Title :
SiGe Analog AGC Circuit for an 802.11a WLAN Direct Conversion Receiver
Author :
Alegre, J.P. ; Celma, S. ; Calvo, B. ; Fiebig, N. ; Halder, S.
Author_Institution :
Electron. Design Group (I3A), Univ. of Zaragoza, Zaragoza
Abstract :
This brief presents a baseband automatic gain control (AGC) circuit for an IEEE 802.11a wireless local area network (WLAN) direct conversion receiver. The whole receiver is to be fully integrated in a low-cost 0.25- mum 75-GHz SiGe bipolar complementary metal-oxide-semiconductor (BiCMOS) process; thus, the AGC has been implemented in this technology by employing newly designed cells, such as a linear variable gain amplifier (VGA) and a fast-settling peak detector. Due to the stringent settling-time constraints of this system, a feedforward gain control architecture is proposed to achieve fast convergence. The proposed AGC is composed of two coarse-gain stages and a fine-gain stage, with a feedforward control loop for each stage. It converges with a gain error of below plusmn1 dB in less than 3.2 mus, whereas the power and area consumption are 13.75 mW and 0.225 mm2 , respectively.
Keywords :
BiCMOS integrated circuits; Ge-Si alloys; automatic gain control; radio receivers; semiconductor materials; wireless LAN; 802.11a WLAN direct conversion receiver; BiCMOS; SiGe; analog AGC circuit; baseband automatic gain control; bipolar complementary metal-oxide-semiconductor process; coarse-gain stages; fast-settling peak detector; feedforward control loop; feedforward gain control architecture; fine-gain stage; linear variable gain amplifier; power 13.75 mW; size 0.25 mum; wireless local area network; Bipolar complementary metal–oxide–semiconductor (BiCMOS) integrated circuits; feedforward systems; gain control; peak detector; variable gain amplifier (VGA); wireless local-area network (WLAN);
Journal_Title :
Circuits and Systems II: Express Briefs, IEEE Transactions on
DOI :
10.1109/TCSII.2008.2010173
