In Stock Wireless GPS610 GPS Antenna Signal Splitter

Broadband RF Splitter for GPS and Wireless Applications

The GPS610 Splitter is a broadband RF signal splitter designed to distribute signals across a wide frequency range of 0.698 to 2.700 GHz. Ideal for GPS, cellular, and wireless communication systems, this splitter allows one antenna feed to be shared between multiple devices while maintaining strong signal integrity. Its low insertion loss and high isolation characteristics make it suitable for professional RF installations and mission-critical applications.

Wide Frequency Coverage from 0.698 to 2.700 GHz

Supporting a broad frequency spectrum, the GPS610 is compatible with GPS, LTE, cellular, and other RF-based systems operating within the 698 MHz to 2.7 GHz range. This wideband capability makes it a versatile solution for integrators and engineers working with multi-band wireless equipment in commercial, broadcast, and telecom environments.

Low Insertion Loss for Maximum Signal Strength

With an average insertion loss of approximately 0.3 dB, the splitter minimizes signal degradation as it divides the input across output ports. Maintaining low signal loss is essential in RF systems, especially when distributing GPS or cellular signals that rely on consistent signal strength for accurate performance.

High Port-to-Port Isolation for Reduced Interference

The GPS610 offers approximately 30 dB of port-to-port isolation, helping prevent interference between connected devices. High isolation ensures that signals from one output do not negatively affect the performance of another, which is critical in precision GPS timing systems, distributed antenna systems, and wireless communication networks.

Stable Performance with Excellent VSWR and DC Passing

Featuring an average VSWR of 1.10:1, this splitter supports efficient signal transmission with minimal reflection. It also provides up to 15 VDC at 75 mA on DC block ports, allowing compatible powered antennas or inline devices to operate properly. The construction is RoHS compliant, supporting environmentally responsible system design.