KR0182515B1 - Brightness control method and apparatus of cathode ray tube - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a luminance adjusting device of a cathode ray tube that automatically adjusts the brightness of a cathode ray tube in a sub-bright adjustment process in a color television or a color monitor, and to a brightness adjustment method. PLC for controlling the overall operation of the device, microcomputer for performing audit and adjustment, pattern generator for outputting adjustment pattern signal for adjusting brightness of cathode ray tube to the cathode ray tube, and luminance value on screen output from the cathode ray tube A luminance sensor for detecting a signal, a meter for receiving analog data of the luminance value detected by the luminance sensor, converting the digital data into voltage data, and outputting the digital data to the microcomputer, and a luminance value adjustment signal output from the microcomputer. And a motor to adjust the volume for adjustment of the cathode ray tube, Characterized in that it consists of a robot for moving the sensor and the motor to a specified position.

Description

Brightness control device and brightness adjustment method of cathode ray tube (CRT)

1 is a schematic block diagram of an apparatus for adjusting luminance of a cathode ray tube (CRT) according to an embodiment of the present invention.

2 is a flowchart showing a dynamic sequence according to the present invention.

* Explanation of symbols for main parts of the drawings

10: microcomputer 20: pattern generator

30: cathode ray tube (CRT) 40: luminance sensor

50: instrument 60: motor

70: robot

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a luminance adjusting device of a cathode ray tube (CRT) and a luminance adjusting method for automatically adjusting the luminance of a cathode ray tube in a sub-bright adjustment step in a color television or a color monitor.

In general, the brightness adjustment method of the conventional cathode ray tube used a method of manually adjusting the luminance value of the cathode ray tube while the operator directly checks the brightness value.

However, such a conventional adjustment method is not only because the quality of the uniformity can not be made because it depends on the skill of the operator, there is a problem that the precise adjustment is difficult and difficult to achieve automation of the production line because the adjustment is made manually.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to uniformize and produce quality since it automatically adjusts luminance data output from a cathode ray tube using a luminance sensor and a motor. The present invention provides an apparatus for adjusting the brightness of a cathode ray tube and a method for adjusting the brightness of the cathode ray tube, which can not only automate a line but also enable precise brightness adjustment to improve productivity.

In order to achieve the above object, the luminance adjusting device of a cathode ray tube according to the present invention outputs a programmable logic controller (PLC) microcomputer for controlling the overall operation, and an adjustment pattern signal for adjusting the luminance of the cathode ray tube to the cathode ray tube. A pattern generator, a brightness sensor for sensing a brightness value on the screen output from the cathode ray tube, an analog data of the brightness value detected by the brightness sensor, and converted into digital data of voltage and output to the microcomputer. It is characterized in that it comprises a measuring instrument, a motor for adjusting the volume adjustment of the cathode ray tube receiving the luminance value adjustment signal output from the microcomputer, and a robot for moving the luminance sensor and the motor to a designated position.

In addition, the method for adjusting the brightness of a cathode ray tube according to the present invention includes a first step of setting a brightness sensor and a motor at a designated position by a robot, and a pattern signal for adjusting the brightness of the cathode ray tube in a pattern generator. A second step outputting to the second step; a third step detecting the luminance value on the screen output from the cathode ray tube in the second step; and a luminance value detected by the luminance detection sensor in the third step. The analog data is converted into digital data of the voltage through a measuring instrument, and the digital data of the voltage converted in the fourth step is received from the microcomputer and compared with the target data set in advance, whether the brightness of the cathode ray tube is adjusted. The fifth step of determining the brightness and the brightness of the cathode ray tube determined in the fifth step is not necessary. A seventh step of outputting a brightness value adjustment signal from the microcomputer to the motor when the sixth step to be completed and the adjustment of the cathode ray tube determined in the fifth step are necessary; and the brightness value output from the seventh step. And an eighth step of changing the luminance value of the cathode ray tube while adjusting the motor in accordance with the adjustment signal.

