Design of 0.4V, 386nW OTA using DTMOS technique for biomedical applications

机译：使用DTMOS技术为生物医学应用设计0.4V，386nW OTA

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An ultra-low-voltage ultra-low-power operational transconductance amplifier (OTA) using dynamic threshold MOS (DTMOS) technique is presented in this paper. The proposed topology is based on a bulk and gate driven input differential pair employs a gain-stage in the Miller capacitor feedback path to improve the pole-splitting effect. The circuit is designed in the 0.18µm CMOS technology. The simulation results show that the amplifier has a 91dB open-loop DC gain and a unity gain-bandwidth of 111.4 kHz while operating at 0.4V supply voltage. This technique show remarkable enhancement in unity gain-bandwidth and also in DC gain compared to the bulk driven input differential pair technique. The total power consumption is as low as 386nW which makes it suitable for low-power bio-medical applications.

机译：本文提出了一种采用动态阈值MOS（DTMOS）技术的超低压超低功耗运算跨导放大器（OTA）。拟议的拓扑基于体，栅极驱动的输入差分对在Miller电容器反馈路径中采用增益级，以改善极分裂效果。该电路采用0.18µm CMOS技术设计。仿真结果表明，该放大器在0.4V电源电压下工作时具有91dB的开环DC增益和111.4 kHz的单位增益带宽。与批量驱动的输入差分对技术相比，该技术在单位增益带宽和直流增益方面显示出显着提高。总功耗低至386nW，使其适合低功耗生物医学应用。

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来源
《2012 IEEE 55th International Midwest Symposium on Circuits and Systems》|2012年|p.270- 273|共4页
会议地点 Boise ID(US)
作者
Kargaran Ehsan; Sawan Mohamad; Mafinezhad Khalil; Nabovati Hooman;
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作者单位

Microelectronic laboratory, Sadjad Institute for Higher Education, Mashhad, Iran;

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原文格式 PDF
正文语种 eng
中图分类基本电子电路;
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Design of 0.4V, 386nW OTA using DTMOS technique for biomedical applications

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