CY3275 Cypress Low Voltage Programmable Powerline Communication Development Kit Guide Doc. # 001-53657 Rev. *B Cypress Semiconductor 198 Champion Court San Jose, CA 95134-1709 Phone (USA): 800.858.1810 Phone (Intnl): 408.943.2600 http://www.cypress.com [+] Feedback Copyrights Copyrights (c) Cypress Semiconductor Corporation, 2009. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in a Cypress product. Nor does it convey or imply any license under patent or other rights. Cypress products are not warranted nor intended to be used for medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement with Cypress. Furthermore, Cypress does not authorize its products for use as critical components in lifesupport systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress against all charges. Any Source Code (software and/or firmware) is owned by Cypress Semiconductor Corporation (Cypress) and is protected by and subject to worldwide patent protection (United States and foreign), United States copyright laws and international treaty provisions. Cypress hereby grants to licensee a personal, non-exclusive, non-transferable license to copy, use, modify, create derivative works of, and compile the Cypress Source Code and derivative works for the sole purpose of creating custom software and or firmware in support of licensee product to be used only in conjunction with a Cypress integrated circuit as specified in the applicable agreement. Any reproduction, modification, translation, compilation, or representation of this Source Code except as specified above is prohibited without the express written permission of Cypress. Disclaimer: CYPRESS MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS MATERIAL, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Cypress reserves the right to make changes without further notice to the materials described herein. Cypress does not assume any liability arising out of the application or use of any product or circuit described herein. Cypress does not authorize its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress' product in a life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress against all charges. Use may be limited by and subject to the applicable Cypress software license agreement. PSoC(R) is a registered trademark of Cypress Semiconductor Corporation. All products and company names mentioned in this document may be the trademarks of their respective holders. Purchase of I2C components from Cypress or one of its sublicensed Associated Companies conveys a license under the Philips I2C Patent Rights to use these components in an I2C system, provided that the system conforms to the I2C Standard Specification as defined by Philips. As from October 1st, 2006 Philips Semiconductors has a new trade name - NXP Semiconductors. Flash Code Protection Cypress products meet the specifications contained in their particular Cypress PSoC Data Sheets. Cypress believes that its family of PSoC products is one of the most secure families of its kind on the market today, regardless of how they are used. There may be methods, unknown to Cypress, that can breach the code protection features. Any of these methods, to our knowledge, would be dishonest and possibly illegal. Neither Cypress nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not mean that we are guaranteeing the product as "unbreakable." Cypress is willing to work with the customer who is concerned about the integrity of their code. Code protection is constantly evolving. We at Cypress are committed to continuously improving the code protection features of our products. 2 CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback Contents 1. Introduction 1.1 1.2 1.3 1.4 1.5 5 Using the PLC Kit .....................................................................................................................5 The Cypress PLC Solution .......................................................................................................5 Kit Contents ..............................................................................................................................7 Document Revision History .....................................................................................................8 Documentation Conventions ....................................................................................................8 2. PLC LV Development Board 2.1 2.2 2.3 9 Features....................................................................................................................................9 PLC Development Board Functional Overview ........................................................................9 2.2.1 Operating Conditions: ...................................................................................................9 Hardware Description .............................................................................................................10 2.3.1 Power Supply Circuit...................................................................................................11 2.3.2 Transmit Amplifier Circuit ............................................................................................11 2.3.3 Transmit and Receive Coupling Circuit .......................................................................11 2.3.4 Development Section ..................................................................................................12 2.3.4.1 Bread Board ................................................................................................12 2.3.4.2 Development Section ..................................................................................12 2.3.4.3 Potentiometer and DIP Switches.................................................................15 2.3.5 LCD Daughter Card ....................................................................................................16 2.3.6 Debugger ....................................................................................................................16 2.3.7 RS232-COM Port ........................................................................................................17 Appendix 19 A.1 Schematics ................................................................................................................................19 A.1.1 Board Overview ............................................................................................................19 A.1.2 User Interface ...............................................................................................................20 A.1.3 Transmit and Receive Filter Coupling ...........................................................................21 A.1.4 Power Supply ................................................................................................................22 A.2 Layout ........................................................................................................................................23 A.2.1 Top Layer ......................................................................................................................23 A.2.2 Ground Layer ................................................................................................................24 A.2.3 Power Layer ..................................................................................................................25 A.2.4 Bottom Layer .................................................................................................................26 A.2.5 Top Silkscreen ..............................................................................................................27 A.2.6 Bottom Silkscreen .........................................................................................................28 A.3 Bill of Materials .........................................................................................................................29 CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 3 [+] Feedback Contents 4 CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback 1. 1.1 Introduction Using the PLC Kit Cypress's Powerline Communication Solution (PLC) makes it possible to transmit command and control data over high voltage and low voltage powerlines. This solution is developed for low bandwidth powerline communication. The PLC CY3275 Low Voltage (LV) development board allows system design using the ability of the Cypress PLC family of devices to transmit data up to 2400 bps over low voltage (12V to 24V AC/DC) powerlines. 