CN101922996A - Selecting method and system thereof of detecting light source - Google Patents

Abstract

The invention discloses selecting method and system thereof of a detecting light source. The system comprises a light source drive module, a scanning module and a deduction module. The selecting method of the detecting light source comprises the steps of: providing a plurality of detecting light sources by the light source drive module, projecting the testing light sources to an object to be detected; linearly scanning the object to be detected by the scanning module and forming a plurality of images corresponding to the plurality of detecting light sources; recording defect data of the object to be detected by the deduction module, comparing the images with the defect data according to an analysis method to generate quality scores corresponding to the images so as to analyze the quality scores and pick out the detecting light source most suitable for detecting the object to be detected. The invention can be suitable for various production lines. Manufacturers can find the detecting light source most suitable for detecting the object to be detected when doing system adjusting operation before detecting, and obtain the best detection yield; and when the manufacturers can greatly reduce the cost generated because of equipment replacement, the invention can be applied to different production lines, and has high practical applicability.

Description

The selecting method of detection light source and system thereof

Technical field

The present invention relates to a kind of scanning light source that detects determinand and select system for use, be meant a kind of selecting method and system thereof that current determinand detects the detection light source of operation that be best suited for that select that have especially.

Background technology

Please refer to Fig. 1, it is light source driving, scanning and the determinand defect inspecting system of prior art.This determinand can be hard circuit board, flexible circuit board, flexible material, winding 1 ... Deng the object of different materials, characteristic, this with the winding 1 of disposing P.e.c. as explaining orally.The described system of prior art comprises an object transport sector 110, one scan mechanism 120 and a control gear 130.Object transport sector 110 comprises an infeed end 111 and a rewinding end 112, and infeed end 111 can discharge the strip of winding 1, and with rewinding end 112 with same direction in fact synchronously scrolling with transmission winding 1 to rewinding end 112, by rewinding end 112 strip is furled.Scanning mechanism 120 comprises an optical photography machine 121 and a light projector module 122, light projector module 122 is throwed a light source on the transmission path of winding 1, to form the projected area, optical photography machine 121 is in order to scanning or take the P.e.c. that enters the projected area, to produce the image of each P.e.c..Control gear 130 comprises a mechanism controls module 131 and an image discrimination module 132, mechanism controls module 131 control object transport sectors 110 are with transmission winding 1, order light projector module 122 is carried out light projector to form above-mentioned projected area, and the captured instant picture that goes out of the camera lens of obtaining optical photography machine 121, when judging that by the variation of instant picture P.e.c. on the strip enters the projected area, P.e.c. scanned or take form above-mentioned image.Image discrimination module 132 stored are relevant at least one defective data of P.e.c., the circuit layout specification that so-called defective data comprises the defective circuits figure or quantizes.Image discrimination module 132 is mated itself and defective data for obtaining the image that optical photography machine 121 is produced, and judge whether P.e.c. is correct, or whether the circuit layout that prints out meets Specification Of Wiring.

Yet, the light projector module polygamy of current defect inspecting system is put single light source, the detection light source that right each determinand has it to be suitable for, therefore manufacturer is before setting up production line, need learn the tested detection light source that determinand was suitable for, buy or dispose the defect inspecting system that comprises this detection light source again.Secondly, when the system before manufacturer does to test adjusts operation, also only can adjust with regard to existing detection light source, to ask for maximum detection yield, with regard in the practical application, suitable inconvenience.Moreover, when manufacturer's desire changes the production line type, the light source that original defect inspecting system provided may not be certain to be applicable to the product of newtype, need whole production equipment total number to upgrade in case of necessity, remove significantly lifting means cost, more highlighted existing defect inspecting system and can't be converted in different production lines, the problem that application is very low.

Therefore, defect inspecting system being had can be applicable to different production lines, and can obtain the projection source that is best suited for the detection determinand, is the problem that should think deeply for manufacturer.

Summary of the invention

The object of the present invention is to provide a kind of different production lines that can be applicable to, and can obtain be best suited for the projection source that detects determinand select system and selecting method for use.

Technological means provided by the present invention discloses a kind of system that selects for use of detection light source, comprises a transport module, a light source driver module, a control module, one scan module and an inference module.

