GORE PHASEFLEX (R) (R) MICROWAVE/RF TEST ASSEMBLIES Reduce total cost of test with durable, reliable performance For test applications that require precise, repeatable measurements, GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies provide excellent phase and amplitude stability with flexure. The rugged, lightweight construction of these assemblies delivers reliable performance with longer service life and reduced equipment downtime, which results in lower costs for testing in laboratory, production, and field test environments. Typical Applications * Bench-top testing * Anechoic chambers * High throughput RF production testing * Nearfield scanners * Portable analyzers * Wireless telecommunication module testing * Vector network analyzers (VNAs) * Electromagnetic compliance testing * Scalar network analyzers * Automated test equipment * Test rack systems * Antenna ranges Benefits of GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies * Consistent, repeatable measurements with stable electrical performance up to 110 GHz * Longer service life with durable construction that resists crushing, twisting, and kinking * Enhanced phase and amplitude stability with flexure and temperature * Increased throughput and reduced downtime with durable and reliable performance Courtesy, Agilent Technologies, Inc. Rugged Construction Delivers Longer Service Life With an internally ruggedized construction, GORE PHASEFLEX Microwave/RF Test Assemblies maintain measurement repeatability while withstanding demanding conditions such as continuous flexing, temperature cycling, broad temperature ranges, and frequent connect and disconnect. The consistent performance and reliability of these test assemblies increases the interval between time-consuming calibrations of the test system, which in turn increases throughput, and reduces the total cost of test. (R) (R) Unlike conventionally designed RF test assemblies, GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies maintain excellent phase and amplitude stability with flexure. The unique cable construction allows a small bend radius without affecting performance (see Figure 1). Some cables have a minimum bend radius as small as 0.5 inches. GORE PHASEFLEX (R) (R) MICROWAVE/RF TEST ASSEMBLIES GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies offer excellent electrical and mechanical performance (see Tables 2 and 3 for product specifications). Assemblies are available in 12, 24, 36, 48, and 60 inch lengths. These predetermined lengths correspond to 0.30, 0.61, 0.91, 1.22 and 1.52 meters. Special Purpose Test Assemblies are also available (see Tables 4 and 5 for product specifications). Table 1: Test Assemblies with Guaranteed Phase and Amplitude Stability with Flexure1 Gore Cable Type 0U 0T 0D 0Z 0F Features for GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies include: * torque, crush, and kink resistance * abrasion resistance * dust/moisture resistance * performance over a wide temperature range * chemical resistance * high connector pull strength Precise and Repeatable Measurements The exceptional phase and amplitude stability of GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies ensures accurate and repeatable measurements. Although all of these assemblies exceed specifications for phase and amplitude stability, additional testing is performed on assemblies using cable types 0U, 0T, 0D, 0Z, and 0F to guarantee their phase and amplitude performance with flexure (see Table 1 for typical and guaranteed performance). While all other cable types (0Y, 0H, 0X, 0S, 0Q, 0P, 0M, 0W, 0R, 0K, 0G, CX) do not under go this guaranteed stability testing, phase and amplitude stability performance is incorporated by design. 