1.2 Chapter 1 provides a brief overview of the Cypress PLC solution. It describes the contents of the development kit and lists special features of the PLC Demonstration kit. Chapter 2 gives the functional overview of the PLC Board and describes the operating procedure of the PLC LV board. It provides a high level hardware description of the board. The Cypress PLC Solution Powerlines are available everywhere in the world. This makes them one of the most widely available communication mediums for PLC technology. The pervasiveness of powerlines also makes it difficult to predict their characteristics and noise. Because of the variability of powerline quality, implementing robust communication over powerline has been an engineering challenge for years. With this in mind, the Cypress PLC solution is designed to enable secure, reliable, and robust communication over powerlines. The key features of the Cypress PLC solution are: An integrated powerline PHY modem with optimized amplifiers that work with rugged high and low voltage powerlines Powerline optimized network protocol that supports bidirectional communication with acknowledgement based signaling and multiple retries Support for 8-bit packet CRC and 4-bit header CRC for error detection and data packet retransmission Carrier Sense Multiple Access (CSMA) scheme that minimizes collisions between packet transmissions on the powerline CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 5 [+] Feedback Introduction The Cypress PLC solution consists of three key elements as shown in Figure 1-1. Powerline network protocol layer Physical layer FSK modem Power Amplification And Coupling Circuits Figure 1-1. Cypress PLC Solution Block Diagram The powerline network protocol layer and the physical layer FSK modem are implemented on the CY8CPLC20 chip. The chip also contains a PSoC core in addition to the PLC core. The power amplification and coupling circuits are built using discrete components. The network protocol layer allows for the addressing of multiple nodes on the network. This enables point-to-multipoint communication. The protocol layer also provides a defined packet structure for transmitting data packets from one node to the other as well as error detection and packet retransmit functionalities. A two node system level diagram is shown in Figure 1-2. 6 CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback Introduction Figure 1-2. PLC System Level Block Diagram - Two Nodes 1.3 Kit Contents The CY3275 PLC LV Development kit contains: CY3275 PLC LV development board CY3275 Quick start guide CD-ROM containing: Packet Test software - PLC Control Panel application CY8CPLC20 data sheet User guide CY3275 Board Altium design project CY3275 Board BOM Application note - Using CY8CPLC20 in Powerline Communication (PLC) Applications CY3275 Board schematics CY3275 Board Gerbers PSoC Designer PSoC Programmer 12V DC power supply MiniProg1 for programming the CY8CPLC20 device 25 Jumper wires LCD module USB-I2C Bridge Retractable USB cable Daisy chain cable CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 7 [+] Feedback Introduction 1.4 Document Revision History Table 1-1. Revision History PDF Creation Date Revision 1.5 Origin of Change Description of Change ** 8/14/09 IUS Initial release. *A 9/3/09 IUS Rework for external release. *B 12/10/09 RARP Content updates Documentation Conventions Table 1-2. Document Conventions for Guides Convention 8 Usage Courier New Displays file locations, user entered text, and source code: C:\ ...cd\icc\ Italics Displays file names and reference documentation: Read about the sourcefile.hex file in the PSoC Designer User Guide. [Bracketed, Bold] Displays keyboard commands in procedures: [Enter] or [Ctrl] [C] File > Open Represents menu paths: File > Open > New Project Bold Displays commands, menu paths, and icon names in procedures: Click the File icon and then click Open. Times New Roman Displays an equation: 2+2=4 Text in gray boxes Describes Cautions or unique functionality of the product. CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback 2. PLC LV Development Board This chapter explains the key features of the CY3275 development board. 