KR100225849B1 - Contrast control device of lcd - Google Patents

Abstract

The present invention relates to a contrast control device of a liquid crystal display (LCD), comprising: a contrast selection input unit for receiving a level of the contrast by a user; A contrast selection detecting unit for converting an analog contrast level signal input from the contrast selection input unit into a digital contrast adjustment level signal; A voltage selection driver for outputting a plurality of voltage control signals corresponding to the digital contrast level signal; A voltage selector which combines the voltage control signals and outputs a control voltage corresponding thereto; Including a LCD voltage control unit 130 for controlling the contrast control signals (COM, SEG) according to the control voltage from the voltage selector to provide to the liquid crystal display (LCD), the contrast of the liquid crystal display device within a wide range It can be set at, the contrast can be varied within the contrast setting range, and the cost can be reduced.

Description

Contrast Control Apparatus For LCD

The present invention relates to an LCD (Liquid Crystal Display) device, and more particularly to a contrast control device of the LCD that can adjust the contrast of the LCD device.

In recent years, portable and small notebook computers are generally used.

1 is a diagram illustrating such a notebook computer, where reference numeral 10 denotes an LCD panel, 20 denotes a computer body, 30 denotes a keyboard, and 40 denotes a floppy disk drive. The notebook computer configured as described above interfaces with the user by displaying predetermined video data processed from the computer main body 20 on the LCD panel 10. The floppy disk drive 40, as is generally known, may be equipped with a predetermined floppy diskette to write and read a small amount of data. The keyboard 30 performs an interface function for inputting a predetermined command or data.

A so-called back light is provided to display the LCD screen on the rear of the LCD panel 10. The user can control the brightness of the LCD by moving the sliding bar 12 from side to side.

On the other hand, in order to control the contrast of the LCD, the voltage supplied to the LCD is regulated by a predetermined voltage regulator circuit.

However, the method of controlling the contrast of the LCD has the advantage that the contrast can be freely adjusted. However, the cost is high and it is applied when the protection diode is embedded in the LCD driving voltage input pin of the device to be applied. There is a problem that is difficult to make.

Accordingly, the present invention has been proposed to solve the above-mentioned problems, and the contrast of the liquid crystal display device can be set within a wide range, the contrast can be freely changed within the contrast setting range, and the cost can be reduced. It is an object of the present invention to provide an LCD contrast control device.

1 is a view showing a notebook computer having an LCD according to a conventional embodiment.

2 is a block diagram schematically showing an apparatus for controlling contrast of an LCD according to an embodiment of the present invention.

3 is a circuit diagram showing in detail an example of a voltage selector in the contrast control device of the LCD shown in FIG.

4 is a circuit diagram showing an example of a voltage selection driver in the contrast control device of the LCD shown in FIG.

* Explanation of symbols for main parts of the drawings

110: main controller 120: contrast selection detection unit

130: LCD voltage controller 140: voltage selection driver

150: contrast select input 160: LCD

170: voltage selector

According to a feature of the present invention proposed to achieve the above object, a contrast control apparatus of an LCD capable of controlling the contrast of a liquid crystal display (LCD); A contrast selection input unit 150 for receiving the contrast level by a user; a contrast selection detection unit 120 for converting an analog contrast level signal input from the contrast selection input unit 150 into a digital contrast adjustment level signal; ; A voltage selection driver 140 for outputting a plurality of voltage control signals corresponding to the digital contrast level signal; a voltage selector 170 for combining the voltage control signals and outputting a corresponding control voltage; And an LCD voltage controller 130 for controlling the contrast control signals COM and SEG according to the control voltage from 170 and providing them to the liquid crystal display device LCD, wherein the voltage selector 170 includes: Switching means respectively corresponding to the voltage control signals and turned on and off by corresponding voltage control signals; Each of the resistors includes resistors connected between the switching means and the input terminal of the LCD voltage controller 130 to divide the power supply voltage to a level corresponding to the voltage control signals and output the divided voltage. In a preferred embodiment of this aspect, the switching means of the voltage selector 170 respectively have first to fourth transistors having a collector, an emitter, and a base controlled by the corresponding voltage control signal, connected to a ground voltage. Consisting of TR10 to TR40; Each of the resistors of the voltage selector 170 may include first to fourth resistors having one end connected to a control voltage input terminal V _LCD of the LCD voltage controller 130 and the other end connected to an emitter of the transistor corresponding thereto. R10 to R40).

