NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE REVISION 1 of 11 (R) AirMax VS Connector System, press-fit products AUTHORIZED BY Tan Chen Hong STATUS F DATE 30 Sep 08 UNRESTRICTED AirMax VS(R) Connector System Backpanel Receptacle Coplanar Backpanel Header Copyright Orthogonal Header and Receptacle FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE AirMax VS Connector System, press-fit products REVISION 2 of 11 (R) AUTHORIZED BY F DATE Tan Chen Hong STATUS 30 Sep 08 UNRESTRICTED TABLE OF CONTENTS: 1.0 2.0 3.0 OBJECTIVE ........................................................................................................................ 3 SCOPE ................................................................................................................................ 3 APPLICABLE DOCUMENTS .............................................................................................. 3 3.1 FCI Specifications ............................................................................................................. 3 3.2 Other Standards and Specifications ................................................................................. 3 3.3 FCI Product Qualification Test reports.............................................................................. 3 4.0 REQUIREMENTS ................................................................................................................. 3 4.1 Materials............................................................................................................................. 3 4.2 Visual Examination of Product ........................................................................................... 3 5.0 ELECTRICAL CHARACTERISTICS ..................................................................................... 4 5.1 Low Level Contact Resistance........................................................................................... 4 5.2 Insulation Resistance ......................................................................................................... 4 5.3 Dielectric Withstanding Voltage ......................................................................................... 4 5.4 Current Rating.................................................................................................................... 4 6.0 MECHANICAL CHARACTERISTICS.................................................................................... 5 6.1 Mating / Un-mating Force................................................................................................... 5 6.2 Compliant pin insertion force ............................................................................................. 5 6.3 Compliant pin retention force ............................................................................................. 5 6.4 PCB Hole Deformation Radius .......................................................................................... 5 6.5 PCB Hole Wall Damage..................................................................................................... 5 7.0 ENVIRONMENTAL CONDITIONS........................................................................................ 6 7.1 Thermal Shock: .................................................................................................................. 6 7.2 Cyclical Humidity and Temperature: .................................................................................. 6 7.3 Temperature Life:............................................................................................................... 6 7.4 Industrial Mixed Flowing Gas (Class IIA, 4-gas):............................................................... 6 7.5 Vibration ............................................................................................................................. 7 7.6 Mechanical Shock .............................................................................................................. 7 7.7 Durability ............................................................................................................................ 7 7.8 Dust Contamination............................................................................................................ 