0.23 417 0.23 417 1,500 0.23 417 H20 8b20 6,000 6,000 6,000 6,000 1,200 Vdc 50 35 Impedance Rated ripple Endurance Capacitance Impedance Rated ripple Endurance Item Capacitance 20c, current 20c, current 105c 105c 100kHz (mArms/ 100kHz (mArms/ (mF) (mF) Case (hours) (hours) (omax.) 105c, (omax.) 105c, fDbL(mm) code 100kHz) 100kHz) 3.3 11 26 4.7 5.4 37 D05 4b5 3,000 3,000 4.7 9.0 30 6.8 4.5 44 D07 4b7 3,000 3,000 12 3.7 67 22 2.2 83 D11 4b11.5 5,000 5,000 4.7 6.0 40 10 3.1 57 E05 5b5 3,000 3,000 6.8 4.8 50 10 2.5 70 E07 5b7 3,000 3,000 27 2.6 87 47 1.5 115 E11 5b11.5 5,000 5,000 33 2.0 115 56 1.2 149 E15 5b15 6,000 6,000 10 2.9 63 22 1.7 82 F05 6.3b5 3,000 3,000 15 2.2 90 22 1.3 116 F07 6.3b7 3,000 3,000 47 1.2 147 100 0.72 190 F11 6.3b11.5 5,000 5,000 68 0.89 189 120 0.53 245 F15 6.3b15 6,000 6,000 22 2.6 84 33 1.5 110 H05 8b5 3,000 3,000 22 1.6 120 47 0.90 162 H07 8b7 3,000 3,000 0.68 223 180 0.41 287 H12 8b12 6,000 6,000 100 0.51 280 220 0.30 365 H15 8b15 6,000 6,000 120 0.38 371 330 0.23 417 H20 8b20 6,000 6,000 180 Vdc 50(Small capacitance) Impedance Rated ripple Endurance Item Capacitance 20c, current 105c 100kHz (mArms/ (mF) Case (hours) (omax.) 105c, fDbL(mm) code 100kHz) 0.47 34 14 D05 4b5 3,000 1.0 19 18 3,000 2.2 14 22 3,000 0.47 14 36 E11 5b11.5 5,000 1.0 8.0 48 5,000 2.2 6.0 56 5,000 3.3 5.0 62 5,000 4.0 4.7 68 5,000 2.5 10 90 5,000 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance(mF) Frequency(Hz) to 3.3 4.7 to 6.8 10 to 180 220 to 560 680 to 1500 120 0.20 0.35 0.40 0.50 0.60 1k 0.66 0.70 0.75 0.85 0.87 10k 0.90 0.90 0.90 0.94 0.95 100k 1.00 1.00 1.00 1.00 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS High reliability, Long life, 105C @Endurance : 105C 5000 to 7000 hours @Solvent-proof type, see page 16 ?SPECIFICATIONS Characteristics Items Series Category Temperature Range LXA LX -55 to +105C -40 to +105C Rated Voltage Range Capacitance Tolerance Leakage Current 10 to 63Vdc P20% (M) I=0.01CV or 3MA, whichever is greater. Dissipation Factor (tane) Low Temperature Characteristics Endurance Shelf Life 100 to 250Vdc P20% (M) (at 20C, 120Hz) I=0.01CV+2MA (100Vdc) (at 20C after 2 minutes) I=0.04CV+100MA (160 to 250Vdc) (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated Voltage (Vdc) 10V 16V 25V 35V 50V 63V 100V 160V 200V 250V tanE (Max.) 0.30 0.25 0.22 0.18 0.15 0.12 0.12 0.15 0.15 0.15 When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) Capacitance change DC (-10C/+20C)]0.8 (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for the specified period of time at 105C. Series LXA LX Time 7000 hours (F12.5 and larger) 5000hours 5000 hours Capacitance change [P30% of the initial value [P30% of the initial value DF (tanE) [300% of the initial specified value [250% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Series LXA LX Capacitance change [P15% of the initial value [P20% of the initial value DF (tanE) [150% of the initial specified value [150% of the initial specified value Leakage current [The initial specified value [The initial specified value (at 20C, 120Hz) FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. Vent (except F6.3) (F6.3 to F10) (F12.5 to F18) 6.3 fD 0.5 fd 2.5 F fD' LXA L' LX - 10 12.5 16 18 8 0.6 0.6 0.6 0.8 0.8 3.5 5.0 5.0 7.5 7.5 FD+0.5max. L+1.5max. L+1.5max. L+2.0max. Gas escape end seal ?PART NUMBERING SYSTEM LXA 50 VB 2R2 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.47MF 1.0MF 4.7MF 10MF 100MF Code R47 1 4R7 10 100 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS High reliability, Long life, 105C ?STANDARD RATINGS 10 to 63Vdc Vdc 10 16 Case size Impedance Items ( fDbL (mm) omax. /100kHz 20c mF 4.7 10 22 33 47 100 220 330 470 1,000 2,200 3,300 4,700 6.3B15 6.3B15 8B15 10B16 10B16 12.5B20 16B25 16B31.5 16B35.5 105c ) ) (Arms/100kHz 0.14 0.14 0.21 0.37 0.37 0.72 1.22 1.40 1.55 1.65 1.65 0.90 0.42 0.42 0.16 0.08 0.07 0.06 25 Impedance Rated ripple Case size ( 100kHz fDbL (mm) omax. / 20c 105c ) (Arms/100kHz ) 1.65 1.65 1.65 0.90 0.42 0.28 0.13 0.08 0.06 0.055 6.3B15 6.3B15 6.3B15 8B15 10B16 10B20 12.5B25 16B25 16B35.5 18B35.5 35 Rated ripple Case size Impedance ( fDbL (mm) omax. /100kHz 20c 6.3B15 6.3B15 6.3B15 8B15 10B16 10B20 12.5B20 16B25 16B35.5 18B40 0.14 0.14 0.14 0.21 0.37 0.49 0.78 1.22 1.55 1.69 Rated ripple Case size 105c ) ) (Arms/100kHz 105c ) (Arms/100kHz (omax. /100kHz 20c ) 6.3B15 6.3B15 6.3B15 6.3B15 6.3B15 8B15 10B20 12.5B20 12.5B20 16B25 18B35.5 0.14 0.14 0.14 0.21 0.37 0.49 0.72 1.22 1.55 1.80 1.65 1.65 1.65 0.90 0.42 0.28 0.16 0.08 0.06 0.05 fDbL (mm) Impedance Rated ripple 0.14 0.14 0.14 0.14 0.14 0.21 0.49 0.72 0.72 1.22 1.69 1.65 1.65 1.65 1.65 1.65 0.90 0.28 0.16 0.16 0.08 0.055 LXA-series Vdc Items 50 63 Case size Impedance ( 100kHz fDbL (mm) omax. / 20c mF 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 Rated ripple Case size 105c ) (Arms/100kHz ) 4.5 2.6 1.8 1.8 1.65 1.65 1.65 0.90 0.90 0.55 0.20 0.20 0.09 0.07 6.3B15 6.3B15 6.3B15 6.3B15 6.3B15 6.3B15 6.3B15 8B15 8B15 10B16 12.5B20 12.5B20 16B25 16B31.5 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.21 0.21 0.32 0.64 0.64 1.15 1.40 Impedance ( fDbL (mm) omax. /100kHz 20c Rated ripple 105c ) ) (Arms/100kHz ?STANDARD RATINGS 100 to 250Vdc Vdc Items 6.3B15 6.3B15 6.3B15 8B15 8B15 10B20 12.5B20 12.5B25 16B25 18B35.5 1.65 1.65 1.65 0.90 0.90 0.37 0.20 0.16 0.09 0.055 fDbL (mm) mF 0.14 0.14 0.14 0.21 0.21 0.42 0.64 0.72 1.15 1.69 100 0.47 1.0 2.2 3.3 4.7 10 22 33 47 Impedance Case size 8B15 8B15 8B15 8B15 8B15 10B20 12.5B20 12.5B25 16B25 ( 100kHz omax. / 20c )( 35.0 18.0 9.62 8.57 6.43 2.99 1.47 1.00 0.69 Rated ripple 100kHz omax. / -10c 105.0 54.0 28.8 25.7 19.3 8.97 4.41 3.00 2.07 105c ) ) (Arms/100kHz 0.03 0.05 0.06 0.07 0.08 0.23 0.25 0.33 0.44 LX-series Vdc 160 fDbL (mm) mF 1.0 2.2 3.3 4.7 10 22 33 47 68 200 Impedance Items Case size Rated ripple Case size 3.5 1.8 1.7 1.1 0.9 12.5B20 16B25 16B25 16B31.5 18B35.5 10.0 4.8 4.5 2.9 1.9 10B16 10B16 10B16 10B20 12.5B20 16B25 16B31.5 18B35.5 18B40 0.13 0.25 0.32 0.40 0.51 @LXA-series : Frequency Multipliers Frequency (Hz) 0.47 to 4.7 10 to 22 33 to 47 100 to 330 470 to Rated ripple Case size Rated ripple Impedance 105c 105c 105c 100kHz 100kHz 100kHz ) fDbL (mm) (omax. /100kHz ) fDbL (mm) (omax. /100kHz ) (Arms/100kHz (Arms/100kHz (Arms/100kHz (omax. /100kHz 20c ) (omax. / -10c ) 20c ) (omax. / -10c ) 20c ) (omax. / -10c ) ?RATED RIPPLE CURRENT MULTIPLIERS Capacitance (mF) 250 Impedance 50 0.1 0.2 0.3 0.4 0.6 120 0.2 0.3 0.4 0.5 0.7 300 0.3 0.4 0.5 0.6 0.8 1k 0.5 0.6 0.7 0.8 0.9 10k 1.0 1.0 1.0 1.0 1.0 18.0 16.0 9.2 4.7 2.6 1.9 1.2 1.0 0.7 70.0 65.0 32.0 14.0 7.6 5.0 3.0 2.5 1.8 0.03 0.04 0.05 0.08 0.14 0.25 0.33 0.43 0.52 10B16 10B16 10B20 12.5B20 12.5B25 16B31.5 16B35.5 18B40 20.0 18.0 9.0 5.0 2.5 1.8 1.0 0.8 80.0 70.0 27.0 15.0 7.0 4.8 2.8 2.0 0.03 0.04 0.06 0.09 0.15 0.26 0.34 0.44 @LX-series : Frequency Multipliers Capacitance (mF) Frequency (Hz) 0.47 to 3.3 4.7 to 33 47 to 50 0.3 0.4 0.6 120 0.4 0.5 0.7 300 0.5 0.6 0.8 1k 0.7 0.8 0.9 10k 1.0 1.0 1.0 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS High reliability, ESR specified, 105C EX @Fully compatible with case size of KME @Endurance with ripple current : 105C 2000 to 5000 hours (125C capability) @For automobile modules and other high reliability equipment @-40C ESR is specified for F12.5 and larger longer life KME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics ESR Endurance Shelf Life -55 to +105C 10 to 63Vdc P20% (M) I=0.01CV or 3MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 10V 16V 25V 35V 50V 63V Rated voltage (Vdc) 0.38 0.32 0.28 0.24 0.20 0.16 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) (at 20C after 2 minutes) (at 20C, 120Hz) Capacitance change : C (-40C)/C (+20C)]0.70 (at 120Hz) Shall not exceed the values shown in the STANDARD RATINGS (at -40C & 20C/ 100kHz) After the capacitors are subjected to the rated voltage with the rated ripple current applied at 105C or with 50% of the rated ripple current applied at 125C for the specified period of time, the following specifications shall be satisfied when the capacitors are restored to 20C. Time at 105C F5 & 6.3 : 2000 hours F8 & 10 : 3000 hours F12.5 and larger:5000 hours Time at 125C F5 & 6.3 : 500 hours F8 & 10 : 750 hours F12.5 and larger : 1250 hours Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value ESR [The initial specified value (Applied to 12.5mm diameter and larger) The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value ESR [The initial specified value (Applied to 12.5mm diameter and larger) FP0.5 FD' Fd Sleeve* FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) (F12.5 to F18) fD fd F fD' L' 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+2.0max. 16 0.8 7.5 18 0.8 7.5 Gas escape end seal Vent (except F5) * : PET sleeve (orange) is available upon request if the 125C load life is required. ?PART NUMBERING SYSTEM EX 10 VB 1000 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Code R1 R47 1 4R7 10 100 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS High reliability, ESR specified, 105C ?STANDARD RATINGS Vdc 10 Case size Items Capacitance (mF) 16 End of life Initial value fDbL Rated ripple ESR (omax/100kHz) ESR (omax/100kHz) (mArms/105c) (mm) 20c -40c 100kHz 120Hz 20c -40c Case size fDbL (mm) 25 Initial value End of life Rated ripple ESR (omax/100kHz) ESR (omax/100kHz) (mArms/105c) 20c -40c 100kHz 120Hz 20c -40c Case size fDbL (mm) Initial value End of life Rated ripple ESR (omax/100kHz) ESR (omax/100kHz) (mArms/105c) 20c -40c 100kHz 120Hz 20c -40c 5B11 2.7 41 86 43 - - 5B11 2.7 41 86 43 - - 6.3B11 1.2 18 147 74 - - 6.3B11 1.2 18 147 74 - - 47 100 5B11 2.7 41 86 60 - - 220 6.3B11 1.2 18 147 102 - - 8B11.5 0.58 8.7 242 121 - - 8B11.5 0.58 8.7 242 121 - - 330 8B11.5 0.58 8.7 242 169 - - 8B11.5 0.58 8.7 242 121 - - 10B12.5 0.40 6.0 344 241 - 470 8B11.5 0.58 8.7 242 169 - - 10B12.5 0.40 6.0 344 241 - - 10B16 0.28 4.2 453 317 - - 10B16 0.28 4.2 453 385 - - 10B20 0.20 3.0 581 408 - - 12.5B20 0.12 1.8 832 582 0.24 3.6 2,200 12.5B20 0.12 1.8 832 706 0.24 3.6 12.5B25 0.089 1.4 1,050 734 0.18 2.8 16B25 0.065 0.98 1,360 951 0.13 2.0 3,300 12.5B25 0.089 1.4 1,050 892 0.18 2.8 16B25 0.065 0.98 1,360 951 0.13 2.0 16B31.5 0.050 0.75 1,670 1,170 0.10 1.5 4,700 16B25 0.065 0.98 1,360 1,160 0.13 2.0 16B31.5 0.050 0.75 1,670 1,170 0.10 1.5 18B35.5 0.040 0.60 1,990 1,390 0.080 1.2 6,800 16B31.5 0.050 0.75 1,670 1,420 0.10 1.5 18B35.5 0.040 0.60 1,990 1,390 0.080 1.2 18B40 0.036 0.54 2,130 1,490 0.072 1.1 10,000 18B35.5 0.040 0.60 1,990 1,690 0.080 1.2 18B40 0.54 2,130 1,490 0.072 1.1 1,000 Vdc 35 Case size Items Capacitance (mF) 0.036 fDbL (mm) 50 End of life Initial value Case size Rated ripple ESR (omax/100kHz) (mArms/105c) ESR (omax/100kHz) fDbL (mm) 20c -40c 100kHz 120Hz 20c -40c 63 End of life Initial value Rated ripple ESR (omax/100kHz) (mArms/105c) ESR (omax/100kHz) 20c -40c 100kHz 120Hz 20c -40c Case size fDbL (mm) End of life Initial value Rated ripple ESR (omax/100kHz) (mArms/105c) ESR (omax/100kHz) 20c -40c 100kHz 120Hz 20c -40c 0.1 5B11 21 315 30 6.0 - - 0.22 5B11 16 240 35 7.0 - - 0.33 5B11 12 180 40 8.0 - - 0.47 5B11 10 150 44 9.0 - - 1.0 5B11 7.0 105 53 10 - - 2.2 5B11 6.0 90 57 22 - - 3.3 5B11 5.0 75 63 25 - - 4.7 5B11 4.0 60 70 28 - - 5B11 2.7 41 86 34 - - 10 22 5B11 2.7 41 86 34 - - 6.3B11 1.2 18 147 58 - - 6.3B11 1.2 18 147 58 - - 33 5B11 2.7 41 86 43 - - 6.3B11 1.2 18 147 59 - - 47 6.3B11 1.2 18 147 74 - - 6.3B11 1.2 18 147 59 - - 8B11.5 0.58 8.7 242 96 - - 8.7 242 97 - - 10B12.5 0.40 6.0 344 206 - - 100 8B11.5 0.58 8.7 242 121 - - 220 10B12.5 0.40 6.0 344 241 - - 10B16 0.28 4.2 453 272 - - 10B20 0.20 3.0 581 348 - - 330 10B16 0.28 4.2 453 317 - - 10B20 0.20 3.0 581 349 - - 12.5B20 0.12 1.8 832 499 0.24 3.6 470 10B20 0.20 3.0 581 407 0.12 1.8 832 499 0.24 3.6 12.5B25 0.089 1.4 1,050 629 0.18 2.8 1,000 12.5B25 0.089 1.4 1,050 0.065 0.98 1,360 815 0.13 2.0 0.050 0.75 1,670 1,000 0.10 1.5 8B11.5 0.58 - - 12.5B20 734 0.18 2.8 16B25 16B31.5 0.050 0.75 1,670 1,170 0.10 1.5 18B35.5 0.040 3,300 18B35.5 0.040 0.60 1,990 1,390 0.080 1.2 4,700 18B40 0.036 0.54 2,130 1,490 0.072 1.1 2,200 0.60 1,990 1,200 0.080 16B31.5 1.2 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency(Hz) Rated voltage (Vdc) Case size 10 16 to 35 50 & 63 120 1k 10k 100k F5, F6.3 & F8 0.70 0.86 0.96 1.00 F10 to F18 0.85 0.95 0.98 1.00 F5 to F8 0.50 0.80 0.94 1.00 F10 to F18 0.70 0.88 0.97 1.00 F5 (1MF and below) 0.20 0.66 0.90 1.00 F5 (2.2MF and up), F6.3 & F8 0.40 0.76 0.93 1.00 F10 to F18 0.60 0.84 0.96 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Long Life, Downsized, 125C Upgrade! GXE downsized longer life @For automobile modules and other high temperature applications @Downsize, longer life, lower impedance, and better low temperature characteristics version of GXD series @Endurance with ripple current : 125C 2000 to 5000 hours GXD ?SPECIFICATIONS Items Characteristics Category Temperature Range -40 to +125C (10 to 250Vdc ) -25 to +125C (350 to 450Vdc) Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life 10 to 450Vdc P20% (M) 10 to 100Vdc I=0.03CV or 4MA, whichever is greater. (at 20C, 120Hz) 160 to 450Vdc CV[1000 I=0.1CV+40 CV>1000 I=0.04CV+100 (at 20C, 1 minute) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 10V 16V 25V 35V 50V 63V 80V 100V 160 to 250V 350 to 450V tanE (Max.) 0.24 0.20 0.20 0.16 0.14 0.12 0.10 0.10 0.08 0.08 (at 20C, 120Hz) When nominal capacitance exceed 1000MF, 0.02 shall be added each 1000MF increase. Rated voltage (Vdc) 10V 16V 25V 35V 50V 63V 80V 100V 160 to 250V 350 to 450V Z(-25C)/Z(+20C) 6 3 2 2 2 2 2 2 2 3 (at 120Hz) Z(-40C)/Z(+20C) 6 4 4 4 4 4 4 4 6 The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for the specified time at 125C. 10 to 100Vdc 160 to 450Vdc Time F8 : 2000hours F10 : 3000hours F12.5 & F16 : 5000hours 2000hours Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours (500 hours for 350 to 450WV) at 125C without voltage applied. 10 to 100Vdc 160 to 450Vdc Capacitance change [P30% of the initial value [P20% of the initial value DF (tanE) [300% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [500% of the initial specified value FP0.5 FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent 15min. 4min. (F8 & F10) (F12.5 & F16) fD fd F fD' L' 8 0.6 3.5 10 12.5 16 0.6 0.6 0.8 5.0 5.0 7.5 FD+0.5max. L+2.0max. Gas escape end seal ?PART NUMBERING SYSTEM GXE 16 VB 470 M Capacitance 4.7MF 10MF 100MF 1000MF Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code 4R7 10 100 1000 ?RATED RIPPLE CURRENT MULTIPLIERS @(10 to 100Vdc) Frequency Multipliers Capacitance (mF) Frequency (Hz) 4.7 to 100 220 to 470 1000 2200 to 3300 4700 120 0.40 0.50 0.60 0.75 0.85 1k 0.75 0.85 0.87 0.90 0.95 @(160 to 450Vdc) Frequency Multipliers 10k 0.90 0.94 0.95 0.95 0.98 100k 1.00 1.00 1.00 1.00 1.00 Capacitance (mF) Frequency (Hz) 4.7 to 33 47 to 150 50 0.75 0.80 120 1.00 1.00 300 1.25 1.15 1k 1.50 1.30 10k 1.75 1.40 100k 1.80 1.50 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Long Life, Downsized, 125C Upgrade! ?STANDARD RATINGS Vdc 10 16 25 35 Items Case size Impedance fDbL (mm) Capacitance (mF) Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple (mArms/ (mArms/ (mArms/ (mArms/ (omax./ fDbL (omax./ fDbL (omax./ fDbL (omax./ 20c, 100kHz) 125c, 100kHz) (mm) 20c, 100kHz) 125c, 100kHz) (mm) 20c, 100kHz) 125c, 100kHz) (mm) 20c, 100kHz) 125c, 100kHz) 100 8B12 10B12.5 10B12.5 10B20 12.5B25 16B25 16B31.5 220 330 470 1,000 2,200 3,300 4,700 Vdc 0.32 0.15 0.15 0.075 0.040 0.031 0.025 340 620 620 950 1,350 1,620 1,860 8B12 0.32 10B12.5 10B12.5 10B16 12.5B20 16B25 16B31.5 0.15 0.15 0.094 0.058 0.031 0.025 50 340 620 620 790 1,080 1,620 1,860 8B12 0.32 10B12.5 10B16 10B20 12.5B25 16B31.5 0.15 0.094 0.075 0.040 0.025 63 340 620 790 950 1,350 1,860 8B12 10B12.5 10B16 10B20 12.5B20 16B25 80 0.32 0.15 0.094 0.075 0.058 0.031 340 620 790 950 1,080 1,620 100 Items Case size Impedance fDbL (mm) Capacitance (mF) 4.7 10 22 33 47 100 220 330 470 1,000 8B12 8B12 8B12 8B12 10B12.5 10B20 12.5B20 12.5B25 16B31.5 Vdc Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple (omax./ (mArms/ fDbL (omax./ (mArms/ fDbL (omax./ (mArms/ fDbL (omax./ (mArms/ 20c, 100kHz) 125c, 100kHz) (mm) 20c, 100kHz) 125c, 100kHz) (mm) 20c, 100kHz) 125c, 100kHz) (mm) 20c, 100kHz) 125c, 100kHz) 0.75 0.50 0.50 0.50 0.20 0.098 0.081 0.059 0.032 180 250 280 280 520 880 990 1,150 1,590 8B12 10B12.5 10B16 12.5B20 12.5B25 12.5B30 16B31.5 160 1.5 0.59 0.41 0.16 0.12 0.097 0.059 150 530 690 1,050 1,290 1,460 1,850 8B12 10B12.5 10B12.5 10B20 12.5B25 12.5B30 16B25 200 1.50 0.80 0.80 0.39 0.18 0.16 0.11 150 480 480 790 1,240 1,390 1,500 8B12 8B12 10B12.5 10B12.5 10B16 12.5B20 16B25 16B31.5 250 2.0 1.5 0.80 0.80 0.55 0.25 0.11 0.079 130 150 480 480 630 990 1,500 1,790 350 Items Case size Impedance fDbL (mm) Capacitance (mF) 4.7 10 22 33 47 68 100 150 10B20 10B25 12.5B20 12.5B25 16B25 16B31.5 Vdc Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple Case size Impedance Rated ripple (omax./ (mArms/ fDbL (omax./ (mArms/ fDbL (omax./ (mArms/ fDbL (omax./ (mArms/ 20c, 100kHz) 125c, 120Hz) (mm) 20c, 100kHz) 125c, 120Hz) (mm) 20c, 100kHz) 125c, 120Hz) (mm) 20c, 100kHz) 125c, 120Hz) 4.0 2.6 1.8 1.3 0.90 0.59 115 154 187 245 329 434 10B20 10B25 12.5B20 12.5B25 16B20 16B25 400 3.3 2.3 1.8 1.2 1.1 0.74 78 126 157 204 250 329 10B20 12.5B20 12.5B25 16B25 16B31.5 3.3 1.8 1.2 0.76 0.54 78 128 171 225 292 10B20 10B25 12.5B25 16B25 16B31.5 4.7 3.4 1.9 1.1 0.81 53 85 139 189 243 450 Items Case size Impedance Capacitance (mF) 4.7 10 22 33 47 fDbL (mm) 10B20 10B25 12.5B30 16B25 16B31.5 Rated ripple Case size Impedance Rated ripple (omax./ (mArms/ fDbL (omax./ (mArms/ 20c, 100kHz) 125c, 120Hz) (mm) 20c, 100kHz) 125c, 