Title :
Low-Power Technique for SRAM-Based On-Chip Arbitrary-Waveform Generator
Author :
Song, Taejoong ; Lee, Sang Min ; Park, Jongmin ; Hur, Joonhoi ; Lee, Michael ; Kim, Kihong ; Lee, Chang-Ho ; Bien, Franklin ; Lim, Kyutae ; Laskar, Joy
Author_Institution :
Samsung Electron. Co., Ltd., Yongin, South Korea
fDate :
4/1/2011 12:00:00 AM
Abstract :
A low-power technique for a static random-access memory (SRAM)-based on-chip arbitrary-waveform generator (AWG) is proposed for two types of analog-signal-processing applications: multiresolution spectrum sensing and matched filter. The SRAM has an embedded address generator to limit the operation in a sequential-access mode of the AWG. Then, the power consumption of the AWG is analyzed according to the operation modes in multiresolution and multiwaveform spectrum-sensing functions. The low-power technique reduces power by 18% of the SRAM and the address generator and by about 2.2% of the entire AWG at a 1.8-V supply voltage. The AWG is fabricated in a 0.18-μm CMOS technology and demonstrates a chirp signal and a Daubechies wavelet with a 45-dBc spurious-free dynamic range and a cross-correlation factor of 0.96-0.988 with ideal signals.
Keywords :
CMOS integrated circuits; SRAM chips; low-power electronics; matched filters; waveform generators; CMOS technology; Daubechies wavelet; SRAM-based on-chip arbitrary-waveform generator; analog-signal-processing applications; chirp signal; low-power technique; matched filter; multiresolution spectrum sensing; size 0.18 mum; static random-access memory; voltage 1.8 V; Arbitrary-waveform generator (AWG); cognitive radio (CR); matched filter (MF); multiresolution spectrum sensing (MRSS); radar pulse compression; static random-access memory (SRAM);
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2010.2084610