1 Phase Stability with Flexure () Typical Value 2.0 3.0 5.0 6.0 8.0 Amplitude Stability with Flexure ( dB) Maximum Value 4.7 6.6 9.6 11.8 15.6 Typical Value 0.05 0.05 0.05 0.05 0.05 Maximum Value 0.15 0.15 0.15 0.15 0.10 The maximum value for guaranteed phase and amplitude stability was established using the following test method. The assembly was terminated with a short circuit and tested on a calibrated system. The VNA was normalized. A mandrel of 57 mm (2.25 in) radius was placed adjacent to the left or right side of the assembly, approximately at its midpoint. The assembly was coiled 360 around the mandrel and held in this position for one full sweep. Maximum deviation over the frequency range of analysis was recorded. The assembly was then returned to its initial straight position, and the VNA was normalized again. The mandrel was placed on the opposite side of the assembly and the test was repeated. All of the assemblies above are tested using this test method. Phase Matching Upon request, phase or time delay matching can be specified for GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies with frequencies through 67 GHz. Gore can provide absolute and relative time delay matching to sub-picosecond tolerances. According to the performance requirements of the application, cable assemblies may be specified to meet absolute or relative matching values. * Absolute match: One or more assemblies having a specific time delay or phase length target value some tolerance value. This type of specification allows replacement or addition of individual cables in a matched set. * Relative match: Two or more assemblies whose time delay or phase length fall within a specified match window. Relative matching ensures consistent matching within a set of cables, but an assembly from one set may not necessarily be matched with cable assemblies in another set. Figure 1: The anatomy of GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies Braided jacket Outer binder Braided strength member Crush member Inner jacket Inner braid Electrical shield ePTFE dielectric Center conductor Table 2: Test Assembly Specifications up to 18 GHz1 Gore Cable Type Electrical Properties Maximum Frequency (GHz) Typical VSWR Typical Insertion Loss (dB) Mech./Env. Properties Impedance (Nominal) (Ohms) Guaranteed Phase and Amplitude Stability Typical Phase Stability (degree)2 Typical Amplitude Stability (dB)2 Dielectric Constant (Nominal) Velocity of Propagation (Nominal) (%) Shielding Effectiveness (dB through 18 GHz)3 Time Delay (Nominal) ns/cm (ns/in) 0Y 0H 0X 0S 0U 0Q 0P 0M 3 1.05:1 0.48 75 No 0.5 18 1.19:1 2.15 18 1.19:1 1.13 18 1.19:1 1.36 18 1.22:1 0.80 18 1.24:1 1.00 18 1.28:1 0.75 No 2.0 No 2.0 No 2.0 18 1.19:1 1.36 50 Yes 2.0 No 8.0 No 6.0 No 15.0 < 0.05 1.4 85 > 100 0.04 (0.103) Center Conductor Overall Diameter mm (in) Solid Stranded Solid Stranded Stranded Solid Stranded Solid 7.5 (0.295) 5.3 (0.210) 7.7 (0.305) 7.7 (0.305) 7.7 (0.305) 10.2 (0.400) 10.2 (0.400) 10.7 (0.420) Nominal Weight g/m (oz/ft) 144.4 (1.55) 68.9 (0.74) 147.6 (1.6) 147.6 (1.6) 147.6 (1.6) 275.6 (2.96) 275.6 (2.96) 295.3 (3.17) Minimum