Radio Receivers, Direction Finding, and RF Logging » Multi-Channel Receiver Systems » Wide-Band Phase Coherent Tuner (WR-G526e/DSPR OLDER PRODUCT - NOT FOR NEW DESIGNS)

Wide-Band Phase Coherent Tuner

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Wide-Band Phase Coherent Tuner (WR-G526e/DSPR OLDER PRODUCT - NOT FOR NEW DESIGNS)

The WiNRADiO WR-G526e is a versatile receiver platform of USB-interfaced modular building blocks suitable for high-performance signal intercept, acquisition and monitoring applications, precision direction finding and beam-forming.

The WiNRADiO WR-G526e is designed to be a compact, low-cost front-end of choice for Software-Defined Radio applications wherever an instantaneous IF bandwidth greater than 20 MHz is required. The robust, low-power tuner can be deployed in fixed, land mobile, or airborne installations, and is able to support single-channel as well as multi-channel phase-coherent applications with excellent phase and impedance matching between channels.

Input frequency range 20-3000 MHz
Output frequency 21.4 MHz
IF bandwidth 22 MHz
Low phase noise
Low phase and amplitude distortion
High frequency stability 0.01 ppm
High dynamic range
Fast tuning speed
Single or multichannel operation
Digitally controlled output phase adjustment
USB interface

The WR-G526e/DSPR is a reference oscillator, trigger and distribution module suited for phase-coherent multi-channel systems, capable of driving up to eight WR-G526e/DSPC back-end modules. The reference oscillator features a very high frequency accuracy and stability of 0.01 ppm, thanks to a built-in OCXO. Higher frequency stability is possible using an external frequency reference input. The unit also features 1 PPS input for time stamping and precise time synchronization, and external TTL trigger input with programmable polarity.

The system's small dimensions and low power consumption make it suitable for integration with mobile surveillance and direction finding systems, including airborne systems, UAVs, and other demanding applications where wide frequency range, wide instantaneous bandwidth and consistent phase characteristics are desirable.