Antenna Switch Matrices
Modern communication systems often require flexible antenna sharing, redundancy, and rapid reconfiguration between multiple radios, transmitters, receivers, and antenna systems. Promarine antenna switch matrices are designed to provide reliable RF signal routing while maintaining excellent isolation, low insertion loss, and robust operational performance in demanding environments.
Whether the requirement is to switch antennas between different radio systems, create backup communication paths, or optimize the use of limited antenna infrastructure, our antenna matrices offer a practical and scalable solution. Intelligent switching logic prevents conflicting connections, while optional remote-control capabilities enable seamless integration into fixed, mobile, and maritime communication systems.
Built for mission-critical applications, Promarine antenna switching solutions support both transmitting and receiving systems, including active antenna installations, providing maximum flexibility without compromising RF performance.
proMTX10 is a compact and remotely controllable antenna crossover switch designed for fast and reliable antenna path switching. The unit changes antenna connections in less than 15 milliseconds and offers excellent RF performance with very low insertion loss and high isolation. Typical applications include switching between active and passive receiving antennas, overcoming temporary antenna connection issues, and providing communication path redundancy in critical radio systems.
proMTX441 is a versatile 4x4 RF antenna switch matrix that allows any radio or transmitter port to be connected to any antenna port. Designed for both transmitting and receiving applications, it provides exceptional flexibility for communication system integration. The system can be operated locally through an intuitive HMI or remotely via optional Ethernet control. Its robust rack-mounted design, failsafe functionality, and extensive customization options make it ideal for demanding defense, maritime, and critical communications environments.
