Pre-Silicon direct Calibration/De-embedding Evaluation and Device Parameters Uncertainty Estimation

Conference paper (2021)

Authors

C. Esposito Technische Universität Dresden
C. De Martino Electronics - EEMCS , Vertigo Technologies
S. Lehmann GlobalFoundries
Zhixing Zhao GlobalFoundries
M. Schroter Technische Universität Dresden
M. Spirito Electronics - EEMCS
Research Group
Electronics (EEMCS) (TU Delft)
De-embedding [Calibration Mm-wave]
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Published Date

2021

Language

English

Reuse Rights

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Microelectronics

Research Group

Electronics

Abstract

In this contribution we present a simulation test-bench capable of separating and quantifying all the major sources of uncertainties in user-designed direct calibration/de-embedding test-fixtures. The calibrated data systematic errors arising from the different response of the standard definitions when compared to their in-fixture ones as well as the random contributions arising from the instrument noise and probe (variable) misplacement are described and propagated through the calibration equations versus frequency. Finally, the S-parameter uncertainties are further propagated to the device level parameters, i.e., gate capacitance and transducer gain to provide the required link between calibration accuracy and modelling uncertainty. Preliminary measurement data in the 140GHz-220GHz range are compared versus the uncertainty model prediction.