IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0209446
(2008-09-12)
|
등록번호 |
US-7660124
(2010-04-02)
|
우선권정보 |
TW-96144933 A(2007-11-27) |
발명자
/ 주소 |
- Chen, Jung-Chi
- Chen, Che-Hsueh
|
출원인 / 주소 |
|
대리인 / 주소 |
Thomas, Kayden, Horstemeyer & Risley
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
3 |
초록
▼
A digital micromirror device (DMD) module includes a circuit board, a DMD element, a soft elastic pad, a heat dissipation pad and a heat sink. The circuit board includes a first surface, a second surface and a through hole, wherein the first surface is opposite to the second surface. The DMD element
A digital micromirror device (DMD) module includes a circuit board, a DMD element, a soft elastic pad, a heat dissipation pad and a heat sink. The circuit board includes a first surface, a second surface and a through hole, wherein the first surface is opposite to the second surface. The DMD element is electrically connected to the circuit board. The soft elastic pad is disposed on the first surface of the circuit board and surrounds the through hole. The heat dissipation pad passes through the through hole and contacts the DMD element. The soft elastic pad is sandwiched between the circuit board and the heat sink, the heat dissipation pad is sandwiched between the heat sink and the DMD element, and the heat sink contacts the soft elastic pad and the heat dissipation pad, so as to apply a force to the soft elastic pad and the heat dissipation pad.
대표청구항
▼
What is claimed is: 1. A digital micromirror device module, comprising: a circuit board, comprising a first surface, a second surface and a through hole, wherein the first surface is opposite to the second surface; a digital micromirror device element, electrically connected to the circuit board; a
What is claimed is: 1. A digital micromirror device module, comprising: a circuit board, comprising a first surface, a second surface and a through hole, wherein the first surface is opposite to the second surface; a digital micromirror device element, electrically connected to the circuit board; a soft elastic pad, disposed on the first surface of the circuit board and surrounding the through hole; a heat dissipation pad, passing through the through hole and contacting the digital micromirror device element; and a heat sink, wherein the soft elastic pad is sandwiched between the circuit board and the heat sink, the heat dissipation pad is sandwiched between the heat sink and the digital micromirror device element, and the heat sink contacts the soft elastic pad and the heat dissipation pad to apply a force to the soft elastic pad and the heat dissipation pad. 2. The digital micromirror device module as claimed in claim 1, wherein the soft elastic pad is made of rubber. 3. The digital micromirror device module as claimed in claim 1, wherein the heat sink comprises a first abutting area and a second abutting area, wherein the first abutting area contacts the soft elastic pad, the second abutting area contacts the heat dissipation pad, and the second abutting protrudes from the first abutting area. 4. The digital micromirror device module as claimed in claim 1, further comprising a socket disposed on the second surface, wherein the digital micromirror device element is connected to the socket, the socket comprises an electrical contacting area, and the soft elastic pad corresponds to the electrical contacting area. 5. The digital micromirror device module as claimed in claim 1, further comprising a housing and a plurality of fixers, wherein the fixers fix the heat sink and the circuit board to the housing to control a distance between the heat sink and the circuit board and a distance between the heat sink and the digital micromirror device element, simultaneously. 6. The digital micromirror device module as claimed in claim 5, wherein there is no spring telescoped on the fixers. 7. A digital micromirror device module design method, comprising: providing a digital micromirror device module, comprising: a circuit board, comprising a first surface, a second surface and a through hole, wherein the first surface is opposite to the second surface; a digital micromirror device element, electrically connected to the circuit board; a soft elastic pad, disposed on the first surface of the circuit board and surrounding the through hole; a heat dissipation pad, passing through the through hole and contacting the digital micromirror device element; and a heat sink, wherein the soft elastic pad is sandwiched between the circuit board and the heat sink, the heat dissipation pad is sandwiched between the heat sink and the digital micromirror device element, and the heat sink contacts the soft elastic pad and the heat dissipation pad to apply a force to the soft elastic pad and the heat dissipation pad; modifying thickness or material of the soft elastic pad, so as to use the force provided by the soft elastic pad to modify an electrical load; and modifying thickness or material of the heat dissipation pad, so as to use the force provided by the heat dissipation pad to modify a thermal load. 8. The digital micromirror device module design method as claimed in claim 7, wherein the heat sink comprises a first abutting area and a second abutting area, the first abutting area contacts the soft elastic pad, the second abutting area contacts the heat dissipation pad, and the second abutting protrudes from the first abutting area. 9. The digital micromirror device module design method as claimed in claim 8, wherein the step of providing the digital micromirror device module further comprises designing a height difference between the first and the second abutting areas to modifying the thermal load. 10. The digital micromirror device module design method as claimed in claim 7, wherein the digital micromirror device module further comprises a housing and a plurality of fixers, the fixers fix the heat sink and the circuit board to the housing, so as to control a distance between the heat sink and the circuit board and a distance between the heat sink and the digital micromirror device element, simultaneously. 11. The digital micromirror device module design method as claimed in claim 10, wherein there is no spring telescoped on the fixers. 12. The digital micromirror device module design method as claimed in claim 7, wherein the digital micromirror device module further comprising a socket disposed on the second surface, the digital micromirror device element is connected to the socket, the socket comprises an electrical contacting area, and the soft elastic pad corresponds to the electrical contacting area. 13. The digital micromirror device module design method as claimed in claim 7, wherein the soft elastic pad is made of rubber. 14. A digital micromirror device module, comprising: a circuit board, comprising a first surface, a second surface and a through hole, wherein the first surface is opposite to the second surface; a digital micromirror device element, electrically connected to the circuit board; and a heat conducting unit, connected to the first surface of the circuit board, wherein the heat conducting unit is consisted of: a soft elastic pad, disposed on the first surface of the circuit board and surrounding the through hole; a heat dissipation pad, passing through the through hole and contacting the digital micromirror device element; and a heat sink, wherein the soft elastic pad is sandwiched between the circuit board and the heat sink, the heat dissipation pad is sandwiched between the heat sink and the digital micromirror device element, and the heat sink contacts the soft elastic pad and the heat dissipation pad; and a plurality of fixers, wherein the fixers fix the heat sink and the circuit board to the housing, so as to control a distance between the heat sink and the circuit board and a distance between the heat sink and the digital micromirror device element, simultaneously. 15. The digital micromirror device module as claimed in claim 14, wherein the soft elastic pad is made of rubber. 16. The digital micromirror device module as claimed in claim 14, wherein the heat sink comprises a first abutting area and a second abutting area, the first abutting area contacts the soft elastic pad, the second abutting area contacts the heat dissipation pad, and the second abutting protrudes from the first abutting area. 17. The digital micromirror device module as claimed in claim 14, further comprising a socket disposed on the second surface, wherein the digital micromirror device element is connected to the socket, the socket comprises an electrical contacting area, and the soft elastic pad corresponds to the electrical contacting area. 18. The digital micromirror device module as claimed in claim 14, further comprising a housing, wherein the fixers fix the heat sink and the circuit board to the housing.
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