Bend Radius mm (in) 4 Typical Flex Cycles 25.4 (1.0) 12.7 (0.5) 25.4 (1.0) 25.4 (1.0) 25.4 (1.0) 38.1 (1.5) 38.1 (1.5) 38.1 (1.5) 50,000 100,000 50,000 100,000 100,000 10,000 15,000 10,000 Temperature Range (C) Crush Resistance kgf/cm (lbf/in) -55 to 125 44.6 (250) 33.5 (187) 44.6 (250) Table 3: Test Assembly Specifications up to 67 GHz1 Mech./Env. Properties Electrical Properties Gore Cable Type 0W 0R 0T 0K 0D 0Z 0F Maximum Frequency (GHz) Typical VSWR Typical Insertion Loss (dB) Impedance (Nominal) (Ohms) Guaranteed Phase and Amplitude Stability Typical Phase Stability (degree)2 Typical Amplitude Stability (dB)2 Dielectric Constant (Nominal) Velocity of Propagation (Nominal) (%) Shielding Effectiveness (dB through 18 GHz)3 Time Delay (Nominal) ns/cm (ns/in) 26.5 1.17:1 1.43 26.5 1.17:1 1.71 26.5 1.17:1 1.71 40 1.30:1 3.35 50 1.26:1 3.78 67 1.30:1 5.84 No 3.0 No 3.0 Yes 3.0 40 1.30:1 2.65 50 No 5.0 < 0.05 1.4 85 > 100 0.04 (0.103) Yes 5.0 Yes 6.0 Yes 8.0 Center Conductor Solid Stranded Stranded Solid Solid Solid Solid Overall Diameter mm (in) 7.7 (0.305) 7.7 (0.305) 8.0 (0.315) 6.1 (0.240) 6.1 (0.240) 6.1 (0.240) 5.8 (0.230) Nominal Weight g/m (oz/ft) 147.6 (1.6) 147.6 (1.6) 147.6 (1.6) 98.4 (1.05) 101.7 (1.1) 101.7 (1.1) 88.6 (0.95) Minimum Bend Radius mm (in) Typical Flex Cycles4 Temperature Range (C) Crush Resistance kgf/cm (lbf/in) 1 2 3 4 25.4 (1.0) 50,000 100,000 100,000 -55 to 125 50,000 20,000 20,000 -55 to 75 44.6 (250) The electrical specifications in this table are based on a 0.91 m (36 in) assembly length and maximum frequency with straight connectors. When cable is wrapped 360 around a 57 mm (2.25 in) radius mandrel. Per MIL-STD-1344, method 3008. When bent 90 at a radius that is twice the minimum bend radius, test assembly performs reliably through the stated flex cycles. 20,000 GORE PHASEFLEX (R) (R) MICROWAVE/RF TEST ASSEMBLIES Special Purpose Test Assemblies GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies include two special purpose test assemblies --18 GHz assemblies for high throughput production test applications; and flexible, ruggedized 110 GHz assemblies for benchtop testing (see Tables 4 and 5 for specifications). Connector and length configurations specific to these assemblies are available (see Tables 6 and 7). The unique construction of these assemblies includes: High Throughput Production Test Assemblies GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies are engineered to withstand the frequent torque, bending, and shaking common to test and manufacturing floor environments. These assemblies demonstrate excellent stability performance (see Figure 2). Gore high throughput production test assemblies are engineered specifically to reduce total testing costs in production test environments. Their stable performance ensures precise and repeatable measurements, reducing the risk of testing errors and the need for time-consuming troubleshooting and system calibration. These test assemblies increase throughput on the manufacturing line by eliminating the need to use a torque wrench. * Flexible, robust strain-relief boots * Easy grip, quick-turn connectors; eliminating the need for a torque wrench * Durable, highly flexible, small diameter cable construction GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies provide reliable electrical and mechanical performance for high throughput production test applications (see Table 4). Figure 