120Hz) 5.5 3.5 1.6 1.2 0.85 53 86 142 189 243 10B25 12.5B20 16B25 16B31.5 5.5 4.0 1.9 1.3 58 86 154 203 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Standard, 125C GXE @Endurance : 125C 1000 to 2000 hours @Operating temperature range, -40 to 125C @For automobile modules and other high temperature applications @Non solvent-proof downsized longer life GXD ?SPECIFICATIONS Items Characteristics Category Temperature Range -40 to +125C Rated Voltage Range Capacitance Tolerance Leakage Current 10 to 63Vdc P20% (M) (at 20C, 120Hz) I=0.03CV or 4MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 1 minute) 10V 16V 25V 35V 50V 63V Rated voltage (Vdc) 0.15 0.12 0.10 0.10 0.08 0.08 tanE (Max.) (at 20C, 120Hz) Rated voltage (Vdc) 10V 16V 25V 35V 50V 63V 2 2 2 2 2 Z(-25C)/Z(+20C) 3 4 4 4 4 4 Z(-40C)/Z(+20C) 6 (at 120Hz) After the capacitors are subjected to the rated voltage at 125C for specified period of time, the following specifications shall be satisfied when the capacitors are restored to 20C. Time F10B12.5 and smaller : 1000 hours F10B16 and larger : 2000 hours Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 125C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [500% of the initial specified value Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life FP0.5 fD fd F fD' L' FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent 15min. 4min. (F8 & F10) (F12.5 & F16) 8 0.6 3.5 10 12.5 16 0.6 0.6 0.8 5.0 5.0 7.5 FD+0.5max. L+2.0max. Gas escape end seal ?PART NUMBERING SYSTEM GXD 25 VB 100 M Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 0.47MF 1.0MF 4.7MF 10MF 100MF Code R47 1 4R7 10 100 ?STANDARD RATINGS mF Vdc 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1,000 10 16 25 35 Case size FDBL (mm) Rated ripple current (mArms) at 125C, 120Hz 10B12.5 10B16 10B16 10B20 16B20 154 252 308 399 715 8B11.5 10B16 10B20 12.5B20 12.5B25 100 190 305 414 537 8B11.5 10B12.5 10B16 12.5B20 12.5B25 16B20 92 129 208 371 493 601 8B11.5 10B12.5 10B16 10B20 12.5B25 16B20 75 108 142 225 403 503 50 8B11.5 8B11.5 8B11.5 8B11.5 8B11.5 8B11.5 10B12.5 10B16 10B16 12.5B20 16B20 12 17 26 32 38 56 99 133 159 279 459 63 8B11.5 8B11.5 8B11.5 8B11.5 8B11.5 8B11.5 10B12.5 10B16 10B20 12.5B20 12 17 26 32 38 56 99 133 173 279 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS For airbag module, 105C @For airbag application @High capacitance, low impedance, and good low temperature behavior @Endurance with ripple current : 105C 5000 hours ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -55 to +105C 16 to 35Vdc (at 20C, 120Hz) 820 to 6800MF (at 20C, 120Hz) 0 to +30% (S) I=0.01CV (at 20C after 2 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 16V 25V 35V Rated voltage (Vdc) 0.16 0.14 0.12 tanE (Max.) (at 20C, 120Hz) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. Rated voltage (Vdc) 16V 25V 35V 3 3 Z(-55C)/Z(+20C) 3 (at 120Hz) Impedance at -10C and 20C 100kHz in the STANDARD RATINGS The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 5000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value FD+0.5max. Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent 15min. 4min. 18 fD 12.5 16 fd 0.6 0.8 0.8 F 5.0 7.5 7.5 L+1.5max. L' Gas escape end seal ?PART NUMBERING SYSTEM LBG 25 VB 2200 L20 S Case Code Cap tolerance (S=0/+30%) Nominal cap code Radial lead type Rated voltage in volts Series name Capacitance 100MF 2200MF Code 100 2200 ?STANDARD RATINGS Vdc fDbL 12.5b20 12.5b25 16b20 16b25 18b20 18b25 Case Capacitance Code (mF) K20 K25 L20 L25 M20 M25 2,200 2,700 3,300 4,700 4,700 6,800 16 Impedance (omax/100kHz) 20c 0.038 0.030 0.029 0.022 0.028 0.020 -10c 0.076 0.060 0.058 0.044 0.056 0.040 Rated ripple current Capacitance (mArms/ (mF) 105C,100kHz) 1,660 1,950 2,210 2,560 2,490 2,740 1,200 1,800 2,200 3,300 2,700 3,900 25 Impedance (omax/100kHz) 20c 0.038 0.030 0.029 0.022 0.028 0.020 -10c 0.076 0.060 0.058 0.044 0.056 0.040 Rated ripple current Capacitance (mArms/ (mF) 105C,100kHz) 1,660 1,950 2,210 2,560 2,490 2,740 820 1,200 1,500 1,800 1,800 2,700 35 Impedance (omax/100kHz) 20c 0.038 0.030 0.029 0.022 0.028 0.020 -10c 0.076 0.060 0.058 0.044 0.056 0.040 Rated ripple current (mArms/ 105C,100kHz) 1,660 1,950 2,210 2,560 2,490 2,740 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Capacitance (mF) Frequency (Hz) 820 to 1800 2200 to 3900 4700 to 6800 120 0.60 0.75 0.85 1k 0.87 0.90 0.95 10k 0.95 0.95 0.98 100k 1.00 1.00 1.00 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS Low leakage current, 85C LLA @Endurance : 85C 1000 hours @Solvent-proof, see page 16 low LC SME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Endurance Shelf Life Shelf Test -40 to +85C 6.3 to 50Vdc P20% (M) (at 20C, 120Hz) I=0.002CV or 0.2MA, whichever is greater. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 1 minute) 6.3V 10V 16V 25V 35V 50V Rated voltage (Vdc) 0.24 0.20 0.16 0.14 0.12 0.10 tanE (Max.) When nominal capacitance exceeds 1000MF, add 0.02 to the value above for each 1000MF increase. (at 20C, 120Hz) Leakage current Leakage current at 85C : [10 times the 20C specified value Max. Impedance Ratio (at 120Hz) Z(-25C)/Z(+20C)[4, Z(-40C)/Z(+20C)[8 The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 1000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value The same specifications as "Endurance" shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. The following specifications shall be satisfied when the capacitors are restored to 20C after leaving them for 6 months at a nominal temperature (-10 to +40C) without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value FP0.5 fD fd F fD' L' FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' 15min. 4min. (F5 to F10) Vent (except F5) (F12.5 to F18) 5 0.5 2.0 6.3 0.5 2.5 10 12.5 8 0.6 0.6 0.6 3.5 5.0 5.0 FD+0.5max. L+1.5max. 18 0.8 7.5 16 0.8 7.5 Gas escape end seal ?PART NUMBERING SYSTEM LLA 10 VB 100 M Capacitance 0.1MF 0.47MF 1.0MF 4.7MF 10MF 100MF Cap tolerance (P20%) Nominal cap code Radial lead type Rated voltage in volts Series name Code R1 R47 1 4R7 10 100 ?STANDARD RATINGS Vdc 6.3 10 16 25 35 ( ) ( ) ( ) ( ) ( ) 50 Vdc 50 Items Case size Rated ripple Case size Rated ripple Case size Rated ripple Case size Rated ripple Case size Rated ripple Case size Rated ripple 85c mArms/ 85c fDbL (mm) mArms/ 85c fDbL (mm) mArms/ 85c fDbL (mm) mArms/ 85c fDbL (mm) mArms/ 85c fDbL (mm) mArms/ mF 120Hz fDbL (mm) 120Hz 120Hz 120Hz 120Hz 120Hz 5B11 1.0 17 ( ) Items Case size Rated ripple 85c fDbL (mm) mArms/ mF 120Hz 5B11 0.1 1.3 ( 2.2 5B11 25 0.22 5B11 3.3 5B11 35 0.33 5B11 0.47 5B11 4.7 5B11 40 5B11 42 65 5B11 44 5B11 54 5B11 58 5B11 59 5B11 75 5B11 80 5B11 87 5B11 95 55 5B11 84 5B11 90 5B11 97 5B11 105 6.3B11 125 6.3B11 145 6.3B11 150 22 5B11 31 5B11 10 33 5B11 47 5B11 79 5B11 100 5B11 110 5B11 115 100 5B11 130 5B11 145 6.3B11 180 6.3B11 190 8B11.5 240 220 6.3B11 230 6.3B11 250 8B11.5 300 8B11.5 320 10B12.5 420 10B16 490 330 6.3B11 280 8B11.5 350 8B11.5 370 10B12.5 470 10B16 570 10B20 650 8B11.5 415 10B12.5 520 10B16 620 10B20 740 12.5B20 860 10B16 790 10B20 910 12.5B20 1,090 12.5B25 1,300 16B25 1,530 18B35.5 2,160 470 8B11.5 380 1,000 10B12.5 650 2,200 12.5B20 1,150 12.5B20 1,240 12.5B25 1,420 16B25 1,660 16B31.5 1,890 3,300 12.5B20 1,380 12.5B25 1,590 16B25 1,840 16B31.5 2,070 18B35.5 2,340 4,700 16B25 1,880 16B25 1,980 16B31.5 2,260 18B35.5 2,520 18B40 2,690 6,800 16B25 2,120 16B31.5 2,390 18B35.5 2,690 18B40 2,830 10,000 16B31.5 2,500 18B35.5 2,840 18B40 2,920 15,000 18B35.5 2,990 8B11.5 ) 2.9 4.4 11 255 CAT. No. 12 MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS For strobe flash ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Charge and Discharge Characteristics Shelf Life -20 to +55C 300 & 330Vdc -10 to +20% (V) I=1BC Where, I : Max. leakage current (MA), C : Nominal capacitance (MF) (at 20C, 120Hz) (at 20C after 5 minutes) 0.06max. (at 20C, 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after charge and discharge are repeated 5000 times at room temperature (5 to 35C). Discharge resistance or Xenon tube : 0.7 to 1.0O. Capacitance change [P10% of the initial value DF (tanE) [150% of the initial specified value Leakage current [150% of the initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 55C without voltage applied. Capacitance change [P10% of the initial value DF (tanE) [150% of the initial specified value Leakage current [150% of the initial specified value FD' Fd Sleeve FP0.5 ?DIMENSIONS (Radial Lead Type=VB) [mm] L' Vent 15min. 4min. fD fd F fD' L' 10 12.5 14.5 16 0.6 0.6 0.8 0.8 5.0 5.0 7.5 7.5 FD+0.5max. L+1.0max. 18 0.8 7.5 ?PART NUMBERING SYSTEM PH 330 VB 140 V 14.5b30 Case size Cap tolerance (-10/+20%) Nominal cap in MF Radial lead type Rated voltage in volts Series name ?STANDARD RATINGS Case size FDBL (mm) Vdc mF 50 70 100 120 140 160 180 200 220 240 300V 10B26 10B33 10B43 12.5B23 12.5B28 12.5B32 12.5B36 12.5B40 12.5B44 330V 10B27 10B35 14.5B23 14.5B26 14.5B28 14.5B31 14.5B34 14.5B37 14.5B39 14.5B42 16B24 16B27 16B28 16B30 16B33 16B35 16B37 18B24 18B26 18B28 18B29 18B31 12.5B24 12.5B30 12.5B34 12.5B39 12.5B43 14.5B24 14.5B27 14.5B30 14.5B33 14.5B36 14.5B39 14.5B43 16B26 16B28 16B30 16B33 16B35 16B38 16B40 18B24 18B26 18B28 18B29 18B31 18B33 Custom-made products are available upon requests. Please contact our local office or representative. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 85C New! SMQ @Downsized from current downsized snap-ins SMM series @Endurance with ripple current : 85C 2000 hours @Non solvent-proof type downsized SMM ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -25 to +85C 160 to 450Vdc P20% (M) I[3 CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 450V 160 to 250V 315 to 400V tanE (Max.) 0.20 0.15 0.15 Rated voltage (Vdc) 450V 160 to 250V 315 to 400V Z(-25C)/Z(+20C) 8 8 4 (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] Sleeve Negative mark @Terminal Type : LISN (F35) PC board pin-out Sleeve Negative mark LP2 4.0P0.5 M 5P0.5 LP2 Vent ?PART NUMBERING SYSTEM SMQ 400 VSSN 330 FD+1max. FD+1max. 10 Vent 2-F2 25D Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name PC board pin-out 2-1.2B6 4.2P0.5 @Standard Terminal Type : VSSN (F22 to F35) 14.2P1 4.5P1 ?CASE CODE [mm] Case code Case size fDbL Case code 22A 22B25 22B 22B30 22C Case size fDbL Case code Case size fDbL Case code Case size fDbL 25A 25.4B25 30A 30B25 35A 35B25 25B 25.4B30 30B 30B30 35B 35B30 22B35 25C 25.4B35 30C 30B35 35C 35B35 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 85C New! ?STANDARD RATINGS Vdc fD mF 160 22 25 180 30 35 22 25 200 30 35 390 470 22 22B25 1.68 25 30 22B25 2.08 22B30 1.85 22B30 2.43 25.4B25 2.43 35 560 22B25 2.25 22B30 2.25 680 22B30 2.50 22B30 2.50 25.4B25 2.50 22B35 2.68 25.4B30 2.68 820 22B35 2.75 22B35 2.75 25.4B30 2.75 22B40 2.93 25.4B30 2.93 30B25 2.93 1,000 22B40 3.00 25.4B30 3.00 22B45 3.00 25.4B35 3.00 30B25 3.00 22B45 3.25 25.4B35 3.25 30B30 3.25 35B25 3.25 1,200 22B45 3.25 25.4B35 3.25 30B25 3.25 22B50 3.31 25.4B40 3.31 30B30 3.31 35B25 3.31 25.4B40 3.50 30B30 3.50 35B30 3.50 1,500 22B50 3.73 25.4B40 3.73 30B30 3.73 35B25 3.73 25.4B45 3.83 30B35 3.83 35B30 3.83 25.4B50 3.87 30B35 3.87 35B30 3.87 25.4B45 4.20 30B35 4.20 35B30 4.20 25.4B50 4.32 30B40 4.32 35B30 4.32 30B45 4.32 35B35 4.32 30B40 4.78 35B35 4.78 30B45 4.92 35B40 4.92 30B50 4.92 35B40 4.92 1,800 2,200 2,700 35B40 5.45 35B45 5.52 3,300 35B45 5.75 35B50 5.75 3,900 35B50 6.00 Vdc fD mF Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz 250 22 25 35B50 5.45 315 30 35 22 25 350 30 35 150 22 22B25 1.12 25 180 22B25 1.21 22B30 1.22 220 22B30 1.41 22B35 1.44 22B40 1.66 25.4B30 1.66 30 35 270 22B25 1.31 22B30 1.60 330 22B30 1.75 22B40 1.82 25.4B30 1.82 30B25 1.82 22B45 1.88 25.4B35 1.88 390 22B30 1.91 25.4B25 1.91 22B45 2.01 25.4B35 2.01 30B30 2.01 22B50 2.06 25.4B40 2.06 30B30 2.06 35B25 2.06 470 22B35 2.11 25.4B30 2.11 22B50 2.27 25.4B40 2.27 30B30 2.27 35B25 2.27 25.4B45 2.40 30B35 2.40 35B30 2.40 560 22B40 2.25 25.4B30 2.25 30B25 2.25 25.4B45 2.56 30B35 2.56 35B30 2.56 25.4B50 2.60 30B40 2.60 35B30 2.60 680 22B45 2.50 25.4B35 2.50 30B30 2.50 30B40 2.87 35B35 2.87 30B45 2.96 35B35 2.96 820 22B50 2.77 25.4B40 2.77 30B30 2.77 35B25 2.77 30B45 3.25 35B40 3.25 30B50 3.25 35B45 3.25 25.4B45 3.32 30B35 3.32 35B30 3.32 30B50 3.63 35B45 3.63 1,200 30B40 3.53 35B35 3.53 1,500 30B50 4.04 35B40 4.04 1,000 1,800 35B45 4.55 35B50 3.54 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 85C New! ?STANDARD RATINGS Vdc fD mF 400 22 25 450 30 35 82 22 22B25 0.83 25 30 35 35B25 1.55 22B25 0.93 100 120 22B25 1.02 22B30 1.04 150 22B30 1.16 22B35 1.19 25.4B25 1.19 180 22B35 1.44 22B40 1.35 25.4B30 1.35 220 22B40 1.49 25.4B30 1.49 22B45 1.55 25.4B40 1.55 30B30 1.55 270 22B45 1.67 25.4B35 1.67 30B25 1.67 22B50 1.78 25.4B40 1.78 30B30 1.78 330 22B50 1.90 25.4B40 1.90 30B30 1.90 35B25 1.90 25.4B50 2.01 30B40 2.01 35B30 2.01 390 25.4B45 2.13 30B35 2.13 35B30 2.13 30B40 2.24 35B35 2.24 470 25.4B50 2.39 30B40 2.39 35B30 2.39 30B45 2.53 35B40 2.53 560 30B45 2.69 35B35 2.69 30B50 2.82 35B45 2.82 680 30B50 2.96 35B40 2.96 35B45 3.25 820 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers 120 300 1k 10k 50k 160 to 250Vdc 0.81 Frequency(Hz) 50 1.00 1.17 1.32 1.45 1.50 315 to 450Vdc 0.77 1.00 1.16 1.30 1.41 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 105C New! KMQ @Downsized from current downsized snap-ins KMM series @Endurance with ripple current : 105C 2000 hours @Non solvent-proof type downsized KMM ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -25 to +105C 160 to 450Vdc P20% (M) I[3 CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 450V 160 to 250V 315 to 400V tanE (Max.) 0.20 0.15 0.15 Rated voltage (Vdc) 450V 160 to 250V 315 to 400V Z(-25C)/Z(+20C) 8 8 4 (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] Sleeve Negative mark @Terminal Type : LISN (F35) PC board pin-out Sleeve Negative mark LP2 4.0P0.5 M 5P0.5 LP2 Vent ?PART NUMBERING SYSTEM KMQ 400 VSSN 330 FD+1max. FD+1max. 10 Vent 2-F2 25E Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name PC board pin-out 2-1.2B6 4.2P0.5 @Standard Terminal Type : VSSN (F22 to F35) 14.2P1 4.5P1 ?CASE CODE [mm] Case code Case size fDbL Case code 22A 22B25 22B 22B30 22C Case size fDbL Case code Case size fDbL Case code Case size fDbL 25A 25.4B25 30A 30B25 35A 35B25 25B 25.4B30 30B 30B30 35B 35B30 22B35 25C 25.4B35 30C 30B35 35C 35B35 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 105C New! ?STANDARD RATINGS Vdc fD mF 160 22 25 180 30 35 390 22 22B25 1.30 25 200 30 35 22 22B25 1.31 25 30 35 470 22B25 1.40 22B30 1.40 560 22B30 1.50 22B30 1.50 25.4B25 1.50 22B30 1.67 25.4B25 1.67 680 22B30 1.70 25.4B25 1.70 22B35 1.70 25.4B30 1.70 22B40 1.75 25.4B30 1.75 820 22B35 2.00 25.4B30 2.00 30B25 2.00 22B40 2.00 25.4B30 2.00 30B25 2.00 22B45 2.04 25.4B35 2.04 30B25 2.04 1,000 22B40 2.20 25.4B35 2.20 30B25 2.20 22B45 2.20 25.4B40 2.20 30B30 2.20 35B25 2.20 22B50 2.30 25.4B45 2.30 30B30 2.30 35B25 2.30 1,200 25.4B40 2.30 30B30 2.30 35B25 2.30 25.4B45 2.30 30B35 2.30 35B30 2.30 25.4B50 2.65 30B35 2.65 35B30 2.65 1,500 25.4B45 2.50 30B35 2.50 35B30 2.50 25.4B50 2.50 30B40 2.50 35B30 2.50 30B40 2.80 35B30 2.80 1,800 25.4B50 2.70 30B40 2.70 35B30 2.70 30B45 2.70 35B35 2.70 30B45 3.08 35B40 3.08 2,200 30B45 2.90 35B35 2.90 30B50 2.90 35B40 2.90 2,700 30B50 3.10 35B40 3.10 35B50 3.30 3,300 Vdc fD mF 22B30 1.45 35B50 3.10 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 250 22 25 35B45 3.48 315 30 35 22 25 350 30 35 120 22 22B25 0.75 25 150 22B25 0.82 22B30 0.82 180 22B30 0.90 22B30 0.90 25.4B25 0.90 30 35 220 22B25 1.00 22B30 1.00 25.4B25 1.00 22B35 1.00 25.4B30 1.00 270 22B25 1.10 22B35 1.10 25.4B30 1.10 22B40 1.10 25.4B30 1.10 30B25 1.10 330 22B30 1.20 25.4B25 1.20 22B45 1.20 25.4B35 1.20 30B25 1.20 22B45 1.20 25.4B40 1.20 30B30 1.20 390 22B35 1.30 25.4B25 1.30 22B45 1.30 25.4B40 1.30 30B30 1.30 35B25 1.30 25.4B45 1.30 30B35 1.30 470 22B40 1.40 25.4B30 1.40 30B25 1.40 25.4B45 1.40 30B35 1.40 35B25 1.40 25.4B50 1.40 30B35 1.40 35B30 1.40 560 22B45 1.50 25.4B35 1.50 30B25 1.50 25.4B50 1.50 30B40 1.50 35B30 1.50 30B45 1.50 35B35 1.50 680 22B50 1.70 25.4B40 1.70 30B30 1.70 35B25 1.70 30B45 1.70 35B35 1.70 30B50 1.70 35B40 1.70 25.4B45 2.00 30B35 2.00 35B30 2.00 30B50 2.00 35B40 2.00 1,000 30B40 2.20 35B30 2.20 1,200 30B45 2.30 35B35 2.30 820 1,500 35B45 2.50 1,800 35B50 2.70 35B45 1.90 35B45 2.30 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 105C New! ?STANDARD RATINGS Vdc fD mF 400 22 25 450 30 35 68 22 22B25 0.50 25 30 35 22B30 0.56 82 100 22B25 0.70 22B30 0.64 25.4B25 0.64 120 22B30 0.75 22B35 0.72 25.4B30 0.72 150 22B30 0.88 25.4B25 0.88 22B40 0.79 25.4B30 0.79 30B25 0.79 180 22B35 0.95 25.4B30 0.95 22B45 0.87 25.4B40 0.87 30B30 0.87 220 22B45 1.10 25.4B35 1.10 30B25 1.10 25.4B45 1.00 30B30 1.00 35B25 1.00 270 22B50 1.22 25.4B40 1.22 30B30 1.22 35B25 1.22 25.4B50 1.19 30B40 1.19 35B30 1.19 330 25.4B45 1.44 30B35 1.44 35B30 1.44 30B45 1.38 35B35 1.38 390 25.4B50 1.55 30B40 1.55 35B30 1.55 30B50 1.55 35B40 1.55 470 30B45 1.68 35B35 1.68 35B45 1.74 560 30B50 1.90 35B40 1.90 35B50 1.90 35B45 2.12 680 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers 120 300 1k 10k 50k 160 to 250Vdc 0.81 Frequency(Hz) 50 1.00 1.17 1.32 1.45 1.50 315 to 450Vdc 0.77 1.00 1.16 1.30 1.41 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 85C SMM downsized longer life higher ripple @Downsize, longer life, and high ripple version of SMH series @Endurance with ripple current : 85C 3000 hours @Non solvent-proof type SMH ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -25 to +85C 160 to 450Vdc P20% (M) I[3 CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 160 to 400V 420 & 450V tanE (Max.) 0.20 0.15 Rated voltage (Vdc) 