KR100731024B1 - Programmable reference voltage generator - Google Patents

Abstract

The present invention provides a programmable reference voltage generator for controlling a reference voltage for gamma correction through an external program, and the programmable reference voltage generator of the present invention divides a voltage applied from the outside into a plurality of levels. A voltage selector configured to select a voltage corresponding to the input information from a plurality of levels of voltages output from the voltage divider circuit, and output the voltage as a reference voltage, and store information about the reference voltage; It includes storage means for providing information necessary for selecting a voltage, and information manipulation means for changing the information of the storage means, so that not only the reference voltage can be finely adjusted but also the voltage adjustment is easy.

Reference voltage, programmable

Description

Programmable reference voltage generator

1 is a block diagram of a reference voltage generator according to the prior art

2 is a block diagram of a programmable reference voltage generator according to the present invention

Explanation of symbols for main parts of the drawings

21: voltage divider circuit 23: voltage selector

25: storage means 27: information manipulation means

29 amplification means

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a programmable reference voltage generator capable of more precisely adjusting voltage by performing voltage adjustment for gamma correction through an external program.

One of the display devices, Cathode Ray Tube (CRT) has been used mainly for monitors such as TVs, measuring devices, information terminal devices, etc., but the size and weight of CRT itself make it necessary to reduce the size and weight of electronic products. Could not respond positively.

In order to replace the CRT, Liquid Crystal Display (LCD), which has the advantages of light and thin, has been actively developed, and recently, the liquid crystal display (LCD) has been developed enough to perform a role as a flat panel display device. Demand is on the rise.

In general, a low cost and high performance thin film transistor liquid crystal display (TFT-LCD) uses an amorphous silicon thin film transistor as a switching device. Currently, the liquid crystal display device is a VGA (Video Graphic Array; maximum resolution is 640 x 480 pixels). It aims at high resolution with SVGA (800 × 600) and XVGA (1024 × 768).

The development of the TFT-LCD industry and its application has been accelerated by the increase in size and the increase in resolution, and much effort has been made in terms of simplification of the manufacturing process and improvement of yield for the purpose of increasing productivity and low cost.

Since the liquid crystal used in the liquid crystal display uses electro-optical characteristics, the optical modulation rate and the voltage level of the image signal have a nonlinear relationship. In addition, depending on the spectral characteristics of the liquid crystal and the like, and the nonlinearity is different for each of the three primary colors of R (red), G (green), and B (blue), gamma adjustment is necessary to preliminarily correct this nonlinearity.

Hereinafter, a reference voltage generator for gamma correction according to the related art will be described with reference to the accompanying drawings.

1 is a block diagram of a reference voltage generator according to the prior art.

As shown in FIG. 1, a plurality of resistors R1, R1, R3, ..., Rn-1, Rn are configured between the power supply voltage terminal Vcc and the ground voltage terminal Vss, A plurality of voltages are obtained using the voltage drop, and the respective voltages are amplified by the amplifying means 11 formed of amplifiers and output to the reference voltages V1, V2, V3, ..., Vn-1, Vn. .

Since the plurality of resistors R1, R1, R3, ..., Rn-1, Rn are fixed resistors whose values are fixed, the voltage output through the amplifying means 11 may also be said to be fixed.

The conventional reference voltage generator for gamma correction determines the values of the resistors to determine the resistances R1, R1, R3, ..., Rn-1, Rn between the power supply voltage terminal Vcc and the ground voltage terminal Vss. ), And finally the voltage obtained by using the voltage drop by each resistor is amplified by the amplifying means (11) and the reference voltages (V1, V2, V3, ..., Vn-1, Vn).

In this case, the resistance values are set when the product is shipped.

However, since the gamma correction voltage generator of the conventional liquid crystal display device obtains a reference voltage for gamma correction through a voltage drop using a plurality of fixed resistors, it is difficult to obtain a finer voltage, and the value of the fixed resistor is already Since it is determined at the shipment stage, there is a problem that a desired voltage cannot be obtained due to a change in resistance value due to various variables.

In addition, when there is a problem with any one of the resistance is required to replace it can be said to be inefficient in terms of work efficiency.                         

The present invention has been made to solve the above problems of the prior art, the object of the present invention is to provide a programmable reference voltage generator capable of finer voltage adjustment by controlling the reference voltage for gamma correction through an external program. .

Programmable reference voltage generator of the present invention for achieving the above object is a voltage divider circuit for dividing the voltage applied from the outside into a plurality of levels, the voltage corresponding to the input information of the plurality of levels output from the voltage divider circuit portion; A voltage selector which selects from a voltage and outputs it as a reference voltage, storage means for storing information about the reference voltage, and providing information necessary for selecting a voltage in the voltage selector, and changing information of the storage means. Characterized in that it comprises an information operation means.

