Title :
A dual-mode 802.11b/bluetooth radio in 0.35-μm CMOS
Author :
Darabi, Hooman ; Chiu, Justin ; Khorram, Soheil ; Hea Joung Kim ; Zhimin Zhou ; Hung-Ming ; Ibrahim, Brima ; Tran, Lan H. ; Rofougaran, Ahmadreza
fDate :
3/1/2005 12:00:00 AM
Abstract :
A fully integrated dual-mode CMOS transceiver tuned to 2.4 GHz consumes 65 mA in receive mode and 78 mA in transmit mode from a 3-V supply. The radio includes all the receive and transmit building blocks, such as frequency synthesizer, voltage-controlled oscillator (VCO), and power amplifier, and is intended for use in 802.11b and Bluetooth applications. The Bluetooth receiver uses a low-IF architecture for higher level of integration and lower power consumption, while the 802.11b receiver is direct conversion. The receiver achieves a typical sensitivity of -88 dBm at 11 Mb/s for 802.11b, and -83 dBm for Bluetooth mode. The receiver minimum IIP3 is -8 dBm. Both transmitters use a direct-conversion architecture, and deliver a nominal output power of 0 dBm, with a power range of 20 dB in 2-dB steps.
Keywords :
Bluetooth; CMOS integrated circuits; IEEE standards; demodulation; frequency modulation; frequency synthesizers; power amplifiers; spread spectrum communication; transceivers; voltage-controlled oscillators; 0.35 micron; 2.4 GHz; 3 V; 65 mA; 78 mA; 802.11b receiver; Bluetooth receiver; CMOS integrated circuits; direct conversion; direct-conversion; dual mode CMOS transceiver; frequency modulation; frequency synthesizer; low-IF architecture; lower power consumption; mixers; power amplifier; radio transceivers; spread-spectrum communication; voltage-controlled oscillator; Bluetooth; Energy consumption; Frequency synthesizers; Power amplifiers; Power generation; Radio transmitters; Radiofrequency amplifiers; Receivers; Transceivers; Voltage-controlled oscillators; CMOS integrated circuits; demodulation; direct-conversion; frequency modulation; frequency synthesizers; integrated circuits; mixers; radio transceivers; spread-spectrum communication;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2005.843597
