将TRAM应用于CMOS技术设计的二阶有源滤波器

2015 Argentine School of Micro-Nanoelectronics, Technology and Applications (EAMTA) Pub Date : 2015-07-30 DOI:10.1109/EAMTA.2015.7237378

S. Pazos, F. Aguirre, E. Romero, G. Peretti, S. Verrastro

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引用次数: 1

摘要

本文以一种二阶滤波器为例，研究了TRAM检测参数故障的能力。特别地，我们采用了在500nm CMOS技术上合成的低通Sallen-Key滤波器。我们使用扩散电阻器、多晶硅电容器和一个全定制运算放大器进行设计。对于故障注入和仿真，我们采用了先前报道的故障模型。本文对测试参数的不同组合进行了评估，目的是确定故障覆盖率和测试复杂性之间的权衡。研究结果表明，同时监测峰值时间和超调量可获得合理的故障覆盖率。对其他测试参数的监视导致(在某些情况下)应该被认为是边际的改进。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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TRAM applied to second-order active filter designed in CMOS technology

The ability of TRAM for detecting parametric faults in a second-order filter selected as a case of study is studied in this work. Particularly, we adopt a low-pass Sallen-Key filter synthesized on a 500nm CMOS technology. We perform the design using diffused resistors, poly-poly capacitors and a full-custom operational amplifier. For fault injection and simulation, we adopt a previously reported fault model. Different combinations of test parameters are evaluated in this paper with the aim of determining the tradeoff between fault coverage and complexity of the test. Our results show that the simultaneous monitoring of peak time and overshoot gives reasonable fault coverage. The monitoring of other test parameters causes (in some cases) an improvement that should be considered as marginal.

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来源期刊

2015 Argentine School of Micro-Nanoelectronics, Technology and Applications (EAMTA)

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