Abstract
Abstract. EMC measurements must be carried out in standardized and defined measuring environments. The frequency range between 9 kHz and 30 MHz is a major challenge for measurement technology. The established test sites are designed with an perfect elelctrically conducting ground. For the considered lower frequency range, the metrological validation is carried out with magnetic field antennas in this frequency range. The aim is therefore to take into account the ferromagnetic properties of the ground plane in such a measurement environment and to describe them analytically or numerically with an electrical equivalent circuit diagram. In this article we simplify the model to two loopantennas in Freespace without groundplane to check if the approache with the ECD will work. Therefore we use various numerical field calculation programs in the frequency range up to 30 MHz. The results from simulations are to be checked for correctness with describing them analytically or numerically. For this purpose, a model consisting of two loop antennas was created and simulated in a numerical simulation program. In order to validate the results from the simulation, two different approaches to creating an electrical equivalent circuit (ECD) are examined. The first approach is based on the real equivalent circuit diagram of a coil and the second approach forms a parallel resonant circuit of the first resonance of an antennas input impedance. The focus here is on the mutual inductance, which represents the coupling between the two antennas.
Highlights
EMC measurements of emitted interference and immunity are to be carried out in accordance with CISPR-16 and CISPR-25 in standardized and defined measurement environments like Open Aerea Test Sites (OATS) or Semi Anechoic Chambers (SAC) (IEC/CISPR 16-1-4, 2019)
In order to validate the results from the simulations, an equivalent circuit diagram (ECD) is modeled by numerical circuit calculation program
One approach is to model a circuit from the ECD of a real coil and the second approach is to implement a circuit using the first resonance of the input impedance of the modeled antennas
Summary
EMC measurements of emitted interference and immunity are to be carried out in accordance with CISPR-16 and CISPR-25 in standardized and defined measurement environments like Open Aerea Test Sites (OATS) or Semi Anechoic Chambers (SAC) (IEC/CISPR 16-1-4, 2019). A first step was an investigation of the influence of a ground plane on the measurement result in the frequency range up to 30 MHz with the aid of various numerical field calculation programs (Rogowski et al, 2018a, b). The antenna is modeled as the ECD of a real coil, i.e. lossy with parasitic winding capacitance This has already been investigated for a single loop antenna, which a plane wave field is applied in a pre-. In addition to the constant calculated mutual inductance, the influence of the frequency on the magnetic field in the coupling between the antennas should be taken into account
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