PE45945 1.85mm female PCB RF connector has an impedance of 50 Ohms. Pasternack's 1.85mm female connector uses clamp as an attachment method. Our female 1.85mm PCB connector provides a maximum frequency of 70 GHz. Our high-quality radio frequency co-axial connector is used for general purpose test and printed circuit board applications. This 1.85mm female RF connector is stocked to be readily available for same business day shipment and can be expertly assembled using our online Cable Creator.
The Pasternack 1.85mm female PCB connector has a maximum VSWR of 1.92:1. Pasternack's 1.85mm PCB connector has a stainless steel body. Our PE45945 1.85mm connector uses a beryllium copper inner contact and a stainless steel outer contact.The Pasternack RF connector block has a maximum inner conductor and outer conductor resistance of 4 mOhms and 2.5 mOhms respectively. Additional RF connector specs and dimensions for this component can be found on its PDF specification datasheet and CAD drawings above.
The radio frequency connector made from stainless steel material has a contact life of 500 cycles or more. The PE45945 1.85mm connector operates at a temperature range of -50 to 125 deg C. This threaded female 1.85mm PCB RF connector has a maximum insertion loss of 0.353 dB. This 1.85mm connector has a gold inner contact plating. The Pasternack 1.85mm female connector has a maximum operating voltage of 150 Vrms and a dielectric withstanding voltage of 500 Vrms. This PCB RF connector comes with a minimum insulation resistance of 5,000 MOhms. Our 1.85mm female connector has a length of 0.44 inches, a width of 0.4 inches, and a weight of 0.01 lbs.
This Pasternack female 1.85mm connector will ship the same business day as purchased. Our 1.85mm female connector is part of over one million RF, microwave, and millimeter wave components in stock for local, domestic, and international shipment. For further information on similar products, our expert technical support and trained sales team can get you the ideal RF connector as per your requirements.