DVCCCTA-Based Implementation of Mutually Coupled Circuit | Zendy

Neeta Pandey | Zendy; Sakshi Arora | Zendy; Rinku Takkar | Zendy; Rajeshwari Pandey | Zendy

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DVCCCTA-Based Implementation of Mutually Coupled Circuit

Author(s) -

Neeta Pandey,

Sakshi Arora,

Rinku Takkar,

Rajeshwari Pandey

Publication year - 2012

Publication title -

isrn electronics

Language(s) - English

Resource type - Journals

ISSN - 2090-8679

DOI - 10.5402/2012/303191

Subject(s) - current conveyor , spice , resistor , transconductance , capacitor , operational transconductance amplifier , electronic engineering , electrical engineering , cmos , computer science , discrete circuit , current feedback operational amplifier , ideal (ethics) , voltage , equivalent circuit , circuit design , amplifier , operational amplifier , engineering , transistor , philosophy , epistemology

This paper presents implementation of mutually coupled circuit using differential voltage current-controlled conveyor transconductance amplifier (DVCCCTA). It employs only two DVCCCTAs, one grounded resistor, and two grounded capacitors. The primary, secondary, and mutual inductances of the circuit can be independently controlled and tuned electronically. The effect of non-ideal behaviour of DVCCCTA on the proposed circuit is analyzed. The functionality of the proposed circuit is verified through SPICE simulation using 0.25 μm TSMC CMOS technology parameters.

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