CN1581279A - Apparatus and method for correcting bad point for liquid crystal display device - Google Patents
Apparatus and method for correcting bad point for liquid crystal display device Download PDFInfo
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- CN1581279A CN1581279A CN 03153073 CN03153073A CN1581279A CN 1581279 A CN1581279 A CN 1581279A CN 03153073 CN03153073 CN 03153073 CN 03153073 A CN03153073 A CN 03153073A CN 1581279 A CN1581279 A CN 1581279A
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Abstract
The liquid crystal display (LCD) device includes following parts and modules: multiple first signal wires for providing first image signal, multiple scanning wires for providing signals of addressing switches, and multiple display unit groups; a memory for storing addresses of display groups, which have bad blocks inside, and testing result for the said display groups; a driving module for providing image data for multiple display units; a control module connected to the memory and the driving module adjusts image data of multiple display unit groups transferred from the driving module based on addresses of display groups, which have bad blocks inside, and testing result transferred from the memory, as well as outputs adjusted image signal to display module.
Description
Technical field
The present invention relates to a kind of liquid crystal indicator, refer to the device of the bad point of a kind of recoverable liquid crystal indicator especially.
Background technology
External form is frivolous, power consumption is few because liquid crystal indicator has, and characteristic such as radiationless pollution, so be widely used in portable type information products and commodity such as household consumption electronic product such as LCD TV such as notebook computer (notebook), PDA(Personal Digital Assistant).
Please refer to Fig. 1, Fig. 1 is the structural representation of known liquid crystal indicator 10.As shown in Figure 1, known liquid crystal indicator 10 consists predominantly of a display panels (LCD panel) 12, one gate driver circuit 14 and one source pole driving circuit 16, be used for driving display panels 12, and a signal processing circuit (signal processing circuit) 18, be used for input signal and produce corresponding output signal.Wherein, liquid crystal indicator 10 also includes the multi-strip scanning line and many data lines (all not being shown among Fig. 1) are located on the display panels 12, gate driver circuit 14 includes a plurality of grid-driving integrated circuit chips, as 14A, 14B, 14C etc., be used to provide a cut-in voltage (turn-on voltage) respectively to corresponding sweep trace, source electrode drive circuit 16 includes a plurality of source electrode driven integrated circuit chips, as 16A, 16B, 16C etc., be used to provide one respectively and correspond to the GTG (gray scale) of an image signal voltage is to each data line, and signal processing circuit 18 includes a time controller (timing controller) 20, be used for controlling the time sequential routine of grid-driving integrated circuit chip 14A to 14C and source electrode driven integrated circuit chip 16A to 16C.
For the type of drive of the known liquid crystal indicator 10 of clearer understanding,, below be the detailed type of drive of source electrode drive circuit 16 so the gate driver circuit 14 and the type of drive of source electrode drive circuit 16 are separated explanation.Please refer to Fig. 1, when time controller 20 receives by the external world, a horizontal synchronization signal (the horizontal synchronizing signal that transmits of personal computer for example, HSYNC), one vertical synchronizing signal (vertical synchronizing signal, VSYNC), an and synchronous clock signal (synchronizing clock, CLOCK) time, the view data (image data) that signal processing circuit 18 meeting inputs one are transmitted by the external world, it for example is the numerical data of the three primary colors (RGB) of 8 (bit), time controller 20 can be exported one source pole inceptive impulse (source-driverstart pulse according to these received signals then, SSP) to source electrode driven integrated circuit chip 16A, make source electrode driven integrated circuit chip 16A begin to receive red image data (the source-driver imagedata-red that is exported by signal processing circuit 18, SDATA-R), green image data (SDATA-G), and blue image data (SDATA-B), with received described image data storage in source electrode driven integrated circuit chip 16A.