2.1 Features The Cypress CY3275 LV CY8CPLC20 development board is a versatile tool with these features 2.2 User friendly PLC Control Panel application available on the kit CD-ROM Chip power supply derived from 12V to 24V AC/DC CY8CPLC20-OCD chip -- 100-pin TQFP on chip debug (OCD) device that allows for the quick design and debug of PLC applications. The CY8CPLC20 100-pin TQFP is available for debug purposes only. For production quantities, CY8CPLC20 is available in 28-pin SSOP and 48-pin QFN packages. User configurable general purpose LEDs General purpose 8-bit DIP switch RJ45 connector to use ICE debugger RS232 COM port for serial communication Header to attach LCD card I2C header for communicating to external devices ISSP header for programming the CY8CPLC20 chip PLC Development Board Functional Overview The PLC development board is designed as a development platform for low bandwidth (up to 2400 bps) powerline communication applications. The application residing on CY8CPLC20 generates the data. The PLC core encapsulates this data into a PLC network packet. The FSK modem modulates this packet and the coupling circuitry incorporates the resulting sinusoidal waveform onto the existing waveform on the low voltage bus. 2.2.1 Operating Conditions: Input Voltage: 12/24V AC/DC Input Current: 200 mA/150 mA Operating Temperature: 0C to 40C Operating Humidity Condition: 5% to 95% RH, non-condensing CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 9 [+] Feedback PLC LV Development Board 2.3 Hardware Description The programmable low voltage PLC development board is shown in Figure 2-1. The board can be divided into six main sections: Power supply circuit to generate 5V Transmit amplifier and coupling circuit section Development section for user LCD module header Debugger RS232 COM port Figure 2-1. Top View of Cypress Programmable PLC LV Development Board The communication signal flow on this LV Board is: Transmit: CY8CPLC20 TX pin Power Amplifier Circuitry LV Coupling Circuitry LV Powerline (12V to 24V AC/DC). Receive: LV Powerline (12V to 24V AC/DC) LV Coupling Circuitry Passive Low Pass Filtering Centre Biasing CY8CPLC20 RX pin. The core of the PLC LV board is the CY8CPLC20 chip. 10 CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback PLC LV Development Board 2.3.1 Power Supply Circuit This section takes the power from the powerline and generates the necessary low DC voltage for the operation of the PLC transceiver and other components on the chip. Table 2-1. Key Power Supply Circuitry Components Component 2.3.2 Description J2 This is the connector to hook up the wall wart U2 5V regulator J3 This is a 2 pin header to connect other boards in daisy chain and power them. The cable to do this is provided with the kit. Connect a maximum of five boards in one daisy chain. DS1 This is a blue LED which is on when power is supplied to the board Transmit Amplifier Circuit This section takes the output signal from the CY8CPLC20 chip and amplifies the signal for transmission over the powerline. Table 2-2. Key Transmit Amplifier Components Component 2.3.3 Description U3, Q1, Q2 These opamp and high gain transistors are used for power amplification. Q3 This transistor controls whether transmission is allowed based on the output of the TXDISABLE pin Transmit and Receive Coupling Circuit This circuit couples the signal from the board on to the powerline. On the receive side, the same circuit couples the carrier on the powerline in to the board rejecting the low frequency content on the powerline. Table 2-3. Key Transmit and Receive Coupling Components Component Description L3 This inductor along with R2 filters out the higher frequencies L2 This is the inductor which grounds the low frequency signal and forms a high pass with C1 and L1 C6 This is the coupling capacitor that couples the communication signal and rejects the low frequency noise. The voltage rating of this component is an important parameter. CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 11 [+] Feedback PLC LV Development Board 2.3.4 Development Section 2.3.4.1 Bread Board This section is the area where you prepare your custom design. All GPIO pins excluding those required for PLC communication are routed to this bread board space for access. Figure 2-2. Bread Board 2.3.4.2 Development Section This section has the CY8CPLC20-OCD chip which has the integrated transmit/receive modem and network protocol. It also has the I2C header to