KR20160031579A - Display Device - Google Patents

Abstract

The present invention relates to a display device for improving tact time. The display device includes a display panel, a driving part, a timing control part, an external memory part, and a light protection control part. The display panel displays an image. The driving part drives the display panel. The timing control part controls the driving part. The external memory part stores data. The light protection control part is attached/detached to/from a substrate to limit the writing function of the external memory part.

Description

[0001]

The present invention relates to a display device.

2. Description of the Related Art [0002] With the development of information technology, as a market of a display device that is a connection medium between a user and information has grown, organic light emitting displays (OLED), liquid crystal displays (LCDs) (Plasma Display Panel: PDP) have been increasingly used.

The display device as described above is utilized in various industrial fields such as a computer such as a notebook computer or a mobile phone in the field of consumer electronics such as a television (TV) and a video.

The display device comprises a display panel for displaying an image and a driving device for supplying various driving signals to the display panel. The driving unit includes a scan driver for supplying a scan signal (or a gate signal) to the display panel, and a data driver for supplying a data signal to the display panel.

The driving unit is controlled by the timing control unit. The timing control unit performs various image processing based on data stored in the external memory unit in cooperation with an external memory unit (EEPROM). The external memory section includes a write protection terminal that controls the read and write functions. The light protection design using the light protection terminal is for protecting (unauthorized alteration) the data stored in the external memory after the display device is shipped to the product state.

Conventionally, when the data driver is mounted on or bonded to a substrate, the terminals of the data driver and the write protection terminals of the external memory are designed to be electrically connected to each other through the resistor.

However, in the conventional method, since the terminal of the data driver must be used, the wiring layout between the terminal of the data driver and the write protection terminal of the external memory must be considered. Also, in the conventional method, when the data stored in the external memory unit is to be changed in the product state, there are many troubles in the procedure such as removing the resistor. Therefore, the conventionally proposed method needs to improve the write protection design method.

In order to solve the above problems, the present invention provides a display device capable of simplifying the process of rewriting data in the external memory unit, reducing the complexity of the wiring layout, and improving the tact time in the manufacturing process .

The present invention provides a display panel, a driving unit, a timing control unit, an external memory unit, and a write protection control unit. The display panel displays the image. The driving unit drives the display panel. The timing control unit controls the driving unit. The external memory part serves to store data. The write protection control unit is detachably attached to the substrate to limit the write function of the external memory unit.

The external memory portion may include a first pad formed on the substrate and connected to its write protection terminal, and a second pad formed on the substrate and spaced apart from the first pad and connected to the power supply line or the signal line.

The write protection control unit may be attached to electrically connect the first pad and the second pad.

The write protection control part may include a first layer made of a conductive adhesive agent and a second layer made of a resin having insulation property and located on the first layer.

The present invention has the effect of simplifying the process of rewriting data in the external memory unit by changing the write-protect structure of the external memory unit. In addition, since the terminal of the data driver is not used, the complexity of the wiring layout can be reduced, and the process of installing or removing the resistor can be omitted. Thus, the tact time in the manufacturing process can be improved.

1 is a schematic block diagram of a display device;
FIG. 2 is a diagram illustrating a configuration example of a subpixel shown in FIG. 1; FIG.
Figure 3 is an example of modularization of the display device of Figure 1 according to an embodiment of the present invention;
4 is a circuit diagram showing a conventional write protection scheme.
5 is a circuit diagram illustrating a write protection method according to an embodiment of the present invention.
6 and 7 are views showing a state before and after attachment of the write protection control unit.
8 is a view for explaining an advantage of the present invention over a conventional structure;
9 is a diagram showing a write protection control unit.
10 is a view showing various cross-sectional shapes of the write protection control unit;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of a display device, FIG. 2 is a diagram illustrating a configuration of a subpixel shown in FIG. 1, and FIG. 3 is an example of modulating a display device of FIG. 1 according to an embodiment of the present invention .

