Title :
Reducing the standard compliance uncertainty by using ferrite type CMADs during radiated disturbance measurements acc. to CISPR 16-2-3
Author_Institution :
Test & Meas. Div., Rohde & Schwarz GmbH & Co. KG, Munich, Germany
Abstract :
The consideration of measurement instrumentation uncertainty (MIU) is common practice when determining compliance or non-compliance with a disturbance limit. But MIU is just a subpart of the standard compliance uncertainty (SCU) which also addresses uncertainties related to the EUT set-up, EUT operation and measurement procedure. One major influence quantity of SCU is the termination of cables leaving the test volume of the radiated disturbance measurement set-up. With the publication of Amendment A2 to 3rd Edition of CISPR 16-2-3 in 2014 new requirements for minimizing this effect become effective. It requires the termination of cables leaving the test volume using a ferrite type common mode absorption device (CMAD). The significant technical changes and measurement results with and without using CMAD are presented.
Keywords :
IEC standards; conformance testing; electric noise measurement; electromagnetic compatibility; ferrite devices; measurement uncertainty; CISPR 16-2-3 third edition Amendment A2; cable termination; common mode absorption device; disturbance limit compliance; ferrite type CMAD; measurement instrumentation uncertainty; radiated disturbance measurements; standard compliance uncertainty; Antenna measurements; Ferrites; Frequency measurement; Measurement uncertainty; Standards; Uncertainty; Volume measurement; CISPR; CMAD; MIU; radiated disturbance measurement; standard compliance uncertainty;
Conference_Titel :
Electromagnetic Compatibility, Tokyo (EMC'14/Tokyo), 2014 International Symposium on
Conference_Location :
Tokyo
