Summary

Description

Conventional software defined radio (SDR) backend signal processors are limited by apriori system definitions and respectively chosen RF hardware. Ideally, the RF sections would be as flexible as the software backends, accommodating widely differing bands and modulation long after fabrication and mission launch; conventional RF tuners limit SDR space mission reconfigurability. The innovation provides a post-launch universal direct RF transmit and receive modulator/demodulator module (UTR) One UTR can replace band specific RF devices otherwise needed for future missions. UTR's modular open architecture is as "reconfigurable" as its complementary digital SDR baseband processing (ADC/DAC's, FPGA's, DSP's). The UTR facilitates communications, radar, narrow (bps) to ultrawideband (GHz) modulation, center frequencies scalable >100 GHz, herein UHF to Ka band. No DC power required for receive mode; novel wideband digital "DAC-less" direct to RF BPSK/QPSK modulation and power amplification is possible. Rugged, radiation hard, reliable due to low active component count and mainstream manufacturing techniques (GaAs MMIC based). Enhanced performance and size leveraged via left handed metamaterials, MEM's switches, GaN and tunable ferroelectrics. Phase 1 UTR simulations, analysis and manufacturing preparation is followed by phase 2 UTR module fabrication (deliverable) and subsystem performance demonstration. TRL 5 expected at phase 2 completion.