7 7.9 Disturb ................................................................................................................................ 7 8.0 QUALITY ASSURANCE PROVISIONS ................................................................................ 8 8.1 Equipment Calibration........................................................................................................ 8 8.2 Inspection Conditions......................................................................................................... 8 8.3 Sample Quantity and Description ...................................................................................... 8 8.4 Acceptance ........................................................................................................................ 8 8.5 Qualification Testing........................................................................................................... 8 8.6 Re-Qualification Testing..................................................................................................... 8 Table 1: Qualification Test Matrix............................................................................................... 9 Table 2: Qualification Sample Requirements........................................................................... 10 REVISION RECORD .......................................................................................................................... 11 Copyright FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE AirMax VS Connector System, press-fit products REVISION 3 of 11 (R) AUTHORIZED BY F DATE Tan Chen Hong STATUS 1.0 30 Sep 08 UNRESTRICTED OBJECTIVE This specification defines the performance, test, and quality and reliability requirements of the press-fit AirMax VS(R) Connector System. This specification applies to all press-fit backpanel, coplanar and orthogonal receptacles and headers, including 5 pair, 4 pair, and 3 pair products on both 2mm and 3mm column pitch and 4 pair orthogonal receptacles and headers on 4.2mm column pitch. The test sequences defined in this specification meet the intent of Telcordia GR-1217-CORE requirements. 2.0 SCOPE This specification is applicable to the termination characteristics of the press-fit AirMax VS(R) Connector System which provides a high speed board-to-board interconnect for differential pairs and single-ended lines. 3.0 4.0 APPLICABLE DOCUMENTS 3.1 FCI Specifications - Applicable FCI product customer drawings - FCI Application Specification GS-20-035 (AirMax VS(R) Connector System, press-fit products) 3.2 Other Standards and Specifications - UL94V-O: Test for Flammability of Plastic Materials in Devices and Appliances - EIA 364: Electrical Connector/Socket Test Procedures Including Environmental Classifications - GR-1217-CORE: Telcordia Specification "Generic Requirements for Separable Electrical Connectors" 3.3 FCI Product Qualification Test reports - EL 2004-03-008D: Press-fit AirMax VS(R) Backpanel Receptacle products - EL 2006-04-004D: Press-fit AirMax VS(R) Backpanel Receptacle products, Performance-based Plating, GXTTM & Hard Gold contact cross-mating - EL 2006-07-022A: Press-fit AirMax VS(R) Backpanel Header products - EL 2008-08-017 : Press-fit AirMax VS(R) Orthogonal Header and Receptacle products REQUIREMENTS 4.1 Materials The material for each component shall be as specified herein or equivalent. - Contacts: copper alloy - Plating: Contact Areas: Performance-based plating, qualified to meet the requirements of this specification, including the Telcordia GR-1217-CORE (November 1995) Central Office test sequence. Press-fit Tails: Tin or tin-lead over nickel - Housings: high temperature thermoplastic; UL 94V-0 compliant 4.2 Visual Examination of Product Visual examinations shall be performed using 10x magnification. Parts should be free from blistering, cracks, discoloration, etc. Copyright FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE AirMax VS Connector System, press-fit products REVISION 4 of 11 (R) AUTHORIZED BY Tan Chen Hong STATUS 5.0 F DATE 30 Sep 08 UNRESTRICTED ELECTRICAL CHARACTERISTICS 5.1 Low Level Contact Resistance Measurements shall be performed using a four-wire method per EIA 364-23B. The maximum initial signal contact resistance is 35 m for backpanel and orthogonal (one mated interface) applications and 50 m for coplanar applications. The increase in resistance