2: Typical Amplitude Stability with Flexure and Shake1 0.080 0.060 Amplitude (dB) 0.040 0.020 0.00 -0.020 -0.040 Table 4: High Throughput Production Test Assembly Specifications1 Electrical Properties Maximum Frequency (GHz) Typical VSWR Typical Insertion Loss (dB) Impedance (Nominal) (Ohms) Typical Phase Stability (degree)2 Typical Amplitude Stability (dB)2 Dielectric Constant (Nominal) Velocity of Propagation (Nominal) (%) Shielding Effectiveness (dB through 18 GHz)3 Time Delay (Nominal) ns/cm (ns/in) Mech./Env. Properties Gore Cable Type Center Conductor Overall Diameter mm (in) Nominal Weight g/m (oz/ft) Minimum Bend Radius mm (in) Temperature Range (C) Crush Resistance kgf/cm (lbf/in) Connector Retention N (lbf) -0.060 -0.080 0G 6 1.08:1 1.20 18 1.27:1 2.19 0 2 4 6 8 10 12 14 Frequency (GHz) 16 18 1 Data is based on a 1 m (39.4 in) assembly. 1 The electrical specifications in this table are based on a 1 m (39.4 in) assembly length at 6 GHz and 18 GHz. When cable is wrapped 360 around a 57 mm (2.25 in) radius mandrel. Per MIL-STD-1344, method 3008. 50 0.5 2.0 < 0.05 1.4 85 > 100 0.04 (0.103) Solid 5.3 (0.210) 65.0 (0.70) 25.4 (1.00) -55 to 125 33.5 (187) > 267 (> 60) 2 3 20 Figure 3: Typical VSWR1 Gore's 110 GHz ruggedized cable assemblies can be flexed, formed, or repositioned without damage while providing excellent stability with flexure and temperature, while maintaining excellent insertion loss and VSWR (see Figures 3 and 4). These assemblies provide reliable electrical and mechanical performance (see Table 5). 2 1.8 VSWR 110 GHz Test Assemblies 1.6 1.4 1.2 1 0 10 20 30 40 50 60 70 Frequency (GHz) 80 90 100 110 80 90 100 110 Figure 4: Typical Insertion Loss1 0 -1 Loss -2 -3 Table 5: 110 GHz Test Assembly Specifications1 Electrical Properties CX Maximum Frequency (GHz) Typical VSWR Typical Insertion Loss (dB) Impedance (Nominal) (Ohms) Typical Phase Stability (degree)2 Typical Amplitude Stability (dB)2 Dielectric Constant (Nominal) Velocity of Propagation (Nominal) (%) Shielding Effectiveness (dB through 18 GHz)3 Time Delay (Nominal) ns/cm (ns/in) 110 1.20:1 2.14 50 1.0 < 0.05 1.4 85 > 100 0.04 (0.103) Mech./Env. Properties Gore Cable Type Center Conductor Overall Diameter mm (in) Nominal Weight g/m (oz/ft) Minimum Bend Radius mm (in) Temperature Range (C) Crush Resistance kgf/cm (lbf/in) Solid 4.2 (0.167) 55.8 (0.60) 10.2 (0.40) -55 to 125 44.6 (250) The electrical specifications in this table are based on a 16 cm (6.3 in) assembly length. 2 When cable is bent 90 around a 25.4 mm (1 in) radius mandrel. 3 MIL-STD-1344, method 3008. 1 -4 -5 0 10 20 30 40 50 60 70 Frequency (GHz) GORE PHASEFLEX (R) (R) MICROWAVE/RF TEST ASSEMBLIES Connector Options Connectors available for GORE(R) PHASEFLEX(R) Microwave/RF Test Assemblies are specifically engineered to optimize performance of the assembly (see Table 6 for connector options). Gore's 601 interface allows the use of field-replaceable connectors on selected 18 GHz cable assemblies (see Table 6). These replaceable connectors thread onto the 601 interface. The replaceable interface cable assembly and the replaceable connectors should be ordered as separate line items (see Table 8 for available replaceable connectors). Table 6: Connector Options 0Y 0G 0H Max. Freq. 3.0 18 18 Connector Type (GHz)1 Type FD Male 3.0 ZLF Type FD Female 3.0 ZLX 7/16 Male 7.0 7/16 Female 7.0 TNC Male 12.4 Type N Male 12.4 N01 Type N Female 12.4 