Tunable Fractional-Order Capacitance Multiplier Using Current Gain Adjustment

Tunable Fractional-Order Capacitance Multiplier Using Current Gain Adjustment

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This paper brings new solution of linearly adjustable fractional-order capacitance multiplier. The adjustable current gain, linear in wide range of input current and with linear dependence on driving voltage, serves for these purposes and offers one-decade variation of equivalent capacity (pseudo-capacitance) between 24 and 429 μF/sec^0.75 . The operational range was tested by PSpice simulations and by measurement using RC approximant of constant phase element of the order 0.25 in bandwidth from 20 Hz up to 1 MHz.

This paper brings new solution of linearly adjustable fractional-order capacitance multiplier. The adjustable current gain, linear in wide range of input current and with linear dependence on driving voltage, serves for these purposes and offers one-decade variation of equivalent capacity (pseudo-capacitance) between 24 and 429 μF/sec^0.75 . The operational range was tested by PSpice simulations and by measurement using RC approximant of constant phase element of the order 0.25 in bandwidth from 20 Hz up to 1 MHz.

Constant phase element; electronic adjustment; fractional-order; immittance function; multiplication factor.

Constant phase element; electronic adjustment; fractional-order; immittance function; multiplication factor.

ŠOTNER, R.; JEŘÁBEK, J.; LANGHAMMER, L.

2021

25.11.2020

IEEE

Glasgow, Scotland, UK, United Kingdom

978-1-7281-6044-3

Proceedings of 2020 27th IEEE International Conference on Electronics, Circuits and Systems (ICECS)

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https://ieeexplore.ieee.org/document/9294960

http://hdl.handle.net/11012/195811

paper_icecs_v8
9294960_accepted