This transport module is in order to transmit more than one determinand, light source driver module provides the testing light source of a plurality of different wavelength, scan module is in order at determinand linear scan determinand during through the projected area, to produce a plurality of images that determinand is subjected to each light source irradiation respectively and is scanned formation.The irradiation of control module control light source driver module at least any testing light source on the transmission path of determinand to form a projected area, and obtain the instant image that scan module is taken, to enter projected area scan module in season determinand is scanned, and judge the light source of determinand by toggle lights driver module projection behind the projected area according to instant image judgement determinand.The inference module includes the more than one defective data of each determinand, the inference module can be analyzed rule according to one each image is compared with relevant defective data, calculate a quality mark of each image, select the light source of image correspondence under the mark best in quality from each quality mark, make light source driver module that this light source is made as a test light source.

Technological means provided by the present invention discloses a kind of selecting method of detection light source, and at least one determinand is provided, and from a plurality of testing light sources, selects a testing light source to shine in being transmitted at least one determinand, to form a projected area.The linear scan determinand is to produce an image of the corresponding testing light source that determinand tested person light source irradiation and scanning forms.Analyze the quality mark that rule calculates this image according to one, and after all testing light sources shine totally, according to the quality mark of each image, select the test light source of the testing light source of the affiliated image correspondence of a mark best in quality as the scanning determinand.

Technological means provided by the present invention discloses a kind of system that selects for use of detection light source, comprises a light source driver module, one scan module and an inference module.

Light source driver module comprises the light source of a plurality of different wavelength, and to form a plurality of testing light sources, this light source driver module provides described a plurality of testing light source to shine on a determinand.Scan module linear scan determinand gives the inference module to produce a plurality of images that determinand is subjected to each testing light source irradiation respectively and is scanned formation.The inference module includes the more than one defective data of determinand, the inference module can be analyzed rule according to one each image is compared with relevant defective data, calculate a quality mark of each image, select the testing light source of image correspondence under the mark best in quality from each quality mark, make light source driver module that this testing light source is made as a test light source.In addition, disclosed system also comprises a control module in order to switching the testing light source of above-mentioned light source driver module, and driven sweep module linear scan determinand.

Disclosed detection light source select system and selecting method for use, a plurality of testing light sources that are used to test determinand are provided, the detection light source that can select various determinand easily and be suitable for by scan method, therefore, has the defect inspecting system of the technology of the present invention applicable to various production lines.Secondly, when the system before manufacturer does to test adjusts operation, can compare,, ask for maximum detection yield to find the detection light source that is best suited for determinand by multiple different testing light source.And, when manufacturer's desire changes the production line type, the determinand that promptly can be applicable to newtype after the line parameter of the light source module local replacing that original defect inspecting system provided need only being gone forward side by side is set detects operation, can significantly reduce the cost that produces because of equipment replacement, and can be applied to different production lines, practicality is very high.

Description of drawings

Fig. 1 is the determinand defect inspecting system synoptic diagram of prior art;

Fig. 2 is the block scheme of an embodiment who selects system for use of detection light source of the present invention;

Fig. 3 is the Organization Chart of an embodiment who selects system for use of detection light source of the present invention;

Fig. 4 enters the projected area synoptic diagram for second determinand of the embodiment of the invention;

Fig. 5 enters the projected area synoptic diagram for the 3rd determinand of the embodiment of the invention;

Fig. 6 is the Organization Chart of selecting another embodiment of system for use of detection light source of the present invention;

Fig. 7 is the block scheme of selecting another embodiment of system for use of detection light source of the present invention; And

Fig. 8 is the process flow diagram of the selecting method embodiment of detection light source of the present invention.

Description of reference numerals in the above-mentioned accompanying drawing is as follows:

Prior art:

1 winding

110 object transport sectors

111 infeed end

112 rewinding ends

120 scanning mechanisms

121 optical photography machines

122 light projector modules

130 control gears

131 mechanism controls modules

132 image discrimination modules

The technology of the present invention:

10 winding

11 first determinands

12 second determinands

13 the 3rd determinands

20 rigid circuit boards

210 light source driver modules

211 red light source modules

212 blue-light source modules

213 green light source modules

214 linear light source projects mechanisms

215 optical fiber tubes

216 photo-couplers

220 transport modules

221 feed modules

222 rewinding modules

223 glove modules

224 travelling belts

230 control ends

231 control modules

232 inference modules

240 scan modules

251 ruddiness projected areas

252 blue light projected areas

253 green glow projected areas

Embodiment

For making purpose of the present invention, structural attitude and function thereof there are further understanding, cooperate related embodiment and accompanying drawing to be described in detail as follows:

