A 90nm low power OTA using adaptive bias

2015 International Conference on Pervasive Computing (ICPC) Pub Date : 2015-04-16 DOI:10.1109/PERVASIVE.2015.7086981

Akshay N. Bhatkar, M. Mali, Pratik P. Deshmukh

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引用次数: 2

Abstract

Low power class AB operational transconductance amplifier (OTA)which is fully differential operating at low voltage 0.4 V supply designed in low cost 90nm technology is proposed in this paper. Differential pairs such as P channel and N channel with complementary input configuration are used in input stage to achieve input common mode range (ICMR) which is full rail to rail. For increasing slew rate without sacrificing power consumption adaptive bias circuits are used hence amplifier works in class AB. The common mode feed forward circuit (CMFF) is employed for maximizing common mode rejection ratio (CMRR). To make system power efficient whole amplifier operates in weak inversion region. After designing layout of an op amp, Simulation with parasitic is carried out and shows that DC gain of 51.15 dB, 876.5 kHz unity gain bandwidth (UGB)with 77.7° phase margin for 10 pF capacitive load and slew rate of 0.1 V/μs; CMRR and PSRR are 116.9 and 97.30 dB respectively. The proposed OTA dissipates very less power of 4.78 μW and shows ability to use in applications where less energy is mandatory.

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采用自适应偏置的90nm低功耗OTA

提出了一种采用低成本90nm技术设计的低功耗AB级全差动操作跨导放大器(OTA)。输入级采用互补输入配置的P通道和N通道等差分对，实现全轨到轨的输入共模范围(ICMR)。为了在不牺牲功耗的情况下提高摆幅率，采用自适应偏置电路，因此放大器工作在AB类。采用共模前馈电路(CMFF)最大化共模抑制比(CMRR)。为了提高系统功耗，整个放大器工作在弱反转区。在设计了运放布局后，进行了寄生仿真，结果表明:当电容负载为10 pF时，直流增益为51.15 dB，单位增益带宽(UGB)为876.5 kHz，相位裕度为77.7°，转换速率为0.1 V/μs;CMRR和PSRR分别为116.9和97.30 dB。所提出的OTA功耗非常低，为4.78 μW，并且能够在强制要求更低功耗的应用中使用。

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2015 International Conference on Pervasive Computing (ICPC)

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