Design of PVT tolerant inverter based circuits for low supply voltages

2015 IEEE Custom Integrated Circuits Conference (CICC) Pub Date : 2015-11-30 DOI:10.1109/CICC.2015.7338424
R. Harjani, Rakesh Kumar Palani
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引用次数: 8

Abstract

The design of differential pair based OTAs is becoming increasingly difficult in finer geometries due to lower supply voltages. Inverter based designs have proven to have better transconductance efficiency, higher swing and better linearity but have degraded CMRR, worse PSRR and limited PVT tolerance. In this tutorial, we discuss traditional amplifiers and why inverter based amplifiers are better suited for lower supplies. We then describe the design procedure for inverter based OTA designs with an emphasis on improving their performance, including PVT tolerance, CMRR and PSRR. In particular, we introduce new biasing techniques for inverters to improve their PVT tolerance. We finally validate our designs using measurement results from a number of fabricated designs.
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低电源电压容限PVT逆变电路的设计
由于电源电压的降低,基于差分对的ota的设计在更精细的几何形状中变得越来越困难。基于逆变器的设计已被证明具有更好的跨导效率,更高的摆幅和更好的线性,但具有降低的CMRR,更差的PSRR和有限的PVT容限。在本教程中,我们将讨论传统放大器,以及为什么基于逆变器的放大器更适合低功耗。然后,我们描述了基于OTA设计的逆变器的设计过程,重点是提高其性能,包括PVT公差,CMRR和PSRR。特别是,我们为逆变器引入了新的偏置技术,以提高其PVT容限。我们最终验证了我们的设计使用测量结果从一些制造的设计。
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2015 IEEE Custom Integrated Circuits Conference (CICC)
2015 IEEE Custom Integrated Circuits Conference (CICC)
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