Numerical study of position stirring and frequency stirring in loaded reverberation chamber
Journal article, 2009

A numerical model of a loaded reverberation chamber is used to study the effectiveness of 3-D position stirring and frequency stirring. The numerical model is based on thin wires, the moment method, and a cavity Green's function. The average power transfer level between two dipole antennas is compared to the average power transfer level between a dipole antenna and a loop antenna. The two transmission levels should ideally be the same, as both the dipole and the loop are treated as being lossless and impedance matched. The standard deviation of the level differences is a measure of the accuracy of the chamber, and this is used to estimate the stirring effectiveness. It is shown that frequency stirring must be done over a larger bandwidth than the average mode bandwidth to be effective. The 3-D position stirring is also shown to be much more efficient than expected.

Sweden b SP Technical Research Institute of Sweden

SP Technical Research Institute of Sweden

SE-41296 Gothenburg

J.ac a Chalmers University of Technology

Chalmers Library Link Resolver(opens in a new window)|Search Chalmers Lib Catalog(opens in a new window)|View at Publisher| Export | Download | Add to List | More... IEEE Transactions on Electromagnetic Compatibility Volume 51

SE-501 15 Borås

Sweden c Electromagnetic Compatibility Department

P.-S.b

SE-501 15 Borås

Carlsson

U.ab

Kildal

and a cavity Green's function. The average power transfer leve

the moment method

Issue 1

2009

Pages 12-17 Numerical study of position stirring and frequency stirring in a loaded reverberation chamber (Article) Carlberg

Sweden View additional affiliations View references (20) Abstract A numerical model of a loaded reverberation chamber is used to study the effectiveness of 3-D position stirring and frequency stirring. The numerical model is based on thin wires

Author

Ulf Carlberg

Chalmers, Signals and Systems, Communication, Antennas and Optical Networks

Per-Simon Kildal

Chalmers, Signals and Systems, Communication, Antennas and Optical Networks

Jan Carlsson

Chalmers, Signals and Systems, Communication, Antennas and Optical Networks

IEEE Transactions on Electromagnetic Compatibility

0018-9375 (ISSN) 1558187x (eISSN)

Vol. 51 1 pp. 12-17

Subject Categories

Electrical Engineering, Electronic Engineering, Information Engineering

DOI

10.1109/TEMC.2008.2011818

More information

Created

10/7/2017