KR101191761B1 - Apparatus for generation common voltage and liquid crystal display device having it - Google Patents

Abstract

The present invention relates to a liquid crystal display device, and more particularly, to a common voltage generator of a liquid crystal display device and a liquid crystal display device having the same.

The common voltage generator according to the present invention for this purpose and the common voltage generator for generating a common voltage; A gamma voltage generation unit for supplying a gamma voltage; One end is connected to the output terminal of the common voltage generator and the other end is composed of at least one or more capacitors respectively connected to the output terminals of the gamma voltage generator.

The liquid crystal display according to the present invention comprises: a liquid crystal panel having a pixel electrode to which a data voltage is applied and a common electrode to which a common voltage is applied; A common voltage generator for generating the common voltage; A gamma voltage generator for supplying a gamma voltage for correcting the data voltage according to the specification of the liquid crystal panel; One end is connected to the output terminal of the common voltage generator, and the other end includes at least one or more capacitors respectively connected to the output terminals of the gamma voltage generator.

Description

Common voltage generator and liquid crystal display device having same {APPARATUS FOR GENERATION COMMON VOLTAGE AND LIQUID CRYSTAL DISPLAY DEVICE HAVING IT}

1 is an equivalent circuit diagram illustrating a common voltage generator according to the prior art.

2 is an equivalent circuit diagram illustrating a common voltage generator according to the present invention.

3 is a schematic view showing a liquid crystal display according to the present invention.

DESCRIPTION OF REFERENCE NUMERALS

21: common voltage generator 23: abnormal current reducing unit

25: capacitor 27: gamma voltage generator

Rvar: Variable Resistor Rp: Panel Resistor

The present invention relates to a display device, and more particularly, to a common voltage generator of a display device and a liquid crystal display device having the same.

Liquid crystal display devices (LCDs) are useful in spatially sensitive and low power consumption products such as portable computers, small televisions, spacecraft and portable sensors.

In general, the LCD displays an image by adjusting the light transmittance of the liquid crystal using an electric field. To this end, the LCD includes a liquid crystal panel in which pixels are arranged in a matrix and a driver for driving the liquid crystal panel.

The liquid crystal panel includes a color filter substrate, a thin film transistor array substrate, and a liquid crystal layer formed between the color filter substrate and the thin film transistor array substrate.

A plurality of gate lines and a plurality of data lines intersect to define a plurality of pixel regions on the thin film transistor array substrate, and pixel electrodes for applying a voltage through the data lines are separately formed in each pixel region. A thin film transistor (TFT) for driving respective pixels is formed at an intersection of the gate line and the data line. The voltage applied to the pixel electrode through the data line is referred to as a data voltage.

A common electrode is formed on the color filter substrate to apply a voltage to the pixels in common. The voltage commonly applied to the pixels is referred to as a common voltage Vcom.

The liquid crystal layer is composed of liquid crystal cells, and the liquid crystal cell changes the arrangement of the molecules by an electric field applied to the liquid crystal layer, whereby the liquid crystal layer controls the amount of light transmitted through itself.

Since the driving voltage characteristics of the liquid crystal cell constituting the liquid crystal layer vary, a gamma voltage preset according to the driving voltage characteristic of the liquid crystal cell is supplied.

The driver may include a data voltage generator for supplying the data voltage, a gamma voltage generator for supplying a gamma voltage, a common voltage generator for generating a common voltage, a gate voltage generator for driving a thin film transistor, and the like. consist of.

Hereinafter, the common voltage generator will be described in detail with reference to FIG. 1.

1 is an equivalent circuit diagram illustrating a common voltage generator according to the prior art.

As shown in FIG. 1, the common voltage generator according to the related art includes a first resistor R1, a second resistor R2, and a variable resistor Rvar connected between a voltage source Vdd and a ground voltage source GND. )and; A panel resistor Rp having one end connected to the second resistor R2 and the other end connected to the pixel; And an output terminal for outputting a voltage Vcom divided by the second resistor R2 and the variable resistor Rvar.

