Abstract
This brief presents a power-efficient, highly linear front-end (FE) integrated circuit (IC) for electrocardiogram (ECG) acquisition applications. Compared to typical FE architectures, the proposed FE uses only one bandpass instrumentation amplifier (IA) to reduce the chip area and dc power consumption. To achieve high linearity, the bandpass IA is composed of a high-gain two-stage amplifier in a capacitive-feedback configuration. Miller compensation and the class-AB output stage are utilized to incorporate the filtering and buffering functions within the IA without the need for additional circuit stages. The FE IC is fabricated in 0.13- ${ \mu }\text{m}$ CMOS technology, and occupies only a 0.16-mm2 chip area. The measured input-referred noise is 3.2 ${ \mu }$ Vrms with a midband gain of 34.6 dB, and a bandwidth that extends from 0.9 to 350 Hz. A total harmonic distortion of −65 dB is measured at an input signal of 5.5 mV $_{{pp}}$ , with a dc power consumption of 1.8 ${\mu }\text{W}$ . In a real-time measurement, the proposed FE IC is capable of detecting high-fidelity ECG waveforms.
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More From: IEEE Transactions on Circuits and Systems II: Express Briefs
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