The use of a gigahertz transverse electromagnetic (GTEM) cell for both near-field and far-field radiated emission testing is considered. The approach is to model the radiation from the device under test (DUT) as due to an equivalent set of multipole moments. A sequence of three, six, or nine GTEM measurements is used to determine the equivalent multipole moments for a particular DUT. The multipole model makes it possible to predict both the DUT free space radiation pattern and the DUT radiation over a ground screen. The correlation between GTEM cell and open area test site (OATS) measurements for the far field case (>30 MHz, 3-m distance) has been examined previously. Correlation of sources in the near field (<30 MHz, 1-m distance) is considered in the present work. Agreement between OATS data and GTEM cell correlated data is better than 2 dB.<<ETX>>
[1]
D. Koenigstein,et al.
Simulating open area test site emission measurements based on data obtained in a novel broadband TEM cell
,
1989,
National Symposium on Electromagnetic Compatibility.
[2]
D. Hill,et al.
A three-loop method for determining the radiation characteristics of an electrically small source
,
1992
.
[3]
J.D.M. Osburn,et al.
Radiated emissions test performance of the GHz TEM cell
,
1991,
IEEE 1991 International Symposium on Electromagnetic Compatibility.
[4]
M. T. Ma,et al.
A New Method for Determining the Emission Characteristics of an Unknown Interference Source
,
1982,
1982 IEEE International Symposium on Electromagnetic Compatibility.