Rheometry of multi-port spaceborne antennas including mutual antenna capacitances and application to STEREO/WAVES

Abstract

Electrolytic tank measurements were applied often to determine the antenna properties of spaceborne monopole antennas. This technique, called rheometry in the present context, yields the effective length vectors of antennas for the quasi-static frequency range. When receivers or preamplifiers are connected to the antennas, their input impedances and the capacitances of the cables change the effective length vectors. In the evaluation of former rheometry measurements this effect has been taken into account for each antenna individually, tacitly neglecting the mutual antenna capacitances. Our analysis shows that this neglect can cause errors in the measured effective axes (directions of effective length vectors) of up to about 10°. However, in order to apply direction finding techniques with a triaxial antenna system an accuracy of about 2° is required. We therefore extend rheometry to the measurement of the complete antenna capacitance matrix. An application of the presented technique to the WAVES antenna system onboard the STEREO spacecraft verifies that the mutual capacitances are crucial in this context. With the extended rheometry technique the antenna transfer and capacitance matrices can be completely determined, thereby yielding a full representation of the reception properties of the antenna system as part of an electronic circuit.