A Novel Dual-Mode Dual Type Hysteresis Schmitt Trigger and its Applications using Single Differential Voltage Current Conveyor Transconductance Amplifier

Pamu Harika, Puli Kishore Kumar, Kiran Kumar Gurrala

Abstract


This paper introduces a novel Schmitt trigger circuit which can operate in two modes: voltage and transimpedance mode using a sole Differential Voltage Current Conveyor Transconductance Amplifier (DVCCTA) within the same topology with external grounded resistors. The suggested designs enable dual-type hysteresis (clockwise (CW) and counter-clockwise (CCW)) simultaneously within the same circuit topology. Additionally, the proposed design includes the unique ability of controlling threshold levels through the transconductance parameter (gm) of DVCCTA via grounded resistor. The proposed Schmitt trigger is extended for the application as a square/triangular waveform generator and pulse width modulator to illustrate the utility of the given Schmitt trigger circuit. All the proposed designs are appropriate for IC integration due to the available grounded passive attributes. Moreover, the design comes with a feature of independent control of oscillation frequency using a grounded capacitor eliminates the highest level of parasitics and lessens the circuit’s sensitivity to noise immunity. The maximum absolute deviation of output amplitude and threshold voltages is observed to be less than 1.6% and 1%, respectively against for temperature variations of 0- 1000 C. Realization of DVCCTA uses four number of off-the-shelf ICAD844 components, which is used to authenticate the workableness of the proposed design through PSPICE. Besides that, Monte Carlo simulations and Experimental results are also delineated for the verification of the proposed design. The simulated responses correlate with the theoretical prediction.) 

Keywords


Electronics

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DOI: https://doi.org/10.33180/InfMIDEM2024.206

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