Please refer to Fig. 2, Fig. 3, Fig. 4 and Fig. 5, Fig. 2 is the block scheme of an embodiment who selects system for use of detection light source of the present invention, Fig. 3 is the Organization Chart of the embodiment of the invention, Fig. 4 enters the projected area synoptic diagram for second determinand of the embodiment of the invention, and Fig. 5 enters the projected area synoptic diagram for the 3rd determinand of the embodiment of the invention.The determinand of present embodiment is a plurality of identical P.e.c. wiring diagrams or a pattern (this winding 10 also can be other flexible circuit board, the figuratum flexible film of configuration etc.) in the winding 10.

The described system of present embodiment includes a transport module 220, a light source driver module 210, one scan module 240 and a control end 230, and wherein control end 230 comprises a control module 231 and an inference module 232.

Transport module 220 includes a feed module 221 and a rewinding module 222, feed module 221 can discharge determinand (winding 10), and with rewinding module 222 with same direction in fact synchronously scrolling with the transmission determinand to rewinding module 222, by rewinding module 222 determinand (winding 10) is furled.

Light source driver module 210 includes a plurality of light source modules, each light source module provides a kind of light source, the wavelength of each light source is different, the different light source of described a plurality of wavelength, in order to form a plurality of testing light sources, in the same time, light source driver module 210 only provides a kind of testing light source to carry out the irradiation behavior.And testing light source is radiated on the path that determinand is transmitted 220 transmissions of module, to form a projected area, this projected area is linear and need exceeds the length or the width of determinand that with present embodiment, the length of projected area will exceed the width (or length) of circuit layout figure at least.

In this explanation, each light source module can be by the linear light source projects of optical fiber tube 215 its output light sources to one of guiding mechanism 214, and the testing light source that linear light source projects mechanism 214 can cast out light source module converts linear light source to and throws.

In the present embodiment, with three light source modules: red light source module 211, a blue-light source module 212 and a green light source module 213 formed a plurality of testing light sources describe, but not as limit, light source driver module 210 more can comprise infrared light supply module or ultraviolet source module.

Scan module 240 herein is describing in order to the optical photography machine of linear scan, the camera lens viewpoint of this scan module 240 can be in alignment with the projected area of testing light source, and the picture that camera lens is obtained is included in the projected area, the captured picture of scan module 240 can with the projected area with area or smaller, but must exceed the length or the width (present embodiment refers to width or the length of circuit layout figure) of determinand.

The control module 231 of this control end 230 is carried out displacement for control transmission module 220 transmission determinands, control light source driver module 210 is that testing light source to form ruddiness projected area 251 at this to drive red light source module 211 projection ruddiness by one light source module projection testing light source.

After transport module 220 was controlled, past the same direction transmission determinand that feed module 221 and rewinding module 222 can be synchronous in fact was promptly with same direction drive winding 10.

In this example, control module 231 obtains the captured instant image of its camera lens from scan module 240, and judges first determinand 11 whether entered ruddiness projected area 251 (or lens coverage) from instant image.When control module 231 is judged first determinand 11 and entered ruddiness projected area 251, make 240 pairs of determinands of scan module (this routine described circuit layout figure) carry out linear scan, to produce a red light irradiation image.This picture material is after determinand is subjected to red light source module 211 irradiation ruddiness, the situation of the ruddiness line reflection of generation.This red light irradiation image can be scanned module 240 and transfer to control end 230, is received by inference module 232.

Inference module 232 includes the more than one defective data of each determinand, the circuit layout specification that so-called defective data comprises the defective circuits figure or quantizes, or both it, but not as limit, defective data more can comprise the model accompanying drawing that circuit board is finished the configuration element.

Inference module 232 is when obtaining the red light irradiation image, can according to one analyze rule with the red light irradiation image and above-mentioned in compare mutually relevant for the defective data of the determinand of testing, to produce relevant comparison parameter, include in an edge parameter, a luminance parameter, a sharpness parameter and the contrast level parameter group that at least one parameter is formed.

