Integrated thermal-fluidic I/O interconnects for an on-chip microchannel heat sink

Author

Dang, Bing ; Bakir, Muhannad S. ; Meindl, James D.

Author_Institution

Microelectron. Res. Center, Georgia Inst. of Technol., Atlanta, GA, USA

Volume

27

Issue

2

fYear

2006

Firstpage

117

Lastpage

119

Abstract

Power dissipation in microprocessors will reach a level that necessitates chip-level liquid cooling in the near future. An on-chip microfluidic heat sink can reduce the thermal interfaces between an IC chip and the convective cooling medium. Through wafer-level processing, integrated thermal-fluidic I/O interconnects enable on-chip microfluidic heat sinks with ultrasmall form factor at low-cost. This letter describes wafer-level integration of microchannels at the wafer back-side with through-wafer fluidic paths and thermal-fluidic input/output interconnection for future generation gigascale integrated chips.

Keywords

heat sinks; integrated circuit interconnections; integrated circuit packaging; microfluidics; microprocessor chips; thermal management (packaging); IC chip; chip-level liquid cooling; convective cooling medium; microfluidic heatsink; microprocessor; power dissipation; thermal interface; thermal-fluidic input/output interconnect; wafer-level integration; Cooling; Etching; Heat sinks; Heat transfer; Microchannel; Microfluidics; Packaging; Polymers; Resistance heating; Thermal resistance; Microfluidic heatsink; thermal-fluidic input/output (I/O) interconnects;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2005.862693

Filename

1580600