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    High-performance low-voltage current mirror design

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    200811013.pdf (1.150Mb)
    Date
    2010
    Author
    Gandhi, Nikunj
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    Abstract
    Design of high precision analog circuits requires accounting for the mismatch between nominally identical transistors. In this work, errors affecting CMOS current mirrors due to mismatch between identical transistors are discussed, and circuit techniques to overcome these errors are studied. The dynamic current mirror (DCM) is one of the solutions to overcome mismatch problems. Dynamic current mirrors contain analog and digital components together so that errors due to process variations, temperature and ageing effect can be cancelled. Various circuit techniques such as op-amp based DCM, reduced transconductance based DCM, and cascode based DCM have been used to improve the performance of current mirrors. This thesis proposes a novel circuit for a low-voltage high-performance dynamic current mirror design. The thesis investigates the performance of analog switches at low voltages, and suggests an improved bootstrap switch; errors due to clock feed through and charge injection in the switch are analysed. A new low charge injection, voltage-boosted analog switch is recommended in the dynamic current mirror design. A bulk-driven dynamic current mirror circuit is proposed, and found to be an effective solution at low voltage. The proposed circuit is designed optimally in a 0.18µm CMOS process, in the Cadence Spectre environment. A current copying accuracy of ±0.14% is achieved under worst case conditions.
    URI
    http://drsr.daiict.ac.in/handle/123456789/288
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