communicate to the external host processor. The ISSP header is provided to program the part. The part also has inbuilt debug support using the RJ45 connector which can be used with the ICE debugger. There are also three dedicated LEDs, which can be used to indicate communication on the powerline: green LED for TX, red LED for RX, and yellow LED for BIU. 12 CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback PLC LV Development Board Figure 2-3. I2C and ISSP headers CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 13 [+] Feedback PLC LV Development Board Table 2-4. Headers and Jumpers Headers and Jumpers 14 Description CY8CPLC20-OCD This is the Cypress Powerline transceiver chip. It is a 100-pin OCD device. PWR LED[DS1] This is a blue LED that glows when the board is powered on. TX LED[DS3] This is a green LED that can be used to indicate when the board is transmitting data on to the powerline. RX LED[DS2] This is a red LED that can be used to indicate when the board is receiving data. BIU LED[DS4] This is a yellow LED that can be used to indicate when the transmit frequency band is in use. TP1, TP2, TP3, TP4 Grounded test points to facilitate probing/debugging S2 Reset switch for resetting the CY8CPLC20-OCD chip J8 2-pin header for connecting to Vcc and Gnd LED1-LED4 Headers connected to general purpose configurable LEDs JP1 (PWR) Connect this jumper to power an external board from the CY3275. The external board is powered through the V and G pins on the I2C connector (J15). JP5 (Reset) The jumper is for enabling the reset of the PLC chip through an external board. Once this jumper has been connected, the external board reset can be connected to the R pin on the I2C header (J15). JP4 (I2C-SDA) This is a pull up jumper. While communicating through I2C(J15), one side has to pull up the line. When the jumper is connected, the SDA line will get pulled high. This needs to be done when the user wants the I2C link to be pulled up by CY3275 board.This jumper does not need to be placed if the USB-I2C bridge is used for communication to the host. JP3 (I2C-SCL) This is a pull up jumper. While communicating through I2C(J15), one side has to pull up the line. When the jumper is connected, the SCL line will get pulled high. This needs to be done when the user wants the I2C link to be pulled up by CY3275 board. This jumper does not need to be placed if the USB-I2C bridge is used for communication to the host. P40-P46 Port pins connected to LCD card P47 Free port pin P01,P02,P04, P07 Free port pins P21 Port pin connected to yellow LED for BIU P23 Port pin connected to Red LED for RX P25 Port pin connected to Green LED for TX P26 Free port pin P17 Port pin connect to SCL for I2C P15 Port pin connect to SDA for I2C P16, P12 Free port pins P30,P31,P32,P33,P34,P35, P36, P37 Free port pins P50,P51,P52,P53 Free port pins SW Header connected to the switch S4. S4 is a general purpose switch VR Header connected to the potentiometer CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback PLC LV Development Board Headers and Jumpers Description V - Vdd pin: This pin can provide a maximum of 50 mA at 5V to an external board only when the input to the board is 12V. For input voltages greater than 12V do not use this pin to power another board. This pin is only to source the current. DO NOT SUPPLY POWER TO THIS PIN FOR POWERING THE CY8CPLC20 DEVICE. Note that the PWR jumper (JP1) needs to be connected to enable this functionality. G - Gnd Pin: This pin can provide the ground reference to an external board. This pin connects to the ground pin of the external board. J15 D - I2C Data (SDA): This is the data line for the I2C communication. This pin is directly connected to the CY8CPLC20 device C - I2C Clock (SCL): This is the clock line for the I2C communication. This pin is directly connected to the CY8CPLC20 device. R - Reset: Connecting this pin to an external board enables the CY8CPLC20 chip to be reset by an external board. Note that the RES jumper needs to be connected for enabling this functionality. 