for any position shall not exceed 10 m. The following details apply: a. b. c. 5.2 Test voltage: 20 mV maximum open circuit Test current: 100 mA maximum Number of readings: 500 minimum Insulation Resistance The insulation resistance of mated connectors shall not be less than 1000 M after environmental exposure when measured in accordance with EIA 364-21C. The following details shall apply: a. b. c. d. 5.3 Test voltage: 500 VDC Electrification time: 60 seconds Points of measurement: between closest adjacent contacts Number of readings: 30 (10 readings per loose-piece connector set) Dielectric Withstanding Voltage There shall be no evidence of arc-over, insulation breakdown, or excessive leakage current (> 0.5 mA) when the mated connectors are tested in accordance with EIA 364-20C. The following details shall apply: a. b. c. d. e. 5.4 Test voltage: 500 VAC, 60Hz Test duration: 60 seconds Voltage application rate: 500 V per second Points of Measurement: between closest adjacent contacts Number of readings: 30 (10 readings per loose-piece connector set) Current Rating Perform in accordance with EIA 364-70A. Measure temperature vs. applied current for all contacts powered. The following details shall apply: a. b. c. d. Ambient conditions: still air at 25oC Thermocouple location: mechanically attached to the base of the header mating contacts Copper trace weight: 1 oz Quantity and location of thermocouples: 10 (5 on an interior column at positions A, C, E, G, and I; 5 on an outside column at positions A, C, E, F, G, and I) The temperature rise above ambient shall not exceed 30 degrees C with all contacts powered at 0.5A. Copyright FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE AirMax VS Connector System, press-fit products REVISION 5 of 11 (R) AUTHORIZED BY Tan Chen Hong STATUS 6.0 F DATE 30 Sep 08 UNRESTRICTED MECHANICAL CHARACTERISTICS 6.1 Mating / Un-mating Force Perform in accordance with EIA 364-13B. The force to mate a receptacle connector and compatible header shall not exceed 0.45 N per contact (0.60 N per orthogonal contact). The un-mating force shall not be less than 0.15 N per contact. The following details shall apply: a. b. c. d. e. 6.2 Cross head speed: 1 inch per minute Lubrication: None Utilize free-floating fixtures Number of mate/un-mate cycles: 3 Number of mated connector pairs to be tested: 10 Compliant pin insertion force Perform in accordance with EIA 364-05B. Fully populated connectors shall be applied to test boards with minimum, maximum, and nominal size plated through holes (as defined in Table 2) using an electric application press and FCI recommended application tooling. The following details shall apply: a. b. c. d. e. 6.3 Force to insert one straight or right angle header pin: 40 N maximum Force to insert one right angle receptacle pin: 40 N maximum Force to insert one straight receptacle or orthogonal header pin: 25 N maximum Number of readings: 1 per connector assembly tested Number of connectors to be tested: 13 sets (3 sets in minimum holes; 5 sets in nominal holes; 5 sets in maximum holes) Compliant pin retention force Perform in accordance with EIA 364-05B. Fully populated connectors shall be removed from test boards with minimum, maximum, or nominal size plated through holes (as defined in Table 2) using an electric application press and FCI recommended removal tooling. The following details shall apply: a. b. c. d. Force to remove one straight or right angle header pin: 7 N minimum Force to remove one right angle receptacle pin: 7 N minimum Force to remove one straight receptacle or orthogonal header pin: 3 N minimum Number of connectors to be tested: 13 sets (3 sets in minimum holes; 5 sets in nominal holes; 5 sets in maximum holes) 6.4 PCB Hole Deformation Radius Perform in accordance with Telcordia GR-1217-CORE, November 1995, Section 5.1.7. Use test boards with minimum diameter plated through holes. Make cross-sections 0.25mm (0.010 inch) from the top board surface and near the center of the press-fit section. Photograph and measure the minimum copper thickness remaining between the compliant pin and the printed wiring board laminate and the hole deformation radius. The minimum average copper thickness remaining between the compliant pin and the printed wiring board laminate shall not be less than 7.5 m (0.0003"). The maximum average hole deformation radius shall be no greater than 37.5 m (0.0015"). The maximum hole deformation radius reading must not exceed 50 m (0.0020"). Test 15 holes. 