160 to 400V 420 & 450V Z(-25C)/Z(+20C) 8 4 (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 3000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Standard Terminal Type : VSSN (F20 to F35) @Terminal Type : LISN (F35) PC board pin-out Negative mark Sleeve Negative mark FD+1max. FD+1max. 10 Vent 2-F2 LP2 PC board pin-out 2-1.2B6 4.2P0.5 Sleeve *4.0P0.5 5P0.5 LP2 Vent 14.2P1 4.5P1 *FD=35mm : 3.5P0.5mm @Terminal type : LCSN (F20B30 to 50L & F22B30 to 50L) Negative mark FD+1max. Sleeve Vent PC board pin-out 2-F2 8 LP2 1.5P0.1 3P1 8P1 ?PART NUMBERING SYSTEM SMM 400 VSSN 120 M 22B Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name ?CASE CODE [mm] Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL - - 22S 22B20 25S 25.4B20 30S 30B20 35S 35B20 20A 20B25 22A 22B25 25A 25.4B25 30A 30B25 35A 35B25 20B 20B30 22B 22B30 25B 25.4B30 30B 30B30 35B 35B30 20C 20B35 22C 22B35 25C 25.4B35 30C 30B35 35C 35B35 20D 20B40 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 20E 20B45 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 20F 20B50 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 85C ?STANDARD RATINGS Vdc 160 fD mF 20 22 25.4 180 30 35 20 22 25.4 30 35 22B20 1.18 220 22B20 1.30 20B25 1.28 20B25 1.55 20B30 1.63 20B30 1.90 20B35 2.14 20B40 2.35 20B45 2.64 270 330 390 470 560 680 820 22B25 1.63 22B30 1.86 22B30 2.15 22B35 2.35 22B40 2.68 22B45 3.02 22B50 3.47 1,000 1,200 25.4B20 1.62 25.4B25 1.86 25.4B25 2.15 25.4B30 2.33 25.4B30 2.65 25.4B35 3.00 25.4B40 3.43 25.4B50 3.96 1,500 1,800 2,200 2,700 3,300 30B20 2.05 30B25 2.33 30B25 2.64 30B30 2.96 30B30 3.41 30B35 3.96 30B40 4.31 30B50 4.96 35B20 2.26 35B20 2.49 35B25 3.13 35B25 3.40 35B30 3.94 35B35 4.28 35B40 4.96 35B45 5.57 35B50 6.21 20B25 1.29 20B30 1.77 20B30 1.84 20B35 1.91 20B40 2.15 20B45 2.41 20B50 2.72 22B25 1.77 22B25 1.84 22B30 1.91 22B35 2.25 22B35 2.48 22B40 2.86 22B50 3.10 25.4B20 1.49 25.4B25 2.08 25.4B25 2.25 25.4B30 2.50 25.4B35 2.75 25.4B40 3.06 25.4B45 3.63 30B20 1.88 30B25 2.46 30B25 2.69 30B30 3.10 30B35 3.55 30B40 4.10 30B45 4.55 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz 35B20 2.26 35B25 2.98 35B30 3.49 35B35 4.02 35B35 4.54 35B40 4.83 35B50 5.30 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency(Hz) 50 120 300 1k 10k 50k 160 to 250Vdc 0.81 1.00 1.17 1.32 1.45 1.50 315 to 450Vdc 0.77 1.00 1.16 1.30 1.41 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 85C ?STANDARD RATINGS Vdc fD mF 200 20 22 25.4 220 30 35 20 20B25 1.19 20B25 1.39 20B30 1.56 20B35 1.74 20B35 2.03 20B40 2.18 20B50 2.48 220 270 330 390 470 560 680 820 1,000 22B20 1.18 22B25 1.37 22B25 1.51 22B30 1.73 22B30 1.97 22B35 2.18 22B40 2.48 22B45 2.81 22B50 3.28 1,200 25.4B20 1.35 25.4B20 1.49 25.4B25 1.71 25.4B25 1.95 25.4B30 2.15 25.4B30 2.48 25.4B35 2.79 25.4B40 3.28 25.4B45 3.61 1,500 1,800 30B20 1.71 30B20 1.88 30B25 2.15 30B25 2.48 30B30 2.80 30B35 3.15 30B35 3.61 30B45 4.13 30B50 4.60 2,200 Vdc fD 35B20 2.05 35B20 2.36 35B25 2.83 35B30 3.26 35B30 3.57 35B35 4.06 35B40 4.59 35B45 5.25 20B25 1.25 20B30 1.46 20B35 1.64 20B35 1.84 20B40 2.12 20B50 2.33 330 390 470 560 680 820 1,000 1,200 1,500 1,800 35 22 25.4 25.4B20 1.35 25.4B25 1.69 25.4B25 1.84 25.4B30 2.08 25.4B35 2.38 25.4B35 2.68 25.4B45 3.01 25.4B50 3.40 30B20 1.58 30B20 1.71 30B25 2.12 30B25 2.31 30B30 2.62 30B35 2.99 30B35 3.42 30B40 3.88 30B50 4.44 35B20 1.88 35B20 2.14 35B25 2.58 35B30 2.79 35B30 3.29 35B35 3.68 35B40 4.10 35B45 4.52 315 30 35 20 22 25.4 30 35 22B20 0.79 150 270 22B25 1.47 22B30 1.70 22B30 1.89 22B35 2.08 22B40 2.33 22B45 2.63 250 20 20B25 0.89 20B30 1.05 20B35 1.18 20B35 1.30 20B45 1.52 20B50 1.73 120 220 30 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz 100 180 25.4 22B20 1.06 180 mF 22 20B25 1.20 20B25 1.26 20B30 1.42 20B35 1.68 20B40 1.92 20B50 2.06 22B20 0.97 22B20 1.06 22B25 1.24 22B25 1.50 22B30 1.66 22B35 1.88 22B35 2.15 22B40 2.48 22B50 2.61 25.4B20 1.22 25.4B25 1.61 25.4B30 1.88 25.4B35 2.15 25.4B35 2.35 25.4B40 2.67 25.4B45 3.01 30B20 1.58 30B25 1.86 30B25 2.05 30B25 2.35 30B30 2.71 30B35 2.98 30B40 3.56 30B45 3.99 35B20 1.71 35B20 1.88 35B25 2.58 35B30 2.96 35B35 3.48 35B35 3.84 35B40 4.33 35B50 4.54 22B25 1.06 22B30 1.29 22B30 1.41 22B35 1.68 22B40 1.91 22B45 2.07 25.4B20 0.90 25.4B20 1.00 25.4B25 1.38 25.4B25 1.47 25.4B30 1.70 25.4B35 1.94 25.4B40 2.11 25.4B45 2.31 25.4B50 2.46 30B20 1.16 30B20 1.28 30B25 1.55 30B25 1.98 30B30 2.15 30B35 2.38 30B35 2.63 30B45 2.82 30B50 3.28 35B20 1.43 35B25 1.95 35B30 2.46 35B30 2.69 35B35 3.05 35B40 3.45 35B45 3.59 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 85C ?STANDARD RATINGS Vdc fD mF 350 20 22 25.4 400 30 35 68 22B20 0.72 82 20B25 0.81 20B30 0.96 20B30 1.10 20B35 1.24 20B45 1.37 20B50 1.56 100 120 150 180 220 270 330 22B25 1.04 22B30 1.20 22B30 1.34 22B35 1.47 22B40 1.70 22B45 1.87 390 470 25.4B20 0.90 25.4B25 1.22 25.4B25 1.37 25.4B30 1.53 25.4B35 1.73 25.4B35 1.97 25.4B40 2.14 25.4B50 2.55 560 680 30B20 1.06 30B20 1.16 30B25 1.54 30B25 1.80 30B30 2.03 30B35 2.23 30B35 2.53 30B40 2.73 30B50 3.15 820 Vdc fD 68 82 100 120 150 180 220 270 330 390 470 560 680 20B25 0.75 20B25 0.82 20B30 0.95 20B35 1.07 20B40 1.22 20B45 1.28 20B50 1.41 22B20 0.65 22B25 0.84 22B25 0.99 22B30 1.09 22B35 1.24 22B40 1.41 22B45 1.58 22B50 1.65 25.4 25.4B20 0.74 25.4B20 0.82 25.4B25 1.13 25.4B30 1.27 25.4B30 1.44 25.4B35 1.64 25.4B40 1.79 25.4B45 2.00 25.4B50 2.12 30 35 30B20 0.95 30B25 1.20 30B25 1.52 30B30 1.66 30B30 1.82 30B35 2.05 30B40 2.26 30B45 2.51 30B50 2.85 35B20 1.16 35B25 1.47 35B25 1.63 35B30 2.05 35B35 2.28 35B35 2.54 35B40 2.85 35B50 3.10 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz 420 20 47 56 22 35B50 3.60 1,000 mF 35B20 1.29 35B20 1.49 35B25 1.80 35B30 2.30 35B30 2.55 35B35 2.75 35B40 3.15 35B45 3.47 20 20B25 0.58 20B25 0.70 20B30 0.80 20B35 0.90 20B35 1.04 20B40 1.17 20B50 1.27 22 25.4 450 30 35 22B20 0.54 22B20 0.59 22B25 0.85 22B30 0.97 22B30 1.07 22B35 1.21 22B40 1.33 22B45 1.55 25.4B20 0.68 25.4B20 0.74 25.4B25 0.98 25.4B25 1.08 25.4B30 1.26 25.4B35 1.42 25.4B35 1.58 25.4B40 1.74 25.4B50 2.20 30B20 0.87 30B20 0.95 30B25 1.30 30B25 1.48 30B30 1.65 30B35 1.90 30B35 1.98 30B40 2.22 30B45 2.50 35B20 1.11 35B20 1.16 35B25 1.47 35B30 1.94 35B35 2.17 35B35 2.27 35B40 2.61 35B45 2.95 20 20B25 0.61 20B30 0.71 20B35 0.80 20B35 0.88 20B40 0.99 20B45 1.13 22 22B20 0.54 22B20 0.59 22B25 0.71 22B25 0.86 22B30 0.95 22B35 1.07 22B40 1.18 22B45 1.32 22B50 1.48 25.4 25.4B20 0.68 25.4B20 0.74 25.4B25 0.97 25.4B30 1.09 25.4B30 1.25 25.4B35 1.40 25.4B40 1.59 25.4B45 1.73 25.4B50 2.12 30 35 30B20 0.79 30B20 0.87 30B25 1.12 30B25 1.29 30B30 1.45 30B30 1.64 30B35 1.89 30B40 2.12 30B45 2.35 30B50 2.65 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz 35B20 0.99 35B20 1.06 35B25 1.33 35B25 1.66 35B30 1.90 35B35 2.15 35B40 2.38 35B45 2.68 35B50 2.88 35B50 3.15 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 105C KMM @Downsize, longer life, and high ripple version of KMH series @Endurance with ripple current : 105C 2000 to 3000 hours @Non solvent-proof type downsized longer life KMH ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -25 to +105C 160 to 450Vdc P20% (M) I[3 CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 160 to 400V 420 & 450V Rated voltage (Vdc) 0.20 0.15 tanE (Max.) 160 to 400V 420 & 450V Rated voltage (Vdc) 8 4 Z(-25C)/Z(+20C) (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 3000 hours (2000 hours for F20mm products) at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Standard Terminal Type : VSSN (F20 to F35) @Terminal Type : VNSN (F22 to F35) PC board pin-out Negative mark Sleeve Sleeve PC board pin-out Negative mark 10 FD+1max. FD+1max. 10 Vent 2-F2 *4.0P0.5 LP2 Vent 2-F2 LP2 5.8P1 *FD=35mm : 3.5P0.5mm @Terminal Type : LISN(F35) @Terminal Type : LCSN(F20B30 to 50L, F22B30 to 50L) FD+1max. 4.2P0.5 PC board pin-out 2-1.2B6 Vent 5P0.5 LP2 14.2P1 4.5P1 Negative mark Sleeve FD+1max. Negative mark Sleeve Vent PC board pin-out 2-F2 8 LP2 1.5P0.1 3P1 8P1 ?PART NUMBERING SYSTEM KMM 160 VSSN 1000 M 22F Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 160 20 22 180 25.4 30 35 150 20B20 0.68 20B25 0.85 20B25 1.10 20B30 1.20 20B30 1.30 20B35 1.34 20B40 1.50 20B45 1.70 180 220 270 330 390 470 560 680 820 1,000 22B20 0.81 22B25 1.20 22B25 1.30 22B30 1.55 22B35 1.67 22B40 1.82 22B45 2.04 22B50 2.25 1,200 1,500 25.4B20 0.98 25.4B20 1.02 25.4B25 1.26 25.4B25 1.55 25.4B30 1.67 25.4B30 1.82 25.4B35 2.04 25.4B40 2.25 25.4B45 2.49 25.4B60 2.97 1,800 2,200 30B20 1.25 30B20 1.30 30B25 1.67 30B25 1.82 30B30 2.04 30B30 2.25 30B35 2.49 30B40 2.84 30B45 3.32 30B60 3.86 2,700 3,300 35B20 1.46 35B20 1.51 35B25 2.04 35B25 2.25 35B30 2.49 35B30 2.84 35B35 3.00 35B45 3.50 35B50 4.00 35B60 4.63 Case size fDbL Case code 22 25.4 30 35 22B20 0.80 22B25 1.00 22B25 1.20 22B30 1.35 22B35 1.50 22B40 1.67 22B45 1.78 22B50 2.04 25.4B20 0.90 25.4B20 0.95 25.4B25 1.16 25.4B25 1.35 25.4B30 1.50 25.4B30 1.67 25.4B35 1.78 25.4B40 2.04 25.4B45 2.30 25.4B50 2.55 30B20 1.15 30B20 1.20 30B25 1.50 30B25 1.67 30B30 1.78 30B30 2.04 30B35 2.30 30B40 2.55 30B45 2.90 30B60 3.49 35B20 1.36 35B20 1.43 35B25 1.83 35B25 2.04 35B30 2.30 35B30 2.55 35B35 2.90 35B40 3.30 35B50 3.65 35B60 4.19 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz ?RATED RIPPLE CURRENT MULTIPLIERS ?CASE CODE Case code 20 20B20 0.62 20B25 0.77 20B25 1.00 20B30 1.10 20B30 1.20 20B35 1.30 20B40 1.40 20B45 1.55 20B50 1.75 Case size fDbL Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL 20S 20B20 22S 22B20 25S 25.4B20 30S 30B20 35S 35B20 20A 20B25 22A 22B25 25A 25.4B25 30A 30B25 35A 35B25 20B 20B30 22B 22B30 25B 25.4B30 30B 30B30 35B 35B30 20C 20B35 22C 22B35 25C 25.4B35 30C 30B35 35C 35B35 20D 20B40 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 20E 20B45 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 20F 20B50 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 - - - - 25H 25.4B60 30H 30B60 35H 35B60 @Frequency Multipliers Frequency (Hz) 50 120 300 1k 10k 50k 160 to 250Vdc 0.81 1.00 1.17 1.32 1.45 1.50 315 to 450Vdc 0.77 1.00 1.16 1.30 1.41 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 200 20 20B20 0.56 20B25 0.71 20B25 0.77 20B25 1.00 20B30 1.10 20B35 1.20 20B40 1.31 20B45 1.45 20B50 1.58 120 150 180 220 270 330 390 470 560 680 22 25.4 220 30 35B20 1.30 35B20 1.41 20B20 0.56 20B25 0.73 20B25 0.90 20B30 1.00 20B35 1.15 20B40 1.25 20B45 1.40 20B50 1.51 25.4B20 0.85 22B25 1.10 22B30 1.25 22B30 1.35 22B35 1.50 22B40 1.67 22B45 1.78 1,000 1,200 25.4B25 1.25 25.4B25 1.35 25.4B30 1.50 25.4B30 1.67 25.4B35 1.78 25.4B45 2.04 25.4B50 2.30 25.4B60 2.66 1,500 1,800 30B20 1.05 30B20 1.10 30B25 1.50 30B25 1.67 30B30 1.78 30B30 2.04 30B35 2.30 30B40 2.65 30B50 3.08 30B60 3.49 2,200 Vdc fD 20 22B20 0.73 22B20 0.80 820 mF 35 35B25 1.78 35B25 2.04 35B30 2.30 35B35 2.65 35B40 3.08 35B45 3.48 35B50 3.78 22 25.4 35 150 180 220 270 330 390 470 560 680 820 1,000 1,200 1,500 1,800 22B20 0.60 22B25 0.78 22B25 1.00 22B30 1.18 22B35 1.30 22B40 1.49 22B45 1.65 22B50 1.67 25.4B20 0.74 25.4B20 0.75 25.4B25 0.95 25.4B25 1.18 25.4B30 1.30 25.4B35 1.49 25.4B35 1.65 25.4B40 1.80 25.4B50 2.00 25.4B60 2.20 35 22B25 1.00 22B30 1.15 22B35 1.25 22B35 1.40 22B40 1.51 22B45 1.70 25.4B20 0.76 25.4B20 0.84 25.4B25 1.08 25.4B25 1.25 25.4B30 1.40 25.4B35 1.54 25.4B40 1.72 25.4B45 1.94 25.4B50 2.18 25.4B60 2.54 30B20 0.98 30B25 1.36 30B25 1.50 30B30 1.70 30B35 1.93 30B40 2.19 30B45 2.50 30B50 2.81 30B60 3.30 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 30B20 0.95 30B20 1.00 30B25 1.30 30B25 1.49 30B30 1.65 30B30 1.80 30B35 2.00 30B40 2.30 30B50 2.47 30B60 2.85 20 20B20 0.38 20B25 0.47 20B25 0.64 20B30 0.69 20B30 0.75 20B35 0.82 20B40 0.90 20B50 1.00 82 120 30 35B20 1.13 35B20 1.23 35B25 1.71 35B25 1.89 35B30 2.16 35B35 2.44 35B40 2.79 35B45 3.22 35B50 3.63 35B60 4.23 315 30 68 20B20 0.51 20B25 0.58 20B25 0.79 20B30 0.90 20B30 1.00 20B35 1.10 20B40 1.20 20B50 1.45 25.4 22B20 0.67 250 20 56 100 22 35B20 1.16 35B25 1.65 35B25 1.80 35B30 2.00 35B35 2.30 35B40 2.47 35B45 2.60 35B50 3.00 35B60 3.42 22 22B20 0.45 22B20 0.47 22B25 0.61 22B25 0.75 22B30 0.82 22B35 0.92 22B40 1.04 22B45 1.16 22B50 1.33 25.4 25.4B20 0.56 25.4B20 0.62 25.4B25 0.82 25.4B25 0.92 25.4B30 1.04 25.4B35 1.16 25.4B40 1.33 25.4B45 1.47 25.4B50 1.70 30 35 30B20 0.65 30B20 0.70 30B25 0.90 30B25 1.04 30B25 1.16 30B30 1.33 30B35 1.47 30B40 1.70 30B45 2.05 30B50 2.17 35B20 0.76 35B20 0.85 35B20 0.90 35B25 1.15 35B25 1.33 35B30 1.47 35B30 1.70 35B35 2.05 35B40 2.17 35B45 2.20 35B60 2.55 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 350 20 22 25.4 400 30 35 20 35B20 0.76 20B20 0.32 20B25 0.39 20B25 0.51 20B30 0.56 20B30 0.64 20B35 0.70 20B40 0.75 20B45 0.83 39 20B20 0.35 20B25 0.43 20B25 0.47 20B30 0.54 20B30 0.60 20B35 0.68 20B40 0.78 20B45 0.87 20B50 1.00 47 56 68 82 100 120 150 180 220 270 22B20 0.41 22B25 0.55 22B25 0.69 22B30 0.75 22B35 0.82 22B40 0.92 22B45 1.05 22B50 1.16 330 390 470 25.4B20 0.46 25.4B20 0.51 25.4B25 0.75 25.4B30 0.83 25.4B30 0.92 25.4B35 1.04 25.4B40 1.18 25.4B45 1.29 25.4B50 1.51 25.4B60 1.66 560 680 30B20 0.60 30B20 0.65 30B25 0.82 30B25 0.90 30B30 1.02 30B30 1.17 30B35 1.34 30B40 1.51 30B45 1.65 30B50 1.85 30B60 2.15 820 Vdc fD mF 39 47 56 68 82 100 120 150 180 220 270 330 390 470 560 680 35B25 1.04 35B25 1.20 35B30 1.22 35B35 1.47 35B35 1.69 35B40 1.90 35B50 1.99 35B60 2.31 22 20B20 0.32 20B25 0.39 20B25 0.51 20B30 0.56 20B35 0.64 20B35 0.70 20B40 0.75 20B50 0.88 22 25.4 22B25 0.50 22B25 0.64 22B30 0.70 22B35 0.75 22B40 0.88 22B45 0.95 22B50 1.10 35 22B25 0.50 22B25 0.64 22B30 0.70 22B35 0.75 22B40 0.88 22B45 0.98 22B50 1.10 25.4B20 0.42 25.4B20 0.46 25.4B25 0.70 25.4B25 0.75 25.4B30 0.88 25.4B35 0.98 25.4B40 1.10 25.4B45 1.22 25.4B50 1.44 25.4B60 1.51 30B20 0.55 30B20 0.60 30B25 0.73 30B25 0.88 30B30 0.98 30B30 1.10 30B35 1.22 30B40 1.44 30B45 1.60 30B50 1.90 30B60 2.10 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 35B20 0.75 35B20 0.80 35B25 0.98 35B25 1.10 35B30 1.22 35B30 1.44 35B35 1.60 35B40 1.90 35B45 2.12 35B60 2.27 450 30 35 20 35B20 0.67 20B25 0.34 20B25 0.39 20B30 0.51 20B35 0.56 20B35 0.64 20B45 0.69 20B50 0.75 22B20 0.37 25.4B20 0.42 25.4B20 0.46 25.4B25 0.58 25.4B25 0.70 25.4B30 0.75 25.4B35 0.88 25.4B35 0.95 25.4B45 1.10 25.4B50 1.22 25.4B60 1.41 30 22B20 0.37 420 20 25.4 30B20 0.53 30B20 0.59 30B25 0.73 30B25 0.88 30B30 0.95 30B35 1.10 30B40 1.22 30B45 1.45 30B50 1.55 30B60 1.79 35B25 0.94 35B25 1.10 35B30 1.22 35B35 1.45 35B40 1.55 35B45 1.90 35B50 2.15 35B60 2.27 22 22B25 0.40 22B30 0.53 22B30 0.64 22B35 0.69 22B40 0.80 22B45 0.88 22B50 1.00 25.4 25.4B25 0.50 25.4B25 0.64 25.4B30 0.69 25.4B30 0.80 25.4B35 0.88 25.4B40 1.00 25.4B45 1.12 25.4B60 1.18 30 35 30B25 0.64 30B25 0.80 30B30 0.88 30B30 1.00 30B35 1.12 30B40 1.28 30B50 1.45 30B60 1.51 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 35B25 0.73 35B25 0.75 35B30 1.12 35B35 1.28 35B40 1.45 35B40 1.55 35B50 1.85 35B60 1.91 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard snap-ins, 85C SMM downsized longer life @Endurance with ripple current : 85C 2000 hours @Non solvent-proof type SMH ?SPACIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +85C (6.3 to 100Vdc) -25 to +85C (160 to 450Vdc) 6.3 to 450Vdc P20% (M) (at 20C, 120Hz) I=0.02CV or 3mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 5 minutes) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V 160 to 250V 315 to 400V 450V Rated voltage (Vdc) 0.60 0.50 0.40 0.30 0.25 0.20 0.15 0.15 0.15 0.10* 0.15 0.15 tanE (Max.) * : 0.15 for D=35mm (at 20C, 120Hz) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V 160 to 250V 315 to 400V 450V Rated voltage (Vdc) 4 2 2 2 2 3 3 4 4 4 8 4 Z(-25C)/Z(+20C) 5 5 6 6 8 10 15 15 15 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Standard Terminal Type : VSSN (F22 to F35) Negative mark @Terminal Type : VNSN (F22 to F35) FD+1max. 2-F2 * 4.0P0.5 PC board pin-out 10 10 LP2 Vent Negative mark Sleeve PC board pin-out FD+1max. Sleeve 2-F2 LP2 Vent 5.8P1 *FD=35mm : 3.5P0.5mm @Terminal Type : LISN (F35) FD+1max. 4.2P0.5 Negative mark Vent 5P0.5 LP2 14.2P1 4.5P1 Negative mark Sleeve FD+1max. Sleeve @Terminal Type : LCSN (F22B30 to 50L) PC board pin-out 2-1.2B6 Vent PC board pin-out 2-F2 8 LP2 1.5P0.1 3P1 8P1 ?PART NUMBERING SYSTEM SMH 100 VSSN 1200 M 22B Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard snap-ins, 85C ?STANDARD RATINGS Vdc fD mF 6.3 22 25.4 10 30 35 22 25.4 16 30 35 8,200 10,000 22B25 2.39 22B30 2.76 22B35 3.12 22B40 3.55 22B45 4.04 22B50 4.58 12,000 22B25 2.44 22B30 2.67 22B30 3.06 22B35 3.49 22B40 3.97 22B50 4.55 15,000 18,000 22,000 27,000 33,000 39,000 47,000 56,000 25.4B25 2.70 25.4B25 3.07 25.4B30 3.52 25.4B35 4.02 25.4B40 4.50 25.4B45 5.09 25.4B50 5.71 30B25 3.57 30B25 3.95 30B30 4.45 30B35 5.06 30B40 5.70 30B45 6.48 30B50 7.32 68,000 82,000 100,000 Vdc fD mF 35B25 4.51 35B30 5.01 35B30 5.77 35B35 6.42 35B40 7.29 35B45 8.31 25.4B25 2.77 25.4B25 3.04 25.4B30 3.48 25.4B35 3.98 25.4B40 4.54 25.4B45 5.08 25.4B50 5.73 25.4 35B25 3.73 35B25 4.13 35B30 4.80 35B30 5.27 35B35 6.38 35B40 7.27 35B50 8.49 35 22 25.4 22B25 2.22 22B30 2.41 22B35 2.75 22B40 2.80 22B45 3.47 22B50 3.57 4,700 6,800 8,200 10,000 12,000 15,000 22B25 2.21 22B30 2.40 22B35 2.72 22B40 3.09 22B45 3.48 22B50 4.00 18,000 22,000 25.4B25 2.56 25.4B25 2.80 25.4B30 3.12 25.4B35 3.43 25.4B40 3.95 25.4B45 4.45 25.4B50 5.02 27,000 30B25 3.21 30B30 3.86 30B30 4.00 30B35 4.46 30B45 5.21 30B50 5.94 33,000 39,000 35B25 3.54 35B25 3.95 35B30 4.63 35B35 5.16 35B40 5.92 35B45 6.75 35B50 7.56 25.4B25 2.42 25.4B25 2.64 25.4B30 2.74 25.4B35 3.10 25.4B40 3.53 25.4B45 3.98 25.4B50 4.54 Case size fDbL Case code 30B25 3.66 30B25 4.00 30B30 4.21 30B35 4.82 30B40 5.36 30B45 6.01 30B50 6.79 35B25 4.15 35B30 4.65 35B30 5.15 35B35 5.95 35B40 6.76 35B45 7.62 35B50 