And according to different determinands, different light source module and different defective datas, the parameter of analyzing each different character that rule comprised is to there being different pairing weights.In the present embodiment, inference module 232 can be that the circuit layout road that is printed in winding 10, the condition of using red light source module 211, defective data to comprise are the sub-standard setting of distribution rule according to determinand, is the pairing weight of this environment of correspondence with each parameter adjustment of analyzing rule.Each parameter that reasoning module will before be compared out and the pairing of adjusted pairing weight are calculated, to calculate a quality mark.In this explanation, so-called quality mark refers to the content of image after inference module 232 is analyzed, the close degree of image and defective data.In present embodiment, inference module 232 can calculate the quality mark of red light irradiation image, to learn red light irradiation image and defective data degree of approximation.

When the instant image that control module 231 provides according to scan module 240 is judged first determinand 11 by behind the ruddiness projected area 251, the testing light source of toggle lights driver module 210 projections.In the present embodiment, it is that testing light source is to form blue light projected area 252 with the projection blue light that control module 231 makes light source driver module 210 drive blue-light source module 212.

Please refer to Fig. 4, when control module 231 is judged second determinand 12 and entered blue light projected area 252, make 240 pairs of determinands of scan module carry out linear scan, to produce a blue light illumination image.This picture material is after determinand is subjected to blue-light source module 212 irradiation blue lights, the situation of the blue light line reflection of generation.This blue light illumination image can be scanned module 240 and transfer to inference module 232.

Inference module 232 is when obtaining the blue light illumination image, can according to one analyze rule with the blue light illumination image and above-mentioned in compare mutually relevant for the defective data of the determinand of testing, to calculate a quality mark, to learn blue light illumination image and defective data degree of approximation.

When the instant image that control module 231 provides according to scan module 240 is judged second determinand 12 by behind the projected area, the testing light source of toggle lights driver module 210 projections.In the present embodiment, control module 231 makes light source driver module 210 drive green light source module 213 to throw the green glow testing light source to form green glow projected area 253.

Please refer to Fig. 5, when control module 231 is judged the 3rd determinand 13 and entered green glow projected area 253, make 240 pairs of determinands of scan module carry out linear scan, to produce green glow irradiation image.This picture material is after determinand is subjected to green light source module 213 irradiation green glows, the situation of the green light rays reflection of generation.This green glow irradiation image can be scanned module 240 and transfer to inference module 232.

Inference module 232 is when obtaining green glow irradiation image, can according to one analyze rule with green glow is shone image and above-mentioned in, defective data relevant for the determinand of testing is compared mutually, to calculate a quality mark, to learn green glow irradiation image and defective data degree of approximation.

Control end 230 is after judging that all testing light sources all throw, inference module 232 can be selected a mark best in quality from all quality marks, image and defective data under the mark best in quality are the most close, control end 230 will be in order to the light source module that produces the image under the mark best in quality as the exclusive test light source module of this determinand by control module 231, and its testing light source that projects is test light source.

In this explanation, in the present embodiment, transport module 220 is when driving winding 10, the control that can make tension force, locate and seek the limit simultaneously to winding 10, if the rewinding behavior is carried out in winding 10, transport module 220 has deviation for the various controls of winding 10, causes the circuit layout figure in the winding 10 to be out of shape.Therefore when doing light source preparation setting, only can carry out the pan feeding behavior, promptly need utilize a circuit layout figure, with regard to present embodiment, need three circuit layout figure of cost just can calculate the light source that this determinand is suitable for so per minute is analysed a kind of light source.

Please refer to Fig. 6, it is the Organization Chart of another embodiment that selects system for use of detection light source of the present invention, please be beneficial to understand with reference to Fig. 2 and Fig. 3 simultaneously.Present embodiment is different with embodiment shown in Figure 3 be in, determinand is that rigid circuit board 20 (also can be other rigid circuit component, dispose figuratum rigid object, not as limit), and only need one in order to carry out the determinand that testing light source selects test for use.

In the present embodiment, transport module 220 has a travelling belt 224 and a glove module 223, and glove module 223 is in order to putting a determinand (being rigid circuit board 20) on travelling belt 224, but also can put a plurality of determinands, does not have any restriction.The control module 231 control transmission modules 220 transmission determinands of this control end 230 carry out displacement, control light source driver module 210 throws ruddiness testing light sources to form ruddiness projected area at this to drive red light source module 211 by one light source module projection testing light source.

Judging determinand (being rigid circuit board 20) when having entered the ruddiness projected area when control module 231, is to make 240 pairs of determinands of scan module carry out linear scan, to produce a red light irradiation image.This picture material is after determinand is subjected to red light source module 211 irradiation ruddiness, the situation of the ruddiness line reflection of generation.This red light irradiation image can be scanned module 240 and transfer to inference module 232 in the control end 230.