6.5 PCB Hole Wall Damage Perform in accordance with Telcordia GR-1217-CORE, November 1995, Section 5.1.7. Use test boards with minimum diameter plated through holes. Cross-section perpendicular to the board surface and through the compliant section wear track. There shall be no copper cracks, separations between conductive interfaces, or laminate-to-copper separations. Test 15 pins. Copyright FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE AirMax VS Connector System, press-fit products REVISION 6 of 11 (R) AUTHORIZED BY Tan Chen Hong STATUS 7.0 F DATE 30 Sep 08 UNRESTRICTED ENVIRONMENTAL CONDITIONS After exposure to the following environmental conditions in accordance with "Table 1 - Qualification Test Matrix", the product shall show no physical damage and shall meet the electrical and mechanical requirements in sections 6 and 7. Unless specified otherwise the products shall be mated during exposure. 7.1 Thermal Shock: Perform in accordance with EIA 364-32C. The following details shall apply: a. b. c. d. 7.2 Number of cycles: 5 Temperature range: -55 to + 85oC Time at each temperature: 30 minutes minimum Transfer time: 30 seconds maximum Cyclical Humidity and Temperature: Mated samples are to be exposed to cyclical humidity and temperature in accordance with EIA 364-31B. Samples are to be subjected to 50 cycles of 10-hour duration for a total of 500 hours. A cycle consists of the following steps. a. b. c. d. 7.3 2 hour ramp from 25C at 80%-98% RH to 65C at 90%-98% RH 4 hour dwell at 65C at 90%-98% RH 2 hour ramp down to 25C at 80%-98% RH 2 hour dwell at 25C at 80%-98% RH Temperature Life: Perform in accordance with EIA 364-17B. Headers and receptacles shall remain mated without any electrical load. The following details shall apply: a. Temperature: 85C b. Duration: 500 hours 7.4 Industrial Mixed Flowing Gas (Class IIA, 4-gas): Expose samples to gas mixture per Telcordia GR-1217-CORE, November 1995, Section 9.1.3 as follows: a. Temperature: 30C b. Relative humidity: 70% c. Mandatory readings after the 10th and 20th days d. Gas compositions, per Central Office requirements: Gas Concentration Gas Type NO2 200 ppb Cl2 10 ppb 10 ppb H2S SO2 100 ppb Case 1: Backpanel and Orthogonal Applications Un-mated backpanel connectors are to be exposed to gas mixture for 10 days, then mated and exposed for an additional 10 days. Case 2: Coplanar Applications Each connector gender is to be exposed to gas mixture in the unmated condition for 10 days, then mated to an unexposed connector for a 10 day additional gas exposure and the remainder of the test. Copyright FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE AirMax VS Connector System, press-fit products REVISION 7 of 11 (R) AUTHORIZED BY Tan Chen Hong STATUS 7.5 F DATE 30 Sep 08 UNRESTRICTED Vibration Perform in accordance with Telcordia GR-1217-CORE, November 1995, Sections 6.3.5 and 9.1.2.1. The following details shall apply: a. b. c. d. e. f. 7.6 Vibration amplitude: 1.5 mm (0.06 inch) double amplitude or 10G acceleration Frequency range: 10 to 500 to 10 Hz Sweep time: 15 minutes per cycle Duration: 8 hours along each of three orthogonal axes (24 hours total) Mounting: rigidly mounted assemblies No discontinuities greater than 1 micro-second Mechanical Shock Perform in accordance with Telcordia GR-1217-CORE, November 1995, Sections 6.3.5 and 9.1.2.1. The following details shall apply: a. b. c. d. e. f. 7.7 Amplitude: half sine 30G Duration: 11 milliseconds Number of shocks: 3 shocks along each of three orthogonal axis (18 total) Mounting: rigidly mounted assemblies Take resistance measurements after shock in each axis No discontinuities greater than 1 micro-second Durability Perform in accordance with EIA 364-09C. Use standard laboratory procedure as applicable to the specific product. The following details shall apply: a. Number of cycles: See Table 1 (200 total mating cycles) b. Cycling rate: 12.5 cm (5 inches) per minute 7.8 Dust Contamination Perform in accordance with Telcordia GR-1217-CORE, November 1995, Section 9.1.1.1 & Table 9-1. Samples shall be subjected to a one-hour dust exposure using a benign dust composition as specified in Table 9-1 of Telcordia GR-1217-CORE, November 1995, and in accordance with the following: Case 1: Backpanel and Orthogonal Applications Un-mated backpanel connectors alone shall be subjected to dust exposure. Case 2: Coplanar Applications Each connector gender is to be subjected to dust exposure in the unmated condition, then mated to an unexposed connector for the remainder of the test sequence. Alternatively, in order to reduce the need for additional samples, the mating halves may be subjected to dust exposure and re-mated to each other for the remainder of the test sequence. 