A CMOS digitally programmable filter technique for VLSI applications

Hussain Abdullah Alzaher

doi:10.1007/s10470-008-9154-0

A CMOS digitally programmable filter technique for VLSI applications

Hussain Abdullah Alzaher

Department of Electrical Engineering

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

A novel technique for designing analog CMOS integrated filters is proposed. The technique uses digitally controlled current amplifiers (DCCAs) to provide precise frequency and/or gain characteristics that can be digitally tuned over a wide range. This paper provides an overview of the possibilities of using the DCCA as the core element in programmable filters. In mixed analog/digital systems, the digital tuning feature of the proposed approach allows direct interfacing with the digital signal processing (DSP) part. Basic building blocks such as digitally programmable amplifiers, integrators, and simulated active inductors are given. Systematic designs of second-order filters are presented. Fully differential architectures of the proposed circuits are developed. Experimental results obtained from 0.5 μm standard CMOS chips are provided.

Original language	English
Pages (from-to)	177-187
Number of pages	11
Journal	Analog Integrated Circuits and Signal Processing
Volume	55
Issue number	2
DOIs	https://doi.org/10.1007/s10470-008-9154-0
State	Published - May 2008

Bibliographical note

Funding Information:
Acknowledgment The author would like to thank the support of KFUPM.

Keywords

Active filters
CMOS mixed analog/digital systems
Current-mode circuits
Variable gain amplifiers

ASJC Scopus subject areas

Signal Processing
Hardware and Architecture
Surfaces, Coatings and Films

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10.1007/s10470-008-9154-0

Cite this

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title = "A CMOS digitally programmable filter technique for VLSI applications",

abstract = "A novel technique for designing analog CMOS integrated filters is proposed. The technique uses digitally controlled current amplifiers (DCCAs) to provide precise frequency and/or gain characteristics that can be digitally tuned over a wide range. This paper provides an overview of the possibilities of using the DCCA as the core element in programmable filters. In mixed analog/digital systems, the digital tuning feature of the proposed approach allows direct interfacing with the digital signal processing (DSP) part. Basic building blocks such as digitally programmable amplifiers, integrators, and simulated active inductors are given. Systematic designs of second-order filters are presented. Fully differential architectures of the proposed circuits are developed. Experimental results obtained from 0.5 μm standard CMOS chips are provided.",

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N2 - A novel technique for designing analog CMOS integrated filters is proposed. The technique uses digitally controlled current amplifiers (DCCAs) to provide precise frequency and/or gain characteristics that can be digitally tuned over a wide range. This paper provides an overview of the possibilities of using the DCCA as the core element in programmable filters. In mixed analog/digital systems, the digital tuning feature of the proposed approach allows direct interfacing with the digital signal processing (DSP) part. Basic building blocks such as digitally programmable amplifiers, integrators, and simulated active inductors are given. Systematic designs of second-order filters are presented. Fully differential architectures of the proposed circuits are developed. Experimental results obtained from 0.5 μm standard CMOS chips are provided.

AB - A novel technique for designing analog CMOS integrated filters is proposed. The technique uses digitally controlled current amplifiers (DCCAs) to provide precise frequency and/or gain characteristics that can be digitally tuned over a wide range. This paper provides an overview of the possibilities of using the DCCA as the core element in programmable filters. In mixed analog/digital systems, the digital tuning feature of the proposed approach allows direct interfacing with the digital signal processing (DSP) part. Basic building blocks such as digitally programmable amplifiers, integrators, and simulated active inductors are given. Systematic designs of second-order filters are presented. Fully differential architectures of the proposed circuits are developed. Experimental results obtained from 0.5 μm standard CMOS chips are provided.

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KW - Current-mode circuits

KW - Variable gain amplifiers

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JF - Analog Integrated Circuits and Signal Processing

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ER -

A CMOS digitally programmable filter technique for VLSI applications

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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