Still please refer to Fig. 1, after the memory buffer (Buffer) of source electrode driven integrated circuit chip 16A inside is filled up view data in regular turn, then the mode with series connection is sent to next source electrode driven integrated circuit chip 16B with source electrode inceptive impulse SSP1, to drive source electrode driven integrated circuit chip 16B, then continue to grasp view data by source electrode driven integrated circuit chip 16B, after the memory buffer of source electrode driven integrated circuit chip 16B inside is filled up, continue to repeat above-mentioned steps again, memory buffer up to all source electrode driven integrated circuit chip 16A to 16C inside is all filled up, this operation will heavily be covered till horizontal data write corresponding source electrode driven integrated circuit, time controller will be exported a signal to all source electrode driven integrated circuits afterwards, view data is transferred to inner a plurality of latch (latch from the memory buffer of each drive integrated circult chip respectively, be not shown among Fig. 1) in latch, then input to a digital analog converter (the digital/analog converter of each drive integrated circult chip internal more in regular turn according to the view data that is latched, D/A converter, be not shown among Fig. 1) in, utilize this digital analog converter that Digital Image Data is converted to the aanalogvoltage signal at last, and export display panels 12 to, to drive corresponding data line.
The type of drive of the gate driver circuit 14 of liquid crystal indicator 10 is as described below.Receive the horizontal synchronization signal that transmits by the external world when time controller 20, vertical synchronizing signal, and during the synchronous clock signal, signal processing circuit 18 can produce a controlling signal and be sent to time controller 20, time controller 20 can be exported a grid inceptive impulse GSP to grid-driving integrated circuit chip 14A according to these received signals then, make grid-driving integrated circuit chip 14A begin to receive this controlling signal, and latch in the displacement working storage of inside, in grid-driving integrated circuit, the corresponding output of each of displacement working storage, when the data in the corresponding position are 1, then this is output as high voltage, data are 0 o'clock, be output as low-voltage, high voltage can make the on-off element (TFT) in the liquid crystal panel open, low-voltage is the off switch element then, selects suitable picture element with this, to write correct signal.Displacement scratch memory data in the grid-driving integrated circuit can the displacement with input clock.When this inceptive impulse moves to last, grid inceptive impulse GSP1 can be sent to next grid-driving integrated circuit chip 14B in the mode of connecting, repeat above-mentioned steps to all grid-driving integrated circuit chips.
See also Fig. 2, Fig. 2 is the structural representation of display panels 12, and as shown in Figure 2, display panels 12 comprises many signal line D
1~D
nBe used to provide image signal, the signal line that is connected with red sub-pixel R (red sub-pixel) then can provide the red image signal, the signal line that is connected with green sub-pixels G (green sub-pixel) then can provide the green image signal, and the signal line that is connected with blue subpixels B (blue sub-pixel) then can provide the blue image signal.Display panels 12 also comprises many signal line S
1~S
m, be used to provide addressing switch signal, whether import image signal into to determine each sub-pixel.And each sub-pixel all comprises one first end P1 and one second end P2, and the first end P1 of horizontal different sub-pixel is connected in different signal line, and receiving different image signals, and the second end P2 is connected in identical sweep trace, to receive same addressing switch signal; The first end P1 of vertical different sub-pixel is connected in identical signal line, and receiving identical image signal, and the second end P2 is connected in different sweep trace, to receive different addressing switch signals.
As from the foregoing, when known liquid crystal indicator 10 on-off element (TFT) wherein damages, display panels 12 just has the appearance of so-called bad point, if this place switch damages and maintenance is always opened circuit, then just there is the appearance of so-called dim spot at this place on display panels 12.Because bad point is an irreversible damage, so this damage that can't repair often is listed in the main reference index that display panels 12 is made qualification rate, the generation of therefore bad point just can cause this liquid crystal indicator to become an electronic goods defective, and the appearance of bad point can cause the user to watch the quality of LCD screen, especially be under the popular trend in that LCD-TV is luxuriant now, then can make the use of LCD-TV be subjected to bigger restriction if any the generation of above-mentioned bad situation.
Summary of the invention
The invention provides the apparatus and method of the bad point of a kind of correcting liquid crystal display device, to solve the above problems.
According to a kind of liquid crystal indicator of the present invention, it includes a display module, it comprises many first signal line, be used to provide first image signal, the multi-strip scanning line, be used to provide addressing switch signal, and a plurality of display unit groups, each display unit group comprises a plurality of first subelements, each first subelement comprises one first end and one second end, first end of a plurality of first subelements of this display unit group is connected in same first signal line to receive same first image signal, and second end of a plurality of first subelements of this display unit group is connected in same sweep trace to receive same addressing switch signal.This liquid crystal indicator also comprises a storer, be used for storing the address of display unit group and the testing result of this display unit group with bad point, one driver module, be used to provide the view data of these a plurality of display unit groups, an and control module, be connected in this storer and this driver module, be used for view data that the testing result of the address of the display unit group with bad point that transmits according to this storer and this display unit group adjusts these a plurality of display unit groups that this driver module transmits with the output image signal to this display module.