The first resistor R1 and the second resistor R2 are preset values.

The variable resistor Rvar is variable in size to determine the size of the common voltage Vcom.

The panel resistance Rp is a resistance present in the liquid crystal panel, and the panel resistance Rp varies in size according to a change in ambient temperature. That is, when the ambient temperature rises, the panel resistance Rp rises, and when the ambient temperature falls, the panel resistance Rp falls.

The output terminal outputs a voltage divided by the second resistor R2 and the variable resistor Rvar, that is, a common voltage Vcom.

Meanwhile, the gamma voltage generator generates a plurality of gamma voltages having various sizes, and maintains a constant voltage difference with the output common voltage Vcom.

However, as described above, the common voltage generator and the liquid crystal display device having the same according to the prior art vary the panel resistance according to the ambient temperature, and as a result, the magnitude of the common voltage that is output changes, thereby causing There was a problem in that the voltage difference between the gamma voltages did not remain constant and fluctuated. Therefore, the common voltage generator and the liquid crystal display device having the same according to the prior art have a cross-talk or the like caused by a change in temperature (rising or falling temperature), thereby degrading the screen quality of the liquid crystal display device. There was a problem.

Accordingly, an object of the present invention is to maintain a constant voltage difference between the common voltage and the gamma voltages despite the variation in the magnitude of the common voltage caused by the temperature variation, thereby improving the screen quality of the liquid crystal display device. A generator and a liquid crystal display device having the same are provided.

According to an aspect of the present invention, there is provided a common voltage generator comprising: a common voltage generator for generating a common voltage; A gamma voltage generation unit for supplying a gamma voltage; One end is connected to the output terminal of the common voltage generator and the other end is composed of at least one or more capacitors respectively connected to the output terminals of the gamma voltage generator.

According to an aspect of the present invention, there is provided a liquid crystal display device comprising: a liquid crystal panel having a pixel electrode to which a data voltage is applied and a common electrode to which a common voltage is applied; A common voltage generator for generating the common voltage; A gamma voltage generator for supplying a gamma voltage for correcting the data voltage according to the specification of the liquid crystal panel; One end is connected to the output terminal of the common voltage generator, and the other end includes at least one or more capacitors respectively connected to the output terminals of the gamma voltage generator.

Hereinafter, a common voltage generator and a device for improving the screen quality of a liquid crystal display by maintaining a constant voltage difference between the common voltage and gamma voltages despite variations in the magnitude of the common voltage caused by temperature variations. A preferred embodiment of the equipped liquid crystal display will be described in detail with reference to FIGS.

The common voltage generator and the liquid crystal display device having the same according to the present invention described below will be described only those parts necessary for understanding the present invention, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention. Be careful.

2 is an equivalent circuit diagram illustrating a common voltage generator according to the present invention.

As shown in FIG. 2, the common voltage generator according to the present invention includes a common voltage generator 21 for generating a common voltage; A gamma voltage generator 27 for supplying a gamma voltage; One end is connected to the output terminal of the common voltage generator 21 and the other end is composed of at least one or more capacitors 25 respectively connected to the output terminals of the gamma voltage generator 27.

The common voltage generator 21 includes: a first resistor R3, a second resistor R4, and a variable resistor Rvar connected between the voltage source Vdd and the ground voltage source GND; A panel resistor Rp having one end connected to the second resistor R4 and the other end connected to a pixel of the liquid crystal panel; And an output terminal for outputting a voltage Vcom divided by the second resistor R4 and the variable resistor Rvar.

The capacitors C1, C2,... C10, 25 are connected between the output terminal of the common voltage generator 21 and the output terminal of the gamma voltage generator 27.

The gamma voltage generator 27 may be implemented in various ways, but in the present specification, a plurality of resistors are connected in series. That is, the gamma voltage generator 27 has a plurality of resistors Rg1 to Rg10 preset in series to output desired gamma voltages Gamma1 to Gamma10, and the plurality of resistors Rg1 to A gamma voltage output terminal is connected to each of Rg10).