1, a display device includes a display panel 100, an image processing unit 110, a timing control unit 120, an external memory unit 150, a scan driving unit 130, and a data driving unit 140 .

The display panel 100 includes sub-pixels SP connected to the scan lines GL and the data lines DL intersecting with each other. The display panel 100 includes a display region 100A in which the subpixels SP are formed and a non-display region 100B in which various signal lines, pads, and the like are formed outside the display region 100A. The display panel 100 may be implemented by a liquid crystal display (LCD), an organic light emitting display (OLED), an electrophoretic display (EPD), or the like. The display panel 100 displays an image corresponding to a driving signal supplied from a driving unit including the scan driver 130 and the data driver 140.

As shown in FIG. 2, one subpixel SP is supplied with a scan signal supplied through a switching transistor SW and a switching transistor SW connected to a scan line GL1 and a data line DL1, And a pixel circuit PC that operates in response to the data signal DATA. The subpixel SP is implemented by a liquid crystal display panel including a liquid crystal element or an organic light emitting display panel including an organic light emitting element according to the configuration of the pixel circuit PC.

When the display panel 100 is composed of a liquid crystal display panel, it may be a twisted nematic (TN) mode, a VA (Vertical Alignment) mode, an IPS (In Plane Switching) mode, a FFS (Fringe Field Switching) mode, or an ECB (Electrically Controlled Birefringence) Mode. When the display panel 100 is formed of an organic light emitting display panel, it may be implemented as a top emission, a bottom emission, or a dual emission.

The image processor 110 processes the data signal supplied from the outside and supplies the processed data signal to the timing controller 120. The image processing unit 110 supplies timing signals such as a vertical synchronizing signal, a horizontal synchronizing signal, a data enable signal, and a main clock as well as a data signal to the timing controller 120.

The timing control unit 120 receives timing signals such as a vertical synchronization signal, a horizontal synchronization signal, a data enable signal, and a main clock from the image processing unit. The timing controller 120 generates timing control signals for controlling the operation timings of the data driver 140 and the scan driver 130 based on the timing signals. The timing control unit 120 may determine the frame period by counting the data enable signal of one horizontal period so that the vertical synchronizing signal and the horizontal synchronizing signal supplied from the outside may be omitted.

The timing control signals generated by the timing controller 120 include a gate timing control signal GDC for controlling the operation timing of the scan driver 130 and a data timing control signal for controlling the operation timing of the data driver 140 DDC). The gate timing control signal GDC includes a gate start pulse, a gate shift clock, a gate output enable signal, and the like. The data timing control signal DDC includes a source start pulse, a source sampling clock, a source output enable signal, and the like.

The scan driver 130 sequentially generates a scan signal while shifting the level of the signal based on the gate timing control signal GDC with the swing width of the gate drive voltage at which the transistors included in the display panel 100 are operable. The scan driver 130 supplies the generated scan signal through the scan lines GL connected to the sub-pixels SP.

The scan driver 130 may be formed on a non-display area 100B of the display panel 100 or on an external substrate connected to the display panel 100 in a gate-in-panel manner, Circuit (IC). The scan driver 130 may include a plurality of scan drivers 130 according to the size of the display panel 100.

The data driver 140 samples and latches the data signal DATA supplied from the timing controller 120 based on the data timing control signal DDC and outputs the latched digital data signal corresponding to the gamma voltage as an analog data signal Conversion. The data driver 140 supplies the converted data signal through the data lines DL connected to the sub-pixels SP.

The data driver 140 is mounted on an external substrate mounted on one side of the display panel 100 in the form of an integrated circuit (IC) or connected to the display panel 100. The data driver 140 may include a plurality of data drivers 140 according to the size of the display panel 100.

The external memory unit 150 provides data stored therein to the timing controller 120 in cooperation with the timing controller 120. [ The timing controller 120 receives various data from the external memory unit 150 and can perform various image processing and data compensation based on the received data. The external memory unit 150 includes a write protection terminal for controlling read and write functions. The write protection terminal is used to protect (unauthorized tampering) the data stored in the external memory unit 150 after the display device is shipped in the product state.

