KR101332659B1 - A builit in image sensor for liquid crystal display device - Google Patents

Abstract

The present invention relates to a technology for properly adjusting the resolution of an input image when inputting a document or image information through image sensors in a driving device of a liquid crystal panel incorporating an image sensor. The present invention includes an image sensor-embedded liquid crystal panel that includes an image sensor at each pixel on the panel and outputs information of a document, an image, or a position by using the image sensor; A data converter for lowering the resolution of the scanned image signal input through the image sensor embedded liquid crystal panel; An amplifier for amplifying and outputting a video signal having a weak intensity output from the data converter to a predetermined level; The A / D converter converts an analog video signal output from the amplifier into a digital signal and outputs the digital signal.

Description

Liquid crystal display with built-in image sensor {A BUILIT IN IMAGE SENSOR FOR LIQUID CRYSTAL DISPLAY DEVICE}

1 is a block diagram of a liquid crystal display device according to the prior art.

2 is a circuit diagram of a liquid crystal panel with a built-in image sensor according to the prior art.

3 is a block diagram of a resolution control device of an image sensor-embedded liquid crystal display device according to the present invention;

DESCRIPTION OF THE REFERENCE SYMBOLS

31: liquid crystal panel with an image sensor 32: the first data conversion unit

33: video signal acquisition unit 34: amplifier

35: A / D converter 36: controller

36A: second data converter 37: frame memory

The present invention relates to a technology for outputting a scanned image signal by scanning an object through a liquid crystal panel having an image sensor. In particular, an image is provided in each pixel on the liquid crystal panel while displaying an image by driving the liquid crystal panel. The present invention relates to a resolution control device of an image sensor-embedded liquid crystal display device that enables the resolution of an input image to be properly adjusted in a liquid crystal display device for inputting documents or image information through sensors.

In general, a liquid crystal display device is a display device in which image information is individually supplied to pixels arranged in a matrix, and a desired image is displayed by adjusting light transmittance of the pixels. Accordingly, the liquid crystal display includes a liquid crystal panel in which pixels, which are the smallest units for implementing an image, are arranged in an active matrix form, and a driving unit for driving the liquid crystal panel. Since the LCD does not emit light by itself, a backlight unit is provided to supply light to the LCD.

FIG. 1 is a block diagram of a liquid crystal display according to the prior art. As shown therein, a plurality of liquid crystal cells Clc disposed in a matrix form at intersections of data lines DL1 to DLm and gate lines GL1 to GLn. A liquid crystal panel (11) having a thin film transistor (TFT) as a switching element and driven by a data signal and a gate-on signal to display an image; A gate driver 12 for supplying a gate-on signal to each of the gate lines GL1 to GLn of the liquid crystal panel 11; A data driver 13 for supplying the data signal to each of the data lines DL1 to DLm of the liquid crystal panel 11; A controller 14 for outputting a control signal for controlling the driving of the gate driver 12 and the data driver 13; It is configured to include a backlight unit 15 is installed on the back of the liquid crystal panel 11 to supply a backlight, the operation thereof will be described as follows.

The liquid crystal panel 11 includes a plurality of liquid crystal cells Clc arranged in a matrix at the intersections of the data lines DL1 to DLm and the gate lines GL1 to GLn, and a thin film transistor TFT as a switching element. Drive the pixels by controlling the driving of the thin film transistor (TFT) with a gate on signal and supplying a data signal to the liquid crystal cell (Clc) through the thin film transistor (TFT). do.

The gate driver 12 sequentially supplies a gate-on signal (scan pulse) to the gate lines GL1 to GLn in response to the gate control signal from the controller 14, thereby supplying data. The horizontal lines of are selected.

The data driver 13 converts the digital video data RGB into a data voltage corresponding to the gray scale value (analog gamma compensation voltage) in response to a data control signal from the controller 14, and the converted data voltage is converted into the liquid crystal. The data lines DL1 to DLm on the panel 11 are supplied.

The controller 14 generates a gate control signal for controlling the gate driver 12 and a data control signal for controlling the data driver 13 using a vertical / horizontal synchronization signal and a clock signal supplied from a system. . In addition, the controller 14 samples the digital video data RGB input from the system, rearranges the digital video data RGB, and supplies the same to the data driver 13.

The backlight unit 15 is installed on the rear surface of the liquid crystal panel 11 to supply the backlight to the liquid crystal panel 11.

Recently, an image input method for installing an image sensor corresponding to the liquid crystal cells Clc on the liquid crystal panel 11 and inputting information of a document, an image, or a position using the image sensor has been proposed.

Hereinafter, an image sensor embedded LCD will be described with reference to the accompanying drawings. In fact, many image sensors are provided corresponding to the number of pixels on the liquid crystal panel, but since they all have the same structure, only one unit pixel will be described for convenience of description.