In addition, the common voltage generator according to the present invention, when the common voltage generated from the common voltage generator according to the temperature fluctuates, the abnormal current reduction unit 23 to mitigate the fluctuation of the current flowing in the common voltage generator It is preferable to further include). In this case, the abnormal current reduction unit is preferable in consideration of various matters (price, performance, feasibility, etc.) that the resistor Rc is connected in parallel to the output terminal of the common voltage generator 21.

Hereinafter, the operation of the common voltage generator according to the present invention will be described in detail.

First, the first resistor R3, the second resistor R4, and the variable resistor Rvar are constant values in consideration of the panel resistor Rp so that the common voltage generator 21 generates the desired common voltage Vcom. Is predetermined. Therefore, the common voltage generator 21 generates a constant common voltage Vcom.

While the common voltage generator according to the present invention operates at room temperature, when the temperature rises and the panel resistance Rp rises, the voltage applied to the panel resistance Rp increases according to the voltage division law, thereby increasing the common voltage. The voltage Vcom rises.

At this time, the plurality of capacitors 25 to maintain a constant voltage difference between the output terminal of the common voltage generator 21 and the output terminal of the gamma voltage generator 27 connected to one end and the other end thereof, respectively. In order to increase the gamma voltages Gamma1 to Gamma10 output to the gamma voltage generator 27. For example, when the panel resistance Rp is increased by a certain amount and the common voltage Vcom is increased by 1 V, the gamma voltage output from the gamma voltage generator 27 by the capacitors 25 is increased. And Gamma1 to Gamma10 also increase by 1V, respectively.

On the other hand, when the temperature decreases and the panel resistance Rp falls, the voltage applied to the panel resistance Rp drops by the voltage division law, thereby lowering the common voltage Vcom.

At this time, the plurality of capacitors 25 to maintain a constant voltage difference between the output terminal of the common voltage generator 21 and the output terminal of the gamma voltage generator 27 connected to one end and the other end thereof, respectively. In order to reduce the gamma voltages Gamma1 to Gamma10 output to the gamma voltage generator 27. For example, if the panel resistance Rp falls by a certain amount and the common voltage Vcom drops by 1 V, the gamma voltage output from the gamma voltage generator 27 by the plurality of capacitors 25 is obtained. (Gamma1 to Gamma10) also fall by 1V.

That is, even if the magnitude of the panel resistance Rp is changed by the temperature change and the common voltage is changed (raised or lowered), the voltage difference between the common voltage and the gamma voltages Gamma1 to Gamma10 is kept constant.

Here, when the panel resistance Rp fluctuates (particularly rises) as described above, in order to mitigate the fluctuations in the resistance flowing inside the common voltage generator, in particular the current flowing in the second resistor and the variable resistor Rvar. It is preferable to further connect the abnormal current reduction unit 23. This is because, when the panel resistance Rp rises, the resistance flowing inside the common voltage generator, in particular, the current flowing through the second resistor and the variable resistor Rvar increases, which may damage the variable resistor Rvar. Because.

In this case, the abnormal current reduction unit 23 is preferably a resistor Rc connected in parallel to the output terminal of the common voltage generator 21 in consideration of various matters (price, performance, feasibility, etc.). . Here, when the abnormal current reducing unit 23 is a resistor Rc connected in parallel to the output terminal of the common voltage generator 21, when the panel resistance Rp rises, the current flowing through the panel resistor Rp is increased. Is decreased, and the reduced current does not flow only to the second resistor R4 and the variable resistor Rvar, but is distributed to and flows through the resistor Rc.

Hereinafter, a liquid crystal display having a common voltage generator according to the present invention made as described above will be described in detail with reference to FIG. 3.

3 is a schematic view showing a liquid crystal display according to the present invention.

