Title :
A Ka-Band Distributed Voltage-Controlled Oscillator With Constant 15-dBm Output Power
Author :
Chang, Sheng-Fuh ; Wei, Muh-Dey ; Chang, Shuen-Chien ; Chih, Ting-Yuen ; Wu, Jen-Chieh ; Chen, Jia-Liang
Author_Institution :
Nat. Chung Cheng Univ., Min-Hsiung
Abstract :
A 27-GHz monolithic distributed oscillator based on the reverse-gain mode of a distributed amplifier is presented. The backward current in the drain line, which is typically absorbed by a drain resistor, is purposely used as a feedback signal to drive oscillation. The derived on-set oscillation condition shows that the transconductance of transistor and feedback length determine the oscillation frequency. This brings an advantage of frequency tuning solely by controlling the gate bias voltage. The proposed feedback from the backward current also brings layout convenience due to the close location of the backward current node and the gate node. A three-stage distributed oscillator is designed with the 0.1 mum-pHEMT process to demonstrate the proposed method. The measured 15plusmn0.9 dBm output power is obtained for oscillation frequency tuned from 26.4 GHz to 27.4 GHz.
Keywords :
MMIC oscillators; distributed amplifiers; transistors; voltage control; constant output power; drain line backward current; drain resistor; frequency 27 GHz; frequency tuning; gate bias voltage control; ka-band distributed voltage-controlled oscillator; monolithic distributed oscillator; on-set oscillation condition; reverse-gain mode; three-stage distributed oscillator design; transistor transconductance; Distributed amplifiers; Feedback; Frequency; Power amplifiers; Power generation; Resistors; Transconductance; Tuning; Voltage control; Voltage-controlled oscillators; distributed amplifier; distributed oscillator; image filter theory; pHEMT;
Conference_Titel :
Mobile and Wireless Communications Summit, 2007. 16th IST
Conference_Location :
Budapest
Print_ISBN :
963-8111-66-6
Electronic_ISBN :
963-8111-66-6
DOI :
10.1109/ISTMWC.2007.4299199