Hereinafter, a reference voltage generator for gamma correction according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram of a programmable reference voltage generator according to the present invention.

As shown in FIG. 2, a voltage divider circuit 21 for dividing an externally applied voltage Vref into a plurality of detailed voltages and a control signal for generating a control signal for controlling a peripheral circuit is generated. The voltage selector 23 which selects and outputs detailed voltages corresponding to input information codes among a plurality of generated detailed voltages, and a clock signal SCL that can be programmed and finally output to a reference voltage to be outputted. A storage means 25 for storing information about the information and outputting the information to the voltage selector 23, an information manipulation means 27 for changing the information stored in the storage means 25, and the voltage selector 23. It comprises a plurality of amplifying means 29 for amplifying and outputting the detailed voltage output from the).

Here, the amplifying means 29 is composed of an operational amplifier, the storage means 25 is connected to the information manipulation means 27 composed of a personal computer (PC) or a CPU having arithmetic processing capability to change the data. .

The information manipulation means 27 changes the information on the respective reference voltages stored in the storage means 25 when the reference voltages V1 to Vn selected by the voltage selector 23 are not at a desired level.

The voltage divider circuit 21 serially connects a plurality of resistors between the voltage input from the outside and the ground voltage, and divides them into a plurality of detailed voltages through voltage drops by the resistors.

The storage means 25 stores information on the reference voltages V1 to Vn to be finally output, which are each selected from a plurality of detailed voltages output from the voltage dividing circuit 21 by the voltage selector 23. Information necessary for selecting the reference voltages V1 to Vn is stored, and is connected to a PC (not shown) so that the information can be changed as necessary.

The voltage selector 23 selects a reference voltage from V1 to Vn among the detailed voltages output from the voltage dividing circuit 21 according to the information output from the storage means 25.                     

The reference voltages V1 to Vn selected by the voltage selector 23 are amplified and finally output through the corresponding operational amplifiers.

Referring to the operation of the programmable reference voltage generator of the present invention configured as described above are as follows.

Although the values of the reference voltages V1 to Vn vary slightly depending on the type of model, it is basically determined that the reference voltage should have a certain level in some models.

Therefore, the storage means 25 has information on the reference voltage to generate a reference voltage corresponding to the corresponding model, and the memory means 25 stores the information on the stored reference voltage in order to obtain the reference voltage. Output to the voltage selector 23.

That is, when the storage means 25 outputs information on the reference voltage from V1 to Vn, the voltage selector 23 corresponds to the corresponding reference voltage among the detailed voltages output from the voltage dividing circuit section 21 according to the information. Select to output the voltage from V1 to Vn simultaneously.

If the reference voltages V1 to Vn selected by the voltage selector 23 have a desired level, it is not necessary to use the information manipulation means 27, but if any one of the reference voltages is not the desired level, It is necessary to change the information on the reference voltage by using the operation means 27.

As an example, a case in which the voltage of V2 is not a desired level among the reference voltages V1 to Vn selected and output by the voltage selector 23 will be considered.

When the voltage of V2 does not reach the desired level, the cause can be considered in various ways, but the biggest cause is the variation of the resistance values constituting the voltage divider circuit 21.

If any one of the resistors fluctuates compared to the initially set value, the voltage obtained through that resistor is also different from the original voltage. Therefore, when the information on V2 stored in the storage means 25 is changed by using the information manipulation means 27, the storage means 25 outputs the changed information to the voltage selector 23, and the voltage selection is performed. The unit 23 selects a level corresponding to the voltage V2 among the detailed voltages output from the voltage dividing circuit unit 21 according to the input change information.

As described above, the programmable reference voltage generator of the present invention has the following effects.

First, since the reference voltage is controlled by programming, compensation of the reference voltage change can be easily performed.

Second, since the information stored in the memory means can be changed according to the variation of the reference voltage, the reference voltage can be finely adjusted.

Claims (4)

A voltage divider circuit unit which divides a voltage applied from the outside into a plurality of levels; A voltage selector which selects a voltage corresponding to the input information from a plurality of voltages output from the voltage dividing circuit part and outputs the voltage as a reference voltage; Storage means for storing information relating to the reference voltage and providing information necessary for selecting a voltage in the voltage selector; And an information operation means for changing the information of the storage means. The programmable reference voltage generator of claim 1, further comprising amplifying means for amplifying the voltage output from the voltage selector. delete The programmable reference voltage generator according to claim 1, wherein the information manipulation means is used when the level of the reference voltage output through the amplifying means is not a desired level.

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