2.3.4.3 Potentiometer and DIP Switches There are 8-bit general purpose dip switches (S3) provided for the user. A general purpose potentiometer (R47) is provided next to the dip switches. This potentiometer can be routed to the chip using the GPIO pins. The second potentiometer (R46) is specifically meant to control the contrast for the LCD daughter card in the LCD1 slot. Figure 2-4. Dip Switches Key components and their use: Component Description S3[7-0] These dip switches are general purpose and can be routed to any port of the CY8CPLC20 chip. Potentiometer [R47] This is a variable resistor that connects to the VR header. It can be used to generate a voltage between +5V and GND. LCD Contrast[R46] Adjusting this potentiometer adjusts the contrast on the LCD Daughter Card. CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 15 [+] Feedback PLC LV Development Board 2.3.5 LCD Daughter Card This card is an LCD module easily connected to the board. It is connected and controlled by using the CY8CPLC20 GPIOs. Figure 2-5. LCD Daughter Card It is connected to the main board as shown in Figure 2-5. Figure 2-6. LCD Daughter Card Connection 2.3.6 Debugger The RJ45 ICE Cube Emulation Connector provides a debug interface between the CY8CPLC20OCD device and the ICE Cube emulation tool using the PSoC Designer software application. Figure 2-7. RJ45 Connector 16 CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback PLC LV Development Board 2.3.7 RS232-COM Port The RS232 COM Port can be used with a standard RS232 cable to connect two RS232 capable devices together. The RS232 header (J20) is a four pin header that has connections for the RX, TX, RTS and CTS lines. These need to be wired to port pins to connect the device to the respective pins on the RS232 DB9 port. Figure 2-8. RS232- COM Port The controls associated with this are. Control Description/Comment RX The board receives the RS232 information through this pin TX The board transmits RS232 information through this pin RTS The host asks the chip if it can send information through this pin CTS The chip signals that it is ready to accept information through RX CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 17 [+] Feedback PLC LV Development Board 18 CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback A. Appendix A.1 Schematics A.1.1 Board Overview CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 19 [+] Feedback A.1.2 20 User Interface CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback A.1.3 Transmit and Receive Filter Coupling CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 21 [+] Feedback A.1.4 22 Power Supply CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback A.2 Layout A.2.1 Top Layer CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 23 [+] Feedback A.2.2 24 Ground Layer CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback A.2.3 Power Layer CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 25 [+] Feedback A.2.4 26 Bottom Layer CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback A.2.5 Top Silkscreen CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 27 [+] Feedback A.2.6 28 Bottom Silkscreen CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback A.3 Bill of Materials Designator Quan tity Manufacturer Part# Digi-Key# Capacitor Ceramic 0.47UF 50V X7R 10% 1206 C1 1 0.47uF TDK C3216X7R1H47 4K 445-1380-1-ND Capacitor 100UF 10V ALUM LYTIC RADIAL C2 1 100uF PANASONIC ECA-1AM101 P5123-ND Capacitor Electrolytic 220uF 50V C3 1 220uF PANASONIC ECA-1HM221 P5183-ND Capacitor Ceramic 0.1uF 25V X7R 0603 C4, C7, C9 3 0.1uF AVX 06033C104JAT2 A 478-3713-1-ND Capacitor Ceramic 0.01uF 25V C0G 5% 0603 C5 1 0.01uF TDK C1608C0G1E10 3J 445-2664-1-ND Capacitor Ceramic 1.0uF 16V X7R 0603 C6, C35 2 1uF Murata GRM188R71C10 5KA12D 490-3900-1-ND Capacitor Ceramic 1UF 50V Y5V 0805 C8 1 1.0uF Murata GRM21BF51H10 5ZA12L 490-3903-1-ND Capacitor Ceramic 0.01uF 25V X7R 0603 C26, C34 2 0.01uF AVX 06033C103JAT2 A 06033C103JAT 2A-ND Capacitor 1.0uF, 16V C27 1 1.0uF,1 6V PCC1849TRND Capacitor 0.1uF, 16V C28 1 0.1uF,1 6V PCC1864TRND Capacitor 0.47uF, 16V C29, C30, C31 3 0.47uF, 16V PCC1847TRND Capacitor Ceramic 22pF 100V C0G 0603 C32, C33 2 22pF Murata GRM1885C2A22 0JA01D 490-1335-1-ND Capacitor Ceramic 0.1uF 25V X7R 0603 C36 1 0.1uF AVX 06033C104JAT2 A 478-3713-1-ND Capacitor 0.1uF C37, C38 2 0.1uF Capacitor 10uF,10V C39 1 10uF,1 0V Capacitor 100pF C41 1 100pF Diode Super Fast 100V 1A D1 1 Diodes Inc. ES1B-13-F ES1B-FDICTND Diode TVS 33V 600W BIDIR SMB D2 1 Littelfuse SMBJ33CA SMBJ33CALFC T-ND Diode