Rockey Choudhary scite author profile

This paper presents the new design of a CMOS current comparator with ultra low input impedance, which especially benefits on enhancing the accuracy of pulse-width-modulation (PWM). The proposed design reduces the input impedance by utilizing common-gate structure as input stage. A novel low power with high performance low current comparator is proposed in this paper which comprises of low input impedance using a simple biasing method. The further use of a commonsource feedback structure also enables extremely reduction of the input impedance. In addition, the proposed design can be applied to perform precise comparison between two terminals with varied currents since the input impedances are well designed to be balanced. The experiment results demonstrate competitive performance. With input current of 25MHz square wave, the input impedance and of comparator are merely 57.2ȍ while the average power consumption is about 9.08mW under the implementation of TSMC 0.35ȝm CMOS process with 3.3V power supply.

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Disorientation of Path of Birds Due to Electromagnetic Waves

Choudhary

Kumar

2023

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Design and Analysis of Pulse width Modulator (PWM) using Low Input Impedance Current Comparator

Choudhary¹

2012

IOSRJEN

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In this paper a new design of a simple pulse width modulator is presented. The proposed scheme has 3mW average power consumption which is less than the existing PWM methods. This circuit is also suitable for IC implementation. The simulation results are carried out under the implementation of TSMC 0.35μm CMOS process with 1.8V power supply. This method is commonly used for driving motors, heaters, or lights in varying intensities or speeds. The simulation and experimental results are shown in this paper. It is also suitable for high power applications as well as ordinary low power use, while possessing important advantages. Pulse-width (PW) modulation has been widely used to convert analog (or multibit digital) signals to binary streams.

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Biological Impacts of Electromagnetic Radiation on Dermis Layer of Birds

Choudhary

Kumar

2023

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