基于CMOS ota的浮动电感器的深入分析

2006 International Symposium on Intelligent Signal Processing and Communications Pub Date : 2006-12-01 DOI:10.1109/ISPACS.2006.364876

R. Banchuin, R. Chaisricharoen, B. Chipipop, B. Sirinaovakul

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引用次数: 9

摘要

众所周知，基于陀螺的OTA模拟浮动电感可分为两类;3-OTA和4-OTA结构在理想现象中表现相同，其中所有OTA的非理想性，即寄生元素，有限开环带宽和噪声的影响都被忽略。R. Banchuin等人(2005)发现，在包括所有引用的非理想性的实际现象中，基于4- ota的浮动电感器比基于3-OTA的浮动电感器具有更好的功能和噪声性能。然而，这一结论是基于所有ota都是双相型的假设。因此，由于CMOS技术时代的兴起;本文试图找出基于3-CMOS-OTA和4-CMOS-OTA的浮动电感之间的区别。包括所有引用的非理想性，基于4- cmos - ota的浮动电感器也比3-CMOS-OTA具有更好的功能和噪声性能。这一结论加强了4-OTA结构相对于3-OTA结构的优越性，因为它被发现是独立于基础技术的，也支持了R. Banchuin等人(2005)提出的设计指南。

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In Depth Analysis of The CMOS OTA-Based Floating Inductors

Commonly known, the gyrator-based OTA simulated floating inductor can be divided into two categories; 3-OTA and 4-OTA structure which perform identically in the ideal phenomena where all OTA's nonidealities i.e. parasitic elements, effect of finite open-loop bandwidth and noise have been neglected. It has been found in R. Banchuin et al. (2005) that the 4-OTA-based floating inductor has better functional and noise performances than its 3-OTA counterpart in the practical phenomena where all of the cited nonidealities included. However, this conclusion has been made based upon the assumption that all OTAs are of the bipolar type. Therefore, due to the rise of the age of CMOS technology; an attempt to find the difference between the 3-CMOS-OTA and 4-CMOS-OTA based floating inductors has been made. Including all of the cited nonidealities, the 4-CMOS-OTA-based floating inductor also has both better functional and noise performances than its 3-CMOS-OTA counterpart. This conclusion strengthens the superiority of the 4-OTA structure over the 3-OTA counterpart since it has been found to be independent of the basis technology and also supports the design guideline proposed in R. Banchuin et al. (2005)

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2006 International Symposium on Intelligent Signal Processing and Communications

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