A low-power high-performance SiGe BiCMOS 802.11a/b/g transceiver IC for cellular and bluetooth Co-existence applications

IEEE Journal of Solid-State Circuits

Volumn 41, Issue 7, 2006, Pages 1503-1512

  Charlon, Olivier ^a,b   Locher, Matthias ^a,b   Visser, Hendrik Arend ^b   Duperray, David ^a,b   Chen, Jennie ^a,b   Judson, Marc ^b   Landesman, Alan L ^a,b   Hritz, C ^b   Kohlschuetter, Ulrich ^b   Zhang, Yifeng ^a,c   Ramesh, C ^b   Daanen, Anton ^a,b   Gao, Minzhan ^b   Haas, S ^b   Maheshwari, Vijay ^b   Bury, Andreas ^b   Nitsche, Gunnar ^b   Wrzyscz, Artur ^b   Redman White, William ^a,b,d   Bonakdar, Hamid ^b,e   Waffaoui, Rachid El ^b,e   Bracey, Mark ^a,b   more..

^a IEEE   (Netherlands)

^b NXP SEMICONDUCTORS   (Netherlands)

^c Quinric Corporation   (United States)

^d UNIVERSITY OF SOUTHAMPTON   (United Kingdom)

^e Innovation Laboratory   (Netherlands)

Author keywords

BiCMOS integrated circuits; Bluetooth; Calibration; Cellular radio; Frequency synthesis; IEEE 802.11a; IEEE 802.11b; IEEE 802.11g; Interference; OFDM; RE transceiver; Wireless LAN

Indexed keywords

CALIBRATION; LOCAL AREA NETWORKS; ORTHOGONAL FREQUENCY DIVISION MULTIPLEXING; SIGNAL INTERFERENCE; STANDARDS; TECHNOLOGY; TRANSCEIVERS;

BICMOS INTEGRATED CIRCUITS; BLUETOOTH; CELLULAR RADIO; FREQUENCY SYNTHESIS; IEEE 802.11A; RE TRANSCEIVERS; WIRELESS LAN;

CMOS INTEGRATED CIRCUITS;

EID: 33746377954     PISSN: 00189200     EISSN: None     Source Type: Journal    
DOI: 10.1109/JSSC.2006.873933     Document Type: Conference Paper

References (10)

1. M. Banu et al., "The challenges of fully integrated OFDM transceivers for 802.11 wireless-LAN systems," presented at the IEEE ISSCC Workshop on Gigahertz Radio Front-Ends San Francisco, CA, Feb. 2003.
2. R. Ahola et al., "A single-chip CMOS transceiver for 802.11a/b/g wireless LANs," IEEE J. Solid-State Circuits, vol 39, no. 12, pp. 2250-2258, Dec. 2004.
3. T. Rühlicke et al., "A highly integrated, dual-band, multi-mode wireless LAN transceiver," in Proc. ESSCIRC, Estoril, Portugal, Sep. 2003, pp. 229-232.
4. K. Vavelidis et al., "A dual-band 5.15-5.35-GHz, 2.4-2.5-OHz 0.18-μm CMOS transceiver for 802.11 a/b/g wireless LAN," IEEE J. SolidState Circuits, vol. 39, na 7, pp. 1180-1184, Jul. 2004.
5. R. Wilson, The great debate: SoC vs. SiP," Electron. Eng. Times, Mar. 21, 2005.
6. P. Deixler et al., "QUBiC4G: a fT/fmax=70/100 GHz 0.25-μm low-power SiGe-BiCMOS production technology with high quality passives for 12.5 Gb/s optical networking and emerging wireless applications up to 20 GHz," in Proc. BCTM, 2002, pp. 201-204.
7. A. M. Durham et al., "High-linearity continuous-time filters in VLSI compatible CMOS," IEEE J. Solid-State Circuits, vol. 27, no. 9, pp. 1270-1276, Sep. 1992.
8. A. Daanen et al., "A silicon BiCMOS direct up-convesion transmitter IC for CDMA2000 with linear-in-dB power optimized RF level control," in IEEE ISSCC Dig. Tech. Papers, Feb. 2003, pp. 266-267.
9. D. Brunel et al., "A highly integrated 0.23 μm BiCMOS chipset for 3G UMTS/WCDMA handset RF sub-system," in Proc. IEEE RFIC Symp., Jun. 2002, pp. 191-194.
10. P. Zhang et al., "A single-chip dual-band direct-conversion IEEE 802. 11a/b/g WLAN transceiver in 0.18 μm CMOS," IEEE J. Solid-State Circuits, vol. 40, no. 9, pp. 1932-1939, Sep. 2005.