Current mismatch and nonlinearity compensation in mixed-mode array processors

A combination selection based device mismatch calibration for mixed-mode array processors is discussed. Clear benefits in implementation area and accuracy, compared to large transistors can be reached by using mismatch calibration which is based on the combination selection of minimum-sized transist...

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Bibliographic Details
Main Authors: Marku, J., Virtanen, K., Maunu, J., Poikonen, J., Paasio, A.
Format: Conference Proceeding
Language:English
Subjects:
Accuracy
Arrays
Calibration
Computer architecture
Mirrors
Program processors
Transistors
Online Access:Request full text
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Summary:A combination selection based device mismatch calibration for mixed-mode array processors is discussed. Clear benefits in implementation area and accuracy, compared to large transistors can be reached by using mismatch calibration which is based on the combination selection of minimum-sized transistors. By utilizing the in-cell memory elements present in a mixed-mode array processor in the compensation, the area benefits can be further significantly increased. Two separate calibration cases are discussed in this paper. In the first case, a structure for mismatch calibration in current references is examined. In the second case, a structure for calibrating mismatch and linearity errors in current mirrors is proposed. All structures in the paper have been designed and simulated using 90 nm digital CMOS technology.
ISSN:2165-0144
2165-0152
DOI:10.1109/CNNA.2008.4588653