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SBCCI
2009
ACM

Pipelined successive approximation conversion (PSAC) with error correction for a CMOS ophthalmic sensor

14 years 7 months ago
Pipelined successive approximation conversion (PSAC) with error correction for a CMOS ophthalmic sensor
The purpose of this work is the proposal of a 10-Bit / 1 MSPS Analog to Digital Converter (ADC) with error correction to match the requirements of a CMOS wavefront sensor for ophthalmic applications. The developed ADC is a combination of different techniques for integrated converters. It unifies the advantages of successive approximation converters and pipelined converters. The result of this combination is a very good tradeoff between performance and power dissipation. In a second step, the problem of parameter variations is examined. Therefore, the developed ADC is enhanced by two error correction techniques to improve its reliability. Transistor level simulations indicate that in an environment with varying design parameters the maximum (Differential Non-Linearity) DNL error could be reduced from more than 130 VLSB to 0.7 VLSB. The ADC selection assessment and error correction presented herein can be adopted for other sensors within other signal domains as well. Categories and Subj...
Frank Sill, Davies W. de Lima Monteiro
Added 28 May 2010
Updated 28 May 2010
Type Conference
Year 2009
Where SBCCI
Authors Frank Sill, Davies W. de Lima Monteiro
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