Title :
A statistical approach to system-level radiated susceptibility testing
Author :
Jennings, P.A. ; Ball, R.J. ; Lever, P.H.
Author_Institution :
Rover Adv. Technol. Centre, Warwick Univ., Coventry, UK
Abstract :
The technique chosen by Rover for use as a system level susceptibility test was bulk current injection (BCI). This method has been chosen for a number of reasons. It is convenient, compact and mimics the actual mechanism by which interference is introduced into equipment in the real world (from 10 to 400 MHz), namely conduction through the wiring harness. Additionally, its use has been widespread in the aerospace industries, where whole aircraft testing is impractical. To gain correlation between this BCI system-level bench test and the whole vehicle radiated susceptibility test as measured in a semi-anechoic EMC screened room, it is necessary to modify the resultant susceptibility profile using the individually measured transfer function of the device under test (the induced current per unit applied electric field strength). Since this transfer function is not usually available, a statistical technique has been developed. The implementation of the technique at Rover is described
Keywords :
automobiles; correlation methods; electromagnetic compatibility; electromagnetic interference; field strength measurement; statistical analysis; transfer functions; 10 to 400 MHz; EMC; EMI; HF; Rover; UHF; VHF; bench test; bulk current injection; cars; conduction; correlation; device under test; electric field strength; induced current; radiated susceptibility testing; screened room; semianechoic; statistical method; system level testing; transfer function; whole vehicle test; wiring harness;
Conference_Titel :
Role of Statistics in EMC Specification Design and Clearance, IEE Colloquium on
Conference_Location :
London
