Results of A/D converter compensation with a VLSI chip

Final Program and Abstracts on Information, Decision and Control Pub Date : 2002-08-07 DOI:10.1109/IDC.2002.995413
J. Tsimbinos, W. Marwood, A. Beaumont-Smith, C. Lim
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引用次数: 10

Abstract

Error table compensation is one technique that can be used to improve the spurious free dynamic range of high speed A/D converters. This paper gives details of an error table compensator system that uses a VLSI chip incorporating a transversal filter programmed as a wideband differentiator, some additional on chip circuits, and a lookup table that is stored in external memory. The 10 GOPS transversal filter differentiator chip was designed and fabricated in a 0.35 /spl mu/m CMOS process, has programmable tap weights, and can operate at a maximum clock rate of 200 MHz. The results of this paper show that this error table compensation system is capable of providing up to 13 dB improvement in the dynamic range of typical high speed A/D converters. This may result in more reliable detection of weak signals of interest.
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用VLSI芯片进行A/D转换器补偿的结果
误差表补偿是提高高速A/D转换器无杂散动态范围的一种技术。本文给出了一个误差表补偿系统的细节,该系统使用一个集成了横向滤波器的VLSI芯片,该芯片被编程为宽带微分器,一些附加的片上电路,以及存储在外部存储器中的查找表。采用0.35 /spl mu/m CMOS工艺设计制作了10 GOPS横向滤波微分器芯片,具有可编程分接权重,最大时钟速率可达200 MHz。实验结果表明,该误差表补偿系统可使典型高速A/D转换器的动态范围提高13 dB。这可能导致对感兴趣的弱信号的更可靠的检测。
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Final Program and Abstracts on Information, Decision and Control
Final Program and Abstracts on Information, Decision and Control
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