CN1758831A - The laser drilling system of flexible printed wiring board and method - Google Patents
The laser drilling system of flexible printed wiring board and method Download PDFInfo
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- CN1758831A CN1758831A CN 200410051836 CN200410051836A CN1758831A CN 1758831 A CN1758831 A CN 1758831A CN 200410051836 CN200410051836 CN 200410051836 CN 200410051836 A CN200410051836 A CN 200410051836A CN 1758831 A CN1758831 A CN 1758831A
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Abstract
The invention discloses a kind of laser drilling system and method for flexible printed wiring board.This laser drilling system that comprises flexible printed wiring board produces the third harmonic laser bundle with following parameter: wavelength is 355 nanometers (nm); Power is about 5 watts; Working method is TEM00 basic mode or single mode output; Its pulse duration is 50 nanoseconds (ns) when 10 kilo hertzs of pulse frequencies.It is the method for drilling holes of 355 nanometers and a kind of flexible printed wiring board that the method for drilling holes of this flexible printed wiring board utilizes a wavelength, and it may further comprise the steps: produce a pulse laser beam; Guide the part sheet material vaporization that this pulse laser beam to tellite makes substrate.This pulse laser beam is by having following laser parameter: wavelength is 355 nanometers, about 5 watts of power, and pulse duration was 50 nanoseconds when 10 kilo hertzs of pulse frequencies, beam quality factor M2 is less than 1.1.Laser drilling system of the present invention and method processing are quick, and processing is stable and machining accuracy is high and reduce the heat affected area.
Description
[technical field]
The invention relates to a kind of laser drilling system with and method, especially about a kind of method for drilling holes of flexible printed wiring board.
[background technology]
(Flexible Printed Circuit FPC) claims flexible PCB, flexible circuit board or flexible electric circuit board again to flexible printed wiring board, is a kind ofly to have height reliability, an excellent flexible printed circuit with what mylar or polyimides were that base material is made.This kind circuit is bending, folding arbitrarily, and in light weight, volume is little, and thermal diffusivity is good, and is easy for installation, broken through traditional interconnection technique notion.Flexible circuit has a new product that thin, light, deflection etc. can satisfy the three-dimensional group characteristics of demand as a kind of, is paid attention to day by day and extensive use at electronics and communications industry.
The processing procedure of flexible printed wiring board mainly may further comprise the steps: select material, be generally polyester or polyimides, internal layer imaging, surface treatment, lamination, boring, imaging, graphic plating, striping, etching, sharp processing.As seen, the speed of boring directly influences the speed that flexible printed wiring board is made, and the quality of drilling quality directly influences the quality of flexible printed wiring board quality.
The boring method of existing flexible printed wiring board generally has traditional mechanical drilling method and method for drilling holes.Mechanical drilling method is a method of utilizing tiny drill bit processing through hole or blind hole, this method is consuming time and through hole or blind hole quality that processed are low, sometimes it is residual on it to have fragment, cause circuit board short circuit (short circuit) or open circuit (open circuit) behind electrolytic copper plating or the electroplates in hole, this flexible printed wiring board can not be used.The advantage of the processing method of laser drill is more can rapid processing and make the aperture miniaturization.
The boring method of existing laser drill processing unit (plant) is as follows.A kind of scanner that utilizes chemical action to produce electric current), scanning (scan) optical system of two-dimentional current mirror (galvano-mirror) laser beam that is sent by the laser oscillator is by the optical path that includes speculum (mirror), and guiding is provided with and is called as X-Y scanner (scanner) or current scanning instrument (galvano-scanner:.Make laser beam concussion by this scanning optics, and by processing lens lighting (for example, can with reference to Te Kaiping-10-058178 communique) to printed circuit board (PCB).
The boring method of another existing laser drill processing unit (plant) is as follows.See also Fig. 1, by carbon dioxide (CO
2) laser beam 12 that sends of laser 11 is via the collimating lens 131 of optical image converting system 13 and mask 132 current mirror 14 (galvano-mirror) scanning (scan) optical system to the guider two dimension, on the printed circuit board (PCB) 161 by f θ lens 15 irradiation workbench 16.
