CN103135026A - Testing device and testing method thereof - Google Patents

Testing device and testing method thereof Download PDF

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Publication number
CN103135026A
CN103135026A CN2011103937101A CN201110393710A CN103135026A CN 103135026 A CN103135026 A CN 103135026A CN 2011103937101 A CN2011103937101 A CN 2011103937101A CN 201110393710 A CN201110393710 A CN 201110393710A CN 103135026 A CN103135026 A CN 103135026A
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CN
China
Prior art keywords
control unit
main control
unit
pair
measurement jig
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CN2011103937101A
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Chinese (zh)
Inventor
张辉宏
林汉昌
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联咏科技股份有限公司
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Priority to CN2011103937101A priority Critical patent/CN103135026A/en
Publication of CN103135026A publication Critical patent/CN103135026A/en

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Abstract

The invention provides a testing device and a testing method thereof. A volume production testing device comprises a main control unit, a plurality of auxiliary control units, a plurality of testing jigs, an input unit and an output unit, wherein the auxiliary control units are coupled with the main control unit, the plurality of testing jigs are coupled with the plurality of auxiliary control units and a plurality of objects to be measured, and the input unit and the output unit are coupled with the main control unit. The main control unit responds to input information sent from the input unit to send a volume production testing content to the plurality of auxiliary control units, the plurality of auxiliary control units convert the volume production testing content into a testing procedure to drive the plurality of testing jigs to detect the plurality of objects to be measured, the auxiliary control units convert information fed back by the plurality of objects to be measured into a testing result to send back to the main control unit, and the main control unit outputs a testing state to the output unit.

Description

Proving installation and its method of testing

Technical field

The invention relates to a kind of proving installation and its method of testing.

Background technology

Present capacitive touch-control module production procedure comprises: the test of flexible circuit board (FPC, flexible printed circuit), the test of capacitor-type touch sensing board and capacitive touch-control module test.

Usually, FPC comprises capacitance touching control controller and relevant passive device.When test FPC, can test the half-finished surface-mount device (SMD of FPC, whether the circuit Surface Mounted Device) open a way/and whether short circuit, test FPC circuit (FPC circuit) open a way/short circuit, to guarantee that the FPC semi-manufacture are as non-defective unit.

Capacitor-type touch sensing board contains several capacitive sensing lines, and these capacitive sensing lines have suitable R/C (resistance/capacitance) value.When the problem such as open circuit/short circuit occurring when the capacitive sensing line of capacitor-type touch sensing board, significant change can appear in the R/C value of capacitive sensing line.Therefore, can by the R/C value of the Detection capacitance line of induction, come whether testing capacitor formula touch sensing board is non-defective unit.

After FPC semi-manufacture and capacitor-type touch sensing board are by test, need FPC semi-manufacture non-defective unit and capacitor-type touch sensing board non-defective unit are fitted into complete capacitive touch-control module, again for the capacitive touch-control module test, to complete the capacitive touch-control module production procedure.

With present production procedure, antenatal at the capacitive touch-control module import volume, need to be detected for samples such as FPC, capacitor-type touch sensing board and capacitive touch-control modules in advance by the engineering staff, to obtain relevant test data.This stage definitions is that engineering phase detects.

In the FPC of engineering phase detected, the engineering staff can be via the application program of personal computer, and the required procedure code of capacitance touching control controller is burned to the capacitance touching control controller.Send the capacitance touching control controller of FPC sense command to the FPC by personal computer, and by duties such as the induction channels of capacitance touching control controller self testing FPC, communication interfaces.

In the capacitor-type touch sensing board of engineering phase detects, the engineering staff is connected the induction contact of FPC with testing capacitance formula touch sensing board, send the capacitance touching control controller of capacitor-type touch sensing board sense command to the FPC via the personal computer applications program, then read the R/C value of capacitor-type touch sensing board by the capacitance touching control controller.Producing lineman Cheng personnel can be via the R/C value that detects the capacitive sensing line on several pieces capacitor-type touch sensing boards to obtain average R/C value, also can be stored in personal computer to the average R/C value of capacitive sensing line, be used as the reference information of the capacitive sensing line on the judgement capacitor-type touch sensing board.

