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Digital Calibration Method for High Resolution in Analog/RF Designs

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posted on 01.07.2015, 00:00 by Renzhi LiuRenzhi Liu
Transistor random mismatch continuously poses challenges for analog/RF circuit design for
achieving high accuracy and high yield as the process technology advances. Existing statistical
element selection (SES) design method can improve transistor matching property, but it falls
short of being a general calibration method due to its limited calibration range.
In this dissertation, we propose a high resolution digital calibration method, called extended
statistical element selection (ESES). As compared to the SES method, the ESES method not only
provides wider calibration range, but also it results in higher calibration yield with same
calibration resolution target. Two types of ESES based calibration application in analog/RF
circuits are also proposed. One is current source calibration and the other is phase/delay
To verify this proposed digital calibration method in circuit implementation, we designed,
fabricated and tested a wideband harmonic rejection receiver design. The receiver utilizes ESESbased
gain and phase error calibration for improving harmonic rejection ratios. With the high
calibration resolution provided by the ESES method, after calibration, we achieved best-in-class
harmonic rejection ratios. To extend the application of the proposed method, we further designed
a current-steering D/A data converter (CS-DAC). The CS-DAC utilizes ESES-based amplitude
and timing error calibration for improving linearity performance. Simulation results showed that
we can achieve more than one order of magnitude linearity improvement after performing ESESbased
calibration in the CS-DAC.




Degree Type



Electrical and Computer Engineering

Degree Name

  • Doctor of Philosophy (PhD)


Larry Pileggi Jeff Weldon

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