ICTACT Journal on Communication Technology

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Performance of Leakage Power Minimization Technique for CMOS VLSI Technology


Affiliations
1 Department of Electronics and Communication Engineering, R.M.K Engineering College, India
     

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Leakage power of CMOS VLSI Technology is a great concern. To reduce leakage power in CMOS circuits, a Leakage Power Minimiza-tion Technique (LPMT) is implemented in this paper. Leakage cur-rents are monitored and compared. The Comparator kicks the charge pump to give body voltage (Vbody). Simulations of these circuits are done using TSMC 0.35μm technology with various operating temper-atures. Current steering Digital-to-Analog Converter (CSDAC) is used as test core to validate the idea. The Test core (eg.8-bit CSDAC) had power consumption of 347.63 mW. LPMT circuit alone consumes power of 6.3405 mW. This technique results in reduction of leakage power of 8-bit CSDAC by 5.51mW and increases the reliability of test core. Mentor Graphics ELDO and EZ-wave are used for simulations.

Keywords

Leakage Currents, Current Comparator, Charge Pump, Test Core, Current Steering DAC, CMOS.
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  • Performance of Leakage Power Minimization Technique for CMOS VLSI Technology

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Authors

T. Tharaneeswaran
Department of Electronics and Communication Engineering, R.M.K Engineering College, India
S. Ramasamy
Department of Electronics and Communication Engineering, R.M.K Engineering College, India

Abstract


Leakage power of CMOS VLSI Technology is a great concern. To reduce leakage power in CMOS circuits, a Leakage Power Minimiza-tion Technique (LPMT) is implemented in this paper. Leakage cur-rents are monitored and compared. The Comparator kicks the charge pump to give body voltage (Vbody). Simulations of these circuits are done using TSMC 0.35μm technology with various operating temper-atures. Current steering Digital-to-Analog Converter (CSDAC) is used as test core to validate the idea. The Test core (eg.8-bit CSDAC) had power consumption of 347.63 mW. LPMT circuit alone consumes power of 6.3405 mW. This technique results in reduction of leakage power of 8-bit CSDAC by 5.51mW and increases the reliability of test core. Mentor Graphics ELDO and EZ-wave are used for simulations.

Keywords


Leakage Currents, Current Comparator, Charge Pump, Test Core, Current Steering DAC, CMOS.