In the capacitive touch-control module of engineering phase detected, the engineering staff can under not via artificial touch mode capacitive touch-control module condition, judge whether the R/C value decision capacitive touch-control module of capacitor-type touch sensing board is normal.Or the engineering staff also can read capacitive touch-control module back-reporting coordinate information by personal computer again via artificial touch mode capacitive touch-control module, to judge whether capacitive touch-control module is normal.

Yet, as mentioned above, in present technology, owing to needing the auxiliary of personal computer in test process, cause testing cost higher.In addition, because once can only survey a determinand, so its test speed is slow, the test duration is of a specified duration, be also to improve part.

Summary of the invention

The embodiment of the present invention relates to a kind of proving installation for the volume production test, and it can shorten test man-hour and reduce testing cost.

According to an one exemplary embodiment of the present invention, a kind of mass production test device is proposed, comprising: a main control unit; A plurality of secondary controls unit is coupled to this main control unit; A plurality of measurement jigs are coupled to those secondary control unit and a plurality of determinands; And input block and an output unit, be coupled to this main control unit.This main control unit is in response to an input message that is transmitted by this input block, one volume production Detection of content is delivered to those secondary unit of controlling, those secondary controls unit converts this volume production Detection of content to a trace routine and detects those determinands to drive those measurement jigs, those secondary controls unit will be converted to by the information that those determinands feed back a testing result with loopback to this main control unit, this main control unit is exported a detected state according to this to this output unit.

According to an one exemplary embodiment of the present invention, a kind of volume production method of testing is proposed, be applied to a mass production test device.This mass production test device comprises a main control unit, is coupled to a plurality of secondary control unit of this main control unit, is coupled to those secondary a plurality of measurement jigs, an input block and output units of controlling unit and a plurality of determinands.This volume production method of testing comprises: this main control unit is delivered to those secondary unit of controlling in response to an input message that is transmitted by this input block with a volume production Detection of content; Those secondary controls unit converts this volume production Detection of content to a trace routine and detects those determinands to drive those measurement jigs; Those secondary controls unit will be converted to by the information that those determinands feed back a testing result with loopback to this main control unit; And this main control unit is exported a detected state according to this to this output unit.

For there is better understanding above-mentioned and other aspect of the present invention, embodiment cited below particularly, and coordinate appended graphicly, be described in detail below.

Description of drawings

Figure 1A and Figure 1B show the functional block diagram according to the proving installation of the embodiment of the present invention.

Fig. 2 shows the FPC testing process according to the embodiment of the present invention.

Fig. 3 shows the overhaul flow chart according to the testing capacitor formula touch sensing board of the embodiment of the present invention.

Fig. 4 shows the overhaul flow chart of testing capacitor formula touch-control module according to the embodiment of the present invention (manually not touch mode capacitive touch-control module).

Fig. 5 shows the overhaul flow chart of the testing capacitor formula touch-control module (artificial touch mode capacitive touch-control module) according to the embodiment of the present invention.

Fig. 6 shows the test operation sequential chart according to the embodiment of the present invention.

[main element label declaration]

100: mass production test device 110: main control unit

120 (1)~120 (n): the secondary unit of controlling

130 (1)~130 (n): measurement jig

140: button 150:LCM/LED

160: determinand

111: input interface 112: output interface

113: communication interface 114: the command code unit

121 and 122: communication interface 123: memory storage device

124:R/C parameter storage element 125: trace routine coding unit

126: command encoding unit

131: communication interface

132:FPC open circuit/short-circuit detecting unit

133: sensing unit

134: the trace routine decoding unit

205~535: step

Embodiment

In the embodiment of the present invention, provide a kind of proving installation for the volume production test.The proving installation of the embodiment of the present invention can be used for testing FPC or capacitor-type touch sensing board or capacitive touch-control module.