FIG. 2 illustrates a structure of a liquid crystal panel with a built-in image sensor according to the prior art, and as shown in FIG. It consists of two sub-pixels: the pixel DP and the sensor pixel SP for scanning an image.

The display pixel DP is a pixel for displaying an image and is driven by a data signal input through a transistor T1 which is a switching element turned on by a gate-on signal input through the gate line GL1. The relevant information is indicated by).

In addition, the sensor pixel SP is a pixel for scanning a scan object placed on the upper portion of the liquid crystal panel 11, and the light reflected from the scan object after being irradiated from the backlight is transmitted through the phototransistor PT1 as an image sensor. The sensing signal is output to the data line DL1b through another switching element T2 that is turned on by the gate-on signal input through the gate line GL1b.

The image signals for each pixel output as described above become scanning image signals acquired from one scan object. The sensed image signal may be output corresponding to each pixel, but as another example, the resolution may be reduced by driving one sensor pixel SP per several display pixels DP.

However, in the liquid crystal display device with such an image sensor, when a scan object is scanned by using sensor pixels to output a scanned image signal, an image signal having a fixed resolution is output.

Therefore, it is pointed out as a problem that data processing time and cost are high because unnecessary memory capacity is used by users who prefer low cost.

On the contrary, there is a problem in that it is impossible to provide an input video signal having a higher resolution to a user who prefers high quality.

Accordingly, an object of the present invention is to enable a resolution to be adjusted downward or upward when outputting a scanned image signal by scanning an object in a liquid crystal display having a built-in image sensor.

According to an aspect of the present invention, there is provided a liquid crystal panel including an image sensor having an image sensor on each pixel on the panel and outputting information of a document, an image, or a position thereof using the image sensor; A data converter for lowering the resolution of the scanned image signal input through the image sensor embedded liquid crystal panel; An amplifier for amplifying and outputting a video signal having a weak intensity output from the data converter to a predetermined level; Characterized in that the A / D converter for converting the analog video signal output from the amplifier to a digital signal and outputs.

Another object of the present invention is to provide an image sensor in each pixel on the panel, and to use the image sensor embedded liquid crystal panel for outputting information of a document, an image or a position thereof; An amplifier for amplifying and outputting an image signal having a weak intensity output from the liquid crystal panel embedded with the image sensor to a predetermined level; An A / D converter for converting an analog video signal output from the amplifier into a digital signal and outputting the digital signal; Characterized in that it comprises a data converter for improving the resolution of the digital video signal output from the A / D converter.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a block diagram showing an embodiment of a resolution adjusting apparatus of an image sensor-embedded liquid crystal display according to an embodiment of the present invention. As shown in FIG. An image sensor embedded liquid crystal panel 31 for outputting information; A first data converter 32 for lowering and outputting a resolution of a scanned image signal input through the image sensor embedded liquid crystal panel 31; An image signal acquisition unit 33 for acquiring a scanned image signal output from the first data conversion unit 32; An amplifier 34 for amplifying and outputting a video signal having a weak intensity output from the video signal acquisition unit 33 to a predetermined level; An A / D converter 35 for converting an analog video signal output from the amplifier 34 into a digital signal and outputting the digital signal; A second data converter 36A for improving and outputting the resolution of the digital video signal output from the A / D converter 35; A frame memory (37) used for processing for improving the resolution in said second data conversion section (36A); The controller 36 is configured to control the driving of the first data converter 32 and the second data converter 36A. The operation of the present invention configured as described above will be described in detail with reference to FIG. 2. Is the same as

The liquid crystal panel 31 having an image sensor includes an image sensor at each pixel for displaying an image, and outputs information of a document, an image, or a location by using the image sensor.

That is, the image sensor-embedded liquid crystal panel 31 includes a display pixel DP for an image display operation and a sensor pixel for an image scan operation in one pixel area P on the liquid crystal panel 11 as shown in FIG. 2. (SP). Of course, the other pixel areas P on the liquid crystal panel 31 also include the display pixel DP and the sensor pixel SP.

The display pixel DP is a pixel for displaying an image and is driven by a data signal input through a transistor T1 which is a switching element turned on by a gate-on signal input through the gate line GL1. Clc).

The sensor pixel SP is a pixel that scans a scan object placed on the upper portion of the liquid crystal panel 11, and the light reflected from the scan object after being irradiated from the backlight is transmitted through the phototransistor PT1 as an image sensor. The sensing signal is output to the data line DL1b through another switching element T2 that is turned on by the gate-on signal input through the gate line GL1b.

Accordingly, the liquid crystal panel 31 having an image sensor may display an input image signal and output information of a document, an image, or a position.

