Title :
A digital adaptive beamforming QAM demodulator IC for high bit-rate wireless communications
Author :
Lee, Jind-Yeh ; Liu, Huan-Chang ; Samueli, Henry
Author_Institution :
Broadcom Corp., Irvine, CA., USA
fDate :
3/1/1998 12:00:00 AM
Abstract :
A very large scale integration (VLSI) implementation of an integrated adaptive beamforming processor and quadrature amplitude modulation (QAM) demodulator which will be incorporated into a frequency-hopped spread spectrum portable receiver for 2.4-GHz industrial, scientific, and medical (ISM) band applications is presented. The chip performs coherent QAM demodulation of variable constellation size and complete adaptive beamforming processing including four-channel adaptive beamforming combining, a fully programmable training processor, a readable/writable system control processor, an acquisition state machine, and a microcontroller interface. Interleaving area intensive blocks such as the 49-tap square-root Nyquist filters and 12×12 b multipliers is employed to reduce chip area. This chip can operate as a stand-alone adaptive beamforming QAM demodulator, or it can work together with an adaptive equalizer for high bit rate indoor wireless applications. The core area of the chip is 6.22 mm×4.58 mm in 0.8-μm CMOS technology, and the power dissipation is 610 mW at 5 V and a 5 MBaud symbol rate. In a 2.2-dB signal-to-interference-and-noise ratio environment, the receiver chip achieves a link quality of 32.6 dB SNR by performing digital adaptive beamforming to null out interferers
Keywords :
CMOS digital integrated circuits; VLSI; adaptive signal processing; application specific integrated circuits; array signal processing; demodulation; demodulators; digital radio; digital signal processing chips; frequency hop communication; interference suppression; quadrature amplitude modulation; spread spectrum communication; telecommunication computing; 0.8 micron; 2.4 GHz; 32.6 dB; 5 V; 610 mW; CMOS technology; ISM band applications; QAM demodulator IC; VLSI implementation; acquisition state machine; area intensive blocks interleaving; coherent QAM demodulation; digital adaptive beamforming; four-channel adaptive beamforming combining; frequency-hopped spread spectrum portable receiver; high bit-rate wireless communications; indoor wireless applications; microcontroller interface; multipliers; programmable training processor; readable/writable system control processor; square-root Nyquist filters; variable constellation size; Adaptive control; Array signal processing; CMOS technology; Demodulation; Digital integrated circuits; Frequency; Programmable control; Quadrature amplitude modulation; Spread spectrum communication; Very large scale integration;
Journal_Title :
Solid-State Circuits, IEEE Journal of