Now please refer to Figure 1A and Figure 1B, it shows the functional block diagram according to the mass production test device of the embodiment of the present invention.Now please refer to Figure 1A and Figure 1B.Mass production test device 100 comprises: main control unit 110, secondary unit 120 (1)~120 (n), measurement jig 130 (1)~130 (n), button 140 and the LCM/LED150 controlled.Measurement jig 130 (1)~130 (n) is connected to determinand 160.Button 140 is input block, and LCM/LED 150 is output unit.

Main control unit 110 can receive input message by button 140 by input interface, to carry out the volume production testing.Main control unit 110 is delivered to each secondary unit of controlling with the volume production Detection of content.

Secondary control unit 120 detects corresponding determinand with measurement jig 130.Main control unit 110 can be fetched the testing result of each secondary control unit 120 analyses and export on LCM/LED 150.At this, determinand 160 comprises such as but is not subject to, FPC, capacitance touching control induction module, capacitive touch-control module etc.

Main control unit 110 comprises: input interface 111, output interface 112, communication interface 113 and command code unit 114.Main control unit 110 also can comprise the firmware (not shown), to receive outside the renewal.Input interface 111 is coupled to button 140, to receive the message that is transmitted by button 140.Output interface 112 is coupled to LCM/LED 150, is shown in LCM/LED150 with the test result that main control unit 110 is analyzed.The communication interface 113 of main control unit 110 is connected to the communication interface 121 of secondary control unit 120.Command code unit 114 is in order to command code, and the order that encodes can be sent to secondary control unit 120 by communication interface 113.

Secondary control unit 120 comprises: communication interface 121 and 122, memory storage device 123 (can be updated), R/C parameter storage element 124, trace routine coding unit 125 and command encoding unit 126.The communication interface 121 of secondary control unit 120 is connected to the communication interface 113 of main control unit 110.The communication interface 122 of secondary control unit 120 is connected to measurement jig 130.Memory storage device 123 stores the procedure code that is transmitted by main control unit 110, and these procedure codes are to burn determinand 160.In the present embodiment, if main control unit 110 is issued orders to pair control unit 120, procedure code just can be passed to determinand 160 in secondary control unit 120, so can shorten the test duration.R/C parameter storage element 124 stores the R/C parameter that is transmitted by main control unit 110.The coding post command that command encoding unit 126 decodings are transmitted by main control unit 110.The order that trace routine coding unit 125 decodes command encoding unit 126 converts test trace routine used to, to give measurement jig 130.

Measurement jig 130 comprises: communication interface 131, FPC open circuit/short-circuit detecting unit 132, sensing unit 133 and trace routine decoding unit 134.The communication interface 131 of measurement jig 130 is connected to the communication interface 122 of secondary control unit 120.Whether FPC open circuit/short-circuit detecting unit 13 has open circuit/short circuit in order to detect FPC.Sensing unit 133 is in order to R/C value or the R/C value of capacitive touch-control module or the coordinate that is touched of capacitive touch-control module of sense capacitance formula touch-control sensing module.The trace routine that trace routine decoding unit 134 is transmitted by pair control unit 120 in order to decoding is to carry out according to this volume production test.

Down below, will explain respectively how the embodiment of the present invention carries out the volume production test to determinand.

Implement sample attitude 1: test FPC

Determinand FPC is connected to measurement jig 130.In the embodiment of the present invention, n measurement jig 130 arranged, just can once test at most n FPC.When the product line volume production stage is carried out the FPC detection, the procedure code of the capacitance touching control controller (it is positioned on FPC) that main control unit 110 is required with the production model is stored in the memory storage device 123 of secondary control unit 120, and the induction point of the capacitance touching control controller of this production model is put in order weave into order, to be sent to secondary control unit 120.

When test FPC, can being triggered in response to the corresponding enter key on button 140 (such as being " FPC test " button), with the burned capacitance touching control controller to FPC to be measured of the procedure code of capacitance touching control controller, main control unit 110 read the measured FPC in each secondary control unit 120 the induction channels state (such as, whether the signal wire on FPC opens a way/short circuit) and communication interface state.

Now please refer to Fig. 2, it shows the FPC testing process according to the embodiment of the present invention.In step 205, main control unit is sent the FPC sense command.Such as, being pressed in response to " FPC test " button of button 140, the command code unit 114 of main control unit 110 is command code, and sends the FPC sense command by communication interface 113.

