EMC Measurement System Based on Software Defined Radio and Diagnostic Techniques

Multiprobe spherical near-field measurement is a potent tool for fast and accurate characterization of electrical properties of antennas. The use of fast switching in one axis, an azimuth positioner, and a near- to far-field transformation allows a substantial time reduction in antenna measurements while maintaining high-quality results. On the other hand, conventional emissions EMC measurement systems are typically based on detecting the radiated spurious emissions by a device at different frequencies. The systems usually work in far-field (or quasi-far-field conditions), performing the measurements either at 3 or 10 meters. Measurements under these conditions take space and time. Moreover, the systems are not cost-effective for pre-compliance purposes where pre-testing of the device should provide valuable information and confidence about the DUT before performing a compliance test. This chapter analyzes the possibility of cost and space reduction for EMC systems based on multiprobe near-field measurement systems in combination with OTA (over the air measurements), reference-less systems, spherical near-field transformation, phase reconstruction, modal filtering, source reconstruction, and software-defined radio receivers.

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EMC Measurement System Based on Software Defined Radio and Diagnostic Techniques

Cited by 3 publications

References 4 publications

Out-of-the-Box Performance of popular SDRs for EMC pre-compliance Measurements

Out-of-the-Box Performance of popular SDRs for EMC pre-compliance Measurements

Feasibility Study of Near Field Multiprobe System as EMC Measurement Set-up

EMC Measurement Setup Based on Near-Field Multiprobe System

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