7.9 Copyright Disturb Perform in accordance with Telcordia GR-1217-CORE, November 1995, Section 9.1.3.3 paragraph 7. The mated connectors shall be subjected to an interface disturbance that consists of slightly unmating the sample approximately 0.10 mm (0.004 inch). The sample is then reseated and measurements are made. FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE AirMax VS Connector System, press-fit products REVISION 8 of 11 (R) AUTHORIZED BY Tan Chen Hong STATUS 8.0 F DATE 30 Sep 08 UNRESTRICTED QUALITY ASSURANCE PROVISIONS 8.1 Equipment Calibration All test equipment and inspection facilities used in the performance of any test shall be maintained in a calibration system in accordance with ISO 9000. 8.2 Inspection Conditions Unless otherwise specified herein, all inspections shall be performed under the following ambient conditions: a. Temperature: 25 5C b. Relative humidity: 20% to 80% c. Barometric pressure: Local ambient 8.3 Sample Quantity and Description The test sequences for qualification testing and connector sample sizes for each are shown in Table 1. The number of readings is specified in the description for each test. 8.4 Acceptance Electrical and mechanical requirements placed on test samples as indicated in the sections of this specification shall be established from test data using appropriate statistical techniques or shall otherwise be customer specified, and all samples tested in accordance with the product specification shall meet the stated requirements. Failures attributed to equipment, test set-up or operator error shall not disqualify the product. If product failure occurs, corrective action shall be taken and samples resubmitted for qualification. 8.5 Qualification Testing Qualification testing shall be performed on sample units with equipment and procedures normally used in production. The test sequences are shown in Table 1. 8.6 Re-Qualification Testing If any of the following conditions occur, the responsible product engineer shall initiate re-qualification testing consisting of all applicable parts of the qualification test program as shown in Table 1. a. A significant design change is made to the existing product, which impacts the product form, fit or function. Examples of significant changes shall include, but not be limited to, changes in the plating, material composition or thickness, contact force, pin/contact surface geometry, insulator or housing design, pin/contact base material or pin/contact lubrication. b. A significant change is made to the manufacturing process, which impacts the product form, fit or function. c. A significant event occurs during production or end use requiring corrective action to be taken relative to the product design or manufacturing process. Copyright FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE REVISION 9 of 11 (R) AirMax VS Connector System, press-fit products F AUTHORIZED BY DATE Tan Chen Hong STATUS 30 Sep 08 UNRESTRICTED Table 1: Qualification Test Matrix TEST GROUP ID TEST DESCRIPTION VISUAL EXAMINATION OF PRODUCT MATE HEADER AND RECEPTACLE UNMATE HEADER AND RECEPTACLE P 1 2 Design Mixed verification Temp Flowing SECTION for product Life Gas 2 extension 4.3 1,6 LOW LEVEL CONTACT RESISTANCE 5.1 3,5 INSULATION RESISTANCE DIELECTRIC WITHSTANDING VOLTAGE CURRENT RATING 5.2 5.3 5.4 1,16 2,8 6 1,5 4(1) 3a 3b Thermal Shock & Humidity Thermal Shock & Humidity 1,11 2 1,16 2,10 8 1,14 2,8 6 3,5,7,11, 13,15 3,5,9,11, 13 5 Vibration PCB & Mech. Hole Shock Deform 1 6 7 Press-fit Forces Current & Rating Mating Force 1 1,3 ELECTRICAL: 3,5,9,11 ,13,15 2,4 3,6,9 4,7,10 2 MECHANICAL: MATING/UN-MATING FORCE COMPLIANT PIN INSERTION FORCE COMPLIANT PIN RETENTION FORCE PCB HOLE DEFORMATION RADIUS PCB HOLE WALL DAMAGE 6.1 6.2 6.3 6.4 6.5 2 2,4,6 3,5 7 8 3 2 4 ENVIRONMENTAL: THERMAL SHOCK CYCLICAL HUMIDITY & TEMPERATURE TEMPERATURE LIFE MFG, UNMATED, 10-DAYS (see noted sect.) MFG, MATED, 10-DAYS (see noted section) VIBRATION MECHANICAL SHOCK DURABILITY, 99 CYCLES DUST CONTAMINATION (see noted section) DISTURB 7.1 7.2 7.3 7.4 7.4 7.5 7.6 7.7 7.8 7.9 5 8 4 12 3 7 10 (1) 4 4, 14 6,14 9 10 (1) 12 4 7 12 TEST SEQUENCE NOTES: 1. 