KR20000028261A - Method for controlling automatically convergence ofprojection television - Google Patents

Abstract

PURPOSE: A method for automatically controlling convergence in projection television is provided, to automatically control convergence without manually controlling with an instrument, by setting up convergence control order on the basis of a deviation, when the deviation occurs by comparing data inputted from a sensor equipped on an outer part of TV with convergence reference data preset in an EEPROM(Electrically Erasable and Programmable ROM). CONSTITUTION: A method for previously storing reference values of each control point by making a convergence control program of a projection TV, and for controlling convergence on the basis of a deviation presenting as the standard values, comprises the steps of: setting up an initialization of a controller and an input/output port; reading convergence reference data preset in a storage unit; outputting the read reference data into a convergence controller; inputting data measured in a sensor; deciding/comparing the inputted measured values with the reference data; detecting a deviation when the measured values and the reference data are not the same, and controlling convergence on the basis of the deviation.

Description

How to automatically adjust convergence on a projection television

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method for automatically adjusting convergence in a projection television, wherein the method automatically adjusts convergence in a production stage of a projection television. projection television).

In general, a projection television emits three special cathode ray tubes having three primary colors of red (R), green (G), and blue (B) light to project and magnify an image using a magnifying lens and a reflector to produce a final screen. Tells the television system to get it. The cathode ray tube is used similarly to a conventional television receiver, but it is a system different from the conventional television in that it forms an image and displays it on a separate image screen.

Conventionally, in order to adjust the convergence of the projection television in the production stage, the controller adjusts each adjustment point of about 40 places with the adjusting mechanism, or adjusts the horizontal bow (BOW), vertical bow, Convergence was adjusted by creating functions such as HIGHT, TILT, and SKEW.

However, as described above, the adjuster adjusts while checking the adjustment point with the adjustment mechanism, and the efficiency is lowered due to the complexity of the adjustment step, and variations in productivity, such as the number of daily productions, cause the quality of the product to be uneven. In addition, since the adjustment was made using a variable resistor, there was a problem in that the convergence was changed according to the surrounding conditions and the image quality deteriorated.

Accordingly, an object of the present invention is to invent the above-described problem, the object of the present invention is to store the reference value for a plurality of adjustment points in advance and then automatically detects the deviation from the measured value and convergence automatically. The present invention provides a method of automatic adjustment of convergence in a projection television that can adjust the frequency.

The technical idea for achieving the object of the present invention as described above is the setting process of the initialization and the input and output port is set inside the microcomputer, and after the setting process, the reading process of reading the conversion reference data stored in advance An output process in which the reference data read in the reading process is output to a convergence adjusting unit, an input process of inputting data measured by the sensor unit after the output process, and measurement values and reference data input through the input process And a determination process in which the comparison value is determined and a measurement in which the measurement value and the reference data are not the same, and an adjustment is performed in which a deviation is detected and a convergence adjustment is performed based on the deviation. It automatically adjusts the convergence based on the deviation of the data.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view for explaining a method for automatically adjusting convergence in a projection television according to an embodiment of the present invention.

2 is a flowchart illustrating a method for automatically adjusting convergence in a projection television according to an embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

100: Y pyrom 150: micom

200: Convergence adjustment unit 250: Sensor unit

S100: Initial Setup Process S150: Port Setup Process

S200: Reading process S250: Printing process

S300: Input process S350: Discrimination process

S400: Storage process S450: Deviation detection process

S500: Adjustment procedure setting process S550: Adjustment procedure

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

First of all, in order to help understanding of the present invention, the convergence will be described. In a projection television, a light (scanning beam) generated in a special cathode ray tube of R, G, and B passes through a color-selective mirror to produce a projection lens. After passing, the light reflected by the reflector again forms an image on a large screen installed separately from the cathode ray tubes of R, G, and B. At this time, the scanning beams of R, G, and B on the large screen are formed. If the match is exactly, a clear and clear picture is reproduced. If the scan beams of the R, G, and B do not match, it is called convergence adjustment.

1 is a diagram for explaining a method of automatically adjusting a convergence in a projection television according to an exemplary embodiment of the present invention.

Referring to FIG. 1, the EPIROM 100 may store reference values of a plurality of convergence adjustment points, and a plurality of sensors installed outside the television to detect elements required for convergence adjustment. The sensor unit 250 is configured to receive the control signal of the microcomputer 150 to be described later, and the convergence adjustment unit 200 to adjust the convergence, and the signal output from the sensor unit 250 detects the The microcomputer 150 applies a control signal to the convergence adjustment unit 200.