In step 210, secondary control unit reception FPC sense command.Such as, secondary control unit 120 receives the FPC sense command of being sent by main control unit 110 by communication interface 121, and the decoding of 126 pairs of the secondary command encoding unit of controlling unit 120.

In step 215, the secondary unit of controlling converts the FPC trace routine to according to the FPC sense command that decodes, to drive measurement jig.Such as, as above-mentioned, convert the FPC sense command that decodes to the FPC trace routine by the trace routine coding unit 125 of pair control unit 120.

In step 220, after measurement jig was completed determinand FPC, measurement jig feedback FPC state was to secondary control unit.Such as, as above-mentioned, the FPC open circuit/short-circuit detecting unit 132 of measurement jig 130 can detect the passage open circuit/short-circuit condition of determinand FPC, and result is returned to secondary control unit 120.

In step 225, main control unit reads the state of determinand FPC from pair control unit.In step 230, main control unit outputs test result on LCM/LED 150.Such as, LCM/LED 150 can comprise n red LED and n green LED.If it is good that test result represents determinand FPC, under the control of main control unit 110, corresponding green LED is lighted, to allow the operator can know simply that this determinand FPC is as good.On the contrary, be defective products if test result represents determinand FPC, under the control of main control unit 110, corresponding red LED is lighted.In addition, the LCM in LCM/LED 150 can be simple character type LCD, and it can carry out the character demonstration, with the follow-up testing procedure of reminding user.

Implement sample attitude 2: testing capacitor formula touch sensing board

When testing capacitor formula touch sensing board, the FPC that is known as non-defective unit can be pressure bonded to capacitor-type touch sensing board.

Please refer to Fig. 3, it shows the overhaul flow chart according to the testing capacitor formula touch sensing board of the embodiment of the present invention.In step 305, main control unit is sent the capacitor-type touch sensing board sense command.Such as, being pressed in response to " capacitor-type touch sensing board test " button of button 140, the command code unit 114 of main control unit 110 is command code, and sends the capacitor-type touch sensing board sense command by communication interface 113.

In step 310, the sense command of secondary control unit reception capacitor-type touch sensing board, its details is similar to the step 210 of Fig. 2, therefore its details is omitted at this.

In step 315, the secondary unit of controlling converts the capacitor-type touch sensing board trace routine to according to the capacitor-type touch sensing board sense command that decodes, and to drive measurement jig, its details is similar to the step 215 of Fig. 2, therefore its details is omitted at this.

In step 320, after measurement jig was completed the determinand capacitor-type touch sensing board, the detecting information of measurement jig feedback capacity formula touch sensing board was to secondary control unit.Such as, the sensing unit 133 of measurement jig 130 can be responded to the R/C value of the capacitive sensing line of determinand capacitor-type touch sensing board, and result is returned to the secondary unit 120 of controlling.

In step 325, pair is controlled the R/C value that the capacitive sensing line of the determinand capacitor-type touch sensing board that is fed back by measurement jig is compared in the unit, to be confirmed whether in built-in R/C value scope.This built-in R/C value scope is such as in the R/C parameter storage element 124 that can be present in secondary control unit 120.

In step 330, main control unit reads a comparison result of secondary control unit from pair control unit.In step 335, main control unit outputs test result on LCM/LED 150.

In addition, in detecting the starting stage, need the average R/C value of capacitive sensing line is stored in the R/C parameter storage element 124 of secondary control unit 120, with the built-in R/C value scope as capacitor-type touch sensing board.

Implement sample attitude 3: testing capacitor formula touch-control module

When testing capacitor formula touch-control module, be that the FPC that will be judged as non-defective unit through trace routine fits in as for be judged as the capacitor-type touch sensing board of non-defective unit through trace routine, to obtain the determinand capacitive touch-control module.