Bad method according to a kind of correcting liquid crystal display device of the present invention, it comprises the output of each display unit group on the display module that detects this liquid crystal indicator, store the address of display unit group and the testing result of this display unit group with bad point, the view data of these a plurality of display unit groups is provided, and the view data of adjusting these a plurality of display unit groups according to the testing result of the address of display unit group and this display unit group with bad point with the output image signal to this display module.
Description of drawings
Fig. 1 is the structural representation of known liquid crystal indicator;
Fig. 2 is the structural representation of known display panels;
Fig. 3 is the function block schematic diagram of liquid crystal indicator of the present invention;
Fig. 4 is the structural representation of display module of the present invention;
Fig. 5 is the process flow diagram of the bad point of correcting liquid crystal display device of the present invention; With
Fig. 6 detects the equivalent circuit diagram of the voltage output of display unit group 38A for sweep circuit.
The reference numeral explanation
10 liquid crystal indicators, 12 display panels
14 gate driver circuits, 16 source electrode drive circuits
14A, 14B, 14C grid-driving integrated circuit chip
16A, 16B, 16C source electrode driven integrated circuit chip
18 signal processing circuits, 20 time controllers
22 liquid crystal indicators, 24 display modules
26 sweep circuits, 28 storeies
30 driver modules, 32 control modules
34 signal line driving circuits, 36 scan line drive circuits
38A, 38B, 38C, 38D display unit group
Embodiment
See also Fig. 3, Fig. 3 is the function block schematic diagram of liquid crystal indicator 22 of the present invention.Liquid crystal indicator 22 includes a display module 24, and the structure of display module 24 is introduced in detail in the back, one scan circuit 26, one storeies 28, one driver modules 30, and a control module 32.
See also Fig. 4, Fig. 4 is the structural representation of display module 24 of the present invention.As shown in Figure 4, display module 24 comprises many first signal line D
1R~D
NR, being used to provide first image signal, the first different signal line then can provide the first different image signals, and first image signal is the red image signal herein, many second signal line D
1G~D
NG, being used to provide second image signal, the second different signal line then can provide the second different image signals, and second image signal is the green image signal herein, many articles the 3rd signal line D
1B~D
NB, being used to provide the 3rd image signal, the 3rd different signal line then can provide the 3rd different image signals, and the 3rd image signal is the blue image signal herein, and many signal line S
1~S
m, be used to provide addressing switch signal.And display module 24 also comprises a signal line driving circuit (signal line driving circuit) 34, it is electrically connected on many first, second and third signal line, be used for the output image signal to these many signal line, and one scan line drive circuit (scan line driving circuit) 36, it is electrically connected on multi-strip scanning line S
1~S
m, be used for exporting addressing switch signal bar sweep trace S at the most
1~S
m
Display module 24 also comprises a plurality of display unit groups 38, as the 38A among Fig. 3,38B, 38C, 38D etc., and a plurality of display unit group 38 is with arranged in array mode, and each display unit group 38 all comprises a plurality of first subelement R, a plurality of second subelement G, and a plurality of the 3rd subelement B.As shown in Figure 3, display unit group 38A comprises four first subelement R
A1, R
A2, R
A3, R
A4, four second subelement G
A1, G
A2, G
A3, G
A4, and four the 3rd subelement B
A1, B
A2, B
A3, B
A4Display unit group 38B comprises four first subelement R
B1, R
B2, R
B3, R
B4, four second subelement G
B1, G
B2, G
B3, G
B4, and four the 3rd subelement B
B1, B
B2, B
B3, B
B4, all the other display unit groups 38 then by that analogy.Each first subelement R of display module 24 is a red sub-pixel, each second subelement G is a green sub-pixels, and each the 3rd subelement B is a blue subpixels, and the first subelement R, the second subelement G and the 3rd subelement B then constitute the unit picture element (pixel) of display image, so first subelement R in each display unit group 38, the second subelement G and the 3rd subelement B three number are identical, can constitute the unit picture element of an integer display image, and each display unit group 38 all comprises four first subelement R in present embodiment, four second subelement G, and four the 3rd subelement B, but 38 of display unit groups of the present invention are not limited only to the subelement combination of this number, also can be a plurality of subelement combinations of other numbers.
