M. Vasiliu scite author profile

~~~~s~~a d t~~~~p~~, s .~~~~~a d t~~~~p~~~% . _ r r ? , ~~.Y@&~.P-u~LQ AbstractContinuing component dimension shrinking, associated with the dramatically increase of the operating @equenq, require an improved modelling of the interconnection to include coupled electromagnetic and thermal effects. Among these, skin and proximity effects are essential in the thermal management of thepackoge. Many electronic packages use as main signals, periodic sequence of rectangularpulses. Infirst part of this paper the influence of skin andproximity effects on the interconnection resistance when the current is a periodic sequence of rectangular pulses is reported. The non-sinusoidal skin effect is traditionally analysed by Fourier harmonic series. However slow convergent electromagnetic power series results. Series with accelerated convergence are used. These series are obtained by using a time-domain approach somehow similar to the transient analysis. Based on the non-sinusoidal skin depth concept. in the second part, it is presented a model for the evaluation of the increase factor of the resistance per unit length of the inferconnection structures for the pulse duration /pulse repetition period ratio in the range 0.1 to 0.5. Due to the higher harmonic content of this non-sinusoidal wave form the skin depth decreases significantly compared with sinusoidal one especially for large durations of the pause between two comemtivepulses. This paper focuses to o better understanding of the higher frequency effects in modem interconnection techniques. This novel approach allows the optimization of the interconnection structures.

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Boundary element method for multiply connected domains

Hantila

Vasiliu

Maricaru

et al. 2005

Journal of Materials Processing Technology

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Classical eddy current losses under nonsinusoidal rotational flux conditions

Vasiliu

Hantila²,

Enache³

1998

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Energy transfer in circuits with radiation

Hantila

Vasiliu

2008

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The aim of the paper is to develop a basic field-circuit approach to electromagnetic boundary field problems (BVPs). Compared with existing circuit approaches we contribute with a model allowing radiation to be taken into consideration. Radiative and conductive transfer of energy are reflected in boundary conditions (BCs) that involve both circuit and field ones. The theory is based on electromagnetic energy flow.

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M. Vasiliu

Polarization method for static fields

A qualitative approach to the non-sinusoidal skin and proximity effect in high frequency interconnections

Boundary element method for multiply connected domains

Classical eddy current losses under nonsinusoidal rotational flux conditions

Energy transfer in circuits with radiation

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