Inference module 232 is when obtaining the red light irradiation image, can according to one analyze rule with the red light irradiation image and above-mentioned in compare mutually relevant for the defective data of the determinand of testing, to calculate a quality mark, to learn red light irradiation image and defective data degree of approximation.

When the instant image that control module 231 provides according to scan module 240 judges that determinand is by behind the projected area, control module 231 can make transport module 220 carry out rewinding when circuit board 20 (be used for only having rigid), make determinand be retracted into ruddiness projected area 251 before, and make light source driver module 210 drive blue-light source modules 212 with projection blue light testing light source to form the blue light projected area.Control module 231 can make transport module 220 carry out the pan feeding behavior once more.

Judge determinand (being rigid circuit board 20) when having entered the blue light projected area when control module 231, make 240 pairs of determinands of scan module carry out linear scan, to produce a blue light illumination image.This picture material is after determinand is subjected to blue-light source module 212 irradiation blue lights, the situation of the blue light line reflection of generation.This blue light illumination image can be scanned module 240 and transfer to inference module 232.

Inference module 232 is when obtaining the blue light illumination image, can according to one analyze rule with the blue light illumination image and above-mentioned in, defective data relevant for the determinand of testing is compared mutually, to calculate a quality mark, to learn blue light illumination image and defective data degree of approximation.

When the instant image that control module 231 provides according to scan module 240 judges that determinand is by behind the projected area, control module 231 can make transport module 220 carry out rewinding, determinand is retracted into before the blue light projected area, and makes light source driver module 210 drive green light source module 213 to throw the green glow testing light source to form the green glow projected area.Control module 231 can make transport module 220 carry out the pan feeding behavior once more.

When control module 231 is judged determinand and entered the green glow projected area, make 240 pairs of determinands of scan module carry out linear scan, to produce green glow irradiation image.This picture material is after determinand is subjected to green light source module 213 irradiation green glows, the situation of the green light rays reflection of generation.This green glow irradiation image can be scanned module 240 and transfer to inference module 232.

Inference module 232 is when obtaining green glow irradiation image, can according to one analyze rule with green glow is shone image and above-mentioned in, defective data relevant for the determinand of testing is compared mutually, to calculate a quality mark, to learn green glow irradiation image and defective data degree of approximation.

Control end 230 is after judging that all testing light sources all throw, inference module 232 can be selected a mark best in quality from all quality marks, image and defective data under the mark best in quality are the most close, control end 230 will be in order to the light source module that produces the image under the mark best in quality as the exclusive test light source module of this determinand by control module 231, and its testing light source that projects is test light source.

Please refer to Fig. 7, Fig. 7 is the block scheme of another embodiment that selects system for use of detection light source of the present invention, different with embodiment shown in Figure 2 be in, present embodiment also comprises a photo-coupler 216.This photo-coupler 216 is disposed at the endpiece of each light source module output testing light source, guide testing light sources to photo-coupler 216 by optical fiber tube 215, this photo-coupler 216 can allow the composite light source of different wavelength of the testing light source of certain single wavelength or certain several combination that are coupled be directed to same optical fiber tube 215, this optical fiber tube 215 is connected to above-mentioned linear light source projects mechanism 214, and this mechanism can convert the testing light sources in the optical fiber tube 215 to linear testing light source and focus on projection and form above-mentioned projected area.In this explanation, when photo-coupler 216 forms composite light sources, above-mentioned all light sources of coupling appoint both at least.

Please refer to Fig. 8, it is the selecting method process flow diagram of the detection light source of the embodiment of the invention, please be beneficial to understand with reference to Fig. 2 to Fig. 7 simultaneously.This flow process is as follows:

At least one determinand (step S110) is provided, and as described above, as Fig. 3 or Fig. 7, by a transport module 220 configurations one determinand, a control module 231 control transmission modules 220 are advanced with the transmission determinand.

Form a projected area, as step S120.As described above, light source driver module 210 includes more than one light source module, control module 231 control light source driver modules 210, make it from the light source of a plurality of different wavelength, select a testing light source to shine on the transmission path of the determinand that is transmitted, to form the projected area of corresponding this testing light source.Photo-coupler 216 can allow the composite light source of different wavelength of the light source of certain single wavelength that light source driver module 210 provided or certain several combination that are coupled be directed to above-mentioned linear light sources projection mechanism 214, throws to focus on to convert light source to the line style testing light source to form above-mentioned projected area.In this explanation, shine in the testing light source of determinand and be selected from a red light source, a blue-light source, a green light source, a ultraviolet source, an infrared light supply, and by composite light source that above-mentioned at least two light sources were coupled to form.