In the following description, the sensor detects the pitch of RGB collected in a plurality of sensors installed outside of a television, for example, an LCD panel, detects a bright value, and detects a horizontal size and a vertical size of an image. Data signals measured by the sensor unit 250 including a plurality of sensors having a function of outputting the respective signals are output to the microcomputer 150.

After receiving the signal, the microcomputer 150 applies a read enable signal to the ypyrom 100 to read the reference values necessary for the adjustment of the convergence, determines the deviation between the measured value and the reference value, The control signal is applied to the switch adjusting unit 200.

Accordingly, the convergence adjustment unit 200 applies the adjustment signal to a convergence yoke (not shown) according to the control signal of the microcomputer 150 to adjust the convergence by reducing the deviation generated.

Next, a method of automatically adjusting a convergence in a projection television according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

2 is a flowchart illustrating a method of automatically adjusting a convergence in a projection television according to an exemplary embodiment of the present invention, wherein an initial setting process (S100) in which an internal state of the microcomputer 150 is initialized, and the initial setting process (S100) are performed. A port setting process (S150) in which an input / output port of the microcomputer 150 is set, a reading process (S200) in which the convergence reference data stored in the EPIROM 100 is read after the port setting process (S150),

The output process (S250) in which the convergence reference data read in the reading process (S200) is output to the convergence adjusting unit 200, and the data measured from the sensor unit 250 after the output process (S250) are microcomputered. An input process (S300) inputted to 150, a determination process (S350) in which the measured value and the reference value inputted through the input process (S300) are compared and discriminated, and the measured value and the reference value are determined in the determination process (S350). If it is the same and the storage process (S400) is stored in the ypyrom 100,

When the measured value and the reference value are not the same in the determination process (S350), the convergence adjustment procedure is based on the deviation detection process (S450) in which the deviation is detected and the deviation detected in the deviation detection process (S450). The adjustment order setting process (S500) to be set, the adjustment process (S550) in which the convergence adjustment is executed according to the order set in the adjustment order setting process (S500), and the convergence adjustment through the adjustment process (S550). After this, the data measured by the sensor unit 250 is input to the microcomputer 150 is made of an input process (S300).

Hereinafter, the operation after the port setting process (S150) will be described.

First, after the contents of the input / output port of the microcomputer 150 are set, the microcomputer 150 applies a read enable signal to the YPROM 100 to read the pre-stored convergence reference data and then the convergence adjusting unit. Output to (200).

Subsequently, the data necessary for the adjustment of the convergence, for example, data for detecting the pitch of RGB collected in one pixel of the LCD panel is detected from the sensor unit 250 installed outside the television and input to the microcomputer 150. The microcomputer 150 compares the measured value and the reference value measured by the sensor unit 200.

As a result of the determination, when the measured value and the reference value are the same, it is not necessary to adjust the convergence, so that a write enable signal is applied to the EPIROM 100 to be stored, while the measured value and the reference value are not the same. The deviation is detected.

After detecting the deviation as described above, the microcomputer 150 sets the order of the convergence adjustment based on the deviation, applies a control signal to the convergence adjustment unit 200, and the convergence The adjusting unit 200 applies an adjustment signal, for example, a signal for changing a current, to each part composed of elements that perform convergence adjustment such as, for example, a convergence yoke, according to the set order described above. To be adjusted automatically.

Therefore, the coordinator can adjust the convergence automatically without adjusting the convergence while checking the adjustment point with the adjustment mechanism.

As described above, the present invention compares the data measured and inputted by the sensor unit installed outside the television with the convergence reference data stored in YPIROM in advance, and when a deviation occurs, the conversion is based on the deviation. By adjusting the order of adjustment, the controller can automatically adjust the convergence without the need for manual adjustment with the measuring device.

Claims (1)

In the method of creating a convergence adjustment program of a projection television, storing reference values of each adjustment point in advance, and adjusting the convergence based on the deviation indicated based on the reference values. A setting process of initializing the control means and setting an input / output port; A reading process of reading the convergence reference data stored in the storage means in advance after the setting process; An output process of outputting reference data read in the reading process to a convergence adjusting means; An input process of inputting measured data from the sensing means after the output process; A discrimination process of comparing and discriminating the measured value and the reference data inputted through the input process, and In the discrimination process, when the measured value and the reference data are not the same, a deviation is detected, and a convergence adjustment method is performed, in which a convergence adjustment is performed based on the deviation. .