In this preferred embodiment, the switching means of the voltage selector 170 are fifth to eighth transistors each having a base connected by a collector, an emitter, and the corresponding voltage control signal connected to a ground voltage. (TR50 to TR80); Jeonghang among the fifth resistor (R50) of the voltage selecting unit 170, one end of which is connected to the predetermined voltage control input (V _LCD) for the LCD voltage control unit 130 the other end of the fifth transistor (TR50) Connected to an emitter of; Sixth to eighth resistors R60 to R80 of the resistors of the voltage selector 170 are sequentially arranged in series between the other end of the fifth resistor R50 and the emitter of the eighth transistor TR80. Be connected; One end of the sixth resistor (R60) is connected with the other end of the fifth resistor (R50) and the other end is connected with an emitter of the sixth transistor; One end of the seventh resistor R70 is connected to the other end of the sixth resistor R60 and the other end is connected to the emitter of the seventh transistor. In a preferred embodiment of this aspect, the control selecting means (101) for inverting and then outputting the predetermined data signal and the output control signal of the voltage selection driver (140); Output driving means (103) for on-off driving a signal at an output stage in response to an output signal of the control selecting means (101); Drive voltage control means (102) for applying a predetermined drive voltage to said output drive means (103); Floating prevention means 104 for preventing the floating operation of the output terminal of the output driving means 103.

The present invention relates to a contrast control apparatus for an LCD, comprising: a contrast selection input unit for receiving a level of the contrast by a user; A contrast selection detecting unit for converting an analog contrast level signal input from the contrast selection input unit into a digital contrast adjustment level signal; A voltage selection driver for outputting a plurality of voltage control signals corresponding to the digital contrast level signal; A voltage selector which combines the voltage control signals and outputs a control voltage corresponding thereto; An LCD voltage control unit controlling contrast control signals (COM, SEG) according to the control voltage from the voltage selection unit and providing them to the liquid crystal display (LCD); The voltage selector may include switching means corresponding to each of the voltage control signals and turned on / off by a corresponding voltage control signal; Each of the resistors includes a resistor connected between the switching means and the input terminal of the LCD voltage controller to divide the power supply voltage to a level corresponding to the voltage control signals and output the divided voltage. Such a contrast control device can set the contrast of the liquid crystal display device within a wide range, and can vary the contrast within the contrast setting range.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 2 to 4.

2, the contrast control apparatus of the novel LCD according to the present invention includes a contrast selection input unit 150, a contrast selection detecting unit 120, a main unit 110, a voltage selection driving unit 140, and a voltage selecting unit 170. ), The LCD voltage controller 130 can be used to set the contrast of the liquid crystal display device within a wide range, and to vary the contrast within the contrast setting range. Here, the contrast selection input unit 150 is composed of a sliding bar 12 shown in FIG. That is, the user can input the adjustment level of the contrast by moving the sliding bar 12 to the left and right.

In the drawing, reference numeral 100 denotes a block of a circuit constituted on one chip.

First, a case in which the voltage selector 170 is digitally controlled as shown in FIG. 3A will be described. In this case, as shown in the figure, since the four parallel resistors are turned on and off to control the voltage level, the contrast can be controlled in 16 steps. Here, the case where the current contrast level is set to 10 and changed to 12 will be described as an example.

First, in the current state, the main controller 110 controls the first to fourth voltage control signals Pxb0 to Pxb3 that control the voltage selection driver 140 to output level 10. Here, the first voltage control signal Pxb0 represents the LSB bit, and the fourth voltage control signal Pxb3 represents the MSB bit. Therefore, the voltage selection driver 140 outputs the inverted logic level signal of the binary number '1010' for the level 10. That is, the first voltage control signal Pxb0 has a high level, the second voltage control signal Pxb1 has a low level, the third voltage control signal Pxb2 has a high level, and the fourth voltage control signal Pxb3 has a low level. Will be.

