A high-level simulation and synthesis environment for ΔΣ modulators

Abstract

An approach is presented for the high-level simulation and synthesis of discrete-time /spl Delta//spl Sigma/ modulators based on a simulation-based optimization strategy. The high-level synthesis approach determines both the optimum modulator topology and the required building block specifications, such that the system specifications-mainly accuracy (dynamic range) and signal bandwidth-are satisfied at the lowest possible power consumption. A genetic-based differential evolution algorithm is used in combination with a fast dedicated behavioral simulator to realistically analyze and optimize the modulator performance. The approach has been implemented in a tool called Daisy (Delta-Sigma Analysis and Synthesis). Experimental results are shown for both the analysis and synthesis capabilities, illustrating the effectiveness of the approach. The selected range of optimized /spl Delta//spl Sigma/ modulator topologies as a function of the modulator specifications for a wide range of values indicate the capabilities of and the performance range covered by the tool.