{"title":"Linearly Tunable CMOS Voltage Differencing Transconductance Amplifier (VDTA)","authors":"W. Tangsrirat","doi":"10.33180/infmidem2019.202","DOIUrl":null,"url":null,"abstract":"This paper proposes an alternative way to implement the CMOS voltage differencing transconductance amplifier (VDTA) with linearly tunable. It has been designed by using the floating current source (FCS) and the current squaring circuit. The circuit achieves its linear tunability by squaring the long-tail biasing current of the FCS. In this way, the transconductance gains of the proposed CMOS VDTA can be varied linearly through adjusting the DC bias currents. As an application example, the proposed VDTA is used in the design of an actively tunable voltage-mode multifunction filter. The derived filter possesses the following desirable properties: simultaneous realization of three standard filter functions; employment of only two grounded capacitors; and electronic tunability of w o and Q . The performance of the proposed circuit and its filter design application were examined by PSPICE simulations with TSMC 0.25- m m CMOS real process technology.","PeriodicalId":56293,"journal":{"name":"Informacije Midem-Journal of Microelectronics Electronic Components and Materials","volume":"16 1","pages":""},"PeriodicalIF":0.6000,"publicationDate":"2019-09-23","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Informacije Midem-Journal of Microelectronics Electronic Components and Materials","FirstCategoryId":"5","ListUrlMain":"https://doi.org/10.33180/infmidem2019.202","RegionNum":4,"RegionCategory":"工程技术","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"ENGINEERING, ELECTRICAL & ELECTRONIC","Score":null,"Total":0}
引用次数: 2
Abstract
This paper proposes an alternative way to implement the CMOS voltage differencing transconductance amplifier (VDTA) with linearly tunable. It has been designed by using the floating current source (FCS) and the current squaring circuit. The circuit achieves its linear tunability by squaring the long-tail biasing current of the FCS. In this way, the transconductance gains of the proposed CMOS VDTA can be varied linearly through adjusting the DC bias currents. As an application example, the proposed VDTA is used in the design of an actively tunable voltage-mode multifunction filter. The derived filter possesses the following desirable properties: simultaneous realization of three standard filter functions; employment of only two grounded capacitors; and electronic tunability of w o and Q . The performance of the proposed circuit and its filter design application were examined by PSPICE simulations with TSMC 0.25- m m CMOS real process technology.
本文提出了一种可线性调谐的CMOS跨导压差放大器(VDTA)的实现方法。采用浮动电流源(FCS)和电流平方电路对其进行设计。该电路通过对FCS的长尾偏置电流进行平方来实现其线性可调性。这样,所提出的CMOS VDTA的跨导增益可以通过调整直流偏置电流线性变化。作为一个应用实例,将所提出的VDTA应用于主动可调谐电压型多功能滤波器的设计中。所导出的滤波器具有以下理想特性:同时实现三个标准滤波器函数;仅使用两个接地电容器;w和Q的电子可调性。采用台积电0.25- m - m CMOS实制程技术,通过PSPICE仿真验证了所提电路的性能及其滤波器设计应用。
期刊介绍:
Informacije MIDEM publishes original research papers in the fields of microelectronics, electronic components and materials. Review papers are published upon invitation only. Scientific novelty and potential interest for a wider spectrum of readers is desired. Authors are encouraged to provide as much detail as possible for others to be able to replicate their results. Therefore, there is no page limit, provided that the text is concise and comprehensive, and any data that does not fit within a classical manuscript can be added as supplementary material.
Topics of interest include:
Microelectronics,
Semiconductor devices,
Nanotechnology,
Electronic circuits and devices,
Electronic sensors and actuators,
Microelectromechanical systems (MEMS),
Medical electronics,
Bioelectronics,
Power electronics,
Embedded system electronics,
System control electronics,
Signal processing,
Microwave and millimetre-wave techniques,
Wireless and optical communications,
Antenna technology,
Optoelectronics,
Photovoltaics,
Ceramic materials for electronic devices,
Thick and thin film materials for electronic devices.
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