Then, the second and fourth switching transistors TR20 and TR40 of the voltage selector 170 are switched on. In this case, for example, the LCD voltage controller 130 may connect the resistors R20 and R40 of the voltage controller 170 in parallel between the contrast control voltage input terminal V _LCN and ground for controlling the contrast. Therefore, the resistance between the contrast control voltage input terminal V _LCN and ground becomes (R20 · R40) / (R20 + R40). Therefore, when the parallel connection of the resistors R20 and R40 is represented by R20 / R40, the voltage of the contrast control voltage input terminal V _LCN of the LCD voltage controller 130 may be expressed as follows.

On the other hand, the operation of the voltage selector according to the logic level of the first to fourth voltage control signals (Pxb0 to Pxb3) is shown in the following table.

In such a state, the LCD voltage controller 130 outputs the contrast control signal to the predetermined control signal output terminals COM and SEG, for example, at a level 10 according to the N voltage control inputs V _LCI to V _LCN to display the LCD 160. Will be controlled.

When the user attempts to increase the contrast level by two levels by moving the contrast selection input unit 150, that is, the sliding bar to the right to vary the contrast of the LCD, the contrast selection detection unit 120 detects the change state. That is, since the signal input from the contrast selection input unit 150 is an analog signal, the contrast selection detection unit 120 detects the level of the analog signal and converts it into a digital signal and outputs the digital signal. The main controller 110 controls the voltage selection driver 140 according to the digital signal from the contrast selection detection unit 120.

As shown in FIG. 4, the voltage selection driver 140 includes a NOR gate 101 for inverting and outputting a predetermined data signal and an output control enable signal input from the main controller 110. As the FET 103 is switched according to the logic level signal from the NOR gate 101, a voltage control signal is output to the input / output terminal. The inverter 104 operates to prevent the floating of the input and output terminals.

At this time, if the user increases the current level by two levels through the contrast selection input unit 150 to adjust the contrast level to '12', the main control unit 110 adds '2' to the original contrast level '10'. In addition, '12' is output, and the voltage selection driver 140 receives the decimal number '12' from the main control unit 110 and outputs the inverted logic signal '0011' of the binary number '1100'. That is, the first voltage control signal Pxb0 has a high level, the second voltage control signal Pxb1 has a high level, the third voltage control signal Pxb2 has a low level, and the fourth voltage control signal Pxb3 has a low level. Will be. Therefore, the voltage selector 170 is the same as that in which the resistors R30 and R40 are configured in parallel.

Accordingly, the resistances of the resistors R10, R20, R30, and R40 of the voltage selector 170 are all set differently, and the transistors of the voltage selector 170 are turned on and off to control the voltage control input terminal V of the LCD voltage controller 130. By varying the voltage of _LCN ), the contrast of LCD 160 can be controlled.

Second, the case where the voltage selector 170 is controlled by the serial resistor as shown in Fig. 3B will be described as an example. In this case, as shown in the figure, since the four series resistors R50 to R80 are turned on and off to control the voltage level, the contrast can be controlled to four levels. In the following description, a case where the current contrast level is set to 2 and the level is changed to level 3 will be described as an example.

Here, the level 1 is a case where only the resistor R50 is connected, the level 2 indicates that the resistor R50 and R60, the level 3 is controlled when the resistors R50 to R70 and the level 4 are connected in series.

First, in the current state, the main controller 110 controls the voltage selection driver 140 to output a voltage control signal of level 2. That is, the voltage selection driver 140 has a high level of the first voltage control signal Pxb0, a low level of the second voltage control signal Pxb1, a high level of the third voltage control signal Pxb2, and a fourth voltage control signal. Pxb3 outputs high levels, respectively. Then, the sixth switching transistor TR60 of the voltage selector 170 is switched on, and the other transistors are switched off. Therefore, the resistance between the voltage control input terminal V _LCN and ground has a sum of R50 and R60.

Therefore, the voltage of the contrast voltage control input terminal V _LCN of the LCD voltage controller 130 can be expressed by the following equation.