8.63 35 30B25 2.97 30B30 3.13 30B30 3.46 30B35 4.01 30B40 4.52 30B45 4.71 30B50 5.33 22 22B25 1.91 22B30 2.37 22B35 2.65 22B40 2.99 22B45 3.36 22B50 3.81 35B25 2.73 35B25 3.02 35B30 4.42 35B35 5.01 35B40 5.54 35B45 6.04 35B50 6.89 25.4 25.4B25 2.38 25.4B30 2.68 25.4B35 3.03 25.4B35 3.31 25.4B40 3.81 25.4B50 4.37 30 35 30B25 2.55 30B25 2.81 30B30 3.37 30B35 3.85 30B40 4.36 30B45 4.97 30B50 5.60 35B25 3.42 35B30 3.85 35B30 4.41 35B35 4.92 35B40 5.58 35B45 6.44 35B50 6.71 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz ?CASE CODE [mm] Case code 35 50 30 3,300 3,900 30 25.4B25 2.95 25.4B30 3.46 25.4B35 3.98 25.4B40 4.26 25.4B45 4.72 25.4B50 5.33 35 30 2,200 5,600 25.4 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz 25 22 30B25 3.53 30B30 3.73 30B30 4.13 30B35 5.05 30B40 5.72 30B45 6.44 30B50 7.27 22 22B25 2.51 22B25 2.77 22B30 2.86 22B35 3.29 22B40 3.72 22B50 4.37 ?RATED RIPPLE CURRENT MULTIPLIERS Case size fDbL Case code Case size fDbL Case code @Frequency Multipliers Case size fDbL Frequency (Hz) 50 120 300 1k 10k 50k 6.3 to 50Vdc 0.95 1.00 1.03 1.05 1.08 1.08 22A 22B25 25A 25.4B25 30A 30B25 35A 35B25 22B 22B30 25B 25.4B30 30B 30B30 35B 35B30 63 to 100Vdc 0.92 1.00 1.07 1.13 1.19 1.20 1.00 1.17 1.32 1.45 1.50 1.00 1.16 1.30 1.41 1.43 22C 22B35 25C 25.4B35 30C 30B35 35C 35B35 160 to 250Vdc 0.81 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 315 to 450Vdc 0.77 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard snap-ins, 85C ?STANDARD RATINGS Vdc fD mF 63 22 25.4 80 30 35 22 25.4 100 30 35 22 25.4 30 35 22B25 1.86 820 1,200 22B25 1.69 22B30 2.09 25.4B25 2.10 1,500 22B25 1.88 22B35 2.41 25.4B30 2.43 30B25 2.46 22B40 2.71 25.4B35 2.75 30B25 2.72 22B30 2.14 25.4B25 2.26 25.4B25 2.30 22B35 2.44 25.4B30 2.46 30B25 2.49 22B45 3.08 25.4B40 3.13 30B30 3.09 35B25 3.14 22B35 2.40 25.4B25 2.40 22B40 2.78 25.4B35 2.81 30B25 2.75 22B50 3.53 25.4B45 3.57 30B35 3.55 35B30 3.71 3,300 22B35 2.62 25.4B30 2.64 30B25 2.78 22B45 3.16 25.4B40 3.21 30B30 3.17 35B25 3.21 25.4B50 4.06 30B40 4.05 35B30 4.05 3,900 22B40 2.93 25.4B35 2.97 30B30 3.00 35B25 3.00 22B50 3.52 25.4B45 3.59 30B35 3.57 35B25 3.50 30B45 4.54 35B35 4.49 4,700 22B50 3.39 25.4B40 3.36 30B30 3.32 35B25 3.36 25.4B50 4.05 30B40 4.05 35B30 4.09 30B50 5.13 35B40 5.11 5,600 25.4B45 3.77 30B35 3.75 35B30 3.76 30B45 4.55 35B35 4.51 35B45 5.75 6,800 25.4B50 4.27 30B40 4.27 35B30 4.15 30B50 5.16 35B40 5.14 35B50 6.50 8,200 30B45 4.83 35B35 4.79 35B45 5.83 10,000 30B50 5.49 35B40 5.47 35B50 6.63 1,800 22B25 1.82 2,200 22B30 2.31 2,700 35B45 6.19 12,000 Vdc fD mF Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz 160 22 25.4 180 30 35 270 22 25.4 200 30 35 22 25.4 22B25 1.27 22B25 1.27 22B30 1.45 25.4B25 1.45 30 35 330 22B25 1.40 22B25 1.40 390 22B25 1.52 22B30 1.58 25.4B25 1.58 22B30 1.58 25.4B25 1.58 470 22B30 1.73 25.4B25 1.74 22B35 1.79 25.4B25 1.79 22B35 1.78 25.4B30 1.80 30B25 1.80 560 22B35 1.95 25.4B25 1.95 22B40 2.00 25.4B30 1.96 30B25 1.99 22B40 2.00 25.4B35 2.03 30B25 2.00 680 22B40 2.21 25.4B30 2.16 30B25 2.19 22B45 2.27 25.4B35 2.23 30B25 2.25 22B50 2.33 25.4B40 2.30 30B30 2.28 35B25 2.31 820 22B45 2.49 25.4B35 2.45 30B30 2.50 35B25 2.50 22B50 2.55 25.4B40 2.53 30B30 2.70 35B25 2.53 25.4B45 2.60 30B35 2.59 35B25 2.60 1,000 22B50 2.82 25.4B40 2.79 30B30 2.80 35B25 2.80 25.4B45 2.87 30B35 2.86 35B30 2.99 25.4B50 2.95 30B40 2.95 35B30 2.95 1,200 25.4B45 3.15 30B35 3.13 35B30 3.27 25.4B50 3.30 30B40 3.23 35B35 3.31 30B45 3.31 35B35 3.31 1,500 25.4B50 3.72 30B45 3.73 35B35 3.69 30B50 3.83 35B40 3.82 30B50 3.82 35B40 3.82 30B50 4.20 35B40 4.18 35B45 4.32 35B45 4.32 2,200 35B45 4.78 35B50 4.92 35B50 4.92 2,700 35B50 5.45 1,800 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard snap-ins, 85C ?STANDARD RATINGS Vdc fD mF 250 22 25.4 315 30 35 22 25.4 350 30 35 22 25.4 30 35 82 22B25 0.86 100 120 22B25 0.94 150 22B30 1.11 22B30 0.99 25.4B25 0.99 25.4B25 1.10 22B35 1.14 25.4B25 1.10 22B40 1.28 25.4B30 1.24 30B25 1.27 22B45 1.44 25.4B35 1.44 30B30 1.44 35B25 1.44 22B50 1.64 25.4B40 1.63 30B35 1.66 35B25 1.63 25.4B50 1.88 30B35 1.83 35B30 1.87 180 22B25 1.04 22B35 1.20 25.4B25 1.20 220 22B25 1.15 22B40 1.41 25.4B30 1.38 30B25 1.40 270 22B30 1.31 25.4B25 1.32 22B45 1.60 25.4B35 1.59 30B30 1.59 35B25 1.59 330 22B35 1.49 25.4B30 1.51 30B25 1.52 22B50 1.82 25.4B40 1.80 30B30 1.80 35B25 1.80 390 22B40 1.67 25.4B30 1.66 30B25 1.66 25.4B45 2.01 30B35 1.99 35B30 2.00 30B40 2.06 35B30 2.03 470 22B45 1.88 25.4B35 1.86 30B30 1.89 35B25 1.88 25.4B45 2.20 30B40 2.27 35B30 2.23 30B50 2.40 35B35 2.33 560 22B50 2.10 25.4B40 2.09 30B35 2.14 35B25 2.06 30B45 2.56 35B35 2.49 35B40 2.60 25.4B50 2.44 30B40 2.43 35B30 2.46 30B50 2.88 35B40 2.87 35B45 2.96 820 30B45 2.75 35B35 2.77 35B45 3.25 35B50 3.04 1,000 30B50 3.31 35B40 3.32 35B50 3.69 680 1,200 35B45 3.53 1,500 35B50 4.04 Vdc fD mF Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz 400 22 25.4 450 30 35 22 56 22B25 0.65 68 22B25 0.71 82 22B25 0.78 100 22B30 0.90 120 25.4 30 35 22B30 0.82 25.4B25 0.82 25.4B25 0.90 22B35 0.93 25.4B25 0.90 22B35 1.02 25.4B25 0.98 22B40 1.04 25.4B30 1.02 30B25 1.03 150 22B40 1.16 25.4B30 1.14 30B25 1.16 22B45 1.19 25.4B35 1.19 30B30 1.19 35B25 1.19 180 22B45 1.31 25.4B35 1.30 30B30 1.44 35B25 1.32 22B50 1.34 25.4B40 1.33 30B35 1.35 35B25 1.33 220 22B45 1.49 25.4B40 1.47 30B30 1.47 35B25 1.47 25.4B50 1.54 30B40 1.55 35B30 1.53 270 22B50 1.64 25.4B45 1.67 30B35 1.66 35B30 1.69 30B45 1.78 35B35 1.73 25.4B50 1.88 30B40 1.90 35B30 1.87 30B50 2.01 35B40 2.00 390 30B45 2.13 35B35 2.08 35B45 2.24 470 30B50 2.40 35B40 2.39 35B50 2.53 330 560 35B45 2.69 680 35B50 3.04 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard snap-ins, 105C KMM downsized longer life @Endurance with ripple current : 105C 2000 hours @Non solvent-proof type KMH ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C (6.3 to 100Vdc) -25 to +105C (160 to 450Vdc) 6.3 to 450Vdc P20% (M) (at 20C, 120Hz) I=0.02CV (0.03CV for L=20mm) or 3mA, whichever is smaller Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 5 minutes) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V 160 to 250V315 to 400V 450V Rated voltage (Vdc) 0.60 0.50 0.40 0.30 0.25 0.20 0.15 0.15 0.15 0.10* 0.15 0.15 tanE (Max.) * : 0.15 for D=35mm or L=20mm (at 20C, 120Hz) 6.3V 10V 16V 25V 35V 50V 63V 80V 100V 160 to 250V 315 to 400V 450V Rated voltage (Vdc) 8 2 2 2 2 3 3 4 4 4 4 4 Z(-25C)/Z(+20C) 5 5 6 6 8 10 15 15 15 Z(-40C)/Z(+20C) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Standard Terminal Type : VSSN (F22 to F35) Negative mark @Terminal Type : VNSN (F22 to F35) FD+1max. 2-F2 * 4.0P0.5 PC board pin-out 10 10 LP2 Vent Negative mark Sleeve PC board pin-out FD+1max. Sleeve 2-F2 LP2 Vent 5.8P1 *FD=35mm : 3.5P0.5mm @Terminal Type : LISN(F35) FD+1max. 4.2P0.5 Negative mark Vent 5P0.5 LP2 14.2P1 4.5P1 Negative mark Sleeve PC board pin-out 2-F2 FD+1max. Sleeve @Terminal Type : LCSN (F22B30 to 50R) PC board pin-out 2-1.2B6 Vent 8 LP2 1.5P0.1 3P1 8P1 ?PART NUMBERING SYSTEM KMH 100 VSSN 1000 M 25B Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 6.3 22 25.4 10 30 35 22 25.4 16 30 35 6,800 22B25 1.55 22B30 1.77 22B30 1.97 22B35 2.21 22B40 2.51 22B50 2.93 10,000 22B25 1.54 22B25 1.72 22B30 1.95 22B35 2.23 22B40 2.54 22B45 2.88 12,000 15,000 18,000 22,000 27,000 33,000 39,000 47,000 25.4B25 1.96 25.4B30 2.25 25.4B35 2.57 25.4B40 2.93 25.4B40 3.18 25.4B50 3.69 30B25 2.28 30B25 2.52 30B30 2.89 30B35 3.26 30B40 3.69 30B45 4.16 30B50 4.71 56,000 68,000 82,000 Vdc fD mF 35B25 2.93 35B30 3.40 35B30 3.73 35B35 4.12 35B40 4.69 35B45 5.32 25.4B25 1.96 25.4B30 2.23 25.4B35 2.54 25.4B40 2.90 25.4B45 3.30 25.4B50 3.68 25.4 35B25 2.73 35B30 3.16 35B30 3.43 35B35 3.76 35B40 4.67 35B50 5.46 35 22 25.4 22B25 1.40 22B30 1.57 22B30 1.72 22B35 1.95 22B40 2.20 22B50 2.55 3,900 5,600 6,800 8,200 10,000 12,000 22B25 1.50 22B25 1.63 22B30 1.86 22B35 2.11 22B40 2.39 22B45 2.69 15,000 18,000 25.4B25 1.87 25.4B30 2.12 25.4B35 2.42 25.4B40 2.74 25.4B45 3.15 25.4B50 3.54 22,000 30B25 2.15 30B25 2.37 30B30 2.70 30B35 3.13 30B40 3.54 30B45 4.04 27,000 33,000 35B25 2.74 35B30 3.27 35B30 3.58 35B35 3.64 35B45 4.73 35B50 5.39 25.4B25 1.80 25.4B30 1.96 25.4B35 2.23 25.4B40 2.53 25.4B45 2.87 25.4B50 3.24 Case code 22S 22A 22B Case code 22B20 25S 22B25 25A 25B 35B25 2.92 35B25 3.23 35B30 3.45 35B35 4.26 35B40 4.79 35B45 5.43 35 30B25 1.99 30B25 2.19 30B30 2.75 30B35 2.90 30B40 3.23 30B45 3.72 22 22B25 1.33 22B30 1.69 22B35 1.93 22B40 2.16 22B45 2.43 22B50 2.75 25.4 25.4B25 1.70 25.4B30 1.85 25.4B35 2.18 25.4B35 2.39 25.4B40 2.70 25.4B50 3.30 35B25 2.75 35B30 2.91 35B30 2.99 35B35 3.67 35B40 4.37 35B50 4.92 30 35 30B25 1.95 30B30 2.25 30B35 2.76 30B40 3.30 30B45 3.60 30B50 4.04 35B25 2.48 35B25 2.70 35B30 3.25 35B35 3.55 35B40 4.03 35B45 4.55 ?RATED RIPPLE CURRENT MULTIPLIERS Case size fDbL 22B30 30B25 2.45 30B25 2.52 30B30 2.88 30B35 3.29 30B40 3.77 30B45 4.30 30B50 4.81 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz ?CASE CODE [mm] Case size fDbL 35 50 30 2,700 3,300 30 25.4B25 1.97 25.4B30 2.24 25.4B35 2.58 25.4B40 2.92 25.4B45 3.32 25.4B50 3.78 35 30 1,800 4,700 25.4 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 25 22 30B25 2.40 30B30 2.87 30B35 3.28 30B40 3.69 30B45 4.17 30B50 4.68 22 22B25 1.57 22B30 1.97 22B35 2.22 22B40 2.55 22B45 2.87 Case code Case size fDbL Case code Case size fDbL 25.4B20 30S 30B20 35S 35B20 25.4B25 30A 30B25 35A 25.4B30 30B 30B30 35B @Frequency Multipliers Frequency (Hz) 50 120 300 1k 10k 50k 6.3 to 50Vdc 0.95 1.00 1.03 1.05 1.08 1.08 35B25 63 to 100Vdc 0.92 1.00 1.07 1.13 1.19 1.20 35B30 160 to 250Vdc 0.81 1.00 1.17 1.32 1.45 1.50 35B35 315 to 450Vdc 0.77 1.00 1.16 1.30 1.41 1.43 22C 22B35 25C 25.4B35 30C 30B35 35C 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 63 22 25.4 80 30 35 22 25.4 100 30 35 22 25.4 30 35 22B25 1.05 560 820 22B25 1.11 22B30 1.32 25.4B25 1.33 1,000 22B25 1.22 22B35 1.50 25.4B30 1.51 1,200 22B25 1.19 22B30 1.38 25.4B25 1.39 22B40 1.69 25.4B35 1.71 30B25 1.68 1,500 22B25 1.33 22B35 1.59 25.4B30 1.61 22B45 1.94 25.4B40 1.98 30B30 1.95 35B25 1.98 1,800 22B30 1.51 25.4B25 1.52 22B40 1.80 25.4B30 1.76 30B25 1.65 25.4B45 2.23 30B35 2.50 35B25 2.17 2,200 22B35 1.73 25.4B30 1.74 22B45 2.04 25.4B35 2.01 30B30 2.05 35B25 2.07 25.4B50 2.53 30B40 2.70 35B30 2.50 2,700 22B40 1.97 25.4B35 1.99 30B25 1.76 25.4B45 2.36 30B35 2.35 35B25 2.29 30B45 2.88 35B35 2.86 3,300 22B50 2.29 25.4B40 2.27 30B30 2.24 35B25 2.06 25.4B50 2.68 30B40 2.68 35B30 2.45 30B50 3.28 35B40 3.27 3,900 25.4B45 2.54 30B35 2.55 35B25 2.24 30B45 3.00 35B35 2.98 35B45 3.67 4,700 25.4B50 2.86 30B40 2.86 35B30 2.79 30B50 3.39 35B40 3.38 35B50 3.80 5,600 30B45 3.22 35B35 3.19 35B45 3.80 6,800 30B50 3.65 35B40 3.64 35B50 3.90 8,200 35B45 3.90 10,000 35B50 4.40 Vdc fD mF Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 160 22 25.4 180 30 35 22 25.4 200 30 35 22 25.4 30 35 22B20 0.66 150 180 22B20 0.73 22B20 0.72 22B25 0.79 25.4B20 0.83 220 22B20 0.80 22B20 0.80 270 22B25 1.09 22B25 0.96 25.4B20 0.92 22B25 0.87 25.4B25 1.09 330 22B25 1.20 25.4B20 1.02 22B25 1.06 25.4B25 1.20 22B30 1.20 25.4B25 1.21 30B20 1.08 390 22B30 1.30 25.4B25 1.28 30B20 1.17 22B30 1.30 25.4B25 1.30 30B20 1.17 22B35 1.31 25.4B25 1.31 30B25 1.37 470 22B35 1.40 25.4B25 1.41 30B20 1.28 22B35 1.35 25.4B30 1.40 30B25 1.38 35B20 1.41 22B40 1.40 25.4B30 1.41 30B25 1.50 35B20 1.41 560 22B40 1.50 25.4B30 1.51 30B25 1.56 35B20 1.54 22B40 1.51 25.4B35 1.53 30B25 1.51 35B20 1.53 22B45 1.56 25.4B35 1.53 30B25 1.63 35B25 1.56 680 22B45 1.71 25.4B35 1.70 30B25 1.72 35B20 1.70 22B45 1.71 25.4B40 1.74 30B30 1.72 35B25 1.74 22B50 1.74 25.4B40 1.74 30B30 1.74 35B25 1.72 820 22B50 1.93 25.4B40 2.01 30B30 2.00 35B25 1.91 22B50 1.97 25.4B45 1.97 30B35 2.00 35B25 1.91 25.4B50 2.04 30B35 2.00 35B30 2.04 1,000 25.4B45 2.20 30B35 2.22 35B25 2.11 25.4B50 2.23 30B40 2.24 35B30 2.26 30B45 2.30 35B35 2.30 1,200 25.4B50 2.45 30B40 2.44 35B30 2.44 30B45 2.52 35B35 2.50 30B50 2.60 35B40 2.65 1,500 30B45 2.82 35B35 2.50 30B50 2.89 35B40 2.89 35B45 3.08 1,800 30B50 3.31 35B45 3.31 35B40 3.17 35B50 3.47 35B50 3.77 35B50 3.60 2,200 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 250 22 25.4 315 30 35 22 25.4 350 30 35 22 25.4 30 35 22B20 0.40 56 68 22B20 0.44 22B25 0.51 82 22B25 0.64 22B25 0.56 25.4B20 0.51 100 22B30 0.68 25.4B20 0.56 22B30 0.69 25.4B25 0.69 30B20 0.59 120 22B20 0.59 22B30 0.75 25.4B25 0.76 30B20 0.65 22B35 0.75 25.4B25 0.75 30B20 0.64 150 22B25 0.71 22B35 0.82 25.4B30 0.80 30B25 0.82 22B40 0.82 25.4B30 0.83 30B25 0.83 35B20 0.76 180 22B25 0.78 25.4B20 0.75 22B40 0.91 25.4B30 0.88 30B25 0.90 35B20 0.83 22B45 0.92 25.4B35 0.92 30B25 0.91 35B25 0.94 220 22B30 0.95 25.4B25 0.95 30B20 0.88 22B45 1.02 25.4B35 1.02 30B30 1.02 35B25 1.03 22B50 1.05 25.4B40 1.04 30B30 1.02 35B25 1.04 270 22B35 1.14 25.4B25 1.05 30B20 0.97 22B50 1.16 25.4B40 1.15 30B35 1.17 35B25 1.15 25.4B45 1.18 30B35 1.17 35B30 1.20 330 22B40 1.26 25.4B30 1.20 30B25 1.26 35B20 1.18 25.4B50 1.33 30B35 1.30 35B30 1.32 30B40 1.34 35B30 1.33 390 22B45 1.49 25.4B35 1.49 30B25 1.37 35B25 1.43 30B40 1.46 35B35 1.47 30B45 1.51 35B35 1.47 470 22B50 1.57 25.4B40 1.57 30B30 1.57 35B25 1.57 30B50 1.70 35B40 1.69 35B40 1.69 560 25.4B45 1.79 30B35 1.79 35B30 1.79 35B45 1.90 35B45 1.90 680 25.4B50 1.84 30B40 2.00 35B30 1.97 35B50 2.15 30B45 2.16 35B35 1.98 820 1,000 35B40 2.30 1,200 35B45 2.43 Vdc fD mF 47 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 400 22 22B20 0.37 25.4 450 30 35 22 25.4 30 35 56 22B20 0.40 68 22B25 0.51 25.4B20 0.46 22B30 0.50 25.4B25 0.50 82 22B30 0.58 25.4B25 0.64 22B35 0.56 25.4B25 0.55 100 22B30 0.64 25.4B25 0.67 30B20 0.59 22B40 0.64 25.4B30 0.57 30B25 0.64 120 22B35 0.72 25.4B30 0.72 30B25 0.76 22B45 0.72 25.4B35 0.71 30B25 0.70 150 22B40 0.82 25.4B35 0.84 30B25 0.84 35B20 0.76 22B50 0.79 25.4B40 0.75 30B30 0.74 35B25 0.75 180 22B50 0.95 25.4B40 0.94 30B30 0.92 35B25 0.94 25.4B45 0.84 30B35 0.87 35B30 0.90 220 25.4B45 1.07 30B35 1.06 35B30 1.08 25.4B50 0.98 30B40 0.98 35B30 1.00 270 25.4B50 1.21 30B40 1.21 35B30 1.20 30B45 1.15 35B35 1.17 330 30B45 1.39 35B35 1.35 30B50 1.38 35B40 1.38 390 30B50 1.55 35B40 1.54 35B45 1.55 35B45 1.74 35B50 1.72 470 22B25 0.40 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS 15mm height snap-ins, 85C SLM @15mm height snap-ins @Endurance with ripple current : 85C 2000 hours @Non solvent-proof type low profile SMH ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurace Shelf Life -25 to +85C 160 to 400Vdc P20% (M) I[3 CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 160 to 400V tanE (Max.) 0.20 Rated voltage (Vdc) 160 to 400V Z (-25C) /Z (+20C) 4 (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] ?PART NUMBERING SYSTEM SLM 400 VSSN @Terminal Type : VSSN Sleeve Negative mark 68 M PC board pin-out FD+1max. 10 Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name 2-F2 4.0P0.5 LP2 Vent ?STANDARD RATINGS Vdc fDbL (mm) 160 180 200 180 270 390 560 22b15 25.4b15 30b15 35b15 150 220 330 470 0.99 1.29 1.47 1.74 0.90 1.16 1.35 1.60 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) 160 to 250Vdc 400Vdc 250 400 Capacitance Rated ripple Capacitance Rated ripple Capacitance Rated ripple Capacitance Rated ripple Capacitance Rated ripple Items (Arms/85c (Arms/85c (Arms/85c (Arms/85c (Arms/85c (mF) 120Hz) (mF) 120Hz) (mF) 120Hz) (mF) 120Hz) (mF) 120Hz) 50 0.81 0.77 120 1.00 1.00 300 1.17 1.16 1k 1.32 1.30 10k 1.45 1.41 50k 1.50 1.43 150 220 270 390 0.90 1.16 1.22 1.46 100 150 220 330 0.73 0.96 1.10 1.34 47 68 100 120 0.50 0.65 0.74 0.81 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS 15mm height snap-ins, 105C KLM @15mm height snap-ins @Endurance with ripple current : 105C 2000 hours @Non solvent-proof type low profile KMH ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -25 to +105C 160 to 400Vdc P20% (M) I[3 CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 160 to 400V tanE (Max.) 0.20 Rated voltage (Vdc) 160 to 400V Z (-25C) /Z (+20C) 4 (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] ?PART NUMBERING SYSTEM KLM 200 VSSN 150 @Terminal Type : VSSN Sleeve Negative mark M PC board pin-out FD+1max. 10 Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name 2-F2 4.0P0.5 LP2 Vent ?STANDARD RATINGS Vdc fDbL (mm) 160 180 200 250 400 Capacitance Rated ripple Capacitance Rated ripple Capacitance Rated ripple Capacitance Rated ripple Capacitance Rated ripple Items (Arms/105c (Arms/105c (Arms/105c (Arms/105c (Arms/105c 120Hz) 120Hz) 120Hz) 120Hz) 120Hz) (mF) (mF) (mF) (mF) (mF) 22b15 25.4b15 30b15 35b15 120 150 180 220 270 330 390 0.68 0.79 0.88 0.96 1.06 1.20 150 180 220 270 330 390 0.61 0.73 0.79 0.86 0.96 1.10 1.17 120 150 0.61 0.73 180 220 270 330 0.79 0.90 1.00 1.07 82 100 120 150 180 220 0.50 0.59 0.65 0.71 0.79 0.90 39 47 56 68 82 100 120 0.35 0.40 0.44 0.46 0.51 0.56 0.62 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) 160 to 250Vdc 400Vdc 50 0.81 0.77 120 1.00 1.00 300 1.17 1.16 1k 1.32 1.30 10k 1.45 1.41 50k 1.50 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized - Long life snap-ins, 105C New! LXM @Downsized and extended life from current long life snap-ins LXG series @Endurance with ripple current : 105C 7000 hours @Non solvent-proof type downsized longer life LXG ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -25 to +85C 160 to 450Vdc P20% (M) I[3 CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Rated voltage (Vdc) 160 to 400V 420 & 450V tanE (Max.) 0.15 0.20 Rated voltage (Vdc) 160 to 400V 420 & 450V Z(-25C)/Z(+20C) 4 8 (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 7000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [250% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Standard Terminal Type : VSSN (F22 to F35) Negative mark @Terminal Type : LISN (F35) PC