Low-Power Wireless Wearable ECG Monitoring Chestbelt Based on Ferroelectric Microprocessor

TL;DR

This paper presents a low-power wireless wearable ECG device using a ferroelectric microprocessor, enabling long-term remote monitoring of cardiovascular health with high signal quality and minimal power consumption.

Contribution

It introduces a novel ECG monitoring system combining a ferroelectric microprocessor with low-power sensors for efficient long-term health monitoring.

Findings

Achieves ultra-low power consumption in ECG monitoring.

Provides high-quality ECG signals with noise elimination.

Enables real-time data transmission to mobile phones via BLE.

Abstract

Since cadiovascular disease (CVD) posts a heavy threat to people's health, long-term electrocardiogram (ECG) monitoring is of great value for the improvement of treatment. To realize remote long-term ECG monitoring, a low-power wireless wearable ECG monitoring device is proposed in this paper. The ECG monitoring device, abbreviated as ECGM, is designed based on ferroelectric microprocessor which provides ultra-low power consumption and contains four parts-MCU, BLE, Sensors and Power. The MCU part means circuit of MSP430FR2433, the core of ECGM. The BLE part is the CC2640R2F module applied for wireless transmission of the collected bio-signal data. And the sensors part includes several sensors like BMD101 used for monitoring bio-signals and motion of the wearer, while the Power part consists of battery circuit, charging circuit and 3.3V/1.8V/4.4V power supply circuit. The ECGM first collects ECG signals from the fabric electrodes adhered to wearers' chest, preprocesses the signals to eliminate the injected noise, and then transmit the output data to wearers' hand-held mobile phones through Bluetooth low energy (BLE). The wearers are enabled to acquire ECGs and other physiological parameters on their phones as well as some corresponding suggestions. The novelty of the system lies in the combination of low-power ECG sensor chip with ferroelectric microprocessor, thus achieving ultra-low power consumption and high signal quality.