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Gain Calibration Technique for Increased Resolution in FRC Data Converters
Frank R. Dropps
,
Ramesh Harjani
Electrical and Computer Engineering
Research output
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Contribution to journal
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Article
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peer-review
Overview
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Keyphrases
Calibration Method
100%
Enhanced Resolution
100%
Compensation Data
100%
Residue Compensation
100%
Gain Calibration
100%
Data Converter
100%
Analog-to-digital Converter
50%
Compensation Architecture
50%
High-resolution
25%
High Performance
25%
High Input
25%
Signal Frequency
25%
Input Signals
25%
Spurious-free Dynamic Range
25%
Nyquist Rate
25%
Quantization Effects
25%
Pipelined Analog-to-digital Converter
25%
Auxiliary Converter
25%
Primary Converter
25%
Gain Error Calibration
25%
Digital Calibration Technique
25%
Engineering
Feedforward
100%
Data Converter
100%
Analog-to-Digital Converter
75%
Simulation Result
25%
Input Signal
25%
Nyquist Rate
25%
High Resolution
25%
Dynamic Range
25%
Computer Science
Analog-to-Digital Converter
100%
Data Converter
100%
Free Dynamic Range
33%
Signal Frequency
33%
Nyquist Frequency
33%