An Experimental Technique for Calibration Uncertainty Analysis

Author

Arsenovic, Alexander ; Lihan Chen ; Bauwens, Matthew F. ; Huilin Li ; Barker, N.S. ; Weikle, Robert M.

Author_Institution

Charles L. Brown Dept. of Electr. & Comput. Eng., Univ. of Virginia, Charlottesville, VA, USA

Volume

61

Issue

1

fYear

2013

fDate

Jan. 2013

Firstpage

263

Lastpage

269

Abstract

An experimentally based technique for characterizing calibration uncertainty is presented. The approach described calculates uncertainty metrics at the output of the calibration processing chain as opposed to the input. In doing so, this method replaces the complexities of error propagation with the computational effort associated with performing numerous calibrations. Practical applications are demonstrated for a variety of scenarios focused on one-port calibration, illustrating the versatility of the technique. An open-source implementation has been made publicly available as part of the Python module scikit-rf.

Keywords

calibration; measurement uncertainty; microwave measurement; millimetre wave measurement; Python module; calibration processing chain; calibration uncertainty analysis; computational effort; error propagation; experimental technique; numerous calibrations; one-port calibration; open-source implementation; scikit-rf; uncertainty metrics; Calibration; Coplanar waveguides; Delay; Measurement uncertainty; Probes; Standards; Uncertainty; Calibration; measurement; scattering parameter; uncertainty; vector network analyzer (VNA);

fLanguage

English

Journal_Title

Microwave Theory and Techniques, IEEE Transactions on

Publisher

ieee

ISSN

0018-9480

Type

jour

DOI

10.1109/TMTT.2012.2222908

Filename

6353230