HX IPEX 1.0-3P Antenna Seat Featuring Voltage Rating and Impedance Specifications for Signal Clarity
Manufacturer:
hanxia
Description:
Connector Receptacle IPEX Male Pin 500Ω Surface Mount
Category:
Coaxial Connector (RF) Assemblies/Coaxial Connector (RF) Assemblies
Specifications
Number Of Ports:
1
Interface:
内针
RF Series:
IPEX
Connector Type:
板端
Style:
-
Operating Temperature:
-40℃~+90℃
Frequency:
6GHz
Impedance:
50Ω
Interface Diameter:
2mm
Mfr. Part #:
HX IPEX 1.0-3P
Package:
SMD
Model Number:
HX IPEX 1.0-3P
Introduction
HX IPEX 1.0-3P Antenna Seat
This document outlines the specifications for the HX IPEX 1.0-3P Antenna Seat, a product from Shenzhen Hanxia Electronic Co., Ltd. It details the product's requirements, testing procedures, and performance criteria to ensure functionality and reliability in various operating conditions.
Product Attributes
- Brand: HX
- Origin: Shenzhen Hanxia Electronic Co., Ltd
- Model: IPEX 1.0-3P
- Certifications: SGS (for environmental compliance)
Technical Specifications
| Item | Requirements | Test Method |
|---|---|---|
| 1.1 Application Condition | ||
| Operating Environment | Temperature: -40C to +90C, Relative Humidity: 25%~85%, Without loss of function. | |
| Storage Environment | Temperature: -55C to +100C, Relative Humidity: 95% or Less, Without loss of function. | |
| Ratings | Voltage Rating: 60VAC Nominal characteristic impedance: 50 Frequency: DC0.1~6GHz | |
| VSWR | Plug: 1.3 Max. (DC0.1~3GHz), 1.5 Max. (3~6GHz) Receptacle: 1.3 Max. (DC0.1~3GHz), 1.4 Max. (3~6GHz) | |
| 1.4 Test Requirements and Methods | ||
| Product Appearance | All components shall be properly assembled and free of burrs, warps, scratches, broken chips, and other abnormalities. Comply with method EIA 364-18B. | Visual, functional, and dimensional inspection complies with applicable specification and document. |
| Low Level Contact Resistance | Initial: 20m Max. Final: 70m Max. | |
| Insulation Resistance | Initial: 500 M Min. Final: 100 M Min. Comply with method EIA-364-21D. Insulation resistance is measured between adjacent contacts after applying 100V DC for 1 minute. | |
| Dielectric Withstanding Voltage | Current leakage: 0.50 mA Max. No evidence of breakdown or flash burn. No burn caused by short circuit. No insulation destruction. Comply with method EIA-364-20D, Test Method B. Apply 300V AC for 1 minute at sea level on tested plug and connectors. | |
| VSWR | Frequency: 100M~6GHz. Measure the VSWR as shown by the network analyzer. | |
| Un-mating force | Total un-mate force: Initial 5N Min. after 30 cycles 3N Min. Un-mate the receptacle connector (soldered to the test board) and plug at a speed 253mm/minutes along the mating by the push-on/pull-off machine. | |
| Crimp strength | 5N MIN. Pull the cable as shown at a speed 253mm/minutes by tensile strength machine. | |
| Durability | Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Appearance: No abnormality. Mate and un-mate the receptacle connector (soldered to the test board) and plug 30 cycles at a speed 253mm/minutes along the mating by the push-on/pull-off machine. Comply with method EIA 364-09C. | |
| Cable retention force | Appearance: Looseness between the parts, chipping, breakage or other abnormality shall not occur. Electrical discontinuity: No electrical discontinuity greater than 1 micro-sec. shall occur. Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Apply force on the cable as shown. During the testing, run 100mA DC to check electrical discontinuity. | |
| Vibration | Appearance: No abnormality. Electrical discontinuity: No electrical discontinuity greater than 1 micro-sec. shall occur. Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Apply the following vibration to the mating connector. Frequency: 10Hz-100Hz-10Hz/approx 20 minutes. Half amplitude, peak value of acceleration: 1.5mm or 59m/s(6G). Directions, cycle: 3 mutually perpendicular directions, 3 cycles for each direction. During the testing, run 100mA DC. Comply with method EIA 364-28E. | |
| Physical shock | Appearance: Looseness between the parts, chipping, breakage or other abnormality shall not occur. Electrical discontinuity: No electrical discontinuity greater than 1 micro-sec. shall occur. Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Apply the following vibration to the mating connector in accordance with MIL-STD-202, Method 213, Condition B. During the testing, run 100mA DC to check electrical discontinuity. Peak value of acceleration: 735m/s(75G). Duration: 11msec. Wave Form: half sinusoidal. Directions, cycle: 6 mutually perpendicular, 3 cycles about each direction. Comply with method EIA 364-27B. | |
| Humidity | Appearance: Looseness between the parts, chipping, breakage or other abnormality shall not occur. Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Insulation resistance: initial 500 mega-ohm MIN, after testing 100 mega-ohm MIN. D.W.Voltage: No creeping discharge, flashover, nor insulator breakdown shall occur. Apply the following environment to the mating connector in accordance with Temperature: 3132K(402C), Humidity: 90~95%RH, Duration: 96 hours. Comply with method EIA 364-31C, Method II, Condition A. | |
| Thermal shock | Appearance: Looseness between the parts, chipping, breakage or other abnormality shall not occur. Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Insulation resistance: initial 500 mega-ohm MIN, after testing 100 mega-ohm MIN. D.W.Voltage: No creeping discharge, flashover, nor insulator breakdown shall occur. Apply the following environment to the mating connector. Temperature: 218K(-55C) : 30 min. 358K(85C): min. Transition time: 5 min. Max. No.of cycles: 5 cycles. Comply with method EIA 364-32E. | |
| Temperature Life | Appearance: Looseness between the parts, chipping, breakage or other abnormality shall not occur. Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Apply the following environment to the mating connector in accordance with Temperature: 3632K(902C), Duration: 96 hours. Comply with method EIA 364-17B. | |
| H2S Gas | Appearance: No abnormality adversely affecting the performance shall occur. Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Apply the following environment to the mating connector in accordance with Temperature: 3132K(402C), Humidity: 805%RH, Gas: H2S 31ppm, Duration: 96 hours. | |
| Salt Mist Test | Appearance: No abnormality adversely affecting the performance shall occur. Contact resistance of inner contact: initial 20m MAX, after testing 40m MAX. Contact resistance of ground contact: initial 20m MAX, after testing 40m MAX. Apply the following environment to the mating connector in accordance with MIL-STD-202, Method 101, Condition B. Temperature: 3082K(352C), Salt water density by weight: 51%, Duration: 48 hours. Comply with method EIA 364-26B, Method 101, Condition B. | |
2411220027_hanxia-HX-IPEX-1-0-3P_C41375965.pdf
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