Title :
A 915 MHz, Ultra-Low Power 2-Tone Transceiver With Enhanced Interference Resilience
Author :
Huang, Xiongchuan ; Ba, Ao ; Harpe, Pieter ; Dolmans, Guido ; De Groot, Harmke ; Long, John R.
Author_Institution :
imec-Holst Centre, Eindhoven, Netherlands
Abstract :
An ultra-low-power RF envelope-detection radio has been designed for low-power short-range wireless applications. It introduces an interference rejection technique that improves the in-band selectivity by 24.5 dB. The transmitter adopts the power-efficient direct-modulation architecture, and the receiver maintains the simplicity and low power consumption of envelope detection receivers. In the 915 MHz ISM band at 10 kbps the transmitter output level reaches - 3 dBm with 33.9% global efficiency, while the receiver achieves -83 dBm sensitivity with 121 μW power consumption. The Tx and Rx implemented in 90 nm CMOS technology occupy 0.71 and 1.27 mm2 , respectively.
Keywords :
CMOS integrated circuits; interference suppression; low-power electronics; radio transceivers; CMOS technology; ISM band; bit rate 10 kbit/s; envelope detection receivers; frequency 915 MHz; in-band selectivity; interference rejection technique; interference resilience; low power consumption; low-power short-range wireless applications; power 121 muW; power-efficient direct-modulation architecture; size 90 nm; ultra-low power 2-tone transceiver; ultra-low-power RF envelope-detection radio; Baseband; Interference; Modulation; RF signals; Radio frequency; Radio transmitters; Receivers; Body-area networks; envelope detectors; interference suppression; personal-area networks; sensor networks; ultra-low power; wireless radio transceiver;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2012.2216706
