PL375 (6)

PL375 is available from Cinch Connectivity Solutions at Xecor. Designed for high-frequency signal transmission, the PL375 offers robust performance with features such as a threaded fastening type, a nickel-plated brass body, and a gold-plated beryllium copper center contact. Available in a bulk packaging configuration, it is ideal for applications in telecommunications, aerospace, and industrial environments where reliable triaxial connectivity is essential. Whether used in RF systems, test and measurement equipment, or communication networks, this series ensures durability, consistent signal integrity, and efficient operation for demanding applications. Xecor is an authorized distributor for Cinch Connectivity Solutions. Please view our extensive selection of the PL375 series below.

Part Number Description Package Inventory Add To Bom
PL375-32 Conn Twinax/Triax ST Cable Mount PL Connector 9,002
PL375C-201 Threaded Concentric Twinax/Triax Cable Plug Full Crimp 7,698
PL375-7 Conn Twinax/Triax 0Hz to 0.5GHz Crimp ST Cable Mount PL Gold 7,794
PL375-64 TRT Plug, Wrench Crimp, Straight, Threaded for 7528A5314 7,132
PL375-47 Conn Twinax/Triax 0Hz to 0.5GHz Crimp ST Cable Mount PL Gold 9,830
PL375-13A Designed for high-frequency applications up to 500MHz, ideal for industrial uses 8,407

Key Featrues

Triaxial Connector Design (TRT): The triaxial connector design ensures superior signal integrity by providing an additional shielding layer, reducing electromagnetic interference (EMI) and crosstalk. This makes it ideal for high-frequency applications up to 500 MHz, such as RF and telecommunications systems.
Male Pin (Concentric) Termination: The male pin concentric termination allows for precise and secure connections, ensuring reliable signal transmission. This feature is particularly beneficial in applications requiring consistent impedance and minimal signal loss.
Solder Contact Termination: The solder termination ensures a robust and durable connection, enhancing the connector's reliability in demanding environments. This is especially useful in applications where vibration or mechanical stress is a concern.
Threaded Fastening Type: The threaded fastening mechanism provides a secure and stable connection, preventing accidental disconnections. This feature is critical in applications where mechanical stability and long-term reliability are essential.
Wide Operating Temperature Range (-65°C to 165°C): The connector's ability to operate in extreme temperatures makes it suitable for harsh environments, such as aerospace, military, and industrial applications, ensuring consistent performance under varying conditions.

Applications

High-Frequency Signal Transmission: The TRT Triaxial Connector is ideal for transmitting high-frequency signals up to 500 MHz in communication systems, such as RF and microwave applications. Its non-constant impedance and threaded fastening type ensure reliable signal integrity and secure connections, making it suitable for use in radar systems, satellite communication, and test equipment.
Precision Instrumentation: The connector's beryllium copper center contact with gold plating ensures low resistance and high durability, making it suitable for precision instrumentation in laboratory and industrial settings. It can be used in oscilloscopes, spectrum analyzers, and other measurement devices requiring stable and high-quality signal transmission.
Broadcast and Audio Equipment: With its robust brass body and nickel finish, the TRT Triaxial Connector is well-suited for broadcast and professional audio equipment. Its threaded fastening type and wrench clamp shield termination provide secure and interference-free connections, ideal for high-fidelity audio signal transmission in studios and live sound environments.
Military and Aerospace Applications: The connector's operating temperature range of -65°C to 165°C and its rugged construction make it suitable for harsh environments in military and aerospace applications. It can be used in avionics, radar systems, and communication equipment where reliable performance under extreme conditions is critical.