The BNC Right Angle PCB Mount Jack Receptacle is designed for PCB applications. This BNC jack connector features convenient PCB mount type, ensuring horizontal alignment with the PCB board after soldering.
Operating at 50Ω impedance with a frequency range of 0-4 GHz, this connector operates seamlessly, ensuring reliable signal transmission. VSWR of 1.3 max with low insertion loss of 0.3 dB at 3 GHz further contributes to maintaining signal integrity and reducing interruptions.
For durability and excellent electrical characteristics, the connector body is made from high-quality brass, providing stability and reliability. The center contact is made from beryllium copper, ensuring superior electrical conductivity, while PTFE insulation enhances overall durability and isolation performance.
Rated at 500V rms working voltage at sea level with 1500V rms dielectric withstanding voltage, this BNC connector ensures safe and consistent electrical performance across various applications. Insulation resistance of 5000 Megohms ensures long-term reliability under varying environmental conditions.
To maintain low contact resistance, center contact resistance is limited to 1.5 milliohms, while outer contact resistance is maintained within 0.2 milliohms. This connector handles up to 500W power, ideal for applications with high power requirements.
Designed for durability, this BNC connector withstands 500 mating cycles. While specific cable retention specifications are not applicable for this PCB mount type, center contact retention requires minimum axial force of 6 lbs.
Operating effectively across temperatures from -65°C to 165°C, this BNC Right Angle PCB Mount Jack Receptacle suits various environmental conditions. This connector complies with stringent quality standards including MIL-STD-202 Method 204 Test Condition B for vibration and MIL-STD-202 Method 101 Test Condition B for salt spray testing.
Upgrade your PCB board connectivity with the BNC Right Angle PCB Mount Jack Receptacle—an ideal solution for reliable and secure connections.
