In this paper, hysteresis is exploited to improve the performance of positive feedback source coupled logic circuits, which are a modification of the traditional MOS current-mode logic (MCML) (Alioto, 2004). To understand the effect of hysteresis on the DC characteristics, a model of the noise margin is analytically derived. This model shows that hysteresis improves the noise margin, whose increase is traded-off to reduce the logic swing, which in turn can have a beneficial impact on the speed performance. Practical cases where hysteresis is advantageous are identified, and a comparison with PFSCL gates without hysteresis is carried out. Analysis shows that in such cases hysteresis significantly improves the speed performance and the power efficiency of PFSCL gates, which is a critical aspect in this kind of logic. Simulation results are presented based on a 0.18-mum CMOS process
Alioto, M.B.C., Pancioni, L., Rocchi, S., Vignoli, V. (2006). Analysis and design of MCML gates with hysteresis. In Proceedings of the 2006 IEEE International Symposium on Circuits and Systems (ISCAS 2006) (pp.1263-1266). New York : IEEE [10.1109/ISCAS.2006.1692822].
Analysis and design of MCML gates with hysteresis
ALIOTO, MASSIMO BRUNO CRIS;PANCIONI, LUCA;ROCCHI, SANTINA;VIGNOLI, VALERIO
2006-01-01
Abstract
In this paper, hysteresis is exploited to improve the performance of positive feedback source coupled logic circuits, which are a modification of the traditional MOS current-mode logic (MCML) (Alioto, 2004). To understand the effect of hysteresis on the DC characteristics, a model of the noise margin is analytically derived. This model shows that hysteresis improves the noise margin, whose increase is traded-off to reduce the logic swing, which in turn can have a beneficial impact on the speed performance. Practical cases where hysteresis is advantageous are identified, and a comparison with PFSCL gates without hysteresis is carried out. Analysis shows that in such cases hysteresis significantly improves the speed performance and the power efficiency of PFSCL gates, which is a critical aspect in this kind of logic. Simulation results are presented based on a 0.18-mum CMOS process
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https://hdl.handle.net/11365/33094
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