In detecting the starting stage, to the average R/C value of resulting capacitive sensing line be stored in the R/C parameter storage element 124 of secondary control unit in the capacitor-type touch sensing board testing process, in addition, the upper and lower, left and right frame of capacitor-type touch sensing board also to be stored in secondary control unit 120 corresponding to the centre coordinate information of each capacitive sensing line, with the reference value as follow-up touching test to capacitor-type touch sensing board/module.

When test, can detect under not via artificial touch mode capacitive touch-control module.Each pair is controlled the R/C value that the unit read and judged capacitor-type touch sensing board.Main control unit reads the secondary line of induction state of controlling the capacitor-type touch sensing board of unit, and outputs test result via LCM/LED 150.

Perhaps, also manually the touch mode capacitive touch-control module detect.By pair control unit reading the coordinate information that capacitive touch-control module is repaid, to judge whether capacitive touch-control module is normal.

Now please refer to Fig. 4, it shows the overhaul flow chart of testing capacitor formula touch-control module according to the embodiment of the present invention (manually not touch mode capacitive touch-control module).In step 405, main control unit is sent capacitive touch-control module sense command 1.Such as, being pressed in response to " capacitor-type touch sensing board test " button of button 140, the command code unit 114 of main control unit 110 is command code, and sends capacitive touch-control module sense command 1 by communication interface 113.

In step 410, secondary control unit reception capacitive touch-control module sense command 1, its details is similar to the step 210 of Fig. 2, therefore its details is omitted at this.

In step 415, the secondary unit of controlling converts capacitive touch-control module trace routine 1 to according to the capacitive touch-control module sense command 1 that decodes, and to drive measurement jig, its details is similar to the step 215 of Fig. 2, therefore its details is omitted at this.

In step 420, after measurement jig was completed the determinand capacitive touch-control module, the detecting information of measurement jig feedback capacity formula touch-control module was to secondary control unit.Such as, the R/C value of the capacitive sensing line of measurement jig 130 feedback capacity formula touch-control modules, and result is returned to the secondary unit 120 of controlling.

In step 425, pair is controlled the R/C value that the capacitive sensing line of the determinand capacitive touch-control module that is fed back by measurement jig is compared in the unit, to be confirmed whether in built-in R/C value scope.Its details can be as above-mentioned, therefore do not repeat.

In step 430, main control unit reads comparison result from pair control unit.In step 435, main control unit outputs test result on LCM/LED 150.

Now please refer to Fig. 5, it shows the overhaul flow chart of the testing capacitor formula touch-control module (artificial touch mode capacitive touch-control module) according to the embodiment of the present invention.In step 505, main control unit is sent capacitive touch-control module sense command 2.The details of step 505 can be as above-mentioned, therefore do not repeat in this.

In step 510, secondary control unit reception capacitive touch-control module sense command 2, its details can be as above-mentioned, therefore do not repeat in this.

In step 515, the secondary unit of controlling converts capacitive touch-control module trace routine 2 to according to the capacitive touch-control module sense command 2 that decodes, and to drive measurement jig, its details can be as above-mentioned, therefore do not repeat in this.

In step 520, in response to being touched of determinand capacitive touch-control module, measurement jig is back to the secondary unit of controlling with the coordinate figure that is touched of determinand capacitive touch-control module.

In step 525, pair is controlled the coordinate figure that is touched that the determinand capacitive touch-control module that is fed back by measurement jig is compared in the unit, to be confirmed whether in the coordinate range of the line of induction.

In step 530, main control unit reads the coordinate range state (that is, the secondary control unit whether comparison result in the coordinate range of the line of induction of coordinate figure that is touched to capacitive touch-control module) of determinand capacitive touch-control module from pair control unit.In step 535, main control unit outputs test result on LCM/LED150.

Fig. 6 shows the test operation sequential chart according to the embodiment of the present invention.Suppose that main control unit 110 sends the order of refresh routine code with interval 1mS (centisecond) (as the T1 of Fig. 6) to sub-control unit 120 (1)~120 (n), when knowing that the present invention is not limited to this.After secondary control unit 120 (1)~120 (n) receives the order of main control unit 110, measurement jig 130 (1)~130 (n) is carried out the refresh routine code operations.Suppose that it is 10 seconds (as the T2 of Fig. 6) that secondary control unit drives measurement jig is completed test/burning required time, when knowing that the present invention is not limited to this.So, in the embodiment of the present invention, only need spend the 1mS*100+10second time to measurement jig 130 (1)~130 (n) refresh routine code.Really can shorten test effect in man-hour.That is to say, in the embodiment of the present invention, for the test of a plurality of determinands can parallel processing it, so can shorten test man-hour.

