Byung Sung Kim scite author profile

Byung Sung Kim

3Publications

35Citation Statements Received

29Citation Statements Given

How they've been cited

143

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Affiliations

Sungkyunkwan University

Publications

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DSP-Driven Self-Tuning of RF Circuits for Process-Induced Performance Variability

Han

Kim

Chatterjee

2010

IEEE Trans. VLSI Syst.

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In the deep-submicrometer design regime, RF circuits are expected to be increasingly susceptible to process variations, and thereby suffer from significant loss of parametric yield. To address this problem, a postmanufacture self-tuning technique that aims to compensate for multiparameter variations is presented. The proposed method incorporates a "response feature" detector and "hardware tuning knobs," designed into the RF circuit. The RF device test response to a specially crafted diagnostic test stimulus is logged via the built-in detector and embedded analog-to-digital converter. Analysis and prediction of the optimal tuning knob control values for performance compensation is performed using software running on the baseband DSP processor. As a result, the RF circuit performance can be diagnosed and tuned with minimal assistance from external test equipment. Multiple RF performance parameters can be adjusted simultaneously under tuning knob control. The proposed concepts are illustrated for an RF lownoise amplifier (LNA) design and can be applied to other RF circuits as well. A simulation case study and hardware measurements on a fabricated 1.9-GHz LNAs show significant parametric yield enhancement (up to 58%) across the critical RF performance specifications of interest.

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A High Power CMOS Switch Using Substrate Body Switching in Multistack Structure

Ahn

Kim

Lee

et al. 2007

IEEE Microw. Wireless Compon. Lett.

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A High-Power CMOS Switch Using A Novel Adaptive Voltage Swing Distribution Method in Multistack FETs

Ahn

Lee

Kim

et al. 2008

IEEE Trans. Microwave Theory Techn.

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Byung Sung Kim

DSP-Driven Self-Tuning of RF Circuits for Process-Induced Performance Variability

A High Power CMOS Switch Using Substrate Body Switching in Multistack Structure

A High-Power CMOS Switch Using A Novel Adaptive Voltage Swing Distribution Method in Multistack FETs

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