3, the display device includes a system board 115, a timing circuit board 125, a cable 111, drive circuit boards 135a, 135b, 145a, and 1450b, And a display panel 100 and is manufactured in a module form.

An image processor 110 is formed on the system board 115. The image processing unit 110 is mounted on the system board 115 in the form of an integrated circuit (IC). The system board 115 may be selected from a printed circuit board (PCB) or a flexible printed circuit board (FPCB), but is not limited thereto.

The cable 111 electrically connects the system board 115 and the timing circuit board 125. The cable 111 may be selected as a flexible flat cable (FFC), but is not limited thereto.

A timing control unit 120, an external memory unit 150, and a write protection control unit 155 are formed on the timing circuit board 125. The timing control unit 120 and the external memory unit 150 are mounted on the timing circuit board 125 in the form of an integrated circuit (IC). The timing circuit board 125 may be selected as a printed circuit board (PCB) or a flexible circuit board (FPCB), but is not limited thereto.

The write protection control unit 155 is attached to the pad drawn out from the write protection terminal of the external memory unit 150. The write protection control unit 155 is a detachment mechanism for controlling the read and write functions of the external memory unit 150. When the timing circuit board 125 is attached to the write protection control unit 155, the write function of the external memory unit 150 is limited.

The scan driver 130a and the scan driver 130b and the data driver 140a and 140b are formed on the driving circuit boards 135a, 135b, 145a, and 1450b. The scan drivers 130a and 130b and the data drivers 140a and 140b are mounted on the driver circuit boards 135a, 135b, 145a, and 1450b in the form of an integrated circuit (IC). The driving circuit boards 135a, 135b, 145a, and 1450b may be selected as a printed circuit board (PCB) or a flexible circuit board (FPCB), but are not limited thereto.

The driver circuit boards 135a, 135b, 145a and 1450b are connected to the first driver circuit boards 135a and 135b on which the scan drivers 130a and 130b are mounted and the second driver circuit board 135b on which the data drivers 140a and 140b are mounted. 145a and 145b.

The first driving circuit boards 135a and 135b are connected to the left side of the display panel 100 and the second driving circuit boards 145a and 145b are connected to the upper side of the display panel 100. [ However, this is only an example, and may be varied corresponding to the resolution and size of the display panel 100. [ Also, when the scan driver 130a or 130b is formed in a bezel region of the display panel 100 in the form of a gate panel, the first driver circuit boards 135a and 135b are omitted.

Hereinafter, a description related to the write protection controller 155 will be described.

FIG. 4 is a circuit diagram illustrating a conventional write protection scheme, FIG. 5 is a circuit diagram illustrating a write protection scheme according to an embodiment of the present invention, and FIGS. 6 and 7 are views before and after attachment of a write protection control unit And FIG. 8 is a view for explaining the advantages of the present invention over the conventional structure.

[Conventionally proposed write protection method]

As shown in FIG. 4, in the related art, the write protection terminal WP of the external memory unit 150 is electrically connected to the signal line EEP_WP connected to the terminal of the data driving unit, , R2) were installed. SCL is a clock transmission line of the external memory unit 150 and SDA is a data transmission line of the external memory unit 150. [

In the conventional write protection scheme, a signal line (EEP_WP) connected to a terminal of a data driver and a write protection terminal (WP) of an external memory unit (150) are connected to resistors (R1, R2.

The power supply or signal corresponding to the high potential power is transmitted to the signal line EEP_WP connected to the terminal of the data driver, so that the external memory unit 150 can only read and write. That is, in the conventional write protection system, the external memory unit 150 enters the write protection state when the data driver is mounted on or bonded to the substrate.