Schottky 40V 0.3A SOT-23 D3 1 ST Micro BAT54SFILM 497-2522-1-ND Diode Ultrafast 100V 1A D4, D5 2 Diodes Inc. ES1B ES1B-FDICTND Description Value Manufacturer PCC1864TRND Vishay 293D106X9010A 2TE3 718-1121-1-ND 399-1121-2-ND CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B 29 [+] Feedback Designator Quan tity Blue LED DS1 1 LED Red Clear 0805 DS2 1 LED Green Clear 0805 DS3 LED Yellow Clear 0805 Description Value Manufacturer Manufacturer Part# Digi-Key# SMLE12BC7TT86 511-1589-1-ND Lite-On LTSTC170KRKT 160-1415-1-ND 1 Lite-On LTSTC170KGKT 160-1414-1-ND DS4 1 Lite-On LTSTC170KSKT 160-1416-1-ND 3M solderless breadboard super strip H1 1 Parallax 700-00012 923273-ND Header, 10-Pin J1, J10, J12, J18 4 Power connector J2 1 CUI Inc PJ-102A CP-102A-ND Power Header, 2-Pin J3 1 MOLEX 09-65-2028 WM18823-ND Header, 4-Pin J9, J13, J17, J20 4 ICE Connection J14 1 ISSP Conn J15 1 Header, 4-Pin J16 1 4 929850E-01-36ND Female DB-9 J19 1 DB9-F A23301-ND ISSP Conn J21 1 (DO NOT POPULATE) Power Connector Jack 2.1mm PCB J22 (DO NOT POPULATE) Right Angle 2X13 header 0.1" Spacing J23 Header, 2-Pin, Male JP1, JP3, JP4, JP5 4 Ferrite Chip 100 OHM 4A 0805 L1 1 Inductor PWR UNSHIELD 470UH SMD L2, L3 2 14-Pin header, Female LCD1 Red LED LED1, LED2, LED3, LED4 30 Blue 929850E-01-36ND 10 929850E-01-36ND 4 Tyco 5557785-1 A31457-ND WM4203-ND WM4203-ND 2 Generic Components S1011E-36-ND TDK MPZ2012S101A 445-1567-1-ND 470uH Pulse P0752.474NLT 553-1071-1-ND 1 14 3M/ESD 929850-01-36RA 929850E-01-36ND 4 Red SMLLXT0805IW-TR 67-1552-2-ND CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback Designator Quan tity Mounting Holes MTG1, MTG2, MTG3, MTG4 4 Transistor NPN 45V 3A Q1 1 Zetex ZXT690BKTC ZXT690BKCTND Transistor PNP 40V 3A Q2 1 Zetex ZXT790AKTC ZXT790AKCTND Transistor NPN SOT-23 Q3 1 Fairchild MMBT3904LT1 MMBT3904LT1I NCT-ND Resistor 402 OHM 1/10W 1% 0603 SMD R1 1 402 Rohm MCR03EZPFX4 020 RHM402HCTND Resistor 10 OHM 1W 5% METAL OXIDE R2 1 10 Ohm, 1W Stackpole RSMF 1 10 5% R RSMF110JRCT -ND Resistor 240 OHM 1/10W 1% 0603 SMD R3 1 240 Rohm MCR03EZPFX2 400 RHM240HCTND Resistor 715 OHM 1/10W 1% 0603 SMD R4 1 715 Rohm MCR03EZPFX7 150 RHM715HCTND Resistor 0.0 OHM 1/10W 5% 0603 SMD R5 1 0 Rohm MCR03EZPJ000 RHM0.0GCTND Resistor 10.0k 1% 1/10W 0603 R6, R8, R9, R12, R16, R18, R19,R20 8 10.0K Rohm MCR03EZPFX1 002 RHM10.0KHCT -ND Resistor 100 OHM 1/10W 1% 0603 SMD R7 1 100 Rohm MCR03EZPFX1 000 RHM100HCTND Resistor 620 OHM 1/10W 1% 0603 SMD R10, R11 2 620 Rohm MCR03EZPFX6 200 RHM620HCTND Resistor 0.5 1% 1/4W 0805 R13, R17 2 0.5 1/ 4W Susumu RL1220S-R50-F RL12S.50FCTND Resistor 1.00k 1% 1/10W 0603 R14, R23, R24 3 1.00k Yageo RC0603FR071KL 3111.00KHRTR-ND Resistor 4.99 1% 1/10W 0603 R15 1 4.99 Yageo RC0603FR074R99L 311-4.99HRCTND Resistor 4.70K OHM 1/ 10W 1% 0603 SMD R21 1 4.7K Yageo RC0603FR074K7L 3114.70KHRCT-ND Resistor 330 Ohm 1% 1/ 10W 0603 R22 1 330 Rohm MCR03EZPFX3 300 RHM330HCTND Potentiometer R46, R47 2 Bourns Inc 3352T-1-103LF 3352T-103LFND Description Value Manufacturer Manufacturer Part# CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B Digi-Key# 31 [+] Feedback Designator Quan tity Resistor 1.0K, SMT R48, R49, R50, R51, R61, R62, R63, R64, R65 9 1K Panasonic ERJ6GEYJ102V P1.0KACT-ND Resistor 7.50k 1% 1/10W 0603 R52, R53 2 7.50K Rohm MCR03EZPFX7 501 RHM7.50KHCT -ND Resistor 2.10k 1% 1/10W 0603 R54 1 2.10K Rohm MCR03EZPFX2 101 RHM2.10KHCT -ND Resistor 56 Ohm, SMT R57, R58, R59, R60 4 56 Swtich, SPST S1, S4 2 Omron B3F-1022 SW403-ND 4009 Series DIP Switch, Raised actuator S3 1 ESwitch KAJ08LAGT EG4441-ND Simple Test point TP1, TP2, TP3, TP4 4 5006K-ND Simple Test point TP5 1 5006K-ND Simple Test point TP6 1 5006K-ND CY8CPLC20 OCD Part U1 1 Cypress CY8CPLC20OCD Voltage Regulator 5 Volt U2 1 ST Micro LM317MTG LM317MTGOSND Op-Amp 190MHz U3 1 National Semiconductor LMH6639MF/ NOPB LMH6639MFCT -ND RS-232 tranceiver (1.0uF Caps) U8 1 MAX3232ECDR 296-19851-2ND Oscillator Y1 1 Crystek C3290-24.000 C3290-24.000ND Citizen CSX750FCC24. 000M-UT 300-7214-2-ND ECS Inc. ECS-3X8X X1123-ND Cypress Semiconductor 1187-00003 Description Value 24.00 MHz Y1 (2nd source) Crystal 32.768kHz 12.5pF Y2 1 LCD Module LCD1 1 32 32.768 kHz Manufacturer Manufacturer Part# Digi-Key# P56ACT-ND CY3275 Cypress Low Voltage Programmable PLC Development Kit Guide, Doc. # 001-53657 Rev. *B [+] Feedback