Though the above-described boring method that utilizes the laser drill processing unit (plant) can be realized the rapid processing and the aperture miniaturization of circuit board through-hole, still, the laser beam source of this kind laser drill normally adopts CO
2Laser produces, CO
2The laser beam that laser produces is a pulse laser beam, and the pulse unsteadiness causes course of processing instability greater than 2, makes processing boring heterogeneity; And the oversize power of its wavelength causes machining accuracy low too greatly; In addition, CO
2Residual film of dielectric material or charred residue can be occurred at the internal layer copper foil surface after the laser drill, removing glue, removing residue treatment of subsequent handling must be strengthened.In addition, CO
2The heat affected area scope of laser boring is bigger.
In view of above shortcoming, be necessary a kind of rapid processing, stable laser drilling system and the method that reaches the machining accuracy height and reduce the flexible printed wiring board of heat affected area of processing.
[summary of the invention]
The object of the present invention is to provide a rapid processing, the stable laser drilling system that reaches the machining accuracy height and reduce the flexible printed wiring board of heat affected area of processing.
Another object of the present invention is to provide a method for drilling holes that utilizes the flexible printed wiring board of described laser drilling system.
The laser drilling system of flexible printed wiring board of the present invention comprises: one first concave mirror; One second concave mirror, itself and first concave mirror are provided with at interval and form a resonator; One laser diode in order to produce a laser beam, is arranged at described sympathetic response space; One triductor is arranged in the described resonator; One secondary frequency multiplication device is arranged in the described resonator; The laser beam that described laser diode produces is led to described secondary frequency multiplication device to produce a second harmonic light beam, described laser beam and second harmonic light beam are led to described triductor producing a triple-frequency harmonics light beam, and described triple-frequency harmonics light beam is separated and export from described resonator as output beam; Wherein said triple-frequency harmonics light beam has following parameter: wavelength is 355 nanometers (nm); Power is about 5 watts; Working method is TEM
00Basic mode or single mode output; Its pulse duration is 50 nanoseconds (ns) when 10 kilo hertzs of pulse frequencies.
It is the method for drilling holes of 355 nanometers and a kind of flexible printed wiring board that the method for drilling holes of flexible printed wiring board of the present invention utilizes a wavelength, and it may further comprise the steps: produce a pulse laser beam; Guide the part sheet material vaporization that this pulse laser beam to tellite makes substrate.This pulse laser beam is by having following laser parameter: wavelength is 355 nanometers, about 5 watts of power, and pulse duration was 50 nanoseconds when 10 kilo hertzs of pulse frequencies, beam quality factor M2 is less than 1.1.
The present invention compares prior art, it is 355 nanometers that the laser drilling system of flexible printed wiring board of the present invention and method are selected wavelength for use, about 5 watts of power, less than the small-pulse effect width of 50 nanoseconds the time, 10 kilo hertzs of pulse frequencies, the high impulse frequency realizes fast and the effectively processing of flexible printed wiring board boring, and low pulse duration has then guaranteed very low heat load, promptly makes the heat affected area reduce.The little 0.9mm of spot size after the focusing, good beam quality, the pulse unsteadiness is lower than 1, makes the boring homogeneous of processing, processing stable, and hole depth and aperture are than greater than 10: 1.The laser drilling system of flexible printed wiring board of the present invention and method processing are stable, crudy reaches the machining accuracy height well.
[description of drawings]
Fig. 1 is existing CO
2The schematic diagram of the laser drill of laser;
Fig. 2 is the schematic diagram of THIRD-HARMONIC GENERATION of laser of the laser drilling system of flexible printed wiring board of the present invention.