board pin-out Sleeve PC board pin-out 2-1.2B6 Negative mark Vent FD+1max. FD+1max. 10 4.2P0.5 Sleeve 2-F2 LP2 *4.0P0.5 Vent 5P0.5 LP2 14.2P1 4.5P1 *FD=35mm : 3.5P0.5mm ?PART NUMBERING SYSTEM LXM 400 VSSN 120 M 22C Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name ?CASE CODE [mm] Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL 22A 22B25 25A 25.4B25 30A 30B25 35A 35B25 22B 22B30 25B 25.4B30 30B 30B30 35B 35B30 22C 22B35 25C 25.4B35 30C 30B35 35C 35B35 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized - Long life snap-ins, 105C New! ?STANDARD RATINGS Vdc fD mF 160 22 25 180 30 35 270 22 22B25 1.00 25 30 35 330 22B25 1.11 22B30 1.16 390 22B30 1.26 22B30 1.26 25.4B25 1.26 470 22B30 1.39 25.4B25 1.38 22B35 1.42 25.4B30 1.42 560 22B35 1.55 25.4B30 1.55 22B40 1.59 25.4B30 1.55 30B25 1.58 680 22B40 1.75 25.4B35 1.78 30B25 1.74 22B45 1.79 25.4B35 1.78 30B30 1.79 820 22B50 1.97 25.4B40 2.01 30B30 1.96 25.4B40 2.01 30B35 2.04 1,000 25.4B45 2.27 30B35 2.26 25.4B50 2.32 30B35 2.26 35B30 2.30 1,200 25.4B50 2.54 30B40 2.56 35B30 2.52 30B45 2.65 35B35 2.58 1,500 30B45 2.96 35B35 2.89 30B50 3.03 35B40 3.01 1,800 30B50 3.32 35B40 3.30 35B50 3.87 2,200 Vdc fD mF 35B45 3.41 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 200 22 25 35B50 3.87 220 30 35 220 22B25 0.90 22 22B25 0.90 25 30 35 270 22B30 1.05 22B30 1.05 330 22B30 1.16 25.4B25 1.16 22B35 1.19 25.4B25 1.16 390 22B35 1.29 25.4B30 1.29 22B40 1.33 25.4B30 1.29 470 22B40 1.46 25.4B30 1.42 30B25 1.45 22B45 1.49 25.4B35 1.48 30B25 1.45 560 22B45 1.63 25.4B35 1.62 30B30 1.62 22B50 1.63 25.4B40 1.71 30B30 1.62 680 25.4B40 1.83 30B30 1.79 25.4B45 1.87 30B35 1.86 820 25.4B45 2.06 30B35 2.04 25.4B50 2.10 30B40 2.12 35B30 2.08 30B50 2.48 35B40 2.46 1,000 30B45 2.42 35B30 2.30 1,200 30B50 2.71 35B40 2.70 35B45 2.78 1,500 35B45 3.11 35B50 3.20 1,800 35B50 3.50 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized - Long life snap-ins, 105C New! ?STANDARD RATINGS Vdc fD mF 250 22 25 315 30 35 100 22 22B25 0.67 25 120 22B30 0.77 150 22B30 0.86 25.4B25 0.85 30 35 180 22B25 0.82 22B35 0.96 25.4B30 0.96 220 22B30 0.95 22B40 1.09 25.4B30 1.06 30B25 1.08 270 22B35 1.08 25.4B25 1.05 22B45 1.24 25.4B35 1.23 30B30 1.23 330 22B40 1.22 25.4B30 1.19 25.4B40 1.40 30B35 1.42 35B30 1.45 390 22B45 1.36 25.4B35 1.35 30B25 1.32 25.4B50 1.59 30B35 1.54 35B30 1.57 470 22B50 1.49 25.4B40 1.52 30B30 1.49 30B45 1.81 35B35 1.77 560 25.4B45 1.70 30B35 1.69 30B50 2.03 35B40 2.02 680 25.4B50 1.91 30B40 1.93 35B30 1.90 35B45 2.29 30B45 2.19 35B35 2.13 35B50 2.59 820 1,000 35B40 2.46 1,200 35B50 2.86 Vdc fD mF Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 350 22 25 400 30 35 68 22 22B25 0.55 25 30 35 22B30 0.63 82 22B30 0.70 25.4B25 0.70 25.4B25 0.76 22B35 0.79 25.4B30 0.79 22B35 0.88 25.4B30 0.88 22B40 0.90 25.4B30 0.88 30B25 0.90 180 22B40 0.99 25.4B30 0.96 30B25 0.98 22B45 0.99 25.4B35 1.01 30B30 1.01 220 22B45 1.12 25.4B35 1.11 30B30 1.11 25.4B40 1.14 30B35 1.16 270 25.4B40 1.26 30B35 1.28 25.4B50 1.32 30B40 1.33 35B30 1.31 330 25.4B45 1.40 30B35 1.42 35B30 1.45 30B45 1.52 35B35 1.48 390 30B40 1.60 35B35 1.61 30B50 1.69 35B40 1.68 470 30B50 1.86 35B40 1.85 35B45 1.91 560 35B40 2.02 35B50 2.14 680 35B50 2.36 100 22B25 0.67 120 22B30 0.77 150 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Downsized - Long life snap-ins, 105C New! ?STANDARD RATINGS Vdc fD mF 420 22 25 450 30 35 47 22 22B25 0.46 25 30 35 56 22B25 0.50 22B30 0.52 68 22B30 0.58 22B30 0.58 25.4B25 0.58 82 22B30 0.63 25.4B25 0.63 22B35 0.65 25.4B30 0.65 100 22B35 0.72 25.4B30 0.72 22B40 0.74 25.4B30 0.72 30B25 0.73 120 22B40 0.81 25.4B30 0.79 30B25 0.80 22B45 0.83 25.4B35 0.82 30B30 0.82 150 22B45 0.92 25.4B35 0.92 30B30 0.92 25.4B40 0.94 30B35 0.96 180 25.4B40 1.03 30B35 1.05 25.4B45 1.06 30B35 1.05 35B30 1.07 220 25.4B50 1.19 30B35 1.16 35B30 1.18 30B40 1.20 35B35 1.21 270 30B45 1.38 35B35 1.34 30B50 1.41 35B40 1.40 330 30B50 1.56 35B40 1.55 35B45 1.60 390 35B45 1.74 35B50 1.79 470 35B50 1.96 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers 120 300 1k 10k 50k 160 to 250Vdc 0.81 Frequency(Hz) 50 1.00 1.17 1.32 1.45 1.50 315 to 450Vdc 0.77 1.00 1.16 1.30 1.41 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Long life snap-ins, 105C LXM longer life downsized @Endurance with ripple current : 105C 5000 hours @Non solvent-proof type LXG longer life KMH ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics (Max. Impedance Ratio) Endurance Shelf Life -40 to +105C (10 to 100Vdc) -25 to 105C (200 to 450Vdc) (at 20C, 120Hz) 10 to 450Vdc P20% (M) I=0.02CV or 3mA, whichever is smaller. (at 20C after 5 minutes) Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 10V 16V 25V 35V 50V 63V 80 & 100V 200 to 400V 450V Rated voltage (Vdc) 0.60 0.45 0.30 0.25 0.20 0.15 0.15 0.15 0.20 (at 20C, 120Hz) tanE (Max.) Capacitance change : Capacitance at the lowest operating temperature shall not be less than 70% of the 20C value. Rated voltage (Vdc) 10V 16V 25V 35V 50V 63V 80 & 100V 200 to 400V 450V 8 Z(-25C)/Z(+20C) 2 2 3 3 4 4 2 4 (at 120Hz) Z(-40C)/Z(+20C) 6 6 8 10 15 15 5 The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with rated ripple current is applied for 5000 hours at 105C. Capacitance change [P25% of the initial value DF (tanE) [250% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Standard Terminal Type : VSSN (F22 to F35) Negative mark Sleeve @Terminal Type : VNSN (F22 to F35) Negative mark Sleeve PC board pin-out PC board pin-out FD+1max. FD+1max. 10 10 *4.0P0.5 LP2 Vent 2-F2 Vent 2-F2 LP2 5.8P1 *FD=35mm : 3.5P0.5mm @Terminal Type : LISN (F35) Sleeve PC board pin-out 2-1.2B6 FD+1max. 4.2P0.5 Negative mark Vent 5P0.5 LP2 14.2P1 4.5P1 ?PART NUMBERING SYSTEM LXG 100 VSSN 1200 M 22F Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name ?CASE CODE [mm] Case code Case size Case code Case size Case code Case size Case code Case size fDbL fDbL fDbL fDbL 22A 22B25 25A 25.4B25 30A 30B25 35A 35B25 22B 22B30 25B 25.4B30 30B 30B30 35B 35B30 22C 22B35 25C 25.4B35 30C 30B35 35C 35B35 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Long life snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 10 22 25.4 16 30 35 22 25.4 25 30 35 22 3,900 22B25 1.31 4,700 22B30 1.51 22B30 1.66 22B25 1.30 6,800 10,000 22B30 1.65 25.4B25 1.64 12,000 22B35 1.85 25.4B30 1.85 15,000 22B40 2.12 25.4B35 2.16 18,000 22B50 2.45 25.4B40 2.43 22B40 2.12 30B25 1.89 22B50 2.74 22,000 30B30 2.37 35B25 2.42 30B35 2.73 35B30 2.79 25.4B30 2.07 30B25 2.11 25.4B35 2.37 30B30 2.37 22B50 2.45 30B50 3.99 39,000 25.4B50 3.11 Vdc fD 35B30 3.09 30B40 3.46 35B35 3.49 30B50 4.07 35B40 4.04 30B30 2.15 35B25 2.19 30B35 2.70 35B30 2.76 30B40 3.13 35B35 3.16 30B50 3.64 35B40 3.61 25.4B40 2.43 35B50 5.16 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 35 22 25.4 50 30 35 22 25.4 63 30 35 22 1,000 1,200 22B30 1.15 1,500 22B25 1.02 1,800 22B30 1.17 22B25 1.10 22B40 1.51 3,300 22B30 1.42 25.4B25 1.41 3,900 22B35 1.58 25.4B30 1.58 4,700 22B40 1.78 22B50 2.26 22B40 1.49 25.4B25 1.17 25.4B30 1.47 30B25 1.50 25.4B35 1.70 30B30 1.70 30B30 1.98 35B25 2.03 25.4B40 2.24 25.4B50 2.57 30B35 2.50 35B30 2.55 10,000 30B40 2.86 35B35 2.88 12,000 30B50 3.32 35B40 3.30 22B50 1.92 35B25 1.74 25.4B40 1.89 30B25 1.77 25.4B35 1.98 5,600 22B50 1.91 25.4 30 35 25.4B25 1.15 22B35 1.32 22B35 1.33 2,700 18,000 25.4B35 2.14 35B50 4.70 22B25 1.00 8,200 30B25 1.90 25.4B50 2.78 35B25 2.42 30B35 3.02 35B40 3.96 35B50 4.62 47,000 6,800 25.4B30 1.87 35B35 3.49 33,000 2,200 35 25.4B25 1.51 25.4B40 2.71 30B40 3.13 25.4B50 3.11 27,000 mF 22B40 1.92 25.4B25 1.66 22B35 1.87 8,200 30 22B35 1.70 22B25 1.44 5,600 25.4 25.4B50 2.38 30B35 2.11 35B30 2.16 30B40 2.39 35B35 2.41 30B50 2.79 35B40 2.78 25.4B30 1.45 30B25 1.48 25.4B35 1.67 30B30 1.68 25.4B40 1.90 30B35 1.93 35B25 1.71 35B30 2.18 25.4B50 2.20 30B40 2.41 35B35 2.43 30B50 2.80 35B40 2.78 35B50 3.55 35B50 3.57 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 35B50 4.29 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Long life snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 80 22 25.4 100 30 35 22 25.4 200 30 35 22 22B25 0.63 25.4 270 22B30 0.81 25.4B25 0.81 330 22B35 0.92 25.4B30 0.92 30B25 0.94 25.4B35 1.15 30B30 1.15 25.4B40 1.28 30B35 1.30 25.4B50 1.48 30B40 1.49 180 22B50 1.17 470 22B30 0.99 560 680 22B25 0.97 22B35 1.12 820 22B30 1.12 22B40 1.26 1,000 22B35 1.27 25.4B25 1.23 1,200 22B40 1.42 25.4B30 1.39 22B50 1.60 30B25 1.41 25.4B35 1.62 1,500 25.4B40 1.82 30B30 1.78 35B25 1.82 25.4B50 2.11 30B35 2.05 35B30 2.09 2,700 30B40 2.35 35B35 2.37 3,300 30B50 2.75 35B40 2.73 22B50 1.84 1,800 2,200 25.4B25 0.98 25.4B30 1.23 30B25 1.25 25.4B35 1.41 30B30 1.42 25.4B40 1.59 30B35 1.61 25.4B50 1.86 30B40 1.87 Vdc fD 30B50 1.91 35B25 1.45 35B30 1.85 35B35 2.07 30B50 2.40 35B40 2.39 35B50 2.81 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 250 22 25.4 350 30 35 22 25.4 400 30 35 22 22B25 0.34 25.4 25.4B25 0.40 22B25 0.39 22B30 0.44 82 22B30 0.49 22B35 0.50 100 22B35 0.55 25.4B25 0.49 120 22B40 0.63 25.4B30 0.55 150 22B25 0.57 180 22B30 0.66 220 22B35 0.75 270 22B40 0.85 330 22B50 1.08 25.4B30 0.50 30B25 0.56 25.4B35 0.60 22B50 0.73 25.4B25 0.66 25.4B30 0.83 30B25 0.85 25.4B35 0.96 30B30 0.96 35B25 1.02 35B25 0.69 25.4B40 0.72 30B30 0.71 25.4B50 0.93 30B35 0.82 35B30 0.83 30B40 0.94 35B35 1.04 30B50 1.19 35B40 1.19 22B40 0.57 25.4B35 0.58 22B50 0.67 25.4B40 0.66 25.4B40 1.07 25.4B50 1.22 25.4B50 0.84 30 35 30B25 0.51 35B25 0.61 30B30 0.65 30B35 0.74 35B30 0.83 30B40 0.84 35B35 0.94 30B50 1.10 35B40 1.09 35B50 1.26 30B35 1.19 35B30 1.22 560 30B40 1.35 35B35 1.36 680 30B50 1.58 35B40 1.57 1,000 35B40 1.90 35B50 2.21 68 470 35B30 1.47 35B35 1.65 56 390 35B25 1.22 35B50 3.46 4,700 mF 35 22B40 1.02 22B25 0.78 390 30 35B50 1.38 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 35B50 2.02 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS ?STANDARD RATINGS Vdc fD mF ?MAXIMUM IMPEDANCE [mo/20c, 30kHz] 450 22 25.4 30 35 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 39 22B25 0.37 47 22B30 0.41 56 22B30 0.44 25.4B25 0.47 68 22B35 0.50 25.4B30 0.53 82 22B40 0.56 22B45 0.64 25.4B30 0.55 30B25 0.57 25.4B35 0.63 30B30 0.64 22B50 0.72 25.4B40 0.71 30B30 0.71 35B25 0.71 150 25.4B45 0.81 30B35 0.81 35B30 0.83 180 25.4B50 0.91 30B40 0.92 35B35 0.93 30B45 1.05 35B40 1.07 100 120 220 270 35B45 1.22 330 35B50 1.39 Case size Case fDbL (mm) 120 1.00 1.00 1.00 1.00 300 1.03 1.07 1.17 1.16 1k 1.05 1.13 1.32 1.30 10k 1.08 1.19 1.45 1.41 @105c Endurance with Rated Ripple Current LXG10VSSN15000 M22D LXG50VSSN 5600 M25F 0 0 -10 -20 0.1 400 800 700 560 500 390 660 520 440 380 300 500 400 320 290 220 420 320 260 220 170 450 1,000 900 720 650 590 500 850 670 570 490 460 390 650 520 410 370 340 280 540 410 330 280 260 220 0 -10 -20 -30 1 0.1 Leakage Current (MA) 1,000 Leakage Current 640 560 450 400 320 530 420 360 310 240 400 320 260 240 180 340 260 210 180 140 350 0 (MA) 1,000 1 150 120 95 80 60 110 85 70 60 45 80 60 50 40 30 70 50 40 30 25 250 LXG200VSSN680 M25F LXG400VSSN220 M30D 0.01 10 200 (%) 20 0.01 100 120 100 80 70 50 90 70 60 50 40 70 50 40 35 25 65 45 38 30 23 100 @105c Endurance with Rated Ripple Current tanE tanE -30 1 80 50k 1.08 1.20 1.50 1.43 Capacitance Change Capacitance Change (%) 20 10 to 63 22A 22B 22C 22D 22E 22F 25A 25B 25C 25D 25E 25F 30A 30B 30C 30D 30E 30F 35A 35B 35C 35D 35E 35F @Frequency Multipliers 50 0.95 0.92 0.81 0.77 Vdc code 22b25 22b30 22b35 22b40 22b45 22b50 25.4b25 25.4b30 25.4b35 25.4b40 25.4b45 25.4b50 30b25 30b30 30b35 30b40 30b45 30b50 35b25 35b30 35b35 35b40 35b45 35b50 ?RATED RIPPLE CURRENT MULTIPLIERS Frequency (Hz) 10 to 50Vdc 63 to 100Vdc 200 & 250Vdc 350 to 450Vdc Long life snap-ins, 105C 100 10 1 0 2,000 4,000 Time 6,000 8,000 (hours) 0 2,000 4,000 Time 6,000 8,000 (hours) CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Long life, Overvoltage-proof design, 105C LXH @No sparks against DC over-voltage @Same case sizes of KMH @Endurance with ripple current : 105C 5000 hours @Non solvent-proof type downsized longer life KLG ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Capacitance Tolerance Leakage Current -25 to +105C 200 & 400Vdc P20% (M) I=0.02CV or 3mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.15 max. Low Temperature Characteristics Z(-25C) /Z(+20C)[4 ESL DC Overvoltage Test Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) (at 20C, 1MHz) 50nH max. When an excessive DC voltage is applied to the capacitors under the test conditions on next page, the vent shall operate and then the capacitors shall become open-circuit without burning materials. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 3000 or 5000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Terminal Type : VNSN (F22 to F35) @Standard Terminal Type : VSSN (F22 to F35) Negative mark Sleeve Negative mark Sleeve FD+1max. * 4.0P0.5 LP2 2-F2 10 Vent PC board pin-out 10 FD+1max. PC board pin-out LP2 Vent 2-F2 5.8P1 * : FD=35mm : 3.5P0.5mm ?PART NUMBERING SYSTEM LXH 200 VSSN 470 M ?CASE CODE [mm] 25B Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL Case code Case size fDbL 22A 22B25 25A 25.4B25 30A 30B25 35A 35B25 22B 22B30 25B 25.4B30 30B 30B30 35B 35B30 22C 22B35 25C 25.4B35 30C 30B35 35C 35B35 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 22F 22B50 25F 25.4B50 30F 30B50 - - ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) 200Vdc 400Vdc 50 0.81 0.77 120 1.00 1.00 300 1.17 1.16 1k 1.32 1.30 10k 1.45 1.41 50k 1.50 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Long life, Overvoltage-proof design, 105C ?STANDARD RATINGS mF Vdc f Vdc f 200 22 22B25 0.45 0.87 22B30 0.62 1.20 22B35 0.67 1.31 22B40 0.72 1.40 22B45 0.80 1.56 22B50 0.89 1.74 270 330 390 470 560 680 820 25.4 30 mF 35 Upper : Case size FDBL (mm) 25.4B25 0.62 1.21 25.4B30 0.66 1.28 25.4B30 0.72 1.41 25.4B35 0.78 1.53 25.4B40 0.89 1.74 25.4B50 1.05 2.04 68 82 100 30B25 0.77 1.50 30B30 0.81 1.57 30B30 0.89 1.74 30B35 1.03 2.00 30B45 1.18 2.30 30B50 1.33 2.60 1,000 1,200 1,500 120 150 35B25 0.88 1.72 35B30 1.05 2.04 35B35 1.15 2.23 35B40 1.36 2.65 35B45 1.57 3.08 180 400 22 22B25 0.26 0.51 22B30 0.30 0.58 22B35 0.34 0.66 22B40 0.37 0.72 22B45 0.42 0.82 22B50 0.49 0.95 25.4 25.4B25 0.30 0.58 25.4B30 0.34 0.66 25.4B30 0.37 0.72 25.4B35 0.43 0.84 25.4B40 0.48 0.94 25.4B45 0.55 1.07 25.4B50 0.62 1.21 220 270 330 390 Rated ripple current for 3000 hours at 105C (Arms, 120Hz) Rated ripple current for 5000 hours at 105C (Arms, 120Hz) 30 35 Upper : Case size FDBL (mm) 30B25 0.39 0.76 30B30 0.43 0.84 30B30 0.47 0.92 30B35 0.54 1.06 30B40 0.62 1.21 30B45 0.71 1.39 30B50 0.80 1.55 470 35B25 0.48 0.94 35B30 0.55 1.08 35B30 0.59 1.15 35B35 0.69 1.35 35B40 0.79 1.54 35B45 0.89 1.74 Rated ripple current for 3000 hours at 105C (Arms, 120Hz) Rated ripple current for 5000 hours at 105C (Arms, 120Hz) ?DC OVERVOLTAGE TEST CONDITIONS @105c Endurance with Rated Ripple Current The vent will operate and the capacitor shall become an open circuit without burning materials when the following excess DC voltage is applied. (%) 200Vdc 400Vdc Capacitance Current limit Test DC voltage <330MF 4A 330[C<470MF 5A 300/375Vdc 7A ]470MF <100MF 2A 4A 100[C<220MF 500/600Vdc 7A ]220MF tanE Rated Voltage Capacitance Change @Test DC voltage @Test Circuit LXH200VSSN1000 M30E LXH400VSSN 330 M35C +20 +10 0 -10 -20 -30 1 0.1 + AC input SW CX - 0.01 (MA) 1,000 Constant DC voltage/current power supply Leakage Current 100 10 1 0 2,000 4,000 6,000 8,000 (hours) Time CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Overvoltage-proof design, 105C LXH downsized longer life @No sparks against DC over-voltage @Same case sizes of KMG @Endurance with ripple current : 105C 2000 hours @Non solvent-proof type KLG ?SPECIFICATIONS Items Characteristics Category Temperature Range -25 to +105C Dissipation Factor (tane) 200 & 400Vdc P20% (M) I=0.02CV or 3mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) 200Vdc : 0.10 max. * : 0.15 for D=35mm 400Vdc : 0.15 max. Low Temperature Characteristics Max. Impedance Ratio : Z(-25C)/Z(+20C)[4 Rated Voltage Range Capacitance Tolerance Leakage Current ESL DC Overvoltage Test Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) 50nH max. (at 20C, 1MHz) When an excessive DC voltage is applied to the capacitors under the test conditions on next page, the vent shall operate and then the capacitors shall become open-circuit without burning materials. