A 197.1-μW Wireless Sensor SoC With an Energy-Efficient Analog Front-End and a Harmonic Injection-Locked OOK TX

摘要

This paper presents an integrated ultra-low-power (ULP) wireless sensor system-on-chip (SoC) that can be used for voltage sensing in both Internet of Things applications and bio-potential monitoring. In order to increase the energy efficiency of the analog front-end (AFE), we propose a noise and power efficient push-pull low noise instrumentation amplifier (LNIA) with a built-in ripple reduction loop based on capacitor reuse. A low-power ISM-band harmonic injection locked on-off-keying transmitter (OOK-TX) is also implemented for energy efficient wireless connectivity. Circuit implementations, design considerations, and detailed analysis are presented to improve the overall energy efficiencies of the SoC including the AFE, TX and, the power management unit. The proposed ULP-SoC is fabricated in 130 nm CMOS technology with a total area of 1.92 mm(2). The total power consumption of the proposed system-on-chip is 197.1 mu W which is one of the lowest among state-of-the-art wireless sensor SoC.