Present and future ESM receiving systems must be capable of providing fine-frequency-resolution synthesized tuning, switched-bandwidth and/or center frequency predetection if and/or postdetection baseband filtering and transversal equalization and programmable time delay in the transmission paths of all signals of Interest in order to intercept signals of unknown characteristics in a disadvantaged carrier to noise environment. Noting the ability of Acoustic Charge Transport (ACT) monolithic GaAs-based device to serve as either a tapped variable analog delay line, analog memory, variable bandwidth and/or center frequency BPF or programmable transversal equalizer, a six month SBIR study is proposed to investigate in detail the application of present and projected act devices to such ESM receiver analog if signal processing functions as predetection bandpass filtering, correlation detection, postdetection baseband filtering, etc. As such, the proposed program will culmination the design of an advanced ESM receiver which utilizes act devices to provide an optimum combination of the foregoing signal processing functions. Anticipated benefits/potential commercial applications - the advanced act-based ESM receiver design generated during the proposed Phase I study will form the basis for a Phase II follow-on development of a feasibility model ESM receiver if signal processor incorporating an optimum "mix" of act technology. The successful demonstration of the latter, in turn, can lead to the manufacture and deployment of act-based ESM receiver products by the US Navy, as well as army, air force and other government agencies.Key words: acoustic, charge, transport, delay line, programmable filter, receiver, signal processing.
