A. Nagappan scite author profile

A. Nagappan

2Publications

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14Citation Statements Given

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Design of High-Speed Low-Power Two Level Voltage Converters using Multi-VTH CMOS Technology

Sheela¹,

Muthumanickam²,

Nagappan³

2013

IJCA

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The paper primarily focuses on reducing the power consumption without diminishing the speed of the circuit by using multiple supply voltages (Multi-VDD). Two multi threshold (Multi-VTH) level converter circuits are proposed and it is compared with the conventional circuits for operating at different supply voltages (Multi-VDD). The converter circuits are individually optimized for minimum power consumption and propagation delay.The speed and power consumption for the proposed level converters were analyzed. General TermsVoltage level converters, Multi-VTH CMOS technology and low power

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Low Power and High Speed CMOS Circuits

Sheela¹,

Muthumanickam²,

Ramachandran³

et al. 2014

International Journal of Innovative Research in Electrical, Ele

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Abstract:In recent trends, multi-threshold CMOS technology is advancing to enhance performance of any digital circuits. By use of this technology any digital circuit makes use of both low threshold voltage (VDDL) and high threshold voltage (VDDH) MOSFETs. Propagation delay time of a circuit is reduced by using VDDL and consumption of power is reduced by using VDDH. One of the best techniques to reduce the power consumption is scaling the supply voltage VDD. In order to maintain the generational speed enhancement, the device threshold voltage VTH must also scale down with VDD. This paper proposes a low-power circuit with MTCMOS technology, simulation results shows that power consumption is reduced approximately by61.7%.

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A. Nagappan

Design of High-Speed Low-Power Two Level Voltage Converters using Multi-VTH CMOS Technology

Low Power and High Speed CMOS Circuits

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