Title :
A Temperature Insensitive Ring Oscillator for Low Power RF Communications
Author :
Pilong Yang ; Tongsheng Xia ; Hongge Li ; Xiang Wang
Author_Institution :
Sch. of Electron. Inf. Eng., Beihang Univ., Beijing, China
Abstract :
CMOS Ring oscillators can be used in RF communication with lower power consumption and smaller area as compared with LC tanks, but they are sensitive to environmental temperatures. It is therefore important to compensate the temperature effect for CMOS ring oscillators. In this paper we studied a new kind of circuit structure. It can make the output frequency of the ring oscillator remain constant at different temperatures. The circuit has been implemented in a 0.35μm COMS technology. The circuit includes three blocks: the temperature sensor block, the temperature adaptive block and the subtraction circuit block. We show theoretical analysis of the principals of the compensation effect. The modeling and parameters tuning process are quite simple. The proposed circuit structure can compensate the temperature effect and stabilize the output frequency of ring oscillators.
Keywords :
CMOS integrated circuits; oscillators; radio networks; tuning; CMOS ring oscillators; CMOS technology; LC tanks; circuit structure; compensation effect; environmental temperatures; low power RF communications; output frequency; parameters tuning process; power consumption; subtraction circuit block; temperature adaptive block; temperature effect; temperature insensitive ring oscillator; temperature sensor block; theoretical analysis; CMOS integrated circuits; Equations; Mathematical model; Ring oscillators; Temperature sensors; Transistors; ring oscillator; subtraction circuit; temperature adaptive block; temperature sensor;
Conference_Titel :
Green Computing and Communications (GreenCom), 2013 IEEE and Internet of Things (iThings/CPSCom), IEEE International Conference on and IEEE Cyber, Physical and Social Computing
Conference_Location :
Beijing
DOI :
10.1109/GreenCom-iThings-CPSCom.2013.333