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Terminal Type : VNSN (F22 to F35) @Standard Terminal Type : VSSN (F22 to F35) Negative mark Sleeve Negative mark Sleeve FD+1max. * 4.0P0.5 LP2 2-F2 10 Vent PC board pin-out 10 FD+1max. PC board pin-out LP2 Vent 2-F2 5.8P1 * : FD=35mm : 3.5P0.5mm ?PART NUMBERING SYSTEM KLG 400 VSSN 330 M ?CASE CODE [mm] 35D Case code Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name Case code Case size fDbL Case code Case size fDbL 22S 22B20 25S 25.4B20 - - - - 22A 22B25 25A 25.4B25 30A 30B25 35A 35B25 Case code Case size fDbL Case code Case size fDbL 22B 22B30 25B 25.4B30 30B 30B30 35B 35B30 22C 22B35 25C 25.4B35 30C 30B35 35C 35B35 22D 22B40 25D 25.4B40 30D 30B40 35D 35B40 22E 22B45 25E 25.4B45 30E 30B45 35E 35B45 22F 22B50 25F 25.4B50 30F 30B50 35F 35B50 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) 200Vdc 400Vdc 50 0.81 0.77 120 1.00 1.00 300 1.17 1.16 1k 1.32 1.30 10k 1.45 1.41 50k 1.50 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Overvoltage-proof design, 105C ?STANDARD RATINGS 100 120 150 180 220 270 330 390 470 560 680 25.4 30 33 25.4B20 0.65 25.4B20 0.70 47 56 68 25.4B25 1.00 25.4B30 1.13 25.4B30 1.18 25.4B35 1.32 25.4B40 1.50 25.4B50 1.70 82 100 30B25 1.20 30B30 1.32 30B30 1.52 30B35 1.73 30B40 1.93 30B50 2.20 1,200 1,500 ?DC OVERVOLTAGE TEST CONDITIONS The vent will operate and the capacitor shall become an open circuit without burning materials when the following excess DC voltage is applied. @Test DC voltage Capacitance Current limit Test DC voltage <330MF 4A 330[C<470MF 5A 300/375Vdc 7A ]470MF <100MF 2A 4A 100[C<220MF 500/600Vdc 7A ]220MF 120 150 35B25 1.43 35B30 1.73 35B35 1.93 35B40 2.20 35B45 2.41 35B50 2.82 @Test Circuit 400 22 22B20 0.29 22B20 0.30 22B25 0.36 22B25 0.39 22B30 0.51 22B35 0.56 22B40 0.61 22B45 0.67 22B50 0.77 25.4 30 35 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 25.4B20 0.35 25.4B25 0.49 25.4B30 0.53 25.4B30 0.64 25.4B35 0.69 25.4B40 0.78 25.4B45 0.83 25.4B50 0.93 180 220 270 330 30B25 0.62 30B30 0.68 30B30 0.76 30B35 0.82 30B40 0.91 30B45 1.10 30B50 1.24 390 470 35B25 0.74 35B30 0.90 35B35 0.99 35B35 1.12 35B40 1.25 35B45 1.37 35B50 1.50 @105c Endurance with Rated Ripple Current KLG200VSSN470 M22E KLG400VSSN330 M30F (%) +20 tanE 400Vdc mF 39 1,000 200Vdc 35 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz 820 Rated Voltage Vdc fD 200 22 22B20 0.50 22B20 0.56 22B20 0.66 22B25 0.80 22B25 0.92 22B30 1.00 22B35 1.13 22B40 1.25 22B45 1.32 22B50 1.52 Capacitance Change Vdc fD mF +10 0 -10 -20 -30 1 0.1 + AC input SW CX - 100 Leakage Current Constant DC voltage/current power supply 0.01 (MA) 1,000 10 1 0 500 1,000 Time 1,500 2,000 (hours) CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS No-smoke snap-ins, 105C @Mechanically open-mode capacitor (no fire, smoke and electrolyte outside) @Endurance with ripple current : 105C 2000 hours @Non Solvent-proof ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Capacitance Tolerance Leakage Current Dissipation Factor (tane) Endurance Shelf Life -25 to +105C 200 & 400Vdc P20% (M) I[3 CV Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C, 120Hz) (at 20C after 1 minute) 0.15max. (200Vdc), 0.10max. (400Vdc) (at 20C, 120Hz) The following specifications shall be satisfied when the capacitors are restored to 20C after DC voltage with rated ripple current is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] @Terminal Type : VKSN (F30 & F35) Sleeve @Terminal Type : LTSN (F30 & F35) PC board pin-out Negative mark Sleeve Negative mark 5.8P1 4.2P0.5 FD+1max. FD+1max. 10 Vent 2-F2 LP2 PC board pin-out 2-1.2B6 Vent 5P0.5 LP2 4.5P1 14.2P1 ?PART NUMBERING SYSTEM KSL 400 VKSN 470 M 35 Diameter Cap tolerance (P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) 200Vdc 400Vdc 50 0.81 0.77 120 1.00 1.00 300 1.17 1.16 1k 1.32 1.30 10k 1.45 1.41 50k 1.50 1.43 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS No-smoke snap-ins, 105C ?STANDARD RATINGS Vdc fD mF 200 400 30 180 220 270 330 390 470 560 680 820 1,000 1,200 1,500 35 30 30B34 30B39 30B44 30B49 30B54 30B34 30B39 30B44 30B49 30B54 1.57 1.80 2.00 2.30 2.60 35 0.92 1.06 1.21 1.39 1.55 35B34 35B39 35B44 35B49 35B54 1.18 1.30 1.54 1.74 1.95 2.04 2.30 2.65 3.08 35B34 35B39 35B44 35B49 Rated ripple current (Arms) at 105C, 120Hz case size FDBL (mm) ?DC OVERVOLTAGE TEST CONDITIONS The safety function will be operated and the capacitor shall become an open circuit without fire, smoke and electrolyte outside when the following excess DC voltage is applied. @DC voltage test Rated Voltage 200Vdc 400Vdc @Test circuit Capacitance < 330MF 330[C<470MF ]470MF < 100MF 100[C<220MF ]220MF Current limit 4A 5A 7A 2A 4A 7A Test DC voltage SW + CX - 300/375Vdc AC input 500/600Vdc Constant DC voltage/current power supply ?INSIDE STRUCTURE case element rivet 1 inner holder spring disk rivet 2 Before function rubber laminated cover After function Note : Conformal coating between the cover of the capacitors and the PC board should be avoided. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS For inverter air-conditionings, 85C @For high ripple current application such as air conditioning system @Endurance with ripple current : 85C 3000 hours @Custom-made parts are also available upon requests ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current -25 to +85C 250Vdc 330 to 450Vdc P10%, (K) (250Vdc) P20% (M) (330 to 450Vdc) I=0.02CV or 3mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.02 max. (250Vdc) 0.25 max. (330 to 450Vdc) Low Temperature Characteristics Z(-25C)/Z(+20C)[4 Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation shall not be less than 100MO. When a voltage of 1500Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 3000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS [mm] ?PART NUMBERING SYSTEM RWE 250 LRSN 440 @Terminal Type : LRSN (F35 to F63.5) Sleeve FD+1.5max. Negative mark LP3 12max. K A8 Case code Cap tolerance (K=P10%, M=P20%) Nominal cap in MF Terminal type Rated voltage in volts Series name 6.35 Vent (at 20C, 120Hz) FP1 fD F 35 to 50 14 63.5 28 ?STANDARD RATINGS Vdc Items mF 330 360 390 440 470 500 Vdc Items mF 1,000 1,300 1,500 1,800 2,200 Vdc Items mF 1,000 1,300 1,500 1,800 2,200 Case size 35B70 35B70 35B70 35B80 35B80 35B90 250 Case code A7 A7 A7 A8 A8 A9 Case size 35B80 35B100 35B100 40B90 40B100 330 Case code A8 A10 A10 B9 B10 40B110 B11 Case size 35B110 40B110 50B90 50B100 50B120 420 Case code A11 B11 C9 C10 C12 Rated ripple (Arms/85c, 60Hz) 4.5 4.7 4.9 5.4 5.6 6.0 Rated ripple (Arms/85c, 120Hz) 3.9 4.8 5.2 5.3 6.1 7.0 Rated ripple (Arms/85c, 120Hz) 4.4 5.4 6.0 6.9 8.3 Case size 35B80 35B100 35B110 40B100 40B110 50B80 50B90 350 Case code A8 A10 A11 B10 B11 C8 C9 Case size 40B100 50B90 50B100 50B120 63.5B100 450 Case code B10 C9 C10 C12 D10 Rated ripple (Arms/85c, 120Hz) 3.9 4.8 5.4 5.5 6.3 6.2 7.3 Case size 35B100 40B100 40B110 50B90 50B100 400 Case code A10 B10 B11 C9 C10 50B110 C11 Rated ripple (Arms/85c, 120Hz) 4.2 5.2 5.8 6.0 6.9 7.9 Rated ripple (Arms/85c, 120Hz) 4.5 5.6 6.3 7.5 8.7 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard screw terminals, 85C KMH @Endurance with ripple current : 85C 2000 hours 105C SME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current -40 to +85C (10 to 100Vdc) -25 to +85C (160 to 250Vdc) 10 to 250Vdc P20% (M) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) Shall not exceed the values shown in the STANDARD RATINGS Low Temperature Characteristics Capacitance change C(-25C)/C(+20C)]0.7 Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [150% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] @B Type of Mounting Clamp AP1 WP1 8 J GP1 L+4max. fD 35 50 63.5 76 F35 to F63.5 : G=6 F76 & F89 : G=5 A 58 78 90 104.5 B 44 64 76 90 W 48 68 80 93.5 H 3.5 4.5 4.5 4.5 F 12.7 22.4 28.0 31.5 fD 50 63.5 76 89 4.5 KP1 EP1 6 30P5 360 3 45P5 H BP1 FP1 FD+1.8max. Sleeve @C Type of Mounting Clamp E 32.5 38.1 44.5 50.8 K 37.0 43.5 50.0 56.5 J 14.0 14.0 14.0 16.0 <Screw specifications> Plus hexagon-headed screw: M5B0.8B10 Maximum screw tightening torque: 3.23Nm F 22.4 28.0 31.5 31.5 * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM SME 50 LGSN 10000 M ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers B Type of mounting clamp, if required Capacitance tolerance (P20%) Nominal capacitance in MF Terminal type Rated voltage in volts Series name ?CASE CODE fD (mm) L (mm) 35 50 63.5 76 89 50 A5 - Rated voltage (Vdc) 10 to 50 63 & 80 100 160 to 250 80 A8 C8 - 100 A10 C10 D10 E10 - 120 A12 C12 D12 E12 - 140 E14 F14 Case diameter (mm) F35 to F89 F35 F50 to F89 F35 F50 F63.5 to F89 F35 F50 & F63.5 F76 & F89 50 0.95 0.90 0.95 0.82 0.90 0.95 0.80 0.81 0.82 120 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 Frequency (Hz) 300 1k 1.03 1.05 1.06 1.10 1.03 1.05 1.12 1.22 1.06 1.10 1.03 1.05 1.19 1.34 1.14 1.26 1.12 1.22 10k 1.09 1.18 1.09 1.30 1.18 1.09 1.46 1.36 1.30 50k 1.12 1.22 1.12 1.33 1.22 1.12 1.52 1.41 1.33 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard screw terminals, 85C ?STANDARD RATINGS Vdc SV mF 10 16 25 35 50 63 80 13 20 32 44 63 79 100 3,300 A 5 2.5 0.15 A 8 3.7 0.20 A10 4.9 0.20 A12 5.4 0.20 C 8 6.0 0.25 C10 7.1 0.30 C12 8.6 0.30 D10 9.3 0.35 3,900 4,700 Case code 5,600 Rated ripple current (Arms) at 85C, 120Hz 6,800 Max. tanE at 20C, 120Hz A 5 3.0 0.20 8,200 10,000 A 5 4.1 0.25 A 8 4.0 0.25 12,000 15,000 A 5 18,000 A 5 3.9 0.30 4.0 0.35 22,000 A 5 27,000 4.2 0.45 33,000 A 5 39,000 4.7 0.60 47,000 56,000 6.0 0.40 A 8 6.2 0.40 A10 7.0 0.40 A12 8.0 0.45 A10 7.4 0.40 A 8 6.5 0.60 A12 8.3 0.45 68,000 82,000 A 8 7.4 0.60 A10 8.0 0.70 C 8 9.7 0.50 100,000 A10 8.0 0.70 A12 9.6 0.70 C10 10.8 0.60 120,000 A12 9.4 0.70 C 8 9.6 0.80 C12 12.8 0.60 150,000 C 8 9.8 0.90 C10 11.2 0.90 D10 14.7 0.75 180,000 A 8 22.1 1.20 F14 28.3 1.00 F14 25.8 1.50 250 0.40 0.45 24.6 0.80 E14 200 21.0 17.1 F14 0.90 200 0.35 F14 E12 0.55 0.80 160 0.35 18.1 22.0 22.5 125 15.4 E14 F14 E14 100 E12 19.5 0.70 20.7 1.00 Vdc SV 0.40 18.1 0.60 E12 mF 13.3 E14 1.30 3.00 D12 E12 17.1 18.7 0.35 0.70 D12 E12 12.0 0.70 0.75 680,000 D12 16.6 19.8 2.00 0.40 14.0 17.3 20.7 10.2 D12 E12 E14 D10 D10 E10 2.50 0.40 0.35 0.50 18.3 0.90 17.3 9.8 9.6 19.0 16.8 0.80 E10 C10 C12 E14 E10 560,000 0.40 0.35 16.0 0.50 D12 1.80 7.4 8.1 D12 1.20 1.60 C 8 C10 0.60 1.00 19.3 0.30 12.8 15.3 18.0 6.5 C12 14.2 E12 C 8 0.35 12.2 0.50 D10 E10 0.30 6.6 11.1 0.45 C12 2.00 5.9 A12 D10 1.20 1.50 A10 C12 1.00 16.0 0.25 0.55 13.6 15.3 6.2 0.50 12.1 D12 A12 9.0 C12 D10 0.25 10.3 C10 470,000 0.25 5.2 C 8 270,000 390,000 5.3 A 8 C10 220,000 330,000 A10 250 300 560 A 5 1.3 0.15 680 A 5 820 1.6 0.15 1,000 A 5 1,200 2.0 0.15 1,500 1,800 A12 3.3 0.15 C 8 3.7 0.15 C10 5.1 0.15 C12 5.9 0.15 D10 6.9 0.20 D12 8.7 0.20 A10 3.6 0.15 2,700 A10 3.7 0.15 A12 4.0 0.15 3,300 A12 4.5 0.15 C 8 4.5 0.15 0.10 3,900 4,700 A 8 3.4 0.15 C 8 5.6 0.20 5,600 0.15 0.15 0.15 2.5 0.15 3.0 2.8 3.4 A 5 2.3 A 8 A 8 2,200 A 8 A10 C10 7.1 0.15 C12 8.2 0.15 6,800 A10 4.2 0.15 C10 7.5 0.20 8,200 A12 5.0 0.15 C12 8.1 0.20 D10 10.0 0.20 10,000 C 8 5.2 0.20 D10 9.8 0.20 D12 11.0 0.20 E12 11.1 0.20 12,000 D12 10.8 0.20 E10 11.5 0.20 E14 13.0 0.20 15,000 E10 12.7 0.20 E12 12.8 0.20 F14 14.9 0.20 8.1 0.20 E12 14.0 0.20 E14 15.0 0.20 D10 8.6 0.25 E14 16.6 0.20 F14 15.6 0.25 D12 10.3 0.25 33,000 E10 11.1 0.25 F14 18.9 0.25 39,000 E12 12.4 0.25 47,000 E14 14.3 0.25 68,000 F14 18.0 0.30 18,000 C12 22,000 27,000 Max. tanE at 20C, 120Hz Rated ripple current (Arms) at 85C, 120Hz Case code CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard screw terminals, 105C KMH @Downsized from KME series @Endurance with ripple current : 105C 2000 hours 105C SME ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life -40 to +105C (10 to 100Vdc) -25 to +105C (160 to 400Vdc) 10 to 400Vdc P20% (M) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C, 120Hz) (at 20C after 5 minutes) Shall not exceed the values shown in the STANDARD RATINGS (at 20C, 120Hz) Capacitance change 10 to 100Vdc : C(-40C)/C(+20C)]0.6 160 to 400Vdc : C(-25C)/C(+20C)]0.7 (at 120Hz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] @B Type of Mounting Clamp AP1 WP1 8 J GP1 L+4max. fD 35 50 63.5 76 F35 to F63.5 : G=6 F76 & F89 : G=5 A 58 78 90 104.5 B 44 64 76 90 W 48 68 80 93.5 H 3.5 4.5 4.5 4.5 F 12.7 22.4 28.0 31.5 fD 50 63.5 76 89 4.5 KP1 EP1 6 30P5 360 3 45P5 H BP1 FP1 FD+1.8max. Sleeve @C Type of Mounting Clamp E 32.5 38.1 44.5 50.8 K 37.0 43.5 50.0 56.5 J 14.0 14.0 14.0 16.0 <Screw specifications> Plus hexagon-headed screw: M5B0.8B10 Maximum screw tightening torque: 3.23Nm F 22.4 28.0 31.5 31.5 * The screw and the mounting clamp are separately supplied and not attached to the product. ?RATED RIPPLE CURRENT MULTIPLIERS ?PART NUMBERING SYSTEM KMH 400 LGSN 1000 M @Frequency Multipliers C Type of mounting clamp, if required Capacitance tolerance (P20%) Nominal capacitance in MF Terminal type Rated voltage in volts Series name L (mm) 35 50 63.5 76 89 50 A5 - 63 & 80 100 160 to 250 ?CASE CODE fD (mm) Rated voltage (Vdc) 10 to 50 60 A6 - 80 A8 C8 - 100 A10 C10 D10 E10 - 120 A12 C12 D12 E12 - 130 E13 - 140 E14 F14 315 to 400 Case diameter (mm) F35 to F89 F35 F50 to F89 F35 F50 F63.5 to F89 F35 F50 & F63.5 F76 & F89 F35 to F89 50 0.95 0.90 0.95 0.82 0.90 0.95 0.80 0.81 0.82 0.80 120 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 Frequency (Hz) 300 1k 1.03 1.05 1.06 1.10 1.03 1.05 1.12 1.22 1.06 1.10 1.03 1.05 1.19 1.34 1.14 1.26 1.12 1.22 1.19 1.34 10k 1.09 1.18 1.09 1.30 1.18 1.09 1.46 1.36 1.30 1.46 50k 1.12 1.22 1.12 1.33 1.22 1.12 1.52 1.41 1.33 1.52 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Standard screw terminals, 105C ?STANDARD RATINGS Vdc SV mF 10 16 25 35 50 63 80 13 20 32 44 63 79 100 2,200 2,700 3,300 Case code 3,900 Rated ripple current (Arms) at 105C, 120Hz 4,700 Max. tanE at 20C, 120Hz 5,600 6,800 A 5 2.4 0.15 A 5 2.3 0.20 A 5 2.7 0.15 A 5 2.5 0.20 A 5 3.0 0.15 A 5 2.8 0.20 A 5 2.8 0.20 A 6 3.4 0.15 A 5 3.1 0.20 A 5 3.1 0.20 A 6 3.7 0.15 A 5 3.3 0.20 A 6 3.5 0.20 A 8 4.5 0.15 A 5 3.3 0.25 A 6 3.9 0.20 A 8 4.9 0.15 8,200 A 5 3.3 0.30 A 6 3.8 0.25 A 8 4.7 0.20 A10 5.1 0.20 10,000 A 5 3.6 0.30 A 8 4.6 0.25 A 8 4.7 0.25 A12 6.1 0.20 12,000 A 5 3.7 0.35 A 6 4.2 0.30 A 8 5.1 0.25 A10 5.5 0.25 C 8 6.7 0.20 15,000 A 5 4.1 0.35 A 6 4.7 0.30 A 8 5.7 0.25 A12 6.6 0.25 C10 8.3 0.20 18,000 A 5 4.2 0.40 A 6 4.8 0.35 A 8 5.7 0.30 A10 6.7 0.25 C 8 7.4 0.25 C12 9.9 0.20 22,000 A 5 4.7 0.40 A 6 5.3 0.35 A 8 6.3 0.30 A12 8.1 0.25 C10 9.0 0.25 C12 11.0 0.20 27,000 A 5 4.9 0.45 A 6 5.5 0.40 A 8 6.4 0.35 A10 7.5 0.30 C 8 9.1 0.25 C12 10.9 0.25 D10 11.4 0.25 33,000 A 5 5.1 0.50 A 6 5.7 0.45 A 8 6.7 0.40 A12 9.0 0.30 C10 11.1 0.25 C12 12.0 0.25 E10 13.9 0.25 39,000 A 6 5.9 0.50 A 8 6.8 0.45 A10 7.8 0.40 C 8 9.2 0.35 C12 13.1 0.25 D10 12.5 0.30 E10 13.9 0.30 47,000 A 8 7.1 0.50 A 8 7.1 0.50 A12 9.3 0.40 C10 11.2 0.35 C12 13.9 0.30 D12 14.9 0.30 E12 16.5 0.30 56,000 A 8 7.1 0.60 A10 8.4 0.50 C 8 9.7 0.45 C10 11.4 0.40 D10 13.9 0.35 D12 16.3 0.30 E12 18.1 0.30 68,000 A10 8.5 0.60 A10 8.8 0.55 C10 11.2 0.45 C12 13.6 0.40 D12 16.6 0.35 E12 18.4 0.35 E14 19.7 0.35 82,000 A10 8.9 0.65 C 8 10.7 0.55 C10 11.2 0.50 D10 14.8 0.45 E12 18.9 0.40 E14 20.0 0.40 F14 22.1 0.40 100,000 A12 10.7 0.65 C 8 10.8 0.65 C12 14.8 0.50 D12 17.6 0.45 E12 19.5 0.45 E14 20.0 0.50 120,000 C 8 11.0 0.75 C10 13.1 0.65 D10 14.9 0.65 D12 17.6 0.55 E12 19.5 0.55 F14 21.8 0.60 150,000 C10 13.2 0.80 C12 15.3 0.70 D12 17.9 0.65 E12 19.8 0.65 F14 23.9 0.60 180,000 C12 15.7 0.80 C12 15.7 0.80 D12 17.9 0.80 E12 19.8 0.80 F14 23.9 0.75 220,000 C12 16.8 0.85 D12 19.2 0.85 E12 21.3 0.85 E14 23.4 0.80 270,000 D12 19.6 1.00 D12 19.6 1.00 E12 21.7 1.00 F14 25.5 1.00 330,000 D12 19.7 1.20 E12 21.1 1.30 E14 23.4 1.20 390,000 E12 21.3 1.50 E12 21.3 1.50 F14 24.9 1.50 470,000 E12 21.4 1.80 E14 24.2 1.60 560,000 E14 23.6 2.00 F14 28.1 2.00 680,000 F14 26.0 2.40 F14 28.5 2.40 Vdc SV mF 100 160 200 250 315 350 125 200 250 300 365 400 400 450 180 A 5 0.8 0.10 A 5 0.8 0.10 A 5 0.8 0.10 220 A 5 0.9 0.10 A 5 0.9 0.10 A 5 0.9 0.10 270 A 5 0.8 0.15 A 5 1.0 0.10 A 5 1.0 0.10 A 5 1.0 0.10 330 A 5 0.9 0.15 A 5 0.9 0.15 A 5 1.1 0.10 A 5 1.1 0.10 A 6 1.2 0.10 390 A 5 1.0 0.15 A 5 1.0 0.15 A 5 1.2 0.10 A 6 1.3 0.10 A 6 1.3 0.10 470 A 5 1.1 0.15 A 5 1.1 0.15 A 6 1.4 0.10 A 6 1.4 0.10 A 8 1.4 0.10 560 A 5 1.2 0.15 A 5 1.2 0.15 A 5 1.2 0.15 A 6 1.5 0.10 A 8 1.6 0.10 A 8 1.4 0.15 680 A 5 1.3 0.15 A 5 1.3 0.15 A 6 1.4 0.15 A 8 1.7 0.10 A 8 1.6 0.15 A10 1.7 0.15 820 A 5 1.4 0.15 A 5 1.4 0.15 A 8 1.6 0.15 A 8 1.7 0.15 A10 1.8 0.15 A12 2.0 0.15 1,000 A 5 1.6 0.15 A 6 1.7 0.15 A 8 1.6 0.20 A10 2.0 0.15 A12 2.2 0.15 C 8 2.2 0.15 1,200 A 6 1.9 0.15 A 6 1.9 0.15 A 8 1.8 0.20 A12 2.4 0.15 C 8 2.4 0.15 C10 2.7 0.15 1,500 A 6 2.1 0.15 A 8 2.3 0.15 A10 2.1 0.20 C 8 2.7 0.15 C10 3.0 0.15 C12 3.3 0.15 D10 4.2 0.15 D12 5.5 0.15 1,800 A 5 2.7 0.10 A 8 2.5 0.15 A 8 2.5 0.15 A12 2.5 0.20 C10 3.3 0.15 C12 3.6 0.15 2,200 A 5 3.0 0.10 A 8 2.8 0.15 A10 3.0 0.15 C 8 2.9 0.20 C12 4.0 0.15 C12 4.0 0.15 2,700 A 6 3.5 0.10 A10 3.3 0.15 A12 3.6 0.15 C10 3.5 0.20 C12 4.4 0.15 D10 4.6 0.15 3,300 A 8 4.2 0.10 A12 3.8 0.15 C 8 4.1 0.15 C12 4.2 0.20 D10 5.1 0.15 3,900 A 8 4.2 0.12 C 8 3.8 0.20 C10 4.9 0.15 C12 4.6 0.20 D12 6.0 0.15 E12 6.7 0.15 4,700 A10 5.0 0.12 C10 4.6 0.20 D10 5.3 0.20 D12 5.7 0.20 E10 6.8 0.15 E13 7.6 0.15 5,600 A10 5.4 0.12 C10 5.1 0.20 D10 5.8 0.20 D12 6.3 0.20 E12 8.0 0.15 E13 8.3 0.15 F14 9.4 0.15 6,800 A12 5.8 0.15 C12 6.1 0.20 D12 6.9 0.20 E12 7.7 0.20 E13 9.2 0.15 E14 9.5 0.15 F14 10.4 0.15 8,200 C 8 6.4 0.15 D10 7.0 0.20 D12 7.6 0.20 E12 8.4 0.20 F14 11.4 0.15 F14 11.4 0.15 10,000 C10 7.8 0.15 D12 8.4 0.20 E12 9.3 0.20 E14 10.0 0.20 F14 12.6 0.15 12,000 C12 9.3 0.15 E10 9.4 0.20 E12 10.2 0.20 F14 11.9 0.20 15,000 C12 10.4 0.15 E12 11.4 0.20 E14 12.2 0.20 18,000 D10 10.4 0.20 E14 13.4 0.20 F14 13.1 0.25 22,000 D12 12.5 0.20 F14 14.5 0.25 27,000 E12 13.7 0.25 F14 16.0 0.25 33,000 E12 15.2 0.25 39,000 E14 16.1 0.30 47,000 F14 19.3 0.30 56,000 F14 21.1 0.30 Max. tanE at 20C, 120Hz Rated ripple current (Arms) at 105C, 120Hz Case code CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C RWF @350 to 550Vdc @Endurance with ripple current : 85C 2000 hours longer life RWE ?SPECIFICATIONS Items Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life Characteristics -25 to +85C 350 to 550Vdc P20% (M) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C, 120Hz) (at 20C after 5 minutes) 0.25 max. (at 20C, 120Hz) Rated Voltage (Vdc) 350 to 450V 500 & 550V C(-25C)/C(+20C) 0.7min. 0.6min. (at 120Hz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 2000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value Capacitance change ?DIMENSIONS (Terminal Type=LGSN) [mm] @B Type of Mounting Clamp AP1 WP1 8 J GP1 fD 35 50 63.5 76 F35 to F63.5 : G=6 F76 & F89 : G=5 A 58 78 90 104.5 B 44 64 76 90 W 48 68 80 93.5 H 3.5 4.5 4.5 4.5 F 12.7 22.4 28.0 31.5 fD 50 63.5 76 89 4.5 KP1 EP1 6 30P5 360 3 45P5 H BP1 FP1 L+4max. FD+1.8max. Sleeve @C Type of Mounting Clamp E 32.5 38.1 44.5 50.8 K 37.0 43.5 50.0 56.5 F 22.4 28.0 31.5 31.5 J 14.0 14.0 14.0 16.0 <Screw specifications> Plus hexagon-headed screw: M5B0.8B10 Maximum screw tightening torque: 3.23Nm * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM RWE 550 LGSN 820 M C C13 Case code Type of mounting clamp, if required Capacitance tolerance (P20%) Nominal capacitance in MF Screw terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C ?STANDARD RATINGS Vdc mF 350 400 450 500 550 A5 0.6 A8 1.0 A10 1.3 100 Case code 120 A5 270 A5 330 1.6 1.7 1.9 A5 390 A8 470 A8 1.2 A10 1.4 A12 1.6 A12 1.7 C7 1.7 C7 1.8 2.7 A10 3.1 C9 A10 3.4 A12 3.5 C11 C7 3.9 2.9 A8 680 820 1,000 A10 3.8 A12 3.9 1,200 A12 4.2 C7 4.2 1,500 C7 4.7 C9 6.3 D9 8.8 E9 12.0 10.3 D11 3,900 D13 8.8 2.5 C11 D11 2.7 3.0 2.9 C13 D13 3.1 3.5 C13 D9 3.4 3.4 D11 E9 4.5 4.6 E9 4.2 E11 5.0 C13 6.5 D13 5.2 E13 5.8 D9 7.2 E11 6.1 E15 7.0 D9 7.9 E15 7.7 D11 9.5 F15 9.3 E9 10.9 D11 D13 10.6 8.6 E9 10.0 E11 11.5 E11 12.6 E13 13.3 E15 15.7 F15 18.6 E11 12.6 E13 14.5 6,800 E13 15.9 E15 17.3 8,200 E15 19.0 F15 22.5 F15 12,000 2.5 7.2 5,600 10,000 5.6 2.1 5.7 D13 11.7 4.7 D9 C9 2,700 C13 C9 C11 C9 C13 1,800 2,200 2.4 A8 560 4,700 0.7 Rated ripple current (Arms) at 85C, 120Hz 180 3,300 A5 9.8 F15 10.1 20.5 ?CASE CODE L (mm) fD (mm) 35 50 63.5 76 89 75 C7 - 50 A5 - 80 A8 - 96 C9 D9 E9 - 100 A10 - 115 C11 D11 E11 - 120 A12 - 130 C13 D13 E13 - 155 E15 F15 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) Coefficient 50 0.8 120 1.0 300 1.1 1k 1.3 3k 1.4 Note : The endurance of capacitors is shorted with internal heating produced by ripple current at the rate of halving the lifetime with every 5 to 10C rise. When long life performance is required in actual use, the rms ripple current has to be reduced. Also, for the RWE series capacitors, using them at operating voltage less than their rated voltage can extend their lifetime. For the details, please contact a representative of Nippon Chemi-Con. