Design and optimization of a digital baseband receiver ASIC for GSM/EDGE

Abstract

This paper addresses complexity issues at algorithmic and architectural level of digital baseband receiver ASIC design for the standards GSM/GPRS/EDGE, in order to reduce power consumption and die area as desired for cellular applications. To this end, the hardware implementation of a channel shortening pre-filter combined with a delayed decision-feedback sequence estimator (DFSE) for channel equalization is described. The digital receiver back-end including a flexible Viterbi decoder implementation is presented and hardware savings that can be achieved by using hard-decisions are discussed. Design trade-offs are highlighted to prove the efficiency of the implemented 2.5G multi-mode architecture. The ASIC in 0.13 μm CMOS technology occupies 1.0 mm2 and dissipates only 1.3 mW in fastest EDGE data transmission mode.