As shown in Equation 2, the LCD voltage controller 130 transmits a predetermined contrast control signal through the output terminals COM and SEG according to voltage levels input to the N voltage control input terminals V _LC1 to V _LCn . It is output to the LCD 160 side. This allows the contrast of the LCD 160 to be controlled at level 2, for example.

Subsequently, if one attempts to increase the contrast level by three through a predetermined key input button of the contrast selection input unit 150 to change the contrast level to three, the contrast selection detection unit 120 detects the change state. That is, the contrast selection detecting unit 120 detects a key input button and outputs a digital signal corresponding thereto. The main controller 110 controls the level of the voltage selection driver 140 to increase by one step in response to the digital signal from the contrast selection detection unit 120.

That is, the main controller 110 controls the voltage selection driver to output an inverted logic signal of binary '0100'. Therefore, the first voltage control signal Pxb0 has a high level, the second voltage control signal Pxb1 has a high level, the second voltage control signal Pxb2 has a low level, and the fourth voltage control signal Pxb3 has a high level signal. Output each. Accordingly, by switching on the seventh switching transistor TR70, the voltage selector 170 configures a series circuit of the resistors R50 to R70. As a result, the level of contrast of the LCD 160 is adjusted to three.

The conventional contrast control device of the present invention solves a problem that it is difficult to apply when the cost is high and a protection diode is built in the LCD driving voltage input pin of the device to be applied. The contrast can be set within a wide range, the contrast can be varied within the contrast setting range, and the cost can be lowered.

Claims (4)

A device capable of controlling contrast of a liquid crystal display (LCD), comprising: a contrast selection input unit (150) for receiving a contrast level by a user; A contrast selection detection unit (120) for converting an analog contrast level signal input from the contrast selection input unit (150) into a digital contrast level signal; A voltage selection driver 140 for outputting a plurality of voltage control signals corresponding to the digital contrast level signal; A voltage selector 170 for combining the voltage control signals and outputting a control voltage corresponding thereto; An LCD voltage controller 130 controlling contrast control signals COM and SEG according to the control voltage from the voltage selector 170 and providing the contrast control signals COM and SEG to the LCD; The voltage selector 170 corresponds to the voltage control signals, respectively, and switch means turned on / off by a corresponding voltage control signal, respectively: an input terminal of the switching means and the LCD voltage controller 130. And a resistor connected therebetween, dividing a power supply voltage to a level corresponding to the voltage control signals, and outputting the divided voltage. The switching means of the voltage control unit 170, the first to fourth transistors (TR10 ~) having a collector, an emitter, and a base controlled by the corresponding voltage control signal, respectively. TR40): a first end of each of the resistors of the voltage selector 170 is connected to the control voltage input terminal V _LCN of the LCD voltage controller 130 and the other end is connected to the emitter of the transistor corresponding to the first end of the resistor. And a fourth resistor (R10 to R40). The fifth to eighth transistors TR50 to claim 1, wherein the switching means of the voltage controller 170 have a collector connected to a ground voltage, an emitter, and a base controlled by the corresponding voltage control signal. TR80); The fifth resistor R50 of the voltage selector 170 has one end connected to a predetermined voltage control input terminal V _LCN of the LCD voltage controller 130 and the other end of the fifth transistor TR50. Connected to the emitter; Sixth to eighth resistors R60 to R80 of the resistors of the voltage selector 170 are sequentially arranged in series between the other end of the fifth resistor R50 and the emitter of the eighth transistor TR80. Be connected; One end of the sixth resistor (R60) is connected with the other end of the fifth resistor (R50) and the other end is connected with an emitter of the sixth transistor; One end of the seventh resistor (R70) is connected to the other end of the sixth resistor (R60) and the other end is connected to the emitter of the seventh transistor. 2. The apparatus of claim 1, wherein the voltage controller (140) comprises: control selecting means (101) for inverting and outputting a predetermined data signal and an output control signal; Output driving means (103) for on-off driving a signal at an output stage in response to an output signal of the control selecting means (101); Drive voltage control means (102) for applying a predetermined drive voltage to said output drive means (103); Contrast control device of the LCD, characterized in that it comprises a floating preventing means for preventing the floating operation of the output terminal of the output driving means (103).

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