In brief, the mass production test device of the embodiment of the present invention comprises main control unit and several secondary unit of controlling.Main control unit sends Detection of content/sense command etc., obtains the testing result that is returned by pair control unit, and the output detections state.Secondary control unit can receive Detection of content/sense command that main control unit sends converting the required program that detects to, measurement jig and determinand (such as, FPC, capacitor-type touch sensing board, capacitive touch-control module) link.Secondary control unit reads the determinand test result/information that is returned by measurement jig, with institute's loopback information of judging determinand and convert effective testing result to, and offers main control unit, to allow main control unit output detections result.

Send brief command information by main control unit, the burning when needing cost longer or test job need to be completed voluntarily by each secondary unit of controlling, and shorten the test purpose in man-hour to reach.

In addition, can complete test with measurement jig, secondary unit stored routine code information, capacitance touching control line of induction R/C mean value, the frame centre coordinate of the capacitance touching control line of induction, the information such as scanning sequency of the capacitance touching control line of induction controlled for reaching the secondary unit of controlling.

In sum as can be known, in the embodiment of the present invention, utilize easy volume production to survey device, the capacitive touch-control module volume production that can shorten the volume production stage detects man-hour, and reduces and detect the production equipment cost.

In sum, although the present invention discloses as above with embodiment, so it is not to limit the present invention.The persond having ordinary knowledge in the technical field of the present invention, without departing from the spirit and scope of the present invention, when being used for a variety of modifications and variations.Therefore, protection scope of the present invention is as the criterion when looking appended the claim scope person of defining.

Claims (15)

