Design of High Gain Single Stage Telescopic Cmos Operational Amplifier

American Journal of Physics and Applications Pub Date : 2024-05-17 DOI:10.11648/j.ajpa.20241201.12

Tsegaye Menberu

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Abstract

A need for high gain operational amplifiers (op-amps) exists for certain applications. This requires research in the area of its gain without affecting other parameters drastically. In this paper, high gain single stage Telescopic CMOS operational amplifier has been designed and verified, using PSPICE simulation software. The designed circuit operates at ±5V power supply in the 1µm CMOS technology. The simulation results show that the proposed single stage Telescopic CMOS op-amp has an open loop gain of 77.777dB, unity gain frequency of 7.3054MHz, ICMR of -0.248V to 4.4120V and output voltage swing of 7688.8 times to that of input. A 2pF load capacitor is applied in performing a stable phase margin of 80.669°. As result shows that the designed circuit has high gain, which is used for various applications where very large gain is required to amplify weak signals, such as heart beat in medical instrumentations. The total power consumed by the device is 0.589mW. This shows that the power consumed by the device is too small. Therefore, this device can operate for longer duration of time. The smaller the power dissipation the better the device is. Low power operation is a very important quality factor for batteries that should supply the system for hours or days to power more and more electronic systems.

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设计高增益单级伸缩式 Cmos 运算放大器

某些应用需要高增益运算放大器（运放）。这就需要在不严重影响其他参数的情况下研究其增益。本文使用 PSPICE 仿真软件设计并验证了高增益单级 Telescopic CMOS 运算放大器。所设计的电路采用 1µm CMOS 技术，工作电压为 ±5V。仿真结果表明，所提出的单级伸缩式 CMOS 运算放大器的开环增益为 77.777dB，统一增益频率为 7.3054MHz，ICMR 为 -0.248V 至 4.4120V，输出电压摆幅为输入电压的 7688.8 倍。在实现 80.669° 的稳定相位裕度时，应用了一个 2pF 的负载电容器。结果表明，所设计的电路具有高增益，可用于需要很大增益来放大微弱信号的各种应用，如医疗仪器中的心脏跳动。该器件消耗的总功率为 0.589mW。这表明该器件消耗的功率太小。因此，该器件可以工作更长时间。器件的功耗越小越好。低功耗运行对于电池来说是一个非常重要的质量因素，因为电池应为系统提供数小时或数天的电力，为越来越多的电子系统供电。

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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American Journal of Physics and Applications

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