Title :
A WCDMA variable-gain up-conversion mixer using bias-offset technique
Author :
Carrara, Francesco ; Palmisano, Giuseppe
Author_Institution :
Facolta di Ingegneria, Universita di Catania, Italy
Abstract :
This paper presents the design and simulated performance of a novel variable-gain up-converter based on a bias-offset input transconductor. The proposed topology allows the current reuse and reduces the overall transmitter power consumption in wideband code-division multiple access applications. Temperature compensation and decibel-linear characteristic are achieved by means of a control circuit providing a lower than ±1 dB gain error over a 50-dB dynamic range. A 18-dBm output third order intercept, 11.2-dB noise figure, and -50-dB adjacent-channel leakage power ratio are obtained under maximum gain conditions. Circuit simulations are based on a 0.8-μm 46-GHz-fT silicon bipolar technology.
Keywords :
circuit simulation; code division multiple access; compensation; frequency convertors; integrated circuit design; mixers (circuits); silicon; 0.8 micron; 11.2 dB; 46 GHz; Si; WCDMA applications; adjacent channels; bias-offset input transconductor; circuit simulation; control circuit; current reuse; decibel-linear characteristic; gain error; leakage power ratio; mixer; noise figure; silicon bipolar technology; temperature compensation; transmitter power consumption; variable-gain up-conversion; variable-gain up-converter; wideband code-division multiple access; Circuit simulation; Circuit topology; Energy consumption; Gain; Multiaccess communication; Temperature control; Temperature distribution; Transconductors; Transmitters; Wideband;
Conference_Titel :
Electrotechnical Conference, 2004. MELECON 2004. Proceedings of the 12th IEEE Mediterranean
Print_ISBN :
0-7803-8271-4
DOI :
10.1109/MELCON.2004.1346798