As shown in FIG. 3, a liquid crystal display according to the present invention includes a liquid crystal having a pixel electrode for applying a data voltage to each of m × n pixels arranged in a matrix form and a common electrode for applying a common voltage. A panel 31; A data driving circuit 32 for supplying a data voltage to the m × n pixels through data lines D1 to Dm; A gate driving circuit 33 for supplying a scan signal to the m × n pixels through gate lines G1 to Gn; A common voltage generator 34 for generating the common voltage; A gamma voltage generator 37 for supplying a gamma voltage for correcting the data voltage according to the specification of the liquid crystal panel; At least one capacitor 35 having one end connected to the output terminal of the common voltage generator 34 and the other end connected to the output terminals of the gamma voltage generator 37; And a timing controller 36 for controlling the data driving circuit 32, the gate driving circuit 33, and the common voltage generator 34. Here, in the liquid crystal display according to the present invention, when the common voltage generated from the common voltage generator is changed according to the temperature change, the abnormal current reducing unit 23 mitigates the variation of the current flowing through the common voltage generator. It is preferable to further include. In this case, the abnormal current reduction unit is preferable in consideration of various matters (price, performance, feasibility, etc.) that the resistor Rc is connected in parallel to the output terminal of the common voltage generator 21.

The data driving circuit 32 adjusts the digital video data RGB based on the gamma voltages Gamma1 to Gamma10 output from the gamma voltage generator in response to a control signal output from the timing controller 36. Generates an analog data voltage corresponding to and supplies the same to the data lines D1 to Dm.

The gate driving circuit 33 sequentially supplies a scan pulse to the gate lines G1 to Gn in response to a control signal output from the timing controller 36 to supply a horizontal voltage to the liquid crystal panel 31. Select the pixels on the line.

As described above, the common voltage generator 34 receives the Vdd voltage and generates the common voltage Vcom based on the voltage.

The timing controller 36 generates a control signal for controlling the gate driving circuit 33 and a control signal for controlling the data driving circuit 32 by using a vertical / horizontal synchronization signal and a clock signal.

As described above, the resistor Rc connected in parallel to the output terminal of the capacitor 35 and the common voltage generator 21 has a gamma voltage corresponding thereto when the magnitude of the common voltage Vcom is changed. By varying the magnitude of Gamma1 to Gamma10, the voltage difference between the common voltage Vcom and the gamma voltages Gamma1 to Gamma10 is kept constant.

Specific embodiments or embodiments made in the detailed description of the present invention are intended to clarify the technical contents of the present invention to the extent that they should not be construed as limited to these specific embodiments, and the spirit of the present invention and the claims Various changes can be made within the scope.

As described above in detail, the common voltage generator and the liquid crystal display having the same according to the present invention maintain a constant voltage difference with the gamma voltages despite the variation of the magnitude of the common voltage caused by the temperature variation. As a result, the screen quality of the liquid crystal display device can be improved.

Claims (6)

delete A common voltage generator for generating a common voltage; A gamma voltage generation unit for supplying a gamma voltage; One end is connected to an output terminal of the common voltage generator, and the other end includes at least one or more capacitors respectively connected to output terminals of the gamma voltage generator, And an abnormal current reducing unit configured to mitigate fluctuations in current flowing through the common voltage generating unit when the generated common voltage is changed. 3. The method of claim 2, The abnormal current reducing unit, And a resistor connected in parallel to the output terminal of the common voltage generator. delete A liquid crystal panel having a pixel electrode to which a data voltage is applied and a common electrode to which a common voltage is applied; A common voltage generator for generating the common voltage; A gamma voltage generator for supplying a gamma voltage for correcting the data voltage according to the specification of the liquid crystal panel; One end is connected to the output terminal of the common voltage generator, and the other end includes at least one or more capacitors respectively connected to the output terminals of the gamma voltage generator, And an abnormal current reducing unit for alleviating the variation of the current flowing through the common voltage generating unit when the common voltage is changed. 6. The method of claim 5, The abnormal current reducing unit, And a resistor connected in parallel to an output terminal of the common voltage generator.

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