And in the composition structure aspect of display unit group 38, each first subelement R comprises one first end P1 and one second end P2, the first end P1 of a plurality of first subelement R of display unit group 38 is connected in same first signal line to receive same first image signal, and the second end P2 of a plurality of first subelement R of display unit group 38 is connected in same sweep trace to receive same addressing switch signal; Each second subelement G comprises the first end P1 and the second end P2, the first end P1 of a plurality of second subelement G of display unit group 38 is connected in same second signal line to receive same second image signal, and the second end P2 of a plurality of second subelement G of display unit group 38 is connected in same sweep trace to receive same addressing switch signal; And each the 3rd subelement B comprises the first end P1 and the second end P2, the first end P1 of a plurality of the 3rd subelement G of display unit group 38 is connected in same the 3rd signal line to receive same the 3rd image signal, and the second end P2 of a plurality of the 3rd subelement B of display unit group 38 is connected in same sweep trace to receive same addressing switch signal.As shown in Figure 4, the first subelement R of display unit group 28A
A1, R
A2, R
A3, R
A4The first end P1 all be connected in the same first signal line D
1R, and four the second end P2 then all is connected in same sweep trace S
1And the second subelement G of display unit group 38A
A1, G
A2, G
A3, G
A4The first end P1 all be connected in the same first signal line D
1G, and four the second end P2 then all is connected in same sweep trace S
1And the 3rd subelement B of display unit group 38A
B1, B
B2, B
B3, B
B4The first end P1 all be connected in the same first signal line D
1B, and four the second end P2 then all is connected in same sweep trace S
1All the other display unit group 38B, 38C, 38D etc. no longer describe in detail in this then by that analogy.
And in the annexation aspect of 38 of each display unit groups, the first end P1 of the first subelement R of horizontal different display unit group 38 is connected in the first different signal line, to receive the first different image signals, and the second end P2 is connected in identical sweep trace, to receive same addressing switch signal, the first end P1 of the second subelement G of in like manner horizontal different display unit group 38 is connected in the second different signal line, to receive the second different image signals, and the second end P2 is connected in identical sweep trace, to receive same addressing switch signal, and the first end P1 of the 3rd subelement B of horizontal different display unit group 38 is connected in the 3rd different signal line, to receive the 3rd different image signals, and the second end P2 is connected in identical sweep trace, to receive same addressing switch signal.Bright for instance shown in Figure 4, the first subelement R of display unit group 38A
A1, R
A2, R
A3, R
A4The first subelement R with 38B
B1, R
B2, R
B3, R
B4The first end P1 be connected to the first different signal line D
1RAnd D
2R, receiving the first different image signals, and its second end P2 all is connected in identical sweep trace S
1, to receive same addressing switch signal.
And in the annexation aspect of 38 of each vertically different display unit groups, the first end P1 of the first subelement R of different longitudinally display unit group 38 is connected in the first identical signal line, to receive the first identical image signal, and the second end P2 is connected in different sweep trace, to receive different addressing switch signals, in like manner the first end P1 of the second subelement G of different longitudinally display unit group 38 is connected in the second identical signal line, to receive the second identical image signal, and the second end P2 is connected in different sweep trace, to receive different addressing switch signals, and the first end P1 of the 3rd subelement B of horizontal different display unit group 38 is connected in the 3rd identical signal line, to receive the 3rd identical image signal, and the second end P2 is connected in different sweep trace, to receive different addressing switch signals.For instance as shown in Figure 4, the first subelement R of display unit group 38A
A1, R
A2, R
A3, R
A4The first subelement R with 38C
C1, R
C2, R
C3, R
C4The first end P1 be connected to the first identical signal line D
1R, receiving the first identical image signal, and its second end P2 is connected to different sweep trace S
1And S
2, to receive different addressing switch signals.
