Low-voltage low-power high dB-linear CMOS exponential function generator using highly-linear V-I converter

Low-voltage low-power high dB-linear CMOS exponential function generator using highly-linear V-I converter

A CMOS voltage-to-current converter with exponential characteristic is presented in this paper. The concept of Taylor series expansion is used for realizing the exponential characteristic. The proposed exponential V-I converter is composed of a current-to-current squarer and a linear V-I converter w...

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Bibliographische Detailangaben
Hauptverfasser: Duong, Quoc-Hoang, Nguyen, Trung-Kien, Lee, Sang-Gug
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Applied computing > Arts and humanities
Hardware > Emerging technologies
Hardware > Very large scale integration design
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Zusammenfassung:A CMOS voltage-to-current converter with exponential characteristic is presented in this paper. The concept of Taylor series expansion is used for realizing the exponential characteristic. The proposed exponential V-I converter is composed of a current-to-current squarer and a linear V-I converter with the use of linearization technique. Based on a 0.25 mm CMOS process, simulations show a 23 dB of linear-output current range and the linearity within 20 dB with error less than ± 0.5dB is achieved. The total power consumption is below 0.2 mW with 1.25 V supply voltage. The proposed circuit can be used for the design of an extremely low-voltage low-power variable gain amplifier (VGA).
DOI:10.1145/871506.871593