SMA Jack Crimp Right Angle for PCB Mount for 1.13 Cable
With a wealth of manufacturing and design experience, we specialize in OEM, ODM business, and offer a extensive of products including RF/Microwave, Coaxial Connectors, Antennas and Cable Assemblies. SMA Jack Crimp Right Angle for PCB Mount for 1.13 Cable SSA-0023-1.13 Specification
Electrical Impedance 50ohm Frequency Range 0-12.4 GHz on Flexible cable 0-18 GHz on Semi-rigid cable Working Voltage RG-178: 170 VRMS max RG-316,.085" :250 VRMS max RG-142,.141" :335 VRMS max Dielectric Withstanding Voltage RG-178: 500 VRMS min RG-316,.085" :750 VRMS min RG-142,.141" :1000 VRMS min VSWR Straight 1.3 max Right Angle 1.5 max Contact Resistance Center Contact 6 Milliohms Max Outer Contact 2 Milliohms Max Insulator Resistance 5000 Megohms min. Material
Parts Name Material Finish Body, Metal Parts Brass per QQ-B-626 or Non-magnetic Stainless steel per QQ-S-764#303 Nickel plated or passivated per requirement Center Contacts Plug: Brass per QQ-B-626 Gold Jack: Beryllium copper per QQ-C-530 or Phosphor Bronze per QQ-B-750 Gold Insulators Teflon None Crimp Ferrules Annealed copper Nickel or Gold per requirement Clamp Gaskets Silicone rubber None
NOTE : Other Material/Finish is Available on Request.
Mechanical & Environmental
Engagement Force 2 in-lbs. max. Disengagement Force 2 in-lbs. max. Coupling Nut Retention 60 lbs. min. Contact Proof Torque 15 in-lbs. min. Contact Retention 6 lbs. min. Durability (Mating) 500 cycles min.(for Beryllium copper Jack contact only) Temperature Range -65℃ to 165℃ Vibration MIL-STD-202 Method 204 Test Cond.B. Salt Spray MIL-STD-202 Method 101 Test Cond.B. Thermal Shock MIL-STD-202 Method 107 Test Cond.B.
Cable Assembly Instructions-Solder (Semi-Rigid)
STEP 1. All parts of the connector are shown. STEP 2. Strip the cable inner conductor, dielectric, braid, and jacket as per "RECOMMENDED CABLE STRIPPING DIM'S" in catalog STEP 3. Insert inner conductor into the CONTACT PIN and crimp it with the crimp tool as shown. STEP 4. Solder the MAIN BODY to cable as shown (avoid excessive heat which may distort dielectric).Then press the INSULATOR into the MAIN BODY until it stops. Files Download
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