Title :
A 453-/spl mu/W 53 - 70-GHz Ultra-Low-Power Double-Balanced Source-Driven Mixer Using 90-nm CMOS Technology
Author :
Wei-Tsung Li ; Hong-Yuan Yang ; Yun-Chieh Chiang ; Jeng-Han Tsai ; Ming-Han Wu ; Tian-Wei Huang
Author_Institution :
Dept. of the Electr. Eng. & the Grad. Inst. of Commun. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
An ultra-low-power consumption and ultra-low local oscillator (LO) power double-balanced down-conversion mixer using standard 90-nm CMOS technology is presented in this paper. By employing a weak inversion biasing technique in a source-driven topology, the proposed V-band mixer can operate at microwatt power consumption of 453 μW and has an ultra low LO power of -6 dBm. In addition, under 1.2-V standard supply voltage, the down-conversion mixer exhibits excellent conversion-gain flatness of 5.9±1.5 dB and the measured LO-to-RF isolation is more than 37 dB from 53 to 70 GHz, and OP1 dB of -9.2 dBm at RF frequency of 60 GHz. Based on aforementioned results, the presented monolithic microwave integrated circuit can mitigate power-hungry issues while providing reasonable RF performance, which is important for a low-power communication system.
Keywords :
CMOS analogue integrated circuits; MMIC mixers; CMOS technology; LO-to-RF isolation; RF frequency; V-band mixer; conversion-gain flatness; down-conversion mixer; frequency 53 GHz to 70 GHz; low-LO power; low-power communication system; microwatt power consumption; monolithic microwave integrated circuit; power 453 muW; power-hungry issue mitigation; size 90 nm; source-driven topology; ultralow-local oscillator power; ultralow-power consumption; ultralow-power double-balanced source-driven mixer; voltage 1.2 V; weak inversion biasing technique; CMOS; down-conversion mixer; low power; millimeter wave (MMW); source driven;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2013.2253790