1. mass production test device comprises:
One main control unit;
A plurality of secondary controls unit is coupled to this main control unit;
A plurality of measurement jigs are coupled to this a plurality of secondary control unit and a plurality of determinand; And
One input block and an output unit are coupled to this main control unit;
Wherein, this main control unit is in response to an input message that is transmitted by this input block, one volume production Detection of content is delivered to this a plurality of secondary unit of controlling, this a plurality of secondary controls unit converts this volume production Detection of content to a trace routine and detects this a plurality of determinands to drive these a plurality of measurement jigs, this a plurality of secondary controls unit will be converted to by the information that these a plurality of determinands feed back a testing result with loopback to this main control unit, this main control unit is exported a detected state according to this to this output unit.
2. mass production test device according to claim 1, wherein this main control unit comprises:
One input interface is coupled to this input block;
One output interface is coupled to this output unit, to show this detected state;
One master communication interface is coupled to this a plurality of secondary unit of controlling; And
One command code unit is in order to this volume production Detection of content of encoding out.
3. mass production test device according to claim 2, wherein each secondary control unit comprises:
One first secondary communication interface is coupled to this main control unit;
One second secondary communication interface is coupled to this measurement jig;
One procedure code storage element stores a procedure code that is transmitted by this main control unit;
One parameter storage element stores a parameter that is transmitted by this main control unit;
One command encoding unit, this volume production Detection of content that decoding is transmitted by this main control unit; And
One trace routine coding unit, the results conversion that this command encoding unit is decoded becomes this trace routine, to give this measurement jig.
4. mass production test device according to claim 3, wherein each measurement jig comprises:
One communication interface is coupled to this pair control unit;
One FPC open circuit/short-circuit detecting unit, whether detect this determinand has open circuit/short circuit;
One sensing unit, a R/C value or of this determinand of the sensing coordinate that is touched; And
One trace routine decoding unit, this trace routine that decoding is transmitted by this pair control unit is to carry out according to this volume production test.
5. mass production test device according to claim 4, wherein when this determinand is a flexible circuit board,
Be triggered in response to this input block, this main control unit flexible circuit board Detection of content of encoding out;
This pair control unit this flexible circuit board Detection of content that receives and decode;
This pair control unit converts a flexible circuit board trace routine to according to this flexible circuit board Detection of content that decodes, to drive this measurement jig;
This measurement jig is to this flexible circuit board test, and this measurement jig feedback one flexible circuit board status is to this pair control unit; And
This main control unit reads this testing result from this pair control unit, to export this detected state to this output unit.
6. mass production test device according to claim 4, wherein when this determinand is a capacitor-type touch sensing board,
Be triggered in response to this input block, this main control unit is sent a capacitor-type touch sensing board Detection of content;
This pair control unit this capacitor-type touch sensing board Detection of content that receives and decode is to convert a capacitor-type touch sensing board trace routine to, to drive this measurement jig;
This measurement jig is to the test of this capacitor-type touch sensing board, and the detecting information that this measurement jig feeds back this capacitor-type touch sensing board is to this pair control unit;
This detecting information of this capacitor-type touch sensing board that the comparison of this pair control unit is fed back by this measurement jig is to be confirmed whether in a built-in value scope; And
This main control unit reads this testing result from this pair control unit, to export this detected state to this output unit;
Wherein, detect the starting stage in one, this main control unit is stored in this pair control unit with this built-in value scope of this capacitor-type touch sensing board.
7. mass production test device according to claim 4, wherein when this determinand is a capacitive touch-control module,
Be triggered in response to this input block, this main control unit is sent a capacitive touch-control module Detection of content;
This pair control unit this capacitive touch-control module Detection of content that receives and decode is to convert a capacitive touch-control module trace routine to, to drive this measurement jig;
This measurement jig this capacitive touch-control module is tested and the detecting information that feeds back this capacitive touch-control module to this pair control unit;
One detecting information of this capacitive touch-control module that the comparison of this pair control unit is fed back by this measurement jig is to be confirmed whether in a built-in value scope; And
This main control unit reads this testing result from this pair control unit, to export this detected state to this output unit;
Wherein, detect the starting stage in one, this main control unit is stored in this pair control unit with an average R/C value of capacitive sensing line of this capacitor-type touch sensing board.
8. mass production test device according to claim 4, wherein when this determinand is a capacitive touch-control module,
Be triggered in response to this input block, this main control unit is sent a capacitive touch-control module Detection of content;
This pair control unit this capacitive touch-control module Detection of content that receives and decode is to convert a capacitive touch-control module trace routine to, to drive this measurement jig;
Be touched in response to this capacitive touch-control module, this measurement jig is back to this pair control unit with one of this capacitive touch-control module coordinate figure that is touched;
This coordinate figure that is touched of this capacitive touch-control module that the comparison of this pair control unit is fed back by this measurement jig is to be confirmed whether in a line of induction coordinate range; And
This main control unit reads this testing result from pair control unit, to export this detected state to this output unit;
