A 0.061 nJ/b 10 Mbps Hybrid BF-PSK Receiver for Internet of Things Applications

This paper describes a hybrid binary frequency-phase shift keying (BF-PSK) receiver architecture designed with a technique involving both the received signal frequency and phase for low-power operation with relatively high data rate. The method enables the demodulation of the incoming signal without synchronization requirements, which reduces the design complexity and power consumption. The architecture allows programmable data rates and channel bandwidths according to application-specific needs. A novel low-noise amplifier architecture is introduced in this paper as well. The Medical Implant Communication System (MICS) band receiver was designed and fabricated in a standard 65nm CMOS technology, and the measurement results demonstrate the feasibility of this architecture. As a proof-of-concept, it operates with a 416 MHz carrier frequency at a state-of-the-art data rate for sub-milliwatt receivers of 10 Mbps, while consuming $610~\mu \text{W}$ from a 1 V supply.