Method for drilling holes in a substrate
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0369623
(2003-02-21)
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우선권정보 |
DE-0007288 (2002-02-21) |
발명자
/ 주소 |
- De Steur, Hubert
- Kilthau, Alexander
- Kletti, Andre
- Mayer, Hans Juergen
- Mitzinneck, Petra
- Roelants, Eddy
- Thuerk, Oliver
- Biesen, Marc Van
|
출원인 / 주소 |
- Siemens Aktiengesellschaft
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대리인 / 주소 |
Harness, Dickey & Pierce, P.L.C.
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인용정보 |
피인용 횟수 :
4 인용 특허 :
6 |
초록
▼
When holes are being drilled in an electric circuit substrate, a laser beam is moved on concentric circular tracks in the region of the hole to be drilled. The transition from one circular track to the next takes place in each case on an arc that departs approximately tangentially from the circular
When holes are being drilled in an electric circuit substrate, a laser beam is moved on concentric circular tracks in the region of the hole to be drilled. The transition from one circular track to the next takes place in each case on an arc that departs approximately tangentially from the circular track last traversed and nestles approximately tangentially against the circular track newly to be described in such a way that in each case the starting point of a new circular track is offset by a prescribed angle from the starting point of the preceding circular track.
대표청구항
▼
1. A method for drilling holes in a substrate, comprising:centering a laser beam on the substrate at a region of a hole to be drilled, andmoving the laser beam within the cross-sectional area of the hole with a beam spot diameter that is smaller than a hole diameter in concentric circular tracks wit
1. A method for drilling holes in a substrate, comprising:centering a laser beam on the substrate at a region of a hole to be drilled, andmoving the laser beam within the cross-sectional area of the hole with a beam spot diameter that is smaller than a hole diameter in concentric circular tracks with a radius changing in steps,wherein a transition from one circular track to a respective next circular track (K 1 to K 5 ) having a different radius takes place in each case in the form of an arc (b 1 to b 6 ) departing approximately tangentially from a circular track last traversed, the circular track last traversed nestled approximately tangentially against a next circular track in such a way that in each case a starting point (A to E; A 1 to E 2 ) of the next circular track (K 2 to K 6 ) is offset by a prescribed angle from starting and end points of a preceding circular track (K 1 to K 5 ). 2. The method as claimed in claim 1, wherein the starting points (A to E; A 1 to E 2 ) of the circular tracks (K 1 to K 6 ) traversed by the laser beam during drilling of the hole are distributed over an entire circumference of the hole with the same angular offset in each case. 3. The method as claimed in claim 1, wherein the arc (b 2 to b 6 ) from one circular track (K 1 to K 5 ) to a next circular track (K 2 to K 6 ) describes the shape of a segment of an ellipse in each case. 4. The method as claimed in claim 1, wherein the laser beam is switched off in each case during an arcuate movement of an axis thereof from one circular track to the next. 5. The method as claimed in claim 1, wherein the laser beam outputs pulses of high energy density in each case during movement on the circular tracks (K 1 to K 5 ), the laser beam being switched to a continuous wave mode of low energy density during an arcuate movement (b 1 to b 5 ) from one circular track (K 1 to K 5 ) to the next. 6. The method as claimed in claim 1, wherein the laser beam traverses each circular track (K 1 to K 5 ) several times before it is moved to a starting point of a immediately following circular track (K 2 to K 5 ). 7. The method as claimed claim 1, wherein the laser beam traverses all the circular tracks (K 1 to K 5 ) once each in a first cycle, and thereafter traverses each of the circular tracks (K 1 to K 5 ) again in a new cycle or in a plurality of new cycles. 8. The method as claimed in claim 7, wherein the starting points (A 1 to E 1 ; A 2 to E 2 ) of the individual circular tracks are selected differently in each cycle. 9. The method as claimed in claim 2, wherein the arc (b 2 to b 6 ) from one circular track (K 1 to K 5 ) to a next circular track (K 2 to K 6 ) describes the shape of a segment of an ellipse in each case. 10. The method as claimed in claim 2, wherein the laser beam is switched off in each case during an arcuate movement of an axis thereof from one circular track to the next. 11. The method as claimed in claim 3, wherein the laser beam is switched off in each case during an arcuate movement of an axis thereof from one circular track to the next. 12. The method as claimed in claim 2, wherein the laser beam outputs pulses of high energy density in each case during movement on the circular tracks (K 1 to K 5 ), the laser beam being switched to a continuous wave mode of low energy density during an arcuate movement (b 1 to b 5 ) from one circular track (K 1 to K 5 ) to the next. 13. The method as claimed in claim 3, wherein the laser beam outputs pulses of high energy density in each case during movement on the circular tracks (K 1 to K 5 ), the laser beam being switched to a continuous wave mode of low energy density during an arcuate movement (b 1 to b 5 ) from one circular track (K 1 to K 5 ) to the next. 14. The method as claimed in claim 2, wherein the laser beam traverses each circular track (K 1 to K 5 ) several times before it is moved to a starting point of a immediately following circular track (K 2 to K 5 ). 15 . The method as claimed in claim 3, wherein the laser beam traverses each circular track (K 1 to K 5 ) several times before it is moved to a starting point of a immediately following circular track (K 2 to K 5 ). 16. The method as claimed in claim 4, wherein the laser beam traverses each circular track (K 1 to K 5 ) several times before it is moved to a starting point of a immediately following circular track (K 2 to K 5 ). 17. The method as claimed in claim 5, wherein the laser beam traverses each circular track (K 1 to K 5 ) several times before it is moved to a starting point of a immediately following circular track (K 2 to K 5 ). 18. The method as claimed claim 2, wherein the laser beam traverses all the circular tracks (K 1 to K 5 ) once each in a first cycle, and thereafter traverses each of the circular tracks (K 1 to K 5 ) again in a new cycle or in a plurality of new cycles. 19. The method as claimed claim 3, wherein the laser beam traverses all the circular tracks (K 1 to K 5 ) once each in a first cycle, and thereafter traverses each of the circular tracks (K 1 to K 5 ) again in a new cycle or in a plurality of new cycles. 20. The method as claimed claim 4, wherein the laser beam traverses all the circular tracks (K 1 to K 5 ) once each in a first cycle, and thereafter traverses each of the circular tracks (K 1 to K 5 ) again in a new cycle or in a plurality of new cycles. 21. The method as claimed claim 5, wherein the laser beam traverses all the circular tracks (K 1 to K 5 ) once each in a first cycle, and thereafter traverses each of the circular tracks (K 1 to K 5 ) again in a new cycle or in a plurality of new cycles. 22. The method as claimed claim 6, wherein the laser beam traverses all the circular tracks (K 1 to K 5 ) once each in a first cycle, and thereafter traverses each of the circular tracks (K 1 to K 5 ) again in a new cycle or in a plurality of new cycles.
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Troitski, Igor, Laser-dynamic system for using in games.
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