Title :
A 5-GHz direct-conversion CMOS transceiver utilizing automatic frequency control for the IEEE 802.11a wireless LAN standard
Author :
Behzad, Arya R. ; Shi, Zhong Ming ; Anand, Seema Butala ; Lin, Li ; Carter, Keith A. ; Kappes, Michael S. ; Lin, Tsung-Hsien ; Nguyen, Thinh ; Yuan, Dan ; Wu, Stephen ; Wong, Y.C. ; Fong, Victor ; Rofougaran, Ahmadreza
Author_Institution :
Broadcom Corp., San Diego, CA, USA
Abstract :
A fully integrated CMOS direct-conversion 5-GHz transceiver with automatic frequency control is implemented in a 0.18-μm digital CMOS process and housed in an LPCC-48 package. This chip, along with a companion baseband chip, provides a complete 802.11a solution The transceiver consumes 150 mW in receive mode and 380 mW in transmit mode while transmitting +15-dBm output power. The receiver achieves a sensitivity of better than -93.7dBm and -73.9dBm for 6 Mb/s and 54 Mb/s, respectively (even using hard-decision decoding). The transceiver achieves a 4-dB receive noise figure and a +23-dBm transmitter saturated output power. The transmitter also achieves a transmit error vector magnitude of -33 dB. The IC occupies a total die area of 11.7 mm2 and is packaged in a 48-pin LPCC package. The chip passes better than ±2.5-kV ESD performance. Various integrated self-contained or system-level calibration capabilities allow for high performance and high yield.
Keywords :
CMOS integrated circuits; IEEE standards; calibration; digital-analogue conversion; frequency division multiplexing; power amplifiers; radiofrequency amplifiers; transceivers; wireless LAN; ±2.5-kV ESD performance; 0.18-μm digital CMOS process; 15-dBm output power; 150 mW; 23-dBm transmitter saturated output power; 380 mW; 4 dB; 48-pin LPCC package; 5-GHz direct-conversion CMOS transceiver; 54 Mbit/s; 6 Mbit/s; IEEE 802.11a standard; LPCC-48 package; OFDM; RF transceiver; WLAN; amplifier linearization; automatic frequency control; baseband chip; class-AB amplifier; direct conversion; hard-decision decoding; integrated CMOS direct-conversion; orthogonal frequency division multiplexing; power amplifier; self-contained calibration; sensitivity; system-level calibration; transconductance linearization; transmit error vector magnitude; wireless LAN; Automatic frequency control; Baseband; CMOS process; Decoding; Integrated circuit packaging; Noise figure; Power generation; Transceivers; Transmitters; Wireless LAN;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2003.819085
