Title :
Plane wave integral representation for fields in reverberation chambers
Author_Institution :
Electromagn. Field Div., Nat. Inst. of Stand. & Technol., Boulder, CO, USA
fDate :
8/1/1998 12:00:00 AM
Abstract :
A plane wave integral representation is presented for well-stirred fields in a reverberation chamber. The representation automatically satisfies Maxwell´s equations in a source-free region and the statistical properties of the fields are introduced through the angular spectrum, which is taken to be a random variable. Starting with fairly simple and physically appropriate assumptions for the angular spectrum, a number of properties of the electric and magnetic fields and the power received by an antenna or a test object are derived. Many of these properties and test object responses are in agreement with other theories or with measured results. An important result for radiated immunity testing is that the ensemble (stirring) average of received power is equal to the average over plane wave incidence and polarization
Keywords :
Maxwell equations; antenna testing; electromagnetic compatibility; electromagnetic fields; integral equations; reverberation chambers; statistical analysis; Maxwell´s equations; angular spectrum; antenna; electric field; magnetic field; plane wave incidence; plane wave integral representation; polarization; power received; radiated immunity testing; random variable; reverberation chambers; source-free region; statistical properties; test object; well-stirred fields; Antenna measurements; Dipole antennas; Electromagnetic measurements; Integral equations; Magnetic field measurement; Magnetic properties; Maxwell equations; Random variables; Reverberation chamber; Testing;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