[embodiment]
See also Fig. 2, the laser drilling system of flexible printed wiring board of the present invention comprises one first concave mirror 21, Q-optical fiber oscillator 22, laser diode 23, lens 24, inner cavity frequency-doubling system 25, by speculum 26, speculum 27, distortion prism 28, lens 29, this inner cavity frequency-doubling system 25 comprises prism 251, triple-frequency harmonics generator or triductor (THG:the Third Harmonic Generator) 252, second harmonic generator or secondary frequency multiplication device (SHG:the Second Harmonic Generator) 253, second concave mirror 254 and one is put the flexible printed wiring board workbench of (figure does not show) (figure does not show), and described first concave mirror 21 and second concave mirror 254 are provided with at interval and form a resonator (figure does not show).Q-optical fiber oscillator 22 is arranged between described resonator interior first concave mirror 21 and laser diode 23.Laser diode 23, lens 24, inner cavity frequency-doubling system 25, all be arranged in the described resonator by speculum 26.Described laser beam is led to described secondary frequency multiplication device 253 to produce a second harmonic light beam, the laser beam of described fundamental wavelength and second harmonic light beam are led to described triductor 252 producing a triple-frequency harmonics light beam, and described triple-frequency harmonics light beam is separated and export from described resonator as outgoing laser beam.Speculum 27, distortion prism 28, lens 29 are arranged on the outer triple-frequency harmonics light beam exit direction of resonator.Described triple-frequency harmonics light beam has following parameter: wavelength is 355 nanometers (nm); Power is about 5 watts; Working method is TEM00 basic mode or single mode output; Its pulse duration is 50 nanoseconds (ns) when 10 kilo hertzs of pulse frequencies.
It is 355 nanometers that this laser drilling system can produce wavelength; when 10 kilo hertzs of pulse frequencies, be the pulse duration of 50 nanoseconds; playing pulse energy during 10 khz frequencies is 0.5 little joule; working method is the output of TEM00 basic mode or single mode, beam quality factor M2 less than 1.1 and collimation after beam diameter be the laser beam of 0.9mm.
The wavelength of the laser beam that is produced by laser diode 23 is 1064 nanometers, lens 254 via frequency doubling system 25 focus to second harmonic generator 253 and triple-frequency harmonics generator 252 then, the laser beam of part wavelength 1064 nanometers is converted into the laser beam of wavelength 530 nanometers by second harmonic generator 253, at the laser beam that the laser beam of part wavelength 530 nanometers is converted into 355 nano wave lengths via triple-frequency harmonics generator 252, the laser beam that comes out via prism 251 only is ultraviolet (UV) light beam (figure does not show) of 355 nanometers for wavelength at last, this laser beam is again by reflexing to speculum 27 by speculum 26, by speculum 27 this laser beam is reflexed to distortion prism 28, via lens 29 outgoing to the flexible printed wiring board of workbench and reach the purpose of boring.
The method for drilling holes of the present invention's flexible printed wiring board is to utilize above-mentioned laser drilling system, and it comprises it being to adopt the frequency multiplication neodymium-vanadate lasers with following parameter: wavelength is 355 nanometers (nm); Power is about 5 watts; Working method is TEM00 basic mode or single mode output; Its pulse duration is 50 nanoseconds (ns) when 10 kilo hertzs of arteries and veins medium frequencys.
The method for drilling holes of flexible printed wiring board of the present invention comprises the steps: to produce a pulse laser beam by described frequency multiplication neodymium-vanadate; Guide the part sheet material vaporization that this pulse laser beam to tellite makes substrate; Wherein this pulse laser beam has following laser parameter: wavelength is 355 nanometers, about 5 watts of power, and pulse duration was 50 nanoseconds when 10 kilo hertzs of pulse frequencies, beam quality factor M2 is less than 1.1.
Claims (10)
1. the laser drilling system of a flexible printed wiring board, comprise a laser diode, be used to produce a laser beam, it is characterized in that: this laser drilling system also comprises one first concave mirror, one second concave mirror, one triductor, one secondary frequency multiplication device, first concave mirror and second concave mirror are provided with at interval and form a resonator, described laser diode, triductor and secondary frequency multiplication device all are arranged in the described resonator, the laser beam that described laser diode produces is led to described secondary frequency multiplication device to produce a second harmonic light beam, described laser beam and second harmonic light beam are led to described triductor to produce a triple-frequency harmonics light beam, described triple-frequency harmonics light beam is separated and export from described resonator as output beam, and described triple-frequency harmonics light beam has following parameter: wavelength is 355 nanometers; Power is about 5 watts; Working method is TEM00 basic mode or single mode output; Its pulse duration was 50 nanoseconds when 10 kilo hertzs of pulse frequencies.
2. laser drilling system as claimed in claim 1 is characterized in that: this laser drilling system further comprises Q-optical fiber oscillator, is arranged between first concave mirror and laser diode in the described resonator.
3. laser drilling system as claimed in claim 2 is characterized in that: this laser drilling system further comprises a prism, is arranged in the described resonator, in order to described triple-frequency harmonics light beam is isolated from described second harmonic light beam and laser beam.
