Twenty Fourth IEEE/CPMT International Electronics Manufacturing Technology Symposium (Cat. No.99CH36330)
DOI: 10.1109/iemt.1999.804855
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High thermal performance silicon heat spreaders with microwhisker structure

Abstract: In-situ die attaching techniques for power electronics applications like laser diodes, microwave emitting diodes and microprocessors operated at high cycle rates frequently must allow loss power dissipation exceeding 100 W/cm2 at operation temperatures as low as possible. In this field new packaging concepts are required using substrates with enhanced thermal performance.A promising attempt to improve the heat transfer coefficient between heat source and heat sink significantly is the development of silicon su… Show more

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“…Nevertheless, the cost of manufacturing these proposed wick structure should be considerably inexpensive and the reliability should be lies above an acceptable level for practical application in electronic devices. Hammel et al [4] proposed a silicon heat spreader with microwhisker structure, which was proved to have a heat dissipation rate of 6 . Ponnappan [5] presented a miniature heat pipe with groove-wick structure.…”
Section: Introductionmentioning
confidence: 99%
“…Nevertheless, the cost of manufacturing these proposed wick structure should be considerably inexpensive and the reliability should be lies above an acceptable level for practical application in electronic devices. Hammel et al [4] proposed a silicon heat spreader with microwhisker structure, which was proved to have a heat dissipation rate of 6 . Ponnappan [5] presented a miniature heat pipe with groove-wick structure.…”
Section: Introductionmentioning
confidence: 99%