When the projected area was passed in the determinand transmission, scan module 240 linear scan determinands produced the image that determinand is formed by this testing light source irradiation and scanning, as step S130.Control module 231 obtains the captured instant image of its camera lens from scan module 240, and judges determinand whether entered the projected area from instant image.

When control module 231 is judged determinand and entered the projected area, make 240 pairs of determinands of scan module carry out linear scan, to produce an image.This picture material is after determinand is subjected to the light source module irradiation, the situation of the light reflection of generation.This image can be scanned module 240 and transfer to control end 230, is received by inference module 232.

Analyze the quality mark that rule calculates this image according to one, as step S140.As described above, inference module 232 includes the more than one defective data of each determinand.

Inference module 232 is when obtaining this testing light source (as ruddiness) irradiation image, can image and defective data be compared mutually according to aforesaid analysis rule, to produce comparison parameter relevant more than, the comparison parameter can be and includes an edge parameter, a luminance parameter, a sharpness parameter and a contrast level parameter.

And inference module 232 will have corresponding its pairing weight of each parameter that comparison is come out now, calculate a quality mark, to learn image and defective data degree of approximation.

Judge whether each testing light source shines totally, as step S150.Control module 231 can judge whether required testing light source throwed all, and inference module 232 has obtained determinand by postradiation each image of required testing light source.

Judge that when control module 231 each testing light source does not shine totally, return step S120, Tou She testing light source never, times selecting one carries out the light source projects behavior.

When each testing light source shines totally, control module 231 will be according to the quality mark of each image, select the pairing testing light source of image under the mark best in quality, as step S151.As described above, after required testing light source all throws, inference module 232 can be selected a mark best in quality from all quality marks, image and defective data under the mark best in quality are the most close, control module 231 will be to produce the light source module of the image under the mark best in quality, as the exclusive test light source module of this determinand, its testing light source that projects is test light source.

Though the present invention discloses as above with aforesaid preferred embodiment; right its is not in order to qualification the present invention, any those of ordinary skill in the art, without departing from the spirit and scope of the present invention; the equivalence of doing to change with retouching is replaced, and still is in the claim protection domain of the present invention.

Claims (24)

1. A detection light source select system for use, it comprises:

   One transport module is in order to transmit at least one determinand;

   One light source driver module comprises the testing light source of a plurality of different wavelength, and a testing light source of described a plurality of testing light sources is shone on the transmission path of described at least one determinand, to form a projected area;

   The one scan module is in order to the described at least one determinand of linear scan when described at least one determinand passes through this projected area, to produce a plurality of images that described at least one determinand is formed by each described testing light source irradiation and scanning respectively;

   One control module scans described at least one determinand in described at least one determinand through this projected area this scan module in season, and judges that described at least one determinand by behind this projected area, switches the testing light source of this light source driver module projection; And

   One inference module, at least one defective data that comprises described at least one determinand, this inference module is analyzed rule according to one each described image and described at least one defective data is compared, calculating a quality mark of each described image, this testing light source of selecting this image correspondence under the mark best in quality from described quality mark is a test light source.
2. Detection light source as claimed in claim 1 select system for use, wherein the light source of this light source driver module is selected from the group that is made up of a red light source module, a blue-light source module, a green light source module, a ultraviolet source module and an infrared light supply module.
3. Detection light source as claimed in claim 1 select system for use, wherein said at least one determinand is a P.e.c. wiring diagram or a pattern.
4. Detection light source as claimed in claim 3 select system for use, wherein this P.e.c. wiring diagram is arranged at a flexible circuit board or a hard circuit board.
5. 5. detection light source as claimed in claim 1 selects system for use, wherein this analysis rule comprises the parameter of a plurality of different character, each described parameter is to there being a pairing weight, and this inference module calculates this quality mark of each described image with pairing according to described a plurality of parameters and this pairing weight.
6. Detection light source as claimed in claim 5 select system for use, wherein said a plurality of parameters are selected from the group that is made up of an edge parameter, a luminance parameter, a sharpness parameter and a contrast level parameter.
7. Detection light source as claimed in claim 1 select system for use, it also comprises a photo-coupler, be coupled any at least two of described a plurality of light sources of this photo-coupler are to form a composite light source.
8. Detection light source as claimed in claim 1 select system for use, wherein this projected area is linear.
9. 9. the selecting method of a detection light source, it comprises:

   At least one determinand is provided;

   In a plurality of testing light sources, select a testing light source to shine on described at least one determinand;

   The described at least one determinand of linear scan is to produce the image that described at least one determinand is formed by this testing light source irradiation and scanning;

   Analyze the quality mark that rule calculates this image according to one;

   Judge whether described a plurality of testing light source shines totally;

   When judge that described a plurality of testing light sources do not shine totally, return this testing light source and select step; And

   When judge that described a plurality of testing light sources shine totally,, select the test light source of affiliated pairing this testing light source of this image of a mark best in quality for the scanning determinand according to the quality mark of each image.
10. 10. the selecting method of detection light source as claimed in claim 9, wherein shining in the testing light source of described at least one determinand is a composite light source, this composite light source is the formation that is coupled of the light source of at least two different wavelength.
11. 11. the selecting method of detection light source as claimed in claim 9, wherein said a plurality of testing light sources are selected from a red light source, a blue-light source, a green light source, a ultraviolet source, an infrared light supply, reach the light source by above-mentioned at least two light sources were coupled to form.
12. 12. the selecting method of detection light source as claimed in claim 9, wherein said at least one determinand are a P.e.c. wiring diagram or a pattern.
13. 13. the selecting method of detection light source as claimed in claim 12, wherein this P.e.c. wiring diagram is arranged at a flexible circuit board or a hard circuit board.
14. 14. the selecting method of detection light source as claimed in claim 9, wherein this analysis rule comprises the parameter of a plurality of different character, and each parameter is to there being a pairing weight, and this quality mark of each image gets according to described a plurality of parameters and this pairing weight calculation.
15. 15. the selecting method of detection light source as claimed in claim 14, wherein said a plurality of parameters are selected from the group that is made up of an edge parameter, a luminance parameter, a sharpness parameter and a contrast level parameter.
16. 16. a detection light source select system for use, comprise:

    One light source driver module comprises the light source of a plurality of different wavelength, and to form a plurality of testing light sources, this light source driver module provides described a plurality of testing light source to shine on a determinand; The one scan module is in order to this determinand of linear scan, to produce a plurality of images that this determinand is formed by each testing light source irradiation and scanning; And

    One inference module, at least one defective data that comprises this determinand, this inference module is analyzed rule according to one each image and described at least one defective data is compared, calculating a quality mark of each image, the testing light source of selecting the image correspondence under the mark best in quality from described a plurality of quality marks is a test light source.
17. 17. detection light source as claimed in claim 16 select system for use, wherein this analysis rule comprises the parameter of a plurality of different character, each described parameter is to there being a pairing weight, and this inference module calculates the quality mark of each image with pairing according to described a plurality of parameters and this pairing weight.
18. 18. detection light source as claimed in claim 17 select system for use, wherein said a plurality of parameters are selected from the group that is made up of an edge parameter, a luminance parameter, a sharpness parameter and a contrast level parameter.
19. 19. detection light source as claimed in claim 16 select system for use, wherein the multiple light courcess of this light source driver module is selected from the group that is made up of a red light source module, a blue-light source module, a green light source module, a ultraviolet source module and an infrared light supply module.
20. 20. detection light source as claimed in claim 16 select system for use, wherein said a plurality of testing light sources are selected from a red light source, a blue-light source, a green light source, a ultraviolet source, an infrared light supply, and by light source that above-mentioned at least two light sources were coupled to form.
21. 21. detection light source as claimed in claim 16 select system for use, wherein this determinand is a P.e.c. wiring diagram or a pattern.
22. 22. detection light source as claimed in claim 16 select system for use, it also comprises a photo-coupler, be coupled any at least two of described a plurality of light sources of this photo-coupler are to form a composite light source.
23. 23. detection light source as claimed in claim 16 select system for use, wherein each testing light source shines and form a projected area on this determinand, this projected area is linear.
24. 24. detection light source as claimed in claim 16 select system for use, it also comprises a control module, in order to switching the testing light source of this light source driver module, and drives this this determinand of scan module linear scan.

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