Proceedings Article10.1109/APEC.1997.581484
Exploiting the third dimension in power electronics packaging
J.A. Ferreira,Ivan W. Hofsajer,J.D. van Wyk +2 more
- 23 Feb 1997
- Vol. 1, pp 419-423
34
TL;DR: In this article, a concept involving multiple layers of electromagnetic materials and switching function layers is proposed, where a module is encapsulated in a ferrite and copper casing ensuring low EMI and EMS.
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Abstract: A common feature of current power electronics packaging is that technologies and concepts of low power electronics are adapted and consequently the circuit remains essentially two dimensional Exploitation of the third dimension, namely the height creates volume which is essential for the energy storage and conversion functions and also makes compact packaging possible However, as the height and therefore the volume increases, thermal considerations become increasingly important A concept involving multiple layers of electromagnetic materials and switching function layers is proposed A module is encapsulated in a ferrite and copper casing ensuring low EMI and EMS The module has both electrical and thermal ports to interface with its environment The concept is illustrated using two prototype DC to DC power converters
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Citations
Power electronics technology at the dawn of the new millenium-status and future
J.D. van Wyk,Fred C. Lee +1 more
- 01 Jul 1999
TL;DR: In this article, the status of power electronics technology by looking at eight constituent technologies (power switch technology, passive components, power switching network technology, packaging technology, environmental impact technology, cooling technology, manufacturing technology, and converter control technology) is examined.
146
Integrating active, passive and EMI-filter functions in power electronics systems:a case study of some technologies
TL;DR: In this paper, the authors address the improvement of power processing technology through advanced integration of power electronics, incorporating active switching stages, electromagnetic interference (EMI) filters, and electromagnetic power passives into modules by integration technology.
97
Optimal operating ranges of three modulation methods in dual active bridge converters
Yi Wang,S.W.H. de Haan,Jan Abraham Ferreira +2 more
- 17 May 2009
TL;DR: In this paper, the combined use of three modulation methods on a DAB converter (12V/360V, 1 kW and 25 kHz) was investigated to obtain the best system efficiencies over full converter operating range.
92
High Performance Silicon Carbide Power Packaging—Past Trends, Present Practices, and Future Directions
Sayan Seal,Homer Alan Mantooth +1 more
TL;DR: In this article, the authors present a vision for the future of 3D packaging and integration of silicon carbide (SiC) power modules, and discuss the major technology barriers preventing SiC power devices from performing to their fullest ability.
87
Three-dimensional flip-chip on flex packaging for power electronics applications
TL;DR: The flip-chip on flex IPEM (FCOF-IPEM) as mentioned in this paper was proposed to improve the reliability of 3D integrated power electronics modules (IPEMs) by using triple-stacked solder bump metallurgy.
68
References
•Proceedings Article
Technology for manufacture of integrated planar LC structures for power electronic applications
M.C. Smit,J.A. Ferreira,J.D. van Wyk,Mehrdad Ehsani +3 more
- 06 Aug 2002
55
•Proceedings Article
Functional component integration in a multi-kilowatt resonant converter
Ivan W. Hofsajer,J.D. van Wyk,J.A. Ferreira +2 more
- 06 Aug 2002
36
A new manufacturing and packaging technology for the integration of power electronics
Ivan W. Hofsajer,J.A. Ferreira,J.D. van Wyk +2 more
- 08 Oct 1995
TL;DR: In this article, a new manufacturing and packaging technology for power electronics is described and evaluated, which is required to fulfil the need for cost effective, mass market, power electronics products and is based on a new planar technology that is well suited to mass production.
29
An overview of smart power technology
TL;DR: The evolution of smart power technology and the impact of this technology on electronic systems are reviewed in this article, where the technical challenges involved in combining power handling capability with on-chip regulation of overcurrent, overvoltage, and overtemperature conditions are described, together with examples of solutions for telecommunications, motor control, and switch mode power supplies.
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