See also Fig. 5, Fig. 5 comprises the following step for the process flow diagram of the bad point of correcting liquid crystal display device 22 of the present invention, the method for the bad point of correcting liquid crystal display device 22:
Step 100: the output of each display unit group 38 on the display module 24 of use sweep circuit 26 detection liquid crystal indicators 22;
Step 102: the address of the detected display unit group 38 with bad point in execution in step 100 back and the testing result of this display unit group 38 are stored in the storer 28;
Step 104: driver module 30 provides the view data of a plurality of display unit groups 38; And
Step 106: be connected in the address of the display unit group 38 that the control module 32 of storer 28 and driver module 30 can transmit according to storer 28 and the testing result of this display unit group 38 with bad point, the view data of adjusting a plurality of display unit groups 38 that transmit by driver module 30 with the output image signal to display module 24.
In step 100, sweep circuit 26 can detect the voltage output of each display unit group 38, and the display unit group 38 detected voltages with bad point then are different from other normal unspoiled display unit groups 38.See also Fig. 6, Fig. 6 is the equivalent circuit diagram that sweep circuit 26 detects the voltage output of display unit group 38A.12 a plurality of display unit R of this of display unit group 38A
A1~R
A4, G
A1~G
A4, and B
B1~B
B4Difference output voltage values V
Ra1~V
Ba4, at first earlier with switch S
1~S
12Connect and switch T
1~T
11Close, and make output voltage V
Ra1~V
Ba4Respectively to capacitor C
Ra1~C
Ba4Charge, treat capacitor C
Ra1~C
Ba4The charging finish after then with switch S
1~S
12Close and stop capacitor C
Ra1~C
Ra4The operation of charging, this moment is again with switch T
1~T
11Connect and treat capacitor C
Ra1~C
Ba4After the mean allocation electric weight finishes, and draw an average voltage V
A, in like manner can be to other display unit groups 38B, 38C ... Deng its average voltage of detection V
B, V
CDeng.The magnitude of voltage gap of being imported when the detected average voltage level of certain display unit group wherein 38 and test is during greater than a certain degree, and then this display unit group 38 promptly has the subelement of bad point.For instance when the magnitude of voltage of test input is 6V, and a certain display unit group 38 detected average voltages are when only being 5.5V, then this display unit group 38 has the subelement of a bad point, because wherein a subelement can't output voltage, and cause average voltage level to reduce by 1/12nd, when in like manner only being 5V as if detected average voltage, then this display unit group 38 has the subelement of 2 bad points.Detected the output of each display unit group 38 in sweep circuit 26 after, just will have the address of the display unit group 38 of going bad point and the testing result of this display unit group 38 and be stored in the storer 28.And the design of sweep circuit 26 of the present invention also can be the design of other form circuit, only provides a wherein embodiment in this.
And the address of the display unit group 38 that the control module 32 of liquid crystal indicator 22 can transmit according to storer 28 and the testing result of this display unit group 38 with bad point, the view data of adjusting a plurality of display unit groups 38 that transmit by driver module 30 with the output image signal to display module 24.And its adjustment mode to increase unspoiled subelement brightness in this display unit group 38 with bad point, is damaged shortcoming that subelement can't provide brightness and remedy for increasing aforementioned detected electric current with display unit group 38 places input of bad point.For instance, in the aforementioned example of mentioning, when the average voltage level when testing of the display unit group 38 with bad point has reduced by 1/12nd, just wherein a subelement can't output voltage in expression, that is can't light, therefore the image signal intensity of control module 32 data that just can transmit according to storer 28 this address display unit group 38 that driver module 30 is transmitted is strengthened 1/12nd times, that is at the electric current of 1/12nd times of display unit group more than 38 output of this address to display module 24, can reach the effect of the bad some place's brightness of compensation.
And liquid crystal indicator 22 also can be designed to before manufacturing is dispatched from the factory to use on 26 pairs of display modules 24 of sweep circuit each display unit group 38 to test, and display unit group 38 data that will test gained, particularly will detect the address of the display unit group 38 with bad point and the testing result of this display unit group 38 is stored in the storer 28, and when product export, just sweep circuit 26 can be removed in liquid crystal indicator 22, and directly provide control module 32 to adjust the data of relevant display unit group 38 by storer 28, general user's end just need not carry out the work of sweep test, and can directly use the liquid crystal indicator of proofreading and correct through control module 32 22.
