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1. Analysis, modeling and design of a CMOS Super-Regenerative Receiver for implanted medical devices under square and sinusoidal quench signals.

Author

Pekcokguler, Naci, Dundar, Gunhan, and Dehollain, Catherine

Subjects

*ARTIFICIAL implants, *MEDICAL equipment, *LUMPED elements, *POWER resources, *ENERGY consumption

Abstract

Medical implant devices have found widespread application in recent years. The Super-Regenerative Receiver has been one preferred architecture due to its power advantage over other architectures. We present a detailed analysis of the circuits and their equivalent models to be used in system level design of a Super-Regenerative Receiver in this paper. The design procedure is also demonstrated with a receiver design example. Designs were carried out in UMC 180 nm process with a center frequency of 416 MHz for MedRadio band. Errors between the simulation results of the proposed model and actual circuits are less than 1.6% for LNA characteristics and 7% for receiver output amplitude. 10 Mbps data rate was achieved with 432 pJ/bit energy consumption over 1.8 V power supply. The study is concluded with the simulation results of the circuits and the equivalent models. • Analysis of blocks of super-regenerative receiver is carried out. • Lumped element models of super-regenerative receiver blocks are proposed. • Results of analytic solutions as well as simulation results of models and circuits were presented. • As a benchmarking case, a super-regenerative receiver is designed and the design procedure is explained in detail. [ABSTRACT FROM AUTHOR]

Published

2019