However, since the conventional method has to use the terminal of the data driver, the wiring layout between the signal line (EEP_WP) connected to the terminal of the data driver and the write protection terminal (WP) of the external memory unit 150 has to be considered. In addition, when the data stored in the external memory unit 150 is to be changed in the product state, the conventional method has been troublesome in terms of procedures such as removing the resistor R2.

[Light protection system according to the embodiment]

5, a first pad 151 connected to the write protection terminal WP of the external memory unit 150 is formed on the substrate, and a first pad 151 connected to the high potential power line VCC is formed on the substrate. Two pads 152 are formed. Here, the substrate surface may be a substrate constituting the timing circuit board, but is not limited thereto.

A write protection control unit 155 is attached to the first pad 151 and the second pad 152 so that the first pad 151 and the second pad 152 are electrically connected. SCL is a clock transmission line of the external memory unit 150 and SDA is a data transmission line of the external memory unit 150. [

The write protection control unit 155 is attached to the first pad 151 and the second pad 152 so that the write protection terminal WP of the external memory unit 150 is transferred through the high potential power line VCC A high-potential power supply is supplied. As the high-potential power is supplied to the write protection terminal WP, the external memory unit 150 becomes read-only and write-protected.

If the first and second pads 151 and 152 are formed on the substrate as in the embodiment, the light protection control unit 155 can be detached and attached to easily realize the electrical connection therebetween.

In the present invention, the second pad 152 is connected to the high-potential power line VCC. However, this is only an example, and the second pad 152 may be connected to a power supply line or signal line having a level similar to that of the high-potential power supply.

6 and 7, the first pad 151 connected to the write protection terminal WP of the external memory unit 150 and the second pad 152 connected to the high potential power line VCC are connected to the write protection terminal WP, Is formed on the circuit board 125. The first pad 151 and the second pad 152 are spaced apart from each other by a predetermined distance.

Although the first pad 151 and the second pad 152 are spaced apart from each other, they are electrically connected by the write protection controller 155. The write protection controller 155 is detachable on the timing circuit board 125. The write protection controller 155 may be circular as shown in the plan view. However, this is only one example, and the write protection controller 155 may have an elliptical shape, a rectangular shape, or a polygonal shape on a plan view.

As can be seen from the above description, the read and write states of the external memory unit 150 can be easily changed depending on whether the write protection controller 155 is attached or detached on the timing circuit board 125.

A test point TP may be formed on a line connecting the write protection terminal WP of the external memory unit 150 and the first pad 151. [ The test point TP is used for testing whether or not the write protection state of the external memory unit 150 has normally entered, and may be omitted.

Hereinafter, the advantages of the embodiment in comparison with the conventional structure will be described as follows.

4 and 8A, the signal line EEP_WP connected to the (N + 1) th terminal IOn + 1 of the data driver 140a and the write protection signal The terminal (WP) is designed to be electrically connected.

To this end, in order to output a power or signal corresponding to the high potential power through the signal line EEP_WP connected to the (N + 1) th terminal IOn + 1 of the data driver 140a, (IOn) is connected to the high potential power line (VCC).

Accordingly, the conventional write protection scheme should take into account the wiring layout between the (N + 1) th terminal (IOn + 1) of the data driver 140a and the write protection terminal WP of the external memory unit 150. Also, a wiring layout for connecting the Nth terminal (IOn) of the data driver to the high potential power supply line (VCC) must be considered.

In addition, in the conventional write protection system, when the data stored in the external memory unit 150 is to be changed in the product state, there is a lot of trouble in the procedure such as removing the resistor R2.

However, as shown in FIGS. 5 and 8 (b), the embodiment can easily change the reading and writing states of the external memory unit 150 depending on whether the write protection controller 155 is detachable or not.