Compared to known liquid crystal indicator, liquid crystal indicator 22 of the present invention is owing to provide a kind of display module 24 of improveing display cell structure, arrange in pairs or groups again sweep circuit 26, storer 28, driver module 30, and control module 32, and draw the address of display unit group 38 and the testing result of this display unit group 38 with bad point, and with this data storage in storer 28, with provide view data that control module 32 adjusts a plurality of display unit groups 38 that transmitted by driver module 30 with the output image signal to display module 24.Just can use scanning technique to seek the display unit group of damaging 38 thus, and give the brightness of this display unit group 38 of reinforcement again, and reach the shortcoming that remedies the place's brightness decay of screen dim spot, and make human eye be difficult for finding out the dim spot at this place, to avoid the influencing quality of watching LCD screen because of obviously existing of dim spot.
The above only is preferred embodiment of the present invention, and all equalizations of doing according to claim of the present invention change and modify, and all should belong to the covering scope of patent of the present invention.
Claims (16)
1. liquid crystal indicator, it includes:
One display module, it includes:
Many first signal line are used to provide first image signal;
The multi-strip scanning line is used to provide addressing switch signal; And
A plurality of display unit groups, each display unit group comprises a plurality of first subelements, each first subelement comprises one first end and one second end, first end of a plurality of first subelements of this display unit group is connected in same first signal line to receive same first image signal, and second end of a plurality of first subelements of this display unit group is connected in same sweep trace to receive same addressing switch signal;
One storer is used for storing the address of the display unit group with bad point and the testing result of this display unit group;
One driver module is used to provide the view data of these a plurality of display unit groups; And
One control module, be connected in this storer and this driver module, be used for view data that the testing result of the address of the display unit group with bad point that transmits according to this storer and this display unit group adjusts these a plurality of display unit groups that this driver module transmits with the output image signal to this display module.
2. liquid crystal indicator as claimed in claim 1, it also comprises the one scan circuit, is used for detecting the output of each display unit group.
3. liquid crystal indicator as claimed in claim 1, wherein a plurality of display unit groups of this of this display module are with arranged in array mode.
4. liquid crystal indicator as claimed in claim 3, its first end in first subelement of horizontal different display unit group is connected in the first different signal line, and second end is connected in identical sweep trace.
5. liquid crystal indicator as claimed in claim 3, its first end in first subelement of different longitudinally display unit group is connected in the first identical signal line, and second end is connected in different sweep trace.
6. liquid crystal indicator as claimed in claim 1, wherein each first subelement of this display unit group is a red sub-pixel.
7. liquid crystal indicator as claimed in claim 1, wherein each first subelement of this display unit group is a green sub-pixels.
8. liquid crystal indicator as claimed in claim 1, wherein each first subelement of this display unit group is a blue subpixels.
9. liquid crystal indicator as claimed in claim 1, wherein this display module also comprises:
Many second signal line are used to provide second image signal; And
Many articles the 3rd signal line are used to provide the 3rd image signal;
Wherein each the display unit group in these a plurality of display unit groups also comprises:
A plurality of second subelements, each second subelement comprises one first end and one second end, first end of a plurality of second subelements of this display unit group is connected in same second signal line to receive same second image signal, and second end of a plurality of second subelements of this display unit group is connected in same sweep trace to receive same addressing switch signal; And
A plurality of the 3rd subelements, each the 3rd subelement comprises one first end and one second end, first end of a plurality of the 3rd subelements of this display unit group is connected in same the 3rd signal line to receive same the 3rd image signal, and second end of a plurality of the 3rd subelements of this display unit group is connected in same sweep trace to receive same addressing switch signal.
10. liquid crystal indicator as claimed in claim 9, wherein second end of a plurality of first, second and third subelements of the same display unit group of this display module is connected in same sweep trace to receive same addressing switch signal.
11. the method for the bad point of a correcting liquid crystal display device, it comprises:
Detect the output of each display unit group on the display module of this liquid crystal indicator;
Store the address of display unit group and the testing result of this display unit group with bad point;
The view data of these a plurality of display unit groups is provided; And
The view data of adjusting these a plurality of display unit groups according to the testing result of the address of display unit group and this display unit group with bad point with the output image signal to this display module.
