Abstract
Almost every modern electronic system produces electro-
magnetic interference (EMI). Therefore, the legislation in
the different markets limit the levels of emission by
serveral regulatories. This means that a device can only
be sold, if it fulfills these regulatories. Up till now, all
investigations regarding EMI are done with hardware
prototypes, which increases the time to market, if re-
designs are necessary.
To avoid these time consuming loops, the goal is to
predict EMI already in the concept phase without a
hardware prototype. Electromagnetic emissions are
occurring in two ways: radiated and conducted. The goal
is to cover both types with the proposed systematical
approach.
magnetic interference (EMI). Therefore, the legislation in
the different markets limit the levels of emission by
serveral regulatories. This means that a device can only
be sold, if it fulfills these regulatories. Up till now, all
investigations regarding EMI are done with hardware
prototypes, which increases the time to market, if re-
designs are necessary.
To avoid these time consuming loops, the goal is to
predict EMI already in the concept phase without a
hardware prototype. Electromagnetic emissions are
occurring in two ways: radiated and conducted. The goal
is to cover both types with the proposed systematical
approach.
Original language | German |
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Pages | 15 |
Number of pages | 1 |
Publication status | Published - 27 Apr 2017 |
Event | EMV Fachtagung 2017 - TU Graz, Graz, Austria Duration: 26 Apr 2017 → 27 Apr 2017 |
Conference
Conference | EMV Fachtagung 2017 |
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Country/Territory | Austria |
City | Graz |
Period | 26/04/17 → 27/04/17 |
Fields of Expertise
- Information, Communication & Computing