Wherein, detect the starting stage in one, this main control unit is stored in this pair control unit with an average R/C value of capacitive sensing line of this capacitor-type touch sensing board, and with the upper and lower, left and right frame of this capacitor-type touch sensing board corresponding to a centre coordinate information storage of each capacitive sensing line in this pair control unit.
9. mass production test device according to claim 1, wherein,
This main control unit is sequentially sent a refresh routine code order to these a plurality of secondary unit of controlling; And
After this a plurality of secondary controls unit sequentially arrive this refresh routine order of this main control unit, sequentially to this a plurality of measurement jigs execution one refresh routine code operations, with these a plurality of determinands of parallel testing.
10. volume production method of testing, be used for a mass production test device, this mass production test device comprises a main control unit, is coupled to a plurality of secondary control unit of this main control unit, is coupled to this a plurality of secondary a plurality of measurement jigs, an input block and output units of controlling unit and a plurality of determinands, and this volume production method of testing comprises:
This main control unit is delivered to this a plurality of secondary unit of controlling in response to an input message that is transmitted by this input block with a volume production Detection of content;
This a plurality of secondary controls unit converts this volume production Detection of content to a trace routine and detects this a plurality of determinands to drive these a plurality of measurement jigs;
This a plurality of secondary controls unit will be converted to by the information that these a plurality of determinands feed back a testing result with loopback to this main control unit; And
This main control unit is exported a detected state according to this to this output unit.
11. volume production method of testing according to claim 10, wherein when this determinand is a flexible circuit board,
Be triggered in response to this input block, this main control unit flexible circuit board Detection of content of encoding out;
This pair control unit this flexible circuit board Detection of content that receives and decode;
This pair control unit converts a flexible circuit board trace routine to according to this flexible circuit board Detection of content that decodes, to drive this measurement jig;
This measurement jig is to this flexible circuit board test, and this measurement jig feedback one flexible circuit board status is to this pair control unit; And
This main control unit reads this testing result from this pair control unit, to export this detected state to this output unit.
12. volume production method of testing according to claim 10, wherein when this determinand is a capacitor-type touch sensing board,
Be triggered in response to this input block, this main control unit is sent a capacitor-type touch sensing board Detection of content;
This pair control unit this capacitor-type touch sensing board Detection of content that receives and decode is to convert a capacitor-type touch sensing board trace routine to, to drive this measurement jig;
This measurement jig is to the test of this capacitor-type touch sensing board, and the detecting information that this measurement jig feeds back this capacitor-type touch sensing board is to this pair control unit;
This detecting information of this capacitor-type touch sensing board that the comparison of this pair control unit is fed back by this measurement jig is to be confirmed whether in a built-in value scope; And
This main control unit reads this testing result from this pair control unit, to export this detected state to this output unit;
Wherein, detect the starting stage in one, this main control unit is stored in this pair control unit with this built-in value scope of this capacitor-type touch sensing board.
13. volume production method of testing according to claim 10, wherein when this determinand is a capacitive touch-control module,
Be triggered in response to this input block, this main control unit is sent a capacitive touch-control module Detection of content;
This pair control unit this capacitive touch-control module Detection of content that receives and decode is to convert a capacitive touch-control module trace routine to, to drive this measurement jig;
This measurement jig this capacitive touch-control module is tested and the detecting information that feeds back this capacitive touch-control module to this pair control unit;
One detecting information of this capacitive touch-control module that the comparison of this pair control unit is fed back by this measurement jig is to be confirmed whether in a built-in value scope; And
This main control unit reads this testing result from this pair control unit, to export this detected state to this output unit;
Wherein, detect the starting stage in one, this main control unit is stored in this pair control unit with an average R/C value of capacitive sensing line of this capacitor-type touch sensing board.
14. volume production method of testing according to claim 10, wherein when this determinand is a capacitive touch-control module,
Be triggered in response to this input block, this main control unit is sent a capacitive touch-control module Detection of content;
This pair control unit this capacitive touch-control module Detection of content that receives and decode is to convert a capacitive touch-control module trace routine to, to drive this measurement jig;
Be touched in response to this capacitive touch-control module, this measurement jig is back to this pair control unit with one of this capacitive touch-control module coordinate figure that is touched;
This coordinate figure that is touched of this capacitive touch-control module that the comparison of this pair control unit is fed back by this measurement jig is to be confirmed whether in a line of induction coordinate range; And
This main control unit reads this testing result from pair control unit, to export this detected state to this output unit;
Wherein, detect the starting stage in one, this main control unit is stored in this pair control unit with an average R/C value of capacitive sensing line of this capacitor-type touch sensing board, and with the upper and lower, left and right frame of this capacitor-type touch sensing board corresponding to a centre coordinate information storage of each capacitive sensing line in this pair control unit.
15. volume production method of testing according to claim 10, wherein,
This main control unit is sequentially sent a refresh routine code order to these a plurality of secondary unit of controlling; And
After this a plurality of secondary controls unit sequentially arrive this refresh routine order of this main control unit, sequentially to this a plurality of measurement jigs execution one refresh routine code operations, with these a plurality of determinands of parallel testing.
CN2011103937101A 2011-12-01 2011-12-01 Testing device and testing method thereof CN103135026A (en)

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