Product Specification Series: FS5 / FT5 0,50 mm (.020”) High Speed Floating Contact Socket / Terminal FS5 Series – Socket, Vertical Orientation FT5 Series – Terminal, Vertical Orientation Other configurations available for: Right Angle applications See www.samtec.com for more information. Revision: A Date: August 20, 2013 Page 1 © Samtec, Inc. Product Specification Series: FS5 / FT5 0,50 mm (.020”) High Speed Floating Contact Socket / Terminal 1.0 SCOPE 1.1 This specification covers performance, testing and quality requirements for Samtec FS5/FT5 Series 0,50 mm (.020”) High Speed Floating Contact Socket / Terminal connector system. All information contained in this specification is for a Vertical socket / Vertical terminal mated configuration unless otherwise noted. Vertical socket / Right Angle terminal mated configuration is available on www.samtec.com. 2.0 DETAILED INFORMATION 2.1 Product prints, footprints, catalog pages, test reports and other specific, detailed information can be found at www.samtec.com?FS5 and www.samtec.com?FT5. 3.0 TESTING 3.1 Current Rating: 1.8A (One Pin Powered Per Row) 3.1.1 Current Carrying Capacity: tested per EIA-364-70 3.1.2 Current Cycling: tested per EIA-364-55 3.2 Voltage Rating: 180 VAC 3.3 Operating Temperature Range: -55°C to +125°C 3.4 Electrical: ITEM TEST CONDITION REQUIREMENT STATUS Withstanding Voltage EIA-364-20 (No Flashover, Sparkover, or Breakdown) 540 VAC Pass Insulation Resistance EIA-364-21 (1000 MΩ minimum) 5,000 MΩ Pass Contact Resistance (LLCR) EIA-364-23 Δ 15 mΩ maximum (Samtec defined)/ No damage Pass REQUIREMENT STATUS 3.5 Mechanical: ITEM TEST CONDITION Durability EIA-364-09C 100 cycles (10µ" Au) Pass Random Vibration EIA-364-28 Condition V, Letter B 7.56 G 'RMS', 50 to 2000 Hz, 2 hours per axis, 3 axis total , PSD 0.04 Visual Inspection: No Damage LLCR: Δ 15 mΩ maximum Event Detection: No interruption > 50 microsecond Pass Mechanical Shock EIA-364-27 100 G, 6 milliseconds, sawtooth wave, 11.3 fps, 3 shocks/direction, 3 axis (18 total shocks) Visual Inspection: No Damage LLCR: Δ 15 mΩ maximum Event Detection: No interruption > 50 microsecond Pass Normal Force EIA-364-04 30 grams minimum for gold interface Pass Revision: A Date: August 20, 2013 Page 2 © Samtec, Inc. Product Specification Series: FS5 / FT5 0,50 mm (.020”) High Speed Floating Contact Socket / Terminal 3.6 Environmental: ITEM TEST CONDITION REQUIREMENT STATUS Thermal Shock EIA-364-32 Thermal Cycles: 100 (30 minute dwell) Hot Temp: +85°C Cold Temp: -55°C Hot/Cold Transition: Immediate Visual Inspection: No Damage LLCR: Δ 15 mΩ DWV: 540 VAC IR: >100,000 MΩ Pass Thermal Aging (Temp Life) EIA-364-17 Test Condition 4 @ 105°C Condition B for 250 hours Visual Inspection: No Damage LLCR: Δ 15 mΩ DWV: 540 VAC IR: >100,000 MΩ Pass Cyclic Humidity EIA-364-31 Test Temp: +25°C to +65°C Relative Humidity: 90 to 95% Test Duration: 240 hours Visual Inspection: No Damage LLCR: Δ 15 mΩ DWV: 540 VAC IR: >100,000 MΩ Pass Gas Tight EIA-364-36 Gas Exposure: Nitric Acid Vapor Duration: 60 min. Drying Temp.: 50°C +/- 3°C Measurements: Within 1 hour of Exposure LLCR: Δ 15 mΩ Pass Revision: A Date: August 20, 2013 Page 3 © Samtec, Inc. Product Specification Series: FS5 / FT5 0,50 mm (.020”) High Speed Floating Contact Socket / Terminal 4.0 MATED SYSTEM 4.1 Stack Heights STACK HEIGHT FT5 LEAD STYLE FS5 LEAD STYLE -04.0 "A" -01.0 -03.0 -06.0 -08.0 -10.0 5.0 MM 7.0 MM 10.0 MM 12.0 MM 14.0 MM 5.0 POLARIZING FEATURES Revision: A Date: August 20, 2013 Page 4 © Samtec, Inc. Product Specification Series: FS5 / FT5 0,50 mm (.020”) High Speed Floating Contact Socket / Terminal 6.0 HIGH SPEED PERFORMANCE 6.1 Based on a 3 dB insertion loss 6.2 System Impedance: 50 ohm for single-ended and 100 ohm for differential pair. Stack Height 5 mm 7 mm Single-Ended Signaling 6.0 GHz/12 Gbps 5.5 GHz/11 Gbps Differential Pair Signaling 6.0 GHz/12 Gbps 5.5 GHz/11 Gbps 7.0 PROCESSING RECOMMENDATIONS 7.1 Mating Alignment Requirements: 7.1.1 Revision: A Maximum guidance/capture in applications where at least one half of the interface is free to float. Date: August 20, 2013 Page 5 © Samtec, Inc. Product Specification Series: FS5 / FT5 0,50 mm (.020”) High Speed Floating Contact Socket / Terminal 7.1.2 The parts can be rigidly misaligned by no more than .020” (0,50 mm) in the X- and .020” (0,50 mm) in the Y-direction to ensure a good mate. 7.2 Mating Angle Requirements: The connector can be zippered in the longitudinal direction only. 7.2.1 Revision: A Date: August 20, 2013 Page 6 © Samtec, Inc. Product Specification Series: FS5 / FT5 0,50 mm (.020”) High Speed Floating Contact Socket / Terminal 7.2.2 7.3 Maximum Reflow Passes: The parts can withstand three reflow passes at a maximum oven temperature of 260°C. 7.4 Stencil Thickness: The stencil thickness is .005” (0,13 mm). 7.5 Placement: Machine placement of the parts is recommended. 7.6 Thermal Profile: Due to the large number of processing variables (printed wiring board design, reflow oven type, component quantity, solder paste type, etc.), Samtec does not provide specific reflow profiles for any connector. We recommend that the solder paste manufacturer’s guidelines be followed for optimum soldering results. 7.7 Reflow Environment: Samtec recommends the use of a low level oxygen environment (typically achieved through Nitrogen gas infusion) in the reflow process to improve solderability. 7.8 Hardware: Board-to-board standoffs are recommended to provide a robust mechanical connection. Samtec’s wide variety of standoff options can be found here: SO - Board Stacking Standoff. 8.0 ADDITIONAL RESOURCES 8.1 For additional mechanical testing or product information, contact our Customer Engineering Support Group at [email protected] 8.2 For additional information on high speed performance testing, contact our Signal Integrity Group at [email protected] 8.3 For additional processing information, contact our Interconnect Processing Group at [email protected]. 8.4 For RoHS, REACH or other environmental compliance information, contact our Product Environmental Compliance Group at [email protected] Revision: A Date: August 20, 2013 Page 7 © Samtec, Inc.