Title :
A New Approach to Low-Power and Low-Latency Wake-Up Receiver System for Wireless Sensor Nodes
Author :
Yoon, Dae-Young ; Jeong, Chang-Jin ; Cartwright, Justin ; Kang, Ho-Yong ; Han, Seok-Kyun ; Kim, Nae-Soo ; Ha, Dong-Sam ; Lee, Sang-Gug
Author_Institution :
Dept. of Electr. Eng., KAIST, Daejeon, South Korea
Abstract :
A new wake-up receiver is proposed to reduce energy consumption and latency through adoption of two different data rates for the transmission of wake-up packets. To reduce the energy consumption, the start frame bits (SFBs) of a wake-up packet are transmitted at a low data rate of 1 kbps, and a bit-level duty cycle is employed for detection of SFBs. To reduce both energy consumption and latency, duty cycling is halted upon detection of the SFB sequence, and the rest of the wake-up packet is transmitted at a higher data rate of 200 kbps. The proposed wake-up receiver is designed and fabricated in a 0.18 μm CMOS technology with a core size of 1850×1560 μm for the target frequency range of 902-928 MHz. The measured results show that the proposed design achieves a sensitivity of -73 dBm, while dissipating an average power of 8.5 μW from a 1.8 V supply.
Keywords :
radio receivers; wireless sensor networks; CMOS technology; SFB sequence; bit level duty cycle; bit rate 1 kbit/s; bit rate 200 kbit/s; duty cycling; energy consumption; frequency 902 MHz to 928 MHz; low latency wake-up receiver system; size 0.18 mum; start frame bits; voltage 1.8 V; wake-up packets; wireless sensor nodes; Energy consumption; Monitoring; Power demand; Protocols; Receivers; Transmitters; Wireless communication; Duty cycling; fast turn on/off; latency; low power; wake-up receiver; wireless sensor node;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2012.2209778
