Author

Primit Modi

Abstract

The demand of portable consumer electronic devices is skyrocketing day-by-day. Such modern integrated microsystems have several functional blocks which require different voltages to operate adequately. DC-DC converter circuits are used to generate different voltage domains for different functional blocks on large integrated microsystems from a single voltage battery-operated power supply. Charge pump is an inductorless DC-DC converter which generates higher positive voltage or lower voltage or negative voltage from the applied reference voltage. A charge pump circuit uses switches for charge transfer action and capacitors for charge storage. The thesis presents a high power-efficiency charge pump architecture with low output ripple noise in the AMI N-well 0.5 µm CMOS process technology. The switching action of the proposed charge pump architecture is controlled by a dual phase non-overlapping clock system. In order to achieve high power-efficiency, the power losses due to the leakage currents, the finite switch resistance and the imperfect charge transfer between the capacitors are taken into consideration and are minimized by proper switching of the charge transfer switches and by using different auxiliary circuits. To achieve low output ripple noise, the continuous current pumping method is proposed and implemented in the charge pump architecture. The proposed charge pump can operate over the wide input voltage range varying from 3 V to 7 V with the power conversion efficiency of 90%. The loading current drive capability of the proposed charge pump is ranging from 0 to 45 mA. The worst case output ripple voltage is less than 25 mV. To prove the concept, the design of the proposed charge pump is simulated rigorously over different process, temperature and voltage corners.

Library of Congress Subject Headings

On-chip charge pumps--Design and construction; Low voltage integrated circuits--Design and construction; DC-to-DC converters--Design and construction; Metal oxide semiconductors, Complementary--Design and construction

Publication Date

7-2012

Document Type

Thesis

Student Type

Graduate

Degree Name

Electrical Engineering (MS)

Department, Program, or Center

Electrical Engineering (KGCOE)

Advisor

Robert J. Bowman

Advisor/Committee Member

James E. Moon

Advisor/Committee Member

Karl D. Hirschman

Comments

Physical copy available from RIT's Wallace Library at TK7874.66 .M64 2012

Campus

RIT – Main Campus

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