N02 SMA Male2 18 0S1 R01 SMA Box Right-Angle Male 18 R71 SMA Female 18 R02 TNCA Male 18 TNCA Box Right-Angle Male 18 TNCA Female 18 Precision N Male (Field Grade)3 18 0N1 Precision N Male (Instrument Grade) 18 Precision N Right-Angle Male 18 Precision N Female (Field Grade) 18 Precision N Female (Instrument Grade) 18 7 mm Hermaphroditic 18 3.5 mm Male 26.5 3.5 mm Female 26.5 3.5 mm Ruggedized Port Female 26.5 3.5 mm Ruggedized DUT Male 26.5 2.92 mm Male 40 2.92 mm Box Right-Angle Male 40 2.92 mm Female 40 2.4 mm Male 50 2.4 mm Female 50 1.85 mm Male 67 1.85 mm Female 67 1.0 mm Male 110 1.0 mm Female 110 Interface for Replaceable Connectors4 18 1 2 3 4 The maximum operating frequency of a test assembly is determined as the lowest frequency of either the connectors or the cable. 0S1 connector code is an easy grip, quick-turn SMA connector. 0N1 connector code is an easy grip, quick-turn Precision N connector. See Table 8 for compatible connector options that are available separately. 0X 0S 0U Gore Cable Type 0Q 0P 0M 0W 18 18 18 18 18 ZLY ZLZ T01 N01 N02 R01 R71 R02 C01 C71 C02 ZLY ZLZ T01 N01 N02 R01 R71 R02 C01 C71 C02 ZKU Q01 Q71 ZKV Q02 K00 D01 D02 T01 R01 R71 R02 C01 C71 C02 T01 N01 N02 R01 R71 R02 C01 C71 C02 T01 N01 N02 R01 R71 R02 C01 C71 Q01 Q71 Q01 Q01 Q71 Q71 Q01 Q71 Q02 K00 D01 D02 0HA 0HB Q02 Q02 K00 Q02 Q01 Q71 Q02 K00 D01 18 0R 0T 26.5 26.5 26.5 0K 0D 0Z 0F CX 40 40 50 67 110 N01 R01 R71 R02 C01 C71 C02 R01 R71 D01 D02 D01 D02 D01 D02 OHA 0HB 0CQ ZQA 0CP 0CJ 0CK 0CQ 0CQ 0CP 0CP 0CJ 0CK 0CB 0CA 0AB 0AA 601 601 601 601 601 601 Ordering Information To order a Special Purpose Test Assembly from Gore, select the part number needed (see Table 7 for part number details). GORE PHASEFLEX Microwave RF/Test Assemblies are identified by a 12-character part number. This number designates the cable type, connector types, and assembly length: (R) (R) 1 2 Cable Type 34 5 6 7 8 Connector A Connector B 9 10 11 .12 Assembly Length Positions 1-2: See Tables 2 and 3 for the two-letter codes representing each cable type. Positions 3-5 and 6-8: See Table 6 for the list of connectors available for each cable type. Connector codes A and B must be in alphanumeric order. Additionally, Gore offers an interface that can be used with replaceable connectors for 18 GHz cables (see Table 8). Positions 9-12: The length of the assembly is expressed in inches to the nearest tenth, including zeroes to fill positions if the length is less than three digits. For example, the length of a 24-inch test assembly is specified as 024.0 in the last four digits of the part number. Cables are available in standard lengths of 12 in (0.30 m), 24 in (0.61 m), 36 in (0.91 m), 48 in (1.22 m), and 60 in (1.52 m). Gore's Microwave/RF Assembly Builder is a step-by-step tool that allows you to configure and request a quote for a test assembly. For more information, visit www.gore.com/rfcablebuilder. Table 7: Ordering Information for Special Purpose Test Assemblies All sales orders and request for quotes for High Throughput Production Test Assemblies (Gore's 0G cable part numbers) should be submitted directly to Richardson RFPD (Gore authorized global distributor) at www.richardsonrfpd.com. Part Number 0G0S10S1039.4 0G0N10S1039.4 0G0N10N1039.4 0G0S10S1059.1 0G0N10S1059.1 0G0N10N1059.1 Gore Cable Type Connector A Connector B Length in/(m) 0G 0G 0G 0G 0G 0G SMA Male Precision N Male Precision N Male SMA Male Precision N Male