论文信息 - Current diversion technique for the design of broadband variable gain amplifiers

Current diversion technique for the design of broadband variable gain amplifiers

This paper presents a new technique for the design of broadband variable gain amplifiers (VGA). The proposed technique uses current diversion concept to provide gain variation function for the broadband amplifier. Since gain variation is achieved without compromising voltage headroom, it facilitates low power design of the VGA. Since DC levels of output signals of each stage stay constant, it also enables DC coupling between cascaded stages of the VGA. Both voltage controlled and digital controlled VGAs can be realized using the proposed technique. To demonstrate the feasibility of the technique, a digital controlled VGA was implemented in 90 nm CMOS which has bandwidth from 10MHz to 2.8 GHz, gain ranging from 22 to 42.9dB with 3dB gain steps, and power consumption of 1.94 mW.

Kai Kang | Fujiang Lin | Duy-Dong Pham

[1] R. Gomez,et al. A 50 MHz variable gain amplifier cell in 2 mu m CMOS , 1991, Proceedings of the IEEE 1991 Custom Integrated Circuits Conference.

[2] Yuanjin Zheng,et al. A CMOS VGA With DC Offset Cancellation for Direct-Conversion Receivers , 2009, IEEE Trans. Circuits Syst. I Regul. Pap..

[3] Yanjie Wang,et al. A 2.5mW inductorless wideband VGA with dual feedback DC-offset correction in 90nm CMOS technology , 2008, 2008 IEEE Radio Frequency Integrated Circuits Symposium.

[4] M. Tarsia,et al. Design considerations and implementation of a programmable high-frequency continuous-time filter and variable-gain amplifier in submicrometer CMOS , 1999, IEEE J. Solid State Circuits.

[5] Jeng-Han Tsai,et al. A 71–76 GHz CMOS variable gain amplifier using current steering technique , 2008, 2008 IEEE Radio Frequency Integrated Circuits Symposium.

[6] Asad A. Abidi,et al. Adaptive analog IF signal processor for a wide-band CMOS wireless receiver , 2001 .