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Dual Application ADC using Three Calibration Techniques in 10nm Technology

Abstract In this work, a 12-bit ADC with three types of calibration is proposed for high speed security applications as well as a precision application. This converter performs for both applications because it satisfies all the necessary specifications such as minimal device mismatch and offset, programmability to decrease aging effects, high SNR for increased ENOB and fast conversion rate. The designed converter implements three types of calibration necessary for offset and gain error, including: a correlated double sampling integrator used in the first stage of the ADC, a power up auto zero technique implemented in the digital code to store any offset and subtract out if necessary, and an automatic startup and manual calibration to control the com... (more)
Created Date 2017
Contributor Schmelter, Brooke (Author) / Bakkaloglu, Bertan (Advisor) / Ogras, Umit (Committee member) / Kitchen, Jennifer (Committee member) / Arizona State University (Publisher)
Subject Electrical engineering / 10nm / ADC / Calibration / Delta-Sigma / Dual Application
Type Masters Thesis
Extent 51 pages
Language English
Reuse Permissions All Rights Reserved
Note Masters Thesis Electrical Engineering 2017
Collaborating Institutions Graduate College / ASU Library
Additional Formats MODS / OAI Dublin Core / RIS

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Description Dissertation/Thesis