4. laser drilling system as claimed in claim 3 is characterized in that: laser drilling system further comprises a distortion prism, is positioned on the exit direction of triple-frequency harmonics light beam.
5. laser drilling system as claimed in claim 4 is characterized in that: laser drilling system further comprises lens, be positioned at described distortion prism after, on the exit direction of triple-frequency harmonics light beam, in order to focus on described triple-frequency harmonics light beam.
6. the method for drilling holes of a flexible printed wiring board, it may further comprise the steps: produce a pulse laser beam; Guide the part sheet material vaporization that this pulse laser beam to tellite makes substrate, it is characterized in that: this pulse laser beam is to have following laser parameter: wavelength is 355 nanometers, about 5 watts of power, pulse duration were 50 nanoseconds when 10 kilo hertzs of pulse frequencies, and beam quality factor M2 is less than 1.1.
7. method for drilling holes as claimed in claim 6 is characterized in that: this pulse laser beam is to be produced by one neodymium-vanadate lasers.
8. method for drilling holes as claimed in claim 7 is characterized in that: method for drilling holes also comprises by described neodymium-vanadate lasers and produces a step that is less than or equal to the pulse laser beam of 1064 nano wave lengths.
9. method for drilling holes as claimed in claim 8 is characterized in that: this method for drilling holes comprises that also a pulse laser beam with described 1064 nano wave lengths is converted to a step that is less than or equal to the pulse laser beam of 532 nano wave lengths.
10. method for drilling holes as claimed in claim 9, it is characterized in that: this method for drilling holes also is included in before 532 nano wave length pulse laser beams arrive described tellite, the pulse laser beam of described 532 nano wave lengths is converted to one is less than or equal to 355 nano wave length pulse laser beams.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2004100518360A CN100490607C (en) | 2004-10-09 | 2004-10-09 | Laser punching system and method for flexible printed circuit board |
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CNB2004100518360A CN100490607C (en) | 2004-10-09 | 2004-10-09 | Laser punching system and method for flexible printed circuit board |
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CN1758831A true CN1758831A (en) | 2006-04-12 |
CN100490607C CN100490607C (en) | 2009-05-20 |
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CNB2004100518360A Expired - Fee Related CN100490607C (en) | 2004-10-09 | 2004-10-09 | Laser punching system and method for flexible printed circuit board |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101951734A (en) * | 2010-09-30 | 2011-01-19 | 深圳市大族激光科技股份有限公司 | Method for processing micro through hole of flexible circuit board |
CN103286455A (en) * | 2013-04-26 | 2013-09-11 | 淳华科技(昆山)有限公司 | Method for preventing repeated laser on flexible printed circuit board |
CN103785955A (en) * | 2014-01-28 | 2014-05-14 | 深圳英诺激光科技有限公司 | Laser drilling device used for machining hard and brittle substrate |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9665138B2 (en) | 2014-04-07 | 2017-05-30 | Microsoft Technology Licensing, Llc | Micro-hole vents for device ventilation systems |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
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US5292686A (en) * | 1991-08-21 | 1994-03-08 | Triquint Semiconductor, Inc. | Method of forming substrate vias in a GaAs wafer |
US6167065A (en) * | 1997-06-06 | 2000-12-26 | Colorado State University Research Foundation | Compact discharge pumped soft x-ray laser |
DE50001426D1 (en) * | 1999-09-30 | 2003-04-10 | Siemens Ag | METHOD AND DEVICE FOR LASER DRILLING LAMINATES |
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2004
- 2004-10-09 CN CNB2004100518360A patent/CN100490607C/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101951734A (en) * | 2010-09-30 | 2011-01-19 | 深圳市大族激光科技股份有限公司 | Method for processing micro through hole of flexible circuit board |
CN101951734B (en) * | 2010-09-30 | 2013-04-17 | 深圳市大族激光科技股份有限公司 | Method for processing micro through hole of flexible circuit board |
CN103286455A (en) * | 2013-04-26 | 2013-09-11 | 淳华科技(昆山)有限公司 | Method for preventing repeated laser on flexible printed circuit board |
CN103785955A (en) * | 2014-01-28 | 2014-05-14 | 深圳英诺激光科技有限公司 | Laser drilling device used for machining hard and brittle substrate |
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