2. Discontinuity is measured only on the set of connectors that are not being monitored for LLCR (Test Group 4) The largest version of each product configuration is exposed to the entire qualification program (groups 1-7). Product extensions using the same design, but fewer rows are exposed to test group P only for design verification. Copyright FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE REVISION 10 of 11 (R) AirMax VS Connector System, press-fit products F AUTHORIZED BY DATE Tan Chen Hong STATUS 30 Sep 08 UNRESTRICTED Table 2: Qualification Sample Requirements TEST GROUP ID (2) SAMPLE DESCRIPTION P 1 Design verification for product 2 extension 2 Mixed Temp Flowing Life Gas 3a 3b Thermal Shock & Humidity Thermal Shock & Humidity 4 5 Vibration PCB & Mech. Hole Shock Deform 6 7 Press-fit Forces Current & Rating Mating Force Product and Test Samples Required (All 150 Position2): BACKPANEL RECEPTACLE APPLICATION VERTICAL RECEPTACLE 4 4 4 3 4 5 18 10 1 RIGHT ANGLE HEADER 4 4 4 3 4 5 9 10 1 LLCR TEST BOARD SETS 4 4 4 4 4 CONTINUITY BOARDS (BACKPANEL) 1 CONTINUITY BOARDS (DAUGHTER CARD / NOMINAL HOLE) 1 MINIMUM HOLE MECH TEST BOARDS, 4 LAYER 1 10 9 1 (1) MAXIMUM HOLE MECHANICAL TEST BOARDS 10 2 Product and Test Samples Required (All 150 Position ): BACKPANEL HEADER and ORTHOGONAL APPLICATIONS VERTICAL HEADER SAMPLES 4 4 4 3 4 5 18 10 1 RIGHT ANGLE RECEPTACLE SAMPLES 4 4 4 3 4 5 9 10 1 LLCR TEST BOARD SETS 4 4 4 4 4 CONTINUITY BOARDS (BACKPANEL) 1 CONTINUITY BOARDS (DAUGHTER CARD / NOMINAL HOLE) 1 MINIMUM HOLE MECH TEST BOARDS, 4 LAYER 1 10 9 MAXIMUM HOLE MECHANICAL TEST BOARDS 1 (1) 10 2 Product and Test Samples Required (All 150 Position ): COPLANAR APPLICATION RIGHT ANGLE HEADER SAMPLES 4 8 4 3 4 5 10 1 RIGHT ANGLE RECEPTACLE SAMPLES 4 8 4 3 4 5 10 1 LLCR TEST BOARD SETS 4 8 4 4 4 CONTINUITY BOARDS (BACKPANEL) 1 CONTINUITY BOARDS (DAUGHTER CARD / NOMINAL HOLE) 1 1 10 1 MINIMUM HOLE MECH TEST BOARDS, 4 LAYER MAXIMUM HOLE MECHANICAL TEST BOARDS 10 SAMPLE REQUIREMENT NOTES: 1. 2. Three of the backpanel test boards are to be back-drilled to a depth of 0.8mm (Test Group 5 / Backpanel Application only) The largest version of each product configuration is exposed to the entire qualification program (groups 1-7). Product extensions using the same design, but fewer rows are exposed to test group P only for design verification. Copyright FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. NUMBER TYPE GS-12-239 PRODUCT SPECIFICATION TITLE PAGE AirMax VS Connector System, press-fit products REVISION 11 of 11 (R) AUTHORIZED BY Tan Chen Hong STATUS F DATE 30 Sep 08 UNRESTRICTED REVISION RECORD REV PAGE DESCRIPTION EC # DATE A all V04-1019 8 Oct 04 B 5, 7 V05-0843 9 Sep 05 C all Initial release Increased min un-mating force to 0.15H in sec 6.1; Changed vibration sweep cycle time from 20 min to 15 min in sec 7.5c; Added "200 total mating cycles" to sec 7.7a Updated FCI logo; added details related to coplanar and backpanel header product configurations; added test group P to table 1 V06-0527 12 Jun 06 V06-0869 8 Sept 06 S07-0293 30 Aug 07 S08-0315 30 Sep 08 D E 2,3,6,7, 9, 10 1, 3-7, 10 3 F Copyright 5 Updated for coplanar applications and performance-based plating Added orthogonal header and receptacle; section 1.0, 5.1, 6.2, 6.3, 7.4, 7.8 & Table 2 Section 3.3: Update test report information Update orthogonal mating force: section 6.1 Update orthogonal header compliant pin insertion and retention force(similar to standard vertical receptacle): Section 6.2 & 6.3 FCI Form E-3334 Rev F GS-01-001 PDM: Rev:F STATUS:Released Printed: Nov 28, 2010. Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: FCI / Amphenol: 10025613-101LF 10043546-101LF 10045271-101LF 10045267-101LF 10034249-101LF 10037324-101LF 10035146-101LF 10084612-101LF 10016527-101LF 10034264-101LF 10040862-101LF 10041746-101LF 10045266-101LF 10056101-1010011LF 10056101-1050011LF 10084604-111LF 10114761-101LF