COOLING OF SUBSTRATE USING INTERPOSER CHANNELS

US 20090008130A1
Filed: 09/18/2008
Published: 01/08/2009
Est. Priority Date: 09/02/2004
Status: Active Grant

First Claim

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1. A structure, comprising an interposer adapted to be interposed between a heat source and a heat sink and to transfer heat from the heat source to the heat sink, said interposer comprising an enclosure that encloses a cavity, said enclosure being made of a thermally conductive material, said cavity comprising a thermally conductive foam material therein, said foam material comprising pores and comprising at least one serpentine channel, each serpentine channel having a plurality of contiguously connected channel segments, each serpentine channel independently forming a closed loop or an open ended loop, said foam material adapted to be soaked by a liquid filling said pores, each serpentine channel being adapted to be partially filled with a fluid that serves to transfer heat from the heat source to the heat sink.

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Abstract

A structure. The structure includes an interposer adapted to be interposed between a heat source and a heat sink and to transfer heat from the heat source to the heat sink. The interposer includes an enclosure that encloses a cavity. The enclosure is made of a thermally conductive material. The cavity includes a thermally conductive foam material. The foam material includes pores and includes at least one serpentine channel. Each serpentine channel has at least two contiguously connected channel segments. Each serpentine channel independently forms a closed loop or an open ended loop. The foam material is adapted to be soaked by a liquid filling the pores. Each serpentine channel is adapted to be partially filled with a fluid that serves to transfer heat from the heat source to the heat sink.

14 Citations

15 Claims

1. A structure, comprising an interposer adapted to be interposed between a heat source and a heat sink and to transfer heat from the heat source to the heat sink, said interposer comprising an enclosure that encloses a cavity, said enclosure being made of a thermally conductive material, said cavity comprising a thermally conductive foam material therein, said foam material comprising pores and comprising at least one serpentine channel, each serpentine channel having a plurality of contiguously connected channel segments, each serpentine channel independently forming a closed loop or an open ended loop, said foam material adapted to be soaked by a liquid filling said pores, each serpentine channel being adapted to be partially filled with a fluid that serves to transfer heat from the heat source to the heat sink.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. The structure of claim 1, wherein the at least one serpentine channel consists of one serpentine channel.
  - 3. The structure of claim 1, wherein the at least one serpentine channel consists of a plurality of serpentine channels.
  - 4. The structure of claim 1, wherein the channel segments of a first serpentine channel of the at least one serpentine channel are disposed at a same planar level within the interposer, and wherein the planar level is perpendicular to a thickness direction of the interposer.
  - 5. The structure of claim 1, wherein the plurality of channel segments of a first serpentine channel of the at least one serpentine channel comprises a first set of contiguously connected channel segments and a second set of contiguously connected channel segments, wherein the first and second set of channel segments are respectively disposed at a first and second planar level of the interposer, wherein the first and second planar levels are each perpendicular to a thickness direction of the interposer and are not coplanar.
  - 6. The structure of claim 5, wherein corresponding channel segments of the first and second set of channel segments are mutually parallel.
  - 7. The structure of claim 6, wherein the corresponding channel segments of the first and second set of channel segments are mutually aligned with respect to the thickness direction.
  - 8. The structure of claim 6, wherein the corresponding channel segments of the first and second set of channel segments are mutually offset with respect to the thickness direction.
  - 9. The structure of claim 5, wherein the first set of channel segments are perpendicular to the second set of channel segments.
  - 10. The structure of claim 1, wherein a channel segment of the plurality of channel segments of a first serpentine channel of the at least one serpentine channel is in direct mechanical and thermal contact with a side of the enclosure.
  - 11. The structure of claim 1, wherein an end surface of a first serpentine channel of the at least one serpentine channel is bounded by a side of the enclosure and is in direct mechanical and thermal contact with the side of the enclosure.
  - 12. The structure of claim 1, wherein an end surface of a first serpentine channel of the at least one serpentine channel is bounded by the foam material and is in direct mechanical and thermal contact with the foam material.
  - 13. The structure of claim 1, wherein the plurality channel segments of a first serpentine channel of the at least one serpentine channel form a closed loop, wherein the plurality of channel segments of the first serpentine channel comprise a first set of channel segments alternating with a second set of channel segments, wherein the channel segments of the first and second sets of channel segments are each oriented in a direction, wherein the channel segments of the first set of channel segments each have a constant cross-sectional area with respect to the direction, and wherein the channel segments of the second set of channel segments are tapered with respect to the direction.
  - 14. The structure of claim 1, wherein the foam material comprises a graphite foam whose pores are filled with the liquid.
  - 15. The structure of claim 1, further comprising a semiconductor chip, wherein a first side of the semiconductor chip is in mechanical and thermal contact with the interposer, wherein the semiconductor chip comprises active electronic devices on a second side of the semiconductor chip that is opposite the first side of the semiconductor chip, and wherein the heat source comprises the active electronic devices.

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Current Assignee
GlobalFoundries, Inc.
Original Assignee
Lawrence S. Mok, Minhua Lu
Inventors
Mok, Lawrence S., Lu, Minhua

Granted Patent

US 8,110,746 B2
Time in Patent Office

Days
Field of Search
US Class Current

174/252
CPC Class Codes

F28D 15/0266   with separate evaporating a...

H01L 2224/0401   Bonding areas specifically ...

H01L 2224/16   of an individual bump conne...

H01L 23/427   Cooling by change of state,...

H01L 23/433   Auxiliary members in contai...

H01L 2924/00   Indexing scheme for arrange...

H01L 2924/00011   Not relevant to the scope o...

H01L 2924/00014   the subject-matter covered ...

H01L 2924/01019   Potassium [K]

H01L 2924/10253   Silicon [Si]

Y10T 29/49126   Assembling bases

Y10T 29/49128   Assembling formed circuit t...

Y10T 29/4913   Assembling to base an elect...

Y10T 29/49165   by forming conductive walle...

Y10T 29/49204   Contact or terminal manufac...

COOLING OF SUBSTRATE USING INTERPOSER CHANNELS

First Claim

5 Assignments

0 Petitions

Accused Products

Abstract

14 Citations

15 Claims

Specification

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COOLING OF SUBSTRATE USING INTERPOSER CHANNELS

First Claim

5 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

14 Citations

15 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links