A Wake-Up Receiver With a Multi-Stage Self-Mixer and With Enhanced Sensitivity When Using an Interferer as Local Oscillator.

An ultra-low power wake-up receiver with an energy-detection passive-RF architecture uses a multi-stage self-mixer that has a better conversion gain than the conventional envelope detector. The self-mixer, co-designed with the RF matching network, optimizes the sensitivity and minimizes the power consumption of the receiver. A wake-up receiver prototype in 0.13- $\mu \text{m}$ CMOS operates at 550 MHz, consumes 220 nW from 0.5 V, and achieves a sensitivity of −56.4 dBm at a 400-kb/s chip rate using an 11-bit wake-up code. When a large interferer is present, the receiver operates in an interferer-enhanced mode, leveraging the interferer as a local oscillator to improve the sensitivity; in the presence of a −43.5-dBm interferer, a −63.6-dBm sensitivity is achieved while consuming 1.1 $\mu \text{W}$. [ABSTRACT FROM AUTHOR]