Title :
Heat-Sink Modeling and Design With Dipole Moments Representing IC Excitation
Author :
Zhenwei Yu ; Mix, Jason A. ; Sajuyigbe, Soji ; Slattery, Kevin P. ; Pommerenke, David ; Jun Fan
Author_Institution :
Electromagn. Compatibility Lab., Missouri Univ. of Sci. & Technol., Rolla, MO, USA
Abstract :
Electromagnetic field coupling and radiation from a heat sink is a challenging issue in the electromagnetic compatibility design of high-speed circuits. In order to accurately predict the fields excited by a heat sink, an approach is proposed in this paper to include the equivalent excitation of the heat sink, which is described by some dipole moments constructed from the near-field scanning of the integrated circuit beneath the heat sink. With both the dipole moments and the passive heat-sink structure incorporated in a full-wave model, near-field coupling and far-field radiation can be estimated, and the heat-sink structure can be optimized for mitigating unintentional interferences. Two examples are used to validate and demonstrate the proposed approach.
Keywords :
electric moments; electromagnetic compatibility; electromagnetic coupling; electromagnetic fields; electromagnetic interference; heat sinks; high-speed integrated circuits; integrated circuit modelling; IC excitation; dipole moment; electromagnetic compatibility design; electromagnetic field coupling; electromagnetic field radiation; equivalent excitation; far-field radiation; full-wave model; heat sink; heat-sink modeling; high-speed circuit; interference mitigation; near-field coupling; near-field scanning; passive heat-sink structure; Electromagnetic heating; Heat sinks; Integrated circuit modeling; Magnetic moments; Magnetic resonance imaging; Dipole moments; electromagnetic coupling and radiation; heat-sink excitation; near-field scanning;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2012.2210720