12. method as claimed in claim 11, wherein each display unit group comprises a plurality of first subelements, each first subelement comprises one first end and one second end, first end of a plurality of first subelements of this display unit group is connected in same first signal line to receive same first image signal, and second end of a plurality of first subelements of this display unit group is connected in same sweep trace to receive same addressing switch signal.
13. method as claimed in claim 12, wherein each the display unit group in these a plurality of display unit groups also comprises:
A plurality of second subelements, each second subelement comprises one first end and one second end, first end of a plurality of second subelements of this display unit group is connected in same second signal line to receive same second image signal, and second end of a plurality of second subelements of this display unit group is connected in same sweep trace to receive same addressing switch signal; And
A plurality of the 3rd subelements, each the 3rd subelement comprises one first end and one second end, first end of a plurality of the 3rd subelements of this display unit group is connected in same the 3rd signal line to receive same the 3rd image signal, and second end of a plurality of the 3rd subelements of this display unit group is connected in same sweep trace to receive same addressing switch signal;
Wherein second end of a plurality of first, second and third subelements of the same display unit group of this display module is connected in same sweep trace to receive same addressing switch signal.
14. method as claimed in claim 11, wherein a plurality of display unit groups of this of this display module are with arranged in array mode.
15. method as claimed in claim 14, its first end in first subelement of horizontal different display unit group is connected in the first different signal line, and second end is connected in identical sweep trace.
16. method as claimed in claim 14, its first end in first subelement of different longitudinally display unit group is connected in the first identical signal line, and second end is connected in different sweep trace.
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|---|---|---|---|
| CNB031530737A CN100345178C (en) | 2003-08-12 | 2003-08-12 | Apparatus and method for correcting bad point for liquid crystal display device |
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|---|---|---|---|
| CNB031530737A CN100345178C (en) | 2003-08-12 | 2003-08-12 | Apparatus and method for correcting bad point for liquid crystal display device |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101983398A (en) * | 2009-04-07 | 2011-03-02 | 松下电器产业株式会社 | Image display device and correcting method therefor |
| TWI424401B (en) * | 2009-11-02 | 2014-01-21 | Chunghwa Picture Tubes Ltd | Display and gate driver circuit thereof |
| CN103531140A (en) * | 2013-10-18 | 2014-01-22 | Tcl通讯(宁波)有限公司 | Mobile terminal and method and system for repairing LCD (liquid crystal display) defective pixels |
| CN107948392A (en) * | 2016-10-12 | 2018-04-20 | 中兴通讯股份有限公司 | Terminal and display fault handling method |
Family Cites Families (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4500880A (en) * | 1981-07-06 | 1985-02-19 | Motorola, Inc. | Real time, computer-driven retail pricing display system |
| US4965563A (en) * | 1987-09-30 | 1990-10-23 | Hitachi, Ltd. | Flat display driving circuit for a display containing margins |
| JPH08314414A (en) * | 1995-05-12 | 1996-11-29 | Sony Corp | Plasma address display device |
-
2003
- 2003-08-12 CN CNB031530737A patent/CN100345178C/en not_active Expired - Fee Related
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101983398A (en) * | 2009-04-07 | 2011-03-02 | 松下电器产业株式会社 | Image display device and correcting method therefor |
| CN101983398B (en) * | 2009-04-07 | 2013-11-20 | 松下电器产业株式会社 | Image display device and correcting method therefor |
| US8860705B2 (en) | 2009-04-07 | 2014-10-14 | Panasonic Corporation | Image display device and modification method performed by the same |
| TWI424401B (en) * | 2009-11-02 | 2014-01-21 | Chunghwa Picture Tubes Ltd | Display and gate driver circuit thereof |
| CN103531140A (en) * | 2013-10-18 | 2014-01-22 | Tcl通讯(宁波)有限公司 | Mobile terminal and method and system for repairing LCD (liquid crystal display) defective pixels |
| CN103531140B (en) * | 2013-10-18 | 2016-02-10 | Tcl通讯(宁波)有限公司 | The method and system that a kind of mobile terminal and the display of LCD bad point are repaired |
| CN107948392A (en) * | 2016-10-12 | 2018-04-20 | 中兴通讯股份有限公司 | Terminal and display fault handling method |
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| Publication number | Publication date |
|---|---|
| CN100345178C (en) | 2007-10-24 |
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