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C RWY @High ripple capability @Endurance with ripple current : 85C 5000 hours @Cost-down design for three-phase input inverters low price version RWF ?SPECIFICATIONS Items Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Characteristics -25 to +85C 350 to 450Vdc P20% (M) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.12 max. Low Temperature Characteristics Capacitance change C(-25C)/C(+20C)]0.7 Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) When it is measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 5000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] @B Type of Mounting Clamp AP1 WP1 8 J GP1 fD 50 63.5 76 F50 to F76 : G=6 F89 : G=4 F100 : G=10 A 78 90 104.5 B 64 76 90 W 68 80 93.5 H 4.5 4.5 4.5 F 22.4 28.0 31.5 fD 63.5 76 89 100 4.5 KP1 EP1 6 30P5 360 3 45P5 H BP1 FP1 L+4max. FD+1.8max. Sleeve @C Type of Mounting Clamp E 38.1 44.5 50.8 56.5 K 43.5 50.0 56.5 63.4 F 28.0 31.5 31.5 41.5 J 14.0 14.0 16.0 18.0 <Screw specifications> F50 to F89 Plus hexagon-headed screw : M5B0.8B10 Maximum screw tightening torque : 3.23Nm F100 Cross-recessed head (Phillips) screw : M8B1.25B16 Spring washer Washer Maximum screw tightening torque : 6.31Nm * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM RWY 400 LGSN 5700 M C Type of mounting clamp, if required Capacitance tolerance (P20%) Nominal capacitance in MF Screw terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C ?STANDARD RATINGS Case size fDbL (mm) Vdc 350 400 SV 400 450 Items Capacitance (mF) 20c, 120Hz Rated ripple current (Arms) 85c, 300Hz Capacitance (mF) 20c, 120Hz 450 500 Rated ripple current (Arms) 85c, 300Hz Capacitance (mF) 20c, 120Hz Rated ripple current (Arms) 85c, 300Hz 50b75 750 5.1 620 4.6 500 4.0 50b96 1,100 6.9 880 6.1 710 5.2 50b105 1,300 7.8 1,000 6.8 840 5.9 50b130 1,600 9.5 1,400 8.9 1,100 7.5 50b145 1,900 10.7 1,600 9.9 1,300 8.4 63.5b96 1,800 10.0 1,500 9.1 1,200 7.8 63.5b115 2,400 12.6 2,000 11.5 1,600 9.8 63.5b130 2,800 14.3 2,300 13.0 1,800 10.9 63.5b155 3,400 17.1 2,800 15.5 2,300 13.3 63.5b170 3,800 18.8 3,200 17.3 2,500 14.5 76b115 3,500 16.9 2,900 15.4 2,300 13.0 76b130 4,000 19.0 3,400 17.5 2,700 14.8 76b155 5,000 23.0 4,200 21.1 3,300 17.7 76b170 5,600 25.3 4,600 23.0 3,700 19.5 89b155 6,900 27.2 5,700 24.7 4,600 22.2 89b170 7,700 29.6 6,400 27.0 5,100 24.1 89b190 8,400 32.9 7,000 30.0 5,700 27.1 100b190 9,500 37.3 7,900 34.0 6,400 30.6 100b220 11,000 42.9 9,400 39.6 7,600 35.6 100b270 14,000 53.1 12,000 49.2 9,500 43.7 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) 120 Coefficient 0.83 300 1.0 1k 1.25 3k 1.33 Note : The endurance of capacitors is shorted with internal heating produced by ripple currents at the rate of halving the lifetime with every 5 to 10C rise. When long life performance is required in actual use, the rms ripple current has to be reduced. Also, for RWY series capacitors, using them at operating voltage less than their rated voltage can extend their lifetime. For the details, please contact a representative of Nippon Chemi-Con. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C RWY @High ripple capability @Endurance with ripple current : 85C 5000 hours @Wide variety case sizes from F50 to F100 low price version RWF RWE longer life ?SPECIFICATIONS Items Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Characteristics -25 to +85C 350 to 450Vdc P20% (M) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.25 max. Low Temperature Characteristics Capacitance change C(-25C)/C(+20C)]0.7 Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 5000 hours at 85C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] @B Type of Mounting Clamp @C Type of Mounting Clamp 360 3 AP1 WP1 8 J GP1 fD 50 63.5 76 F50 & F63.5 : G=6 F76 & F89 : G=5 F100 : G=10 A 78 90 104.5 B 64 76 90 W F 68 22.4 80 28.0 93.5 31.5 fD 50 63.5 76 89 100 4.5 6 30P5 45P5 KP1 EP1 4.5 BP1 FP1 L+4max. FD+1.8max. Sleeve E 32.5 38.1 44.5 50.8 56.5 K 37.0 43.5 50.0 56.5 63.4 F 22.4 28.0 31.5 31.5 41.5 J 14.0 14.0 14.0 16.0 18.0 <Screw specifications> F50 to F89 Plus hexagon-headed screw : M5B0.8B10 Maximum screw tightening torque : 3.23Nm F100 Cross-recessed head (Phillips) screw : M8B1.25B16 Spring washer Washer Maximum screw tightening torque : 6.31Nm * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM RWF 350 LGSN 10000 M C E17 Case code Type of mounting clamp, if required Capacitance tolerance (P20%) Nominal capacitance in MF Screw terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C ?STANDARD RATINGS Vdc 350 400 SV 400 450 Items Case size fDbL (mm) 450 500 Capacitance (mF) 20c, 120Hz Rated ripple current (Arms) 85c, 120Hz Capacitance (mF) 20c, 120Hz Rated ripple current (Arms) 85c, 120Hz Capacitance (mF) 20c, 120Hz Rated ripple current (Arms) 85c, 120Hz 2,200 7.7 1,800 7.0 1,200 5.7 1,500 6.3 1,800 7.6 50b96 50b105 2,200 8.0 50b115 2,700 9.3 50b130 3,300 10.8 2,700 9.8 2,200 8.8 63.5b115 3,900 12.1 3,300 11.1 2,700 10.1 63.5b130 4,700 14.0 3,900 12.7 3,300 11.7 63.5b155 5,600 16.6 4,700 15.2 3,900 13.8 63.5b190 6,800 20.0 5,600 18.2 4,700 16.7 76b115 5,600 16.1 4,700 14.7 3,900 13.4 76b130 6,800 18.6 5,600 16.9 4,700 15.5 76b155 8,200 22.2 6,800 20.2 5,600 18.3 76b170 10,000 25.2 8,200 22.8 6,800 20.7 89b155 12,000 29.1 10,000 26.6 8,200 24.1 12,000 30.0 10,000 27.8 15,000 33.7 12,000 29.3 18,000 37.4 15,000 37.0 89b170 89b190 15,000 35.7 100b190 18,000 36.9 100b220 100b250 22,000 46.1 ?CASE CODE L (mm) fD (mm) 50 63.5 76 89 100 96 C9 - 105 C10R - 115 C11 D11 E11 - 130 C13 D13 E13 - 155 D15 E15 F15 - 170 E17 F17 - 190 D19 F19 G19 220 G22 250 G25 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) Coefficient 50 0.8 120 1.0 300 1.1 1k 1.3 3k 1.4 Note : The endurancce of capacitors is shorted with internal heating produced by ripple currents at the rate of halving the lifetime with every 5 to 10C rise. When long life performance is required in actual use, the rms ripple current has to be reduced. Also, for the RWF series capacitors, using them at operating voltage less than their rated voltage can extend their lifetime. For the details, please contact a representative of Nippon Chemi-Con. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C RWL @High ripple capability @For train systems and high power consumed inverter circuits @Endurance with ripple current : 85C 20000 hours longer life RWF ?SPECIFICATIONS Items Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Characteristics -25 to +85C 350 to 450Vdc P20% (M) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.25 max. Low Temperature Characteristics Capacitance change C(-25C)/C(+20C)]0.7 Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied 20000 hours at 85C. Capacitance change [P30% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] 4.5 BP1 FP1 L+4max. FD+1.8max. Sleeve 6 30P5 @C Type of Mounting Clamp 360 3 45P5 8 J GP1 fD 63.5 76 F63.5 : G=6 F76 & F89 : G=5 A 90 104.5 B 76 90 W F 80 28.0 93.5 31.5 fD 63.5 76 89 4.5 AP1 WP1 KP1 EP1 @B Type of Mounting Clamp E K F J 38.1 43.5 28.0 14.0 44.5 50.0 31.5 14.0 50.8 56.5 31.5 16.0 <Screw specifications> Plus hexagon-headed screw: M5B0.8B10 Maximum screw tightening torque: 3.23Nm * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM RWL 400 LGSN 10000 M C F19 Case code Type of mounting clamp, if required Capacitance tolerance (P20%) Nominal capacitance in MF Screw terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C ?STANDARD RATINGS Vdc SV fD mF 350 400 63.5 400 450 76 89 63.5 76 450 500 89 63.5 76 89 63.5B115 9.1 2,200 2,700 63.5B115 10.1 63.5B130 10.6 76B115 11.2 63.5B155 12.7 76B130 13.0 3,300 63.5B115 11.1 63.5B130 11.7 3,900 63.5B130 12.8 63.5B155 13.8 76B115 14.7 4,700 63.5B155 15.2 76B115 14.7 63.5B170 15.8 76B130 15.5 76B155 16.7 5,600 63.5B170 17.3 76B130 16.9 63.5B190 18.2 76B155 18.3 76B190 20.1 6,800 63.5B190 20.0 76B155 20.2 89B155 24.1 10,000 89B155 26.6 12,000 89B190 32.0 89B155 19.9 89B170 23.0 76B170 21.0 76B170 23.1 8,200 63.5B170 14.4 89B190 29.1 89B190 26.4 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 85C, 120Hz ?CASE CODE L (mm) fD (mm) 63.5 76 89 115 D11 E11 - 130 D13 E13 - 155 D15 E15 F15 170 D17 E17 F17 190 D19 E19 F19 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) Coefficient 50 0.8 120 1.0 300 1.1 1k 1.3 3k 1.4 Note : The endurance of capacitors is shorted with internal heating produced by ripple currents at the rate of halving the lifetime with every 5 to 10C rise. When long life performance is required in actual use, the rms ripple current has to be reduced. Also, for RWL series capacitors, using them at operating voltage less than their rated voltage can extend their lifetime. For the details, please contact a representative of Nippon Chemi-Con. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS long life screw terminals ,105C Upgrade! @Newly line-uped up to 525Vdc @Load life with ripple current : 105C 5000 hours (2000 hours for 500Vdc & 525Vdc) @High reliability products ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life -40 to +105C (10 to 100Vdc) -25 to +105C (160 to 525Vdc) 10 to 525Vdc -10 to +50% (T) (10 to 250Vdc) P20% (M) (350 to 525Vdc) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) See STANDARD RATINGS (10 to 250Vdc) (at 20C, 120Hz) (at 20C after 5 minutes) 0.20max (350 to 525Vdc) (at 20C, 120Hz) Capacitance change C(-40C)/C(+20C)]0.6(10 to 100Vdc) C(-25C)/C(+20C)]0.7(160 to 250Vdc) (at 120Hz) C(-25C)/C(+20C)]0.65(350 to 525Vdc) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after DC voltage with the rated ripple current is applied for 5000 hours (2000 hours for 500 & 525Vdc products) at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Rated voltage 10 to 250Vdc 350 to 525Vdc Capacitance change [P15% of the initial value [P20% of the initial value DF (tanE) [150% of the initial specified value [200% of the initial specified value Leakage current [The initial specified value [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] @B Type of Mounting Clamp AP1 WP1 8 J GP1 L+4max. fD 35 50 63.5 76 F35 to F63.5 : G=6 F76 & F89 : G=5 A 58 78 90 104.5 B 44 64 76 90 W 48 68 80 93.5 H 3.5 4.5 4.5 4.5 fD 50 63.5 76 89 F 12.7 22.4 28.0 31.5 4.5 KP1 EP1 6 30P5 360 3 45P5 H BP1 FP1 FD+1.8max. Sleeve @C Type of Mounting Clamp E 32.5 38.1 44.5 50.8 K 37.0 43.5 50.0 56.5 J 14.0 14.0 14.0 16.0 F 22.4 28.0 31.5 31.5 <Screw specifications> Plus hexagon-headed screw: M5B0.8B10 Maximum screw tightening torque: 3.23Nm * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM LXA 450 LGSN 3300 M C E10R Case code Type of mounting clamp, if required Capacitance tolerance Nominal capacitance in MF Screw terminal type Rated voltage in volts Series name ?CASE CODE fD (mm) L (mm) 35 50 63.5 76 89 50 A5 - 60 C6 - 80 A8 C8 - 85 C8R D8R E8R - 100 A10 C10 D10 E10 - 105 C10R D10R E10R - 120 A12 C12 D12 E12 - 125 C12R D12R E12R F12R 140 E14 F14 145 C14R D14R E14R F14R 190 E19 F19 270 F27 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS long life screw terminals, 105C Upgrade! ?STANDARD RATINGS Vdc SV mF 2,200 2,700 3,300 3,900 4,700 5,600 6,800 8,200 10,000 12,000 15,000 18,000 22,000 27,000 33,000 39,000 47,000 56,000 68,000 82,000 100,000 120,000 150,000 180,000 220,000 270,000 330,000 390,000 10 13 330 390 470 560 680 820 1,000 1,200 1,500 1,800 2,200 2,700 3,300 3,900 4,700 5,600 6,800 8,200 10,000 12,000 15,000 18,000 22,000 27,000 25 32 35 44 50 63 Case code Rated ripple current (Arms) at 105C, 120Hz Max. tanE at 20C, 120Hz A 8 A 8 A 8 A10 A10 A12 C 8 C10 C10 D10 D10 E10 E12 E14 F14 Vdc SV mF 16 20 4.3 4.7 5.3 6.1 6.2 6.8 7.8 8.5 9.5 11.0 12.1 13.2 14.4 17.0 18.6 0.45 0.45 0.45 0.45 0.50 0.60 0.60 0.70 0.70 0.80 0.80 1.00 1.20 1.20 1.40 A 5 A 8 A 8 A 8 A10 A10 A12 C 8 C10 C12 C12 D10 E10 E12 E14 F14 100 125 A 5 A 8 A 8 A 8 A 8 A10 A12 C 8 C10 C12 C12 D10 D12 E10 E12 E14 F14 1.4 1.6 1.8 2.0 2.4 2.8 3.1 3.6 4.3 5.0 5.5 6.4 6.6 7.5 8.0 9.4 10.4 2.9 3.5 3.9 4.3 4.8 5.3 6.2 6.3 7.6 8.3 9.2 9.9 12.3 14.5 15.2 16.8 0.45 0.45 0.45 0.45 0.50 0.50 0.50 0.60 0.60 0.70 0.70 0.80 0.80 0.80 1.00 1.20 A 8 A 8 A 8 A 8 A10 A12 C 8 C10 C12 C12 D10 D12 E10 E12 E14 F14 160 200 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.20 0.20 0.25 0.25 0.30 A 5 A 8 A 8 A 8 A 8 A10 A12 A12 C10 C12 C12 C12 D12 E10 E12 E14 F14 1.1 1.2 1.3 1.5 1.7 2.0 2.3 2.7 3.3 3.8 4.2 4.7 5.7 6.4 6.6 7.8 9.5 3.3 3.7 4.0 4.5 5.0 5.9 6.5 7.9 8.8 9.1 10.6 11.4 12.8 13.7 16.1 16.6 0.35 0.35 0.35 0.35 0.40 0.40 0.40 0.40 0.40 0.50 0.50 0.60 0.60 0.75 0.75 1.00 A 8 A 8 A 8 A 8 A10 A12 C 8 C10 C12 C12 D10 D12 E12 E14 F14 3.0 3.3 3.6 4.1 4.8 5.2 5.9 6.6 7.8 8.0 9.2 11.0 12.7 13.5 16.1 0.30 0.30 0.30 0.30 0.30 0.35 0.40 0.40 0.40 0.45 0.45 0.45 0.50 0.60 0.60 A 5 A 8 A 8 A 8 A10 A10 A12 C 8 C10 C12 C12 D10 D12 E10 E12 E14 F14 250 300 0.7 0.8 0.9 1.0 1.2 1.4 1.6 1.8 2.2 2.6 2.8 3.3 4.0 4.4 5.2 6.1 7.4 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 200 250 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.20 0.20 0.20 0.20 A 5 A 8 A 8 A 8 A10 A12 A12 C 8 C10 C12 C12 D10 D12 E10 E12 E14 F14 0.9 1.0 1.1 1.3 1.5 1.7 1.9 2.2 2.7 3.2 3.5 4.0 4.7 5.3 6.3 6.4 7.7 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.20 0.20 A 5 A 5 A 8 A 8 A 8 A 8 A10 A12 C 8 C10 C12 D10 D12 D12 E12 E14 F14 2.0 2.2 2.8 3.0 3.3 3.7 4.4 4.7 4.8 5.9 7.0 7.6 8.9 9.8 11.9 13.1 14.8 63 79 0.20 0.25 0.25 0.25 0.25 0.25 0.25 0.30 0.35 0.35 0.35 0.40 0.40 0.40 0.40 0.45 0.50 A 5 A 5 A 8 A 8 A 8 A 8 A10 A12 C 8 C10 C12 C12 D12 E10 E12 E14 F14 1.9 2.1 2.7 2.9 3.2 3.5 4.2 4.3 4.8 5.9 6.3 6.7 8.8 10.0 10.7 12.5 13.8 0.15 0.15 0.20 0.20 0.20 0.20 0.20 0.25 0.25 0.25 0.25 0.30 0.30 0.30 0.35 0.35 0.40 A 5 A 8 A 8 A 8 A10 A10 A12 C 8 C10 C10 C12 D12 E10 E12 E14 F14 80 100 1.9 2.2 2.5 2.9 3.1 3.5 4.1 4.8 5.6 6.1 7.4 8.0 9.1 9.7 11.5 12.5 0.15 0.15 0.15 0.15 0.15 0.15 0.20 0.20 0.20 0.20 0.20 0.25 0.25 0.30 0.30 0.35 Max. tanE at 20C, 120Hz Rated ripple current (Arms) at 105C, 120Hz Case code CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS long life screw terminals, 105C Upgrade! ?STANDARD RATINGS Vdc 350 400 SV 400 450 Items Case size fDbL (mm) Capacitance (mF) 20c, 120Hz Rated ripple current (Arms) 105c, 120Hz Capacitance (mF) 20c, 120Hz 450 500 Rated ripple current (Arms) 105c, 120Hz Capacitance (mF) 20c, 120Hz Rated ripple current (Arms) 105c, 120Hz 50b60 820 3.3 680 3.0 560 2.6 50b85 1,500 5.2 1,200 4.7 1,000 4.0 50b105 2,200 7 1,800 6.3 1,200 4.8 50b125 2,700 8.4 2,200 7.5 1,800 6.4 50b145 3,300 9.9 2,700 8.9 2,200 7.6 63.5b85 2,700 8.1 2,200 7.3 1,800 6.2 63.5b105 3,300 9.8 2,700 8.6 2,200 7.5 63.5b125 3,900 11.5 3,300 10.5 2,700 8.9 63.5b145 5,600 14.7 4,700 13.4 3,300 10.6 76.2b85 3,900 10.8 3,300 9.9 2,700 8.4 3,300 10.2 76.2b105 76.2b125 6,800 16.8 4,700 13.9 3,900 10.9 76.2b145 8,200 19.6 6,800 17.9 4,700 14 76.2b190 1,000 24.5 8,200 20.8 6,800 17.3 89b125 8,200 18.9 6,800 17.2 5,600 14.2 89b145 10,000 22.2 8,200 20.1 6,800 16.7 89b190 15,000 30.6 12,000 27.4 10,000 22.8 89b270 22,000 43.5 18,000 39.4 15,000 32.8 Vdc 500 SV 550 Items Case size fDbL (mm) Capacitance (mF) 20c, 120Hz 525 575 Rated ripple current (Arms) 105c, 120Hz Capacitance (mF) 20c, 120Hz Rated ripple current (Arms) 105c, 120Hz 50b60 470 2.4 390 2.2 50b85 820 3.6 680 3.3 50b105 1,000 4.4 50b125 1,200 5.2 1,000 4.8 50b145 1,500 6.3 63.5b85 1,200 5.0 63.5b105 1,800 6.8 1,500 6.2 1,800 7.3 63.5b125 63.5b145 2,700 9.6 2,200 8.6 2,700 9.2 2,200 8.3 76.2b85 76.2b105 76.2b125 76.2b145 3,900 12.7 3,900 11.9 89b190 6,800 18.8 89b270 10,000 26.8 76.2b190 89b125 89b145 2,700 9.9 3,300 11.7 4,700 14.4 4,700 13.9 5,600 17.1 CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS long life screw terminals, 105C Upgrade! ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multiplirs (10 to 250Vdc) Frequency (Hz) 10 to 50Vdc 63 to 80Vdc 100 to 250Vdc 50 0.95 0.90 0.80 (350 to 525Vdc) 120 1.00 1.00 1.00 300 1.03 1.06 1.12 1k 1.05 1.10 1.22 10k 1.09 1.18 1.30 50k 1.12 1.22 1.33 Frequency (Hz) Coefficient 120 1.0 300 1.2 1k 1.5 3k 1.6 Note : The endurance of capacitors is shorted with internal heating produced by ripple currents at the rate of halving the lifetime with every 5 to 10C rise. When long life performance is requested in actual use, the rms ripple current has to be reduced. Also, for the LXA series capacitors (350 to 525Vdc products), using them at operating voltage can extend their lifetime. For the detail, please contact a representative of Nippon Chemi-con. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 105C LXR @Endurance with ripple current : 105C 5000 hours higher ripple LX ?SPECIFICATIONS Items Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Characteristics -25 to +105C 350 to 450Vdc P20% (M) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.25 max. Low Temperature Characteristics Capacitance change C(-25C)/C(+20C)]0.7 Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 5000 hours at 105C. Capacitance change [P30% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [300% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] 4.5 BP1 FP1 L+4max. FD+1.8max. Sleeve 6 30P5 @C Type of Mounting Clamp 360 3 45P5 8 J GP1 fD 63.5 76 A 90 104.5 B 76 90 W F 80 28.0 93.5 31.5 F63.5 : G=6 F76 & F89 : G=5 fD 63.5 76 89 4.5 AP1 WP1 KP1 EP1 @B Type of Mounting Clamp E K J F 38.1 43.5 14.0 28.0 44.5 50.0 14.0 31.5 50.8 56.5 16.0 31.5 <Screw specifications> Plus hexagon-headed screw: M5B0.8B10 Maximum screw tightening torque: 3.23Nm * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM LX 350 LGSN 10000 M C F15 Case code Type of mounting clamp, if required Capacitance tolerance (P20%) Nominal capacitance in MF Screw terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 105C ?STANDARD RATINGS Vdc SV fD mF 350 400 63.5 400 450 76 89 63.5 76 450 500 89 63.5 76 89 63.5B115 7.0 2,200 2,700 63.5B115 7.8 63.5B130 8.2 76B115 8.6 63.5B155 9.8 76B130 10.0 3,300 63.5B115 8.5 63.5B130 9.0 3,900 63.5B130 9.8 63.5B155 10.6 76B115 11.7 4,700 63.5B155 11.7 76B115 11.3 63.5B170 12.2 76B130 11.9 76B155 12.8 5,600 63.5B170 13.3 76B130 13.0 63.5B190 14.0 76B155 14.0 76B190 15.4 6,800 63.5B190 15.4 76B155 15.5 89B155 18.5 10,000 89B155 20.5 12,000 89B190 24.6 89B155 15.3 89B170 17.7 76B170 16.2 76B170 17.8 8,200 63.5B170 11.1 89B190 20.3 89B190 22.4 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz ?CASE CODE L (mm) fD (mm) 63.5 76 89 115 D11 E11 - 130 D13 E13 - 155 D15 E15 F15 170 D17 E17 F17 190 D19 E19 F19 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) Coefficient 50 0.8 120 1.0 300 1.1 1k 1.3 3k 1.4 Note : The endurance of capacitors is shorted with internal heating produced by ripple currents at the rate of halving the lifetime with every 5 to 10C rise. When long life performance is required in actual use, the rms ripple current has to be reduced. Also, for the LX series capacitors, using them at operating voltage less than their rated voltage can extend their lifetime. For the details, please contact a representative of Nippon Chemi-Con. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 105C LXR @Higher ripple capability than LX series @Endurance with ripple current : 105C 5000 hours higher ripple LX ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current -25 to +105C 350 to 450Vdc P20% (M) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Dissipation Factor (tane) 0.15max. Low Temperature Characteristics Capacitance change Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) C (-25C)/C(+20C)]0.7 (at 120Hz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation shall not be less than than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 5000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1000 hours at 105C without voltage applied. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] @B Type of Mounting Clamp 360 3 8 J GP1 F63.5 & F76 : G=6 F89 : G=4 F100 : G=10 fD 63.5 76 A 90 104.5 B 76 90 W F 80 28.0 93.5 31.5 fD 63.5 76 89 100 E 38.1 44.5 50.8 56.5 4.5 6 30P5 45P5 KP1 EP1 4.5 BP1 FP1 FD+1.8max. Sleeve L+4max. @C Type of Mounting Clamp AP1 WP1 K 43.5 50.0 56.5 63.4 F 28.0 31.5 31.5 41.5 J 14.0 14.0 16.0 18.0 <Screw specifications> F63.5 to F89 Plus hexagon-headed screw : M5B0.8B10 Maximum screw tightening torque : 3.23Nm F100 Cross-recessed head (Phillips) screw : M8B1.25B16 Spring washer Washer Maximum screw tightening torque : 6.31Nm * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM LXR 400 LGSN 10000 M C G19 Case code Type of mounting clamp, if required Capacitance tolerance (P20%) Nominal capacitance in MF Screw terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 105C ?STANDARD RATINGS Vdc SV fD mF 350 400 63.5 400 450 76 89 100 63.5 450 500 76 89 100 63.5 76 89 100 63.5B115 11.8 2,200 2,700 63.5B115 13.1 63.5B130 13.7 76B115 14.5 63.5B155 16.5 76B130 16.9 3,300 63.5B115 14.4 63.5B130 15.2 3,900 63.5B130 16.6 63.5B155 17.9 76B115 18.2 4,700 63.5B155 19.8 76B115 19.1 63.5B170 20.5 76B130 20.1 76B155 21.7 5,600 63.5B170 22.5 76B130 21.9 76B155 23.8 76B190 26.1 6,800 76B155 26.2 76B170 27.3 8,200 76B170 30.0 89B155 29.2 63.5B170 18.7 89B155 26.6 89B170 27.8 89B170 30.5 89B190 32.0 89B170 33.7 10,000 12,000 100B190 37.8 15,000 100B250 47.7 89B155 24.1 100B190 34.5 100B220 36.8 100B220 40.2 100B250 42.7 Upper : Case size FDBL (mm) Lower : Rated ripple current (Arms) at 105C, 120Hz ?CASE CODE L (mm) fD (mm) 63.5 76 89 100 130 D13 E13 - 115 D11 E11 - 155 D15 E15 F15 - 170 D17 E17 F17 - 190 E19 F19 G19 220 G22 250 G25 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Frequency (Hz) Coefficient 120 1.0 300 1.1 1k 1.3 3k 1.4 The endurance of capacitors is shorted with internal heating produced by ripple current at the rate of halving the lifetime with every 5 to 10C rise. When long life performance is required in actual use, the rms ripple current has to be reduced. Also, for the LXR series capacitors, using them at operating voltage less than their rated voltage can extend their lifetime. For the details, please contact a representative of Nippon Chemi-Con. CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C @Low ESR and impedance at high frequency (10k to 50kHz) @Endurance : 105C 2000 hours ?SPECIFICATIONS Items Characteristics Category Temperature Range Rated Voltage Range Capacitance Tolerance Leakage Current Dissipation Factor (tane) Low Temperature Characteristics Insulation Resistance Insulation Withstanding Voltage Endurance Shelf Life -40 to +105C 10 to 100Vdc -10 to +50% (T) I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) Shall not exceed the values shown in the STANDARD RATINGS (at 20C, 120Hz) (at 20C after 5 minutes) (at 20C, 120Hz) (at 120Hz) Capacitance change : C(-40C)/C(+20C)]0.6 10 & 16Vdc 8 max. Z(-10C)/Z(+20C) 6 max. 25 to 100Vdc (at 20kHz) When measured between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. When a voltage of 2000Vac is applied for 1 minute between the terminals shorted each other and the mounting clamp on the insulating sleeve covering the case, there shall not be electrical damage. The following specifications shall be satisfied when the capacitors are restored to 20C after the rated voltage is applied for 2000 hours at 105C. Capacitance change [P20% of the initial value DF (tanE) [200% of the initial specified value Leakage current [The initial specified value The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 105C without voltage applied. Capacitance change [P15% of the initial value DF (tanE) [175% of the initial specified value Leakage current [The initial specified value ?DIMENSIONS (Terminal Type=LGSN) [mm] @B Type of Mounting Clamp AP1 WP1 8 J 8P1 fD 35 50 A 58 78 B 44 64 W 48 68 H 3.5 4.5 F 14.0 22.4 fD 50 4.5 L+4max. 360 3 KP1 EP1 6 30P5 @C Type of Mounting Clamp 45P5 H BP1 FP1 FD+1.8max. Sleeve E K J F 32.5 37.0 14.0 22.4 <Screw specifications> Plus hexagon-headed screw: M5B0.8B10 Maximum screw tightening torque: 3.23Nm * The screw and the mounting clamp are separately supplied and not attached to the product. ?PART NUMBERING SYSTEM KW 100 LGSN 1000 T B Type of mounting clamp, if required Capacitance tolerance (-10%/+50%) Nominal capacitance in MF Screw terminal type Rated voltage in volts Series name CAT. No. 12 LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Low impedance, 105C ?STANDARD RATINGS Rated voltage (Vdc) Surge voltage (Vdc) Capacitance (mF) 10 13 16 20 25 32 35 44 50 63 63 79 80 100 100 125 10,000 22,000 33,000 47,000 100,000 10,000 22,000 33,000 47,000 10,000 22,000 33,000 4,700 10,000 22,000 3,300 4,700 10,000 2,200 3,300 4,700 10,000 2,200 3,300 4,700 1,000 2,200 3,300 Part number KW10LGSN10000T KW10LGSN22000T KW10LGSN33000T KW10LGSN47000T KW10LGSN100000T KW16LGSN10000T KW16LGSN22000T KW16LGSN33000T KW16LGSN47000T KW25LGSN10000T KW25LGSN22000T KW25LGSN33000T KW35LGSN4700T KW35LGSN10000T KW35LGSN22000T KW50LGSN3300T KW50LGSN4700T KW50LGSN10000T KW63LGSN2200T KW63LGSN3300T KW63LGSN4700T KW63LGSN10000T KW80LGSN2200T KW80LGSN3300T KW80LGSN4700T KW100LGSN1000T KW100LGSN2200T KW100LGSN3300T Case size fDbL (mm) 35B50 35B80 35B80 35B100 50B120 35B50 35B80 35B100 50B80 35B80 35B100 50B80 35B50 35B80 50B80 35B50 35B80 35B100 35B50 35B80 35B80 50B80 35B80 35B80 35B100 35B50 35B80 35B100 Rated ripple Impedance (Arms85c, 20kHz) (mo20c, 20kHz) 10.2 14.0 17.1 19.9 28.9 10.2 14.0 18.6 23.2 12.9 15.2 21.7 8.4 12.9 19.4 8.4 12.1 15.2 7.7 10.8 12.1 17.7 9.9 11.4 14.0 7.2 9.9 12.4 12 8 7 6 5 12 8 8 6 10 8 6 16 10 7 15 10 8 18 12 10 7 14 12 8 22 14 11 Dissipation factor 0.20 0.20 0.25 0.25 0.30 0.20 0.20 0.20 0.25 0.17 0.17 0.20 0.15 0.15 0.15 0.13 0.13 0.13 0.12 0.12 0.12 0.12 0.10 0.10 0.10 0.10 0.10 0.10 ?RATED RIPPLE CURRENT MULTIPLIERS @Frequency Multipliers Rated Voltage (Vdc) 10 & 16 25 to 50 25 to 63 63 to 100 Case size f35 & f50 f35 f50 f35 50 0.75 Frequency (Hz) 20k 1k 120 1.00 0.96 0.84 50k 1.01 0.68 0.81 0.95 1.00 1.01 0.56 0.75 0.94 1.00 1.01 @Temperature Multipliers Temperature (c) Coefficient 85 1.00 105 0.57 CAT. No. 12 SURFACE MOUNT ALUMINUM ELECTROLYTIC CAPACITORS @Temperature Characteristics PX6.3FC39MD8 Functional polymer electrolyte capacitors @Impedance/ESR-Frequency Characteristics PX6.3VC100MF60 at 20C 1 10 Capacitance Change (% at 120Hz) PX6.3FC39MD8 Impedance PX6.3FC39MD8 ESR PX6.3VC100MF60 Impedance 0 PX6.3VC100MF60 ESR -10 Impedance*ESR (o) tanE (at 120Hz) 1 0.1 0.1 0.01 ESR (O at 100kHz) 1 0.1 0.01 -60 -40 -20 0 20 40 60 80 100 Temperature (C) 0.01 10k 100k 1M Frequency (Hz) @105c Endurance @Reflow Soldering Characteristics at 20C 10 5 Peak temp. 240C IR reflow 30seconds Peak temp. 220C Capacitance Change 0 LC (MA/2minutes) -10 (% at 20C, 120Hz) PX6.3VC100MF60 (% at 120Hz) Capacitance Change PX6.3FC39MD8 PX6.3FC39MD8 0 -5 0.1 0.1 ESR (O at 20C, 100kHz) 0.01 ESR (O at 120kHz) 1 0.1 0.01 0.001 0.01 0 1000 2000 3000 Time (hours) 4000 5000 0 1 2 3 4 5 6 Number of reflow CAT. No. 12 RELIABILITY TEST DATA @Impedance-Frequency Characteristics @Temperature Characteristics (-55 to +105c) MFZ10V15MFD6 MFZ10V33MFE8 (%) Capacitance Change Solid Surface Mount MFZ10V15MFD6 MFZ10V33MFE8 (O) +10 0 1,000 -10 -55 -40 -20 +20 +85 +105 (120Hz) 100 Impedance 1 tanE 0.1 10 0.01 1 -55 -40 -20 +20 +85 +105 (500kHz) (O) 10 0.1 ESR 1 0.1 100 -55 -40 -20 +20 +85 Temperature 10k 100k 1M 10M Frequency (C) @105c Endurance (Hz) @Reflow Soldering Characteristics MFZ10V15MF (%) 85C 10V Loaded 105C 8V Loaded 220C 240C 260C MFZ10V15MF reflow : 30 seconds (%) +10 0 0 -10 Capacitance Change Capacitance Change 1k +105 -5 -10 0 1,000 2,000 3,000 4,000 5,000 -15 (MA) 100 0 1 2 3 4 5 6 LC 10 500kHz (O) 0.25 1 0.20 0 1,000 2,000 3,000 4,000 5,000 0.15 500kHz ESR 10 0.10 ESR 1 0.05 0.1 0 0 1,000 2,000 Time 3,000 4,000 5,000 1 2 3 4 5 6 Number of reflow (hours) CAT. No. 12 RELIABILITY TEST DATA @MF series 85c Endurance/Shelf Life MFJ 16VC 10M D6/ 16V 10MF MFJ 16VC 47M D13/ 16V 47MF MFJ6.3VC100M D13/6.3V 100MF Capacitance Change (%) +10 +0 -10 -20 -30 +0 -10 -20 -30 -40 -40 1.0 1.0 tanE Capacitance Change tanE @MFJ series 105c Endurance MF6.3FC10M A6/6.3V10MF MF16FC10M B6/16V10MF MF10FC22M C6/10V22MF MF50FC15M D13/50V15MF (%) +10 0.1 0.01 (MA) Load Life Shelf Life 10 1 0.1 0.01 0 1,000 2,000 Time 3,000 (hours) 0.1 0.01 (MA) 10 Leakage Current Leakage Current Surface Mount 1 0.1 0.01 0 1,000 2,000 Time 3,000 (hours) ?MF Series Terminal Strength Test @Without Dummy Terminal : Type FC 1Bent Test <Fig-1> @With Dummy Terminal : Type FD 1Mechanical Force to Side <Fig-3> (n=10) 5 80 Mechanical Force Bending times 4 3 2 1 0 (n=10) 100 (N) A6 C6 D8 Size D13 2Mechanical Force to Lead Facing Side <Fig-2> 60 40 20 0 A6 C6 D8 Size <Fig-1> 1st action Size A6 C6 D8 D13 (n=10) Mechanical Force ]5N ]5N ]5N ]5N D13 2nd action 90 <Fig-2> <Fig-3> *No peeling off terminal. CAT. No. 12 RELIABILITY TEST DATA @105c Endurance MVJ16VC10M D60 MVJ35VC10M E60 MVJ16VC47M F60 Surface Mount @125c Endurance (%) +10 Capacitance Change Capacitance Change (%) +10 +0 -10 -20 -30 -40 +0 -10 -20 -30 -40 1.0 0 500 1,000 1,500 2,000 2,500 0 500 1,000 1,500 2,000 2,500 0 500 1,000 1,500 2,000 tanE 1.0 tanE 0.1 0.1 0.01 0.01 (MA) (MA) 1 10 Leakage Current Leakage Current MVH10VC220M H10 MVH35VC47M H10 MVH50VC33M H10 0.1 0.01 0.001 0 500 1,000 1,500 2,000 Time 1 0.1 0.01 2,500 (hours) Time 2,500 (hours) @Impedance/ESR vs Frequency MVY16VC10M (O) 1000 IMPEDANCE ESR IMPEDANCE ESR -55C -40C -25C +20C +105C -55C -40C -25C +20C +105C 10 Impedance*ESR 100 Impedance*ESR MVY16VC330M (O) 100 10 1 0.1 1 0.01 0.1 10 100 1k Frequency 10k 100k (Hz) 10 100 1k Frequency 10k 100k (Hz) CAT. No. 12 RELIABILITY TEST DATA @105c Endurance KMY50VB22M 5B11.5 KMY16VB330M 8B12 KMY25VB2200M 16B25 Radial @105c Shelf Life Capacitance Change (%) +10 +0 -10 -20 -30 -10 -20 -30 -40 1.0 1.0 tanE 0.1 0.1 0.01 0.01 (MA) (MA) 100 100 Leakage Current Leakage Current +0 -40 tanE Capacitance Change (%) +10 KMY50VB22M 5B11.5 KMY16VB330M 8B12 KMY25VB2200M 16B25 10 1 0.1 0 2,000 4,000 6,000 8,000 Time 10,000 10 1 0.1 0 (hours) 250 500 750 1,000 1,250 Time @Impedance/ESR KMY50VB22M 5B11.5 KMY16VB330M 8B12 KMY25VB2200M 16B25 100 (hours) at 20C IMPEDANCE ESR Impedance*ESR (O) 10 1 0.1 0.01 10 100 1k 10k Frequency (Hz) 100k 1M 10M CAT. No. 12 RELIABILITY TEST DATA @105c Endurance with Rated Ripple Current LXZ6.3VB470M F6.3B15L LXZ10VB1000M F8B20L LXZ10VB3300M F12.5B25L 0 -10 -20 (%) 0 -10 -20 1 1 0.1 0.1 0.01 (MA) 100 Leakage Current Leakage Current 10 -30 0.01 (MA) LXY16VB56M F5B11.5L LXY25VB470M F10B20L LXY35VB1000M F16B20L -30 tanE tanE @105c Endurance with Rated Ripple Current Capacitance Change Capacitance Change (%) 10 Low Z Radial 10 1 0.1 0 1 0 1,000 2,000 3,000 4,000 5,000 6,000 7,000 8,000 (hours) Time @Impedance-Frequency Characteristics at 20C (O) 100 10 0.1 1,000 2,000 3,000 4,000 5,000 6,000 7,000 8,000 (hours) Time @Impedance-Frequency Characteristics 100 at 20C (O) 100 LXZ6.3VB470M F6.3B15L LXZ10VB1000M F8B20L LXZ10VB3300M F12.5B25L LXY16VB56M F5B11.5L LXY25VB470M F10B20L LXY35VB1000M F16B20L 10 Impedance Impedance 10 1 0.1 0.01 0.1 1 0.1 1 10 Frequency 100 1,000 (kHz) 0.01 0.1 1 10 Frequency 100 1,000 (kHz) CAT. No. 12 RELIABILITY TEST DATA Low Z Radial LXV10VB82M F5B11.5L LXV25VB220M F8B15L LXV35VB560M F12.5B20L (%) Leakage Current (MA) +20 +10 0 -10 -20 +10 0 -10 -20 0.1 0.1 tanE -30 1 0.01 (MA) 100 0.01 100 10 10 1 1 0.1 0 1,000 2,000 3,000 Time 4,000 5,000 0 6,000 7,000 (hours) @Temperature Characteristics 1,000 2,000 3,000 (hours) Time @Impedance-Frequency Characteristics at 20C (O) 100 (%) +30 +20 +10 0 10 -10 -20 Impedance Capacitance Change +20 -30 1 0.1 -30 1 0.1 1 tanE +30 Leakage Current tanE (%) +30 Capacitance Change @105c Shelf Life test Capacitance Change @105c Endurance with Rated Ripple Current 0.01 0.1 0.01 -55 -40 -25 20 Temperature 60 120 1k 10k Frequency 100k 1M (Hz) 85 105 (C) CAT. No. 12 RELIABILITY TEST DATA @105c Endurance with Ripple Current Radial @125c Endurance KMX160VB33M KMX400VB10M (%) +10 Capacitance Change +0 -10 -20 -30 -10 -20 -30 -40 -40 1.0 1.0 0.1 0.1 100 1,000 Leakage Current 0.01 (MA) Leakage Current 0.01 (MA) 10 1 0 2,000 4,000 6,000 8,000 Time 10 F10B20L F10B20L 100 Impedance 100 1 0.1 0.1 100k 1M (Hz) 4,000 5,000 (hours) 10 1 10k Frequency 3,000 GXE35VB100M F8B12L GXE50VB100M F10B12.5L GXE10VB3300M F16B25L (O) 10000 10 2,000 @Impedance-Frequency Characteristics at 20c 1000 1k 1,000 Time 1000 0.01 100 0 (hours) KMX160VB33M KMX400VB10M (O) 10000 100 1 10,000 @Impedance-Frequency Characteristics at 20c Impedance +0 tan E (D.F.) tanE (D.F.) Capacitance Change (%) +10 0.1 GXE35VB100M F8B12L GXE50VB100M F10B12.5L GXE10VB3300M F16B25L F10B20L F10B20L 0.01 100 1k 10k Frequency 100k 1M (Hz) CAT. No. 12 RELIABILITY TEST DATA @85c Endurance with Rated Ripple Current Snap-in @105c Endurance with Rated Ripple Current SMM200VSSN470M22B SMM400VSSN150M30A (%) +10 Capacitance Change Capacitance Change (%) +10 +0 -10 -20 -30 +0 -10 -20 -30 -40 -40 1.0 1.0 tan E (D.F.) tan E (D.F.) KMM200VSSN470M25B KMM400VSSN220M25D 0.1 0.1 (MA) (MA) 1,000 1,000 Leakage Current 0.01 Leakage Current 0.01 100 10 1 0 1,000 2,000 Time 3,000 4,000 (hours) 100 10 1 0 1,000 2,000 Time 3,000 4,000 (hours) CAT. No. 12 RELIABILITY TEST DATA Screw-Mount RWE/RWF series @85c Endurance with Rated Ripple Current Capacitance Change -10 tanE (%) 20 0.1 RWE550LGSN560M C9 RWF450LGSN10000M F17 10 0 -20 -30 1 Leakage Current 0.01 (MA) 10,000 1,000 100 0 0 1,000 2,000 3,000 4,000 5,000 6,000 Time 7,000 (hours) RWL series @85c Endurance with Rated Ripple Current RWL400LGSN3300M D13 tanE Capacitance Change (%) 10 0 -10 -20 -30 -40 1 0.1 Leakage Current 0.01 (MA) 1,000 100 10 1 0 2,000 5,000 10,000 15,000 Time 20,000 25,000 (hours) CAT. No. 12