Processing Electrocardiographic Signals using a Custom Designed Sigma-Delta Modulator

Abstract

This paper introduces the experimental results obtained after processing an electrocardiographic signal by a full-custom, low-complexity, Sigma-Delta Modulator integrated circuit, designed and fabricated using the C5N CMOS technology available through MOSIS. By exploiting a large oversampling ratio, it was possible to obtain an effective number of bits equal to 11 at the proposed single-bit modulator’s output. The resulting bitstream was captured with a logic-state analyzer and processed offline. After decimation and digital filtering, the electrocardiographic signal was reconstructed and plotted in the time domain. Commonly referred quality metrics over the retrieved signal were calculated. A total signal-to-noise and distortion ratio, superior to 66[Formula: see text]dB, was achieved by analyzing the entire system. The proposed approach shows the feasibility of processing electrocardiographic signals using low-cost and straightforward CMOS technology circuits. Since the proposed converter uses a single voltage supply of 1.5[Formula: see text]V, exhibits a power consumption of 38[Formula: see text][Formula: see text]W, and uses a silicon area of 0.052[Formula: see text]mm2, it is suitable for single battery-operated systems on a chip.