Precision N Male SMA Male SMA Male Precision N Male SMA Male SMA Male Precision N Male 39.4 (1.00) 39.4 (1.00) 39.4 (1.00) 59.1 (1.50) 59.1 (1.50) 59.1 (1.50) Table 7: Ordering Information for Special Purpose Test Assemblies, continued Part Number CX0AB0ABC10.0 CX0AA0ABC10.0 CX0AA0AAC10.0 CX0AB0ABC13.0 CX0AA0ABC13.0 CX0AA0AAC13.0 CX0AB0ABC16.0 CX0AA0ABC16.0 CX0AA0AAC16.0 CX0AB0ABC20.0 CX0AA0ABC20.0 CX0AA0AAC20.0 CX0AB0ABC24.0 CX0AA0ABC24.0 CX0AA0AAC24.0 CX0AB0ABC30.0 CX0AA0ABC30.0 CX0AA0AAC30.0 Gore Cable Type Connector A Connector B Length cm/(in) CX CX CX CX CX CX CX CX CX CX CX CX CX CX CX CX CX CX 1.0 mm Male 1.0 mm Female 1.0 mm Female 1.0 mm Male 1.0 mm Female 1.0 mm Female 1.0 mm Male 1.0 mm Female 1.0 mm Female 1.0 mm Male 1.0 mm Female 1.0 mm Female 1.0 mm Male 1.0 mm Female 1.0 mm Female 1.0 mm Male 1.0 mm Female 1.0 mm Female 1.0 mm Male 1.0 mm Male 1.0 mm Female 1.0 mm Male 1.0 mm Male 1.0 mm Female 1.0 mm Male 1.0 mm Male 1.0 mm Female 1.0 mm Male 1.0 mm Male 1.0 mm Female 1.0 mm Male 1.0 mm Male 1.0 mm Female 1.0 mm Male 1.0 mm Male 1.0 mm Female 10.0 (3.9 ) 10.0 (3.9 ) 10.0 (3.9 ) 13.0 (5.1) 13.0 (5.1) 13.0 (5.1) 16.0 (6.3) 16.0 (6.3) 16.0 (6.3) 20.0 (7.9) 20.0 (7.9) 20.0 (7.9) 24.0 (9.4) 24.0 (9.4) 24.0 (9.4) 30.0 (11.8) 30.0 (11.8) 30.0 (11.8) Table 8: Ordering Information for Replaceable Connectors Connector SMA Male SMA Female TNCA Female Precision N Male Precision N Female 7 mm Hermaphroditic TNCA Male 3.5 mm Male 3.5 mm Ruggedized DUT Male 3.5 mm Female Part Number 10020014 10028708 10034080 10020009 10032620 10020012 10020001 10060062 10292654 10066130 GORE PHASEFLEX (R) (R) MICROWAVE/RF TEST ASSEMBLIES NOTICE -- USE RESTRICTIONS APPLY Not for use in food, drug, cosmetic or medical device manufacturing, processing, or packaging operations. W. L. Gore & Associates, Inc. gore.com GORE, PHASEFLEX, the purple cable and designs are trademarks of W. L. Gore & Associates. (c)2013 W. L. Gore & Associates, Inc. GMCA-0025-DAT-US-OCT13 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Gore: 0SR01R01012.0 0SR01R01060.0 0UD01D01012.0 0SQ01Q02036.0 0SR01ZKU036.0 0WD01D02012.0 0SZKUZKU024.0 0SR01ZKU024.0 0D0CP0CQ024.0 0K0CP0CQ024.0 0YN01ZLF060.0 0SQ01Q01012.0 0UD01D02024.0 0F0CB0CB036.0 0UN01N01024.0 0HR01R02048.0 0Z0CK0CK048.0 0UD01D02012.0 0F0CA0CA024.0 0K0CQ0CQ024.0 0UR01R01024.0 0HR01R01024.0 0RD01D02060.0 0XQ01Q01060.0 0UK00K00036.0 0K0CJ0CQ072.0 0SR01ZKU012.0 0Z0CK0CK024.0 0SR01Q01012.0 0SZLYZLY012.0 0T0HAD02048.0 0K0CP0CQ036.0 0YN01N01060.0 0K0CJ0CQ012.0 0K0CK0CQ036.0 0SQ01Q02048.0 0UQ01Q02036.0 0Z0CK0CQ024.0 0K0CK0CQ072.0 0UN01N01036.0 0XR01R01024.0 0K0CQ0CQ072.0 0SZKUZKV060.0 0T0HAD02036.0 0MQ01Q01012.0 0RD01D01060.0 0SQ01Q01060.0 0UK00K00024.0 0F0CA0CA048.0 0T0HA0HB060.0 0Z0CJ0CQ048.0 0UK00K00060.0 0SR01R02048.0 0MQ01Q01060.0 0K0CK0CQ048.0 0SQ01Q01036.0 0S601601048.0 0SZKUZKV012.0 0K0CQ0CQ060.0 0UR01R02024.0 0HR01R02060.0 0Z0CK0CK012.0 0UR01R01012.0 0SR01ZKU060.0 0YN01N01048.0 0SR01ZKU072.0 0Z0CJ0CJ060.0 0XQ01Q01036.0 0XQ01R01012.0 0D0CQ0CQ072.0 0K0CP0CQ048.0 0XR01R01036.0 0SZLYZLY036.0 0K0CQ0CQ036.0 0Z0CJ0CK024.0 0TD01D01060.0 0Z0CJ0CQ036.0 0YN01N01024.0 0K0CP0CQ060.0 0WD01D02024.0 0D0CQ0CQ060.0 0XQ01Q01048.0 0WD01D01012.0 0WD01D01048.0 0Z0CJ0CK036.0 0YN01ZLF012.0 0YZLFZLF048.0 0XR01R01048.0 0XR01R02048.0 0YZLFZLF012.0 0SZKUZKU036.0 0XQ01R01036.0 0HR01R01060.0 0F0CA0CA036.0 0S601601060.0 0XQ01Q01024.0 0Z0CK0CQ060.0 0Z0CK0CK036.0 0UN01N01012.0 0SR01Q01024.0