In this embodiment, the N + 1 terminal IOn + 1 of the data driver 140a, the write protection terminal WP and the Nth terminal IOn of the external memory unit 150 and the high potential power line VCC The wiring layout for connecting the input / In other words, the Nth terminal IOn and the (N + 1) th terminal IOn + 1 of the data driver 140a can be used for different purposes (for example, a voltage path necessary for driving a screen) . In addition, since the embodiment does not require the resistor R2, it is possible to omit the process of removing the resistor R2, thereby simplifying the process of rewriting the data in the external memory unit 150. [

For example, the conventional structure had to undergo a process of disassembling the cover shield, removing the resistor nondestructive shield for protection, changing the data in the external memory, inserting the resistor for protection, and tightening the cover shield.

However, the structure of the embodiment requires only the process of disassembling the cover shield, changing the data in the external memory unit, and fastening the cover shield. Therefore, it is anticipated that the embodiment can also improve the tact time in the manufacturing process.

Hereinafter, the write protection controller 155 will be described in detail as follows.

FIG. 9 is a diagram showing a write protection control unit, and FIG. 10 is a view showing various cross-sectional shapes of the write protection control unit.

As shown in Fig. 9, the write protection control unit 155 includes a first layer 1F and a second layer 2F. The first layer 1F may be made of a conductive adhesive agent, for example, a conductive tape as a conductive adhesive agent. The second layer 2F may be made of a resin such as polyethylene terephthalate (PET), polypropylene (PP), polyethylene (PE), or the like. The second layer 2F is preferably made of a resin having insulating properties, and more preferably a material having excellent moldability.

When the write protection control unit 155 is configured as described above, the following advantages are obtained. Since the first layer 1F is made of a conductive adhesive agent, it is easy to detach and attach, and also has electrical conductivity, so that it is possible to help electrical connection between electrodes and wires. Further, since the second layer 2F has insulating property, it is possible to prevent electrical defects or interference with other conductors even if the foreign matter falls down. In addition, since the second layer 2F is made of resin, it can be easily processed into various shapes.

10 (a), the write protection controller 155 may have a rectangular shape on a sectional view.

As shown in Fig. 10 (b), the write protection controller 155 may have a letter-shaped or lunar T-letter shape on a sectional view. At this time, the first portion 155a may be the base portion and the second portion 155b may be the handle.

As shown in Fig. 10 (c), the write protection controller 155 may have a concave shape in both outlines on a sectional view. At this time, the first portion 155a may be the base portion and the second portion 155b may be the handle.

As shown in FIG. 10 (d), the write protection controller 155 may have a rhombic shape on a sectional view. At this time, the first portion 155a may be the base portion and the second portion 155b may be the handle.

Meanwhile, in the present invention, an example of using a write protection control unit to write-protect the external memory unit connected to the timing control unit has been described. However, the present invention is not limited thereto. The present invention is not limited thereto.

The present invention has the effect of simplifying the process of rewriting data in the external memory unit by changing the write-protect structure of the external memory unit. In addition, since the terminal of the data driver is not used, the complexity of the wiring layout can be reduced, and the process of installing or removing the resistor can be omitted. Thus, the tact time in the manufacturing process can be improved.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that the invention may be practiced. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. In addition, the scope of the present invention is indicated by the following claims rather than the detailed description. Also, all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100: display panel 110:
120: timing control unit 150: external memory unit
130: scan driver 140:
155: Light protection control unit WP: Light protection terminal
EEP_WP: Signal line R1, R2: Resistor
151: first pad 152: second pad

Claims (4)

Display panel;
A driving unit for driving the display panel;
A timing controller for controlling the driving unit;
An external memory unit for storing data; And
And a light protection control unit detachably attached to the substrate to limit the writing function of the external memory unit. The method according to claim 1,
The external memory unit
A first pad formed on the substrate and connected to a write protection terminal of the pad,
And a second pad formed on the substrate and spaced apart from the first pad and connected to a power line or a signal line. 3. The method of claim 2,
The write protection controller
Wherein the first pad and the second pad are attached to each other to electrically connect the first pad and the second pad. The method according to claim 1,
The write protection controller
A first layer made of a conductive adhesive agent; and a second layer formed on the first layer and made of an insulating resin.

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