Information such as a document, an image, or a position output through the above process is transmitted to the first data converter 32. In addition, the first data converter 32 lowers the resolution of the input video signal and outputs the same through sampling or field averaging.

In other words, the first data converter 32 reads out the red, green, and blue data R, G, and B received from the image sensor-embedded liquid crystal panel 31 as it is. Instead of outputting to the integrated circuit (33), the resolution is lowered and outputted in such a manner that only 1/2, 1/3 or 1/4 of the sampling data is output.

Alternatively, when the first data converter 32 outputs the inputted R, G, and B data, one pixel is not recognized as one field, but two, three, or four pixels are one. After recognizing the field as, take the average value of the value and output it by lowering the resolution of the video signal.

As described above, when lowering and outputting the resolution of the input video signal, part of the input information is lost, but the data throughput is reduced accordingly.

The video signal output from the first data converter 32 is transmitted to the amplifier 34 through the video signal acquisition unit 33. The video signal thus transmitted has a very low intensity. Thus, the amplifier 34 amplifies and outputs an input video signal of weak intensity to a predetermined level.

The video signal of the analog component output from the amplifier 34 is converted into a digital signal by the A / D converter 35 and output.

The second data converter 36A provided in the controller 36 improves and outputs the resolution of the digital video signal input from the A / D converter 35.

That is, the second data converter 36A improves and outputs a digital image signal input from the A / D converter 35 and stored in the frame memory 37 by a data stretch technique.

The data stretch technique is similar to the image data interpolation technique and improves the resolution by inserting an average value of two adjacent bits in the left and right or up and down directions. As another embodiment, there is a method of taking and inserting an average value of bits existing in left, right, up, and down directions. As another embodiment, there is a method of taking and inserting an average value of bits existing in a diagonal direction.

As a result, the resolution of the input video signal is lowered and output through the first data converter 32, and the resolution of the input video signal is improved and output through the second data converter 36A. The operation can be controlled via the controller 36.

That is, the controller 36 controls the driving of the first data converter 32 as necessary so that the resolution of the input video signal is lower than the original, or controls the driving of the second data converter 36A. The resolution of the input video signal is higher than that of the original.

As described in detail above, the present invention, by outputting the scanned image signal by scanning the target in the image sensor built-in liquid crystal display device to be output by adjusting the resolution downward or upward, the image signal suitable for the user's taste It is effective to output.

Claims (8)

A plurality of pixels having a plurality of pixels defined therein, the liquid crystal panel including an image sensor and outputting information of a document, an image, or a position using the image sensor; A data converter for lowering the resolution of the scanned image signal input through the liquid crystal panel; An amplifier for amplifying and outputting a video signal having a weak intensity output from the data converter to a predetermined level; An A / D converter converting an analog video signal output from the amplifier into a digital signal and outputting the digital signal; Wherein the data conversion unit comprises: It is configured to output with lower resolution by outputting 1/2, 1/3 or 1/4 of sampling data of red, green, and blue data (R, G, B). Liquid crystal display device with an image sensor, characterized in that. The method of claim 1, The liquid crystal panel, And a display pixel for an image display operation and a sensor pixel for a scan operation on an image in one pixel area. delete delete A liquid crystal panel in which a plurality of pixels are defined, having an image sensor on the pixels, and outputting information of a document, an image, or a position using the image sensor; An amplifier for amplifying and outputting an image signal having a weak intensity output from the liquid crystal panel to a predetermined level; An A / D converter for converting an analog video signal output from the amplifier into a digital signal and outputting the digital signal; It includes a data converter for improving the resolution of the digital video signal output from the A / D converter, and outputs, Wherein the data conversion unit comprises: And an embedded image sensor configured to improve resolution by taking and inserting an average value of adjacent bits. delete The method of claim 5, And the adjacent bits are adjacent bits in at least one of up, down, left, and right directions or diagonal directions. A plurality of pixels, the liquid crystal panel including an image sensor and outputting information of a document, an image, or a position thereof by using a plurality of pixels; A first data converter for lowering the resolution of the scanned image signal input through the liquid crystal panel; An amplifier for amplifying and outputting a video signal having a weak intensity output from the first data converter to a predetermined level; An A / D converter for converting an analog video signal output from the amplifier into a digital signal and outputting the digital signal; A second data converter which improves and outputs a resolution of the digital video signal output from the A / D converter; A controller for controlling driving of the first and second data converters; The first data converter, It is configured to output by reducing the resolution by outputting 1/2, 1/3 or 1/4 of sampling data of red, green, and blue data (R, G, B). The second data converter, And an embedded image sensor configured to improve resolution by taking and inserting an average value of adjacent bits.

Images