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

FIG. 1 is a schematic block diagram of an apparatus for adjusting luminance of a cathode ray tube according to an embodiment of the present invention, and FIG. 2 is a flow chart showing an operation procedure according to the present invention.

In FIG. 1, reference numeral 80 denotes a programmable logic controller (PLC) for sequence control of the overall operation, and reference numeral 10 denotes adjustment of luminance of the cathode ray tube 30 by receiving measurement and adjustment command signals from the PLC 80. A microcomputer for determining whether or not, and (20) is a pattern generator for generating an adjustment pattern signal for adjusting the brightness of the cathode ray tube 30 and outputs it to the cathode ray tube 30.

And, 40 is a brightness sensor for sensing the brightness value of the color coordinate data on the screen output from the cathode ray tube 30, 50 is analog data of the brightness value detected by the brightness sensor 40 It is a measuring instrument which receives the digital signal and converts it into digital data of the voltage and outputs it to the microcomputer 10.

Also, in the drawing, reference numeral 60 denotes the cathode ray tube 30 while adjusting the volume for luminance mounted on an unshown printed wiring board of the cathode ray tube 30 in response to the luminance value adjustment signal output from the microcomputer 10. (70) is a robot for accurately moving the brightness sensor 40 and the motor 60 to a designated position, and the robot 70 is the brightness sensor 40 ) Is composed of a measuring robot for moving the motor to the designated position, and an adjusting robot for moving the motor 60 to the designated position.

In the above description, the PLC 80 instructs the robot 70 to move according to the coordinate values related to the operation of the robot 70 stored in the robot 70 and at the same time the robot 70 is correctly positioned. When receiving the position completion signal from the robot 70, outputs the brightness adjustment command of the cathode ray tube to the microcomputer 10, and receives the brightness adjustment completion signal from the microcomputer 10, and the robot 70 returns to the origin. To output the sequence control signal.

Hereinafter, the effect of the brightness adjustment device of the cathode ray tube (CRT) according to an embodiment of the present invention configured as described above will be described.

First, when the luminance sensor 40 and the motor 60 are correctly set at the designated position by the robot 70, the pattern generator 20 adjusts the sub-brightness of the cathode ray tube 30. The adjustment pattern signal necessary for the process is output to the cathode ray tube 30.

The cathode ray tube 30 receives the adjustment pattern signal output from the pattern generator 20 and outputs a luminance value which is data on the screen, and the luminance value on the screen output from the cathode ray tube 30 is a luminance sensor ( 40) is sensed.

The analog data of the luminance value detected by the luminance sensor 40 is converted into digital data of the voltage through the meter 50 and input to the microcomputer 10.

The microcomputer 10 compares the digital data of the voltage input from the measuring instrument 50 with the target data set in advance in the microcomputer 10 to determine whether to adjust the brightness, and at the same time, converts the brightness value adjustment signal into a motor ( Output to 60).

Therefore, the motor 60 receives the luminance value adjustment signal output from the microcomputer 10 and rotates the luminance adjustment volume mounted on the printed wiring board (not shown) of the cathode ray tube 30 while rotating the luminance of the cathode ray tube 30. The data is changed, and the brightness sensor 40 detects the brightness value which is the changed data again.

The luminance of the cathode ray tube 30 is automatically adjusted while converting analog data of the luminance value sensed by the luminance sensor 40 into digital data of the voltage through the meter 50 and outputting the digital data to the microcomputer 10. It becomes possible.

Next, the brightness adjustment method of the cathode ray tube according to the present invention will be described in detail with reference to FIG. In FIG. 2, S denotes a step.

2 is a flowchart showing an operation procedure according to the present invention.

In FIG. 2, in order to adjust the brightness of the cathode ray tube, the brightness sensor 40 and the motor 60 are set correctly at the designated position by the robot 70 in step S1, and the process proceeds to step S2 to form the pattern generator 20. ), An adjustment pattern signal for adjusting the luminance of the cathode ray tube 30 is applied to the cathode ray tube 30.

Subsequently, in step S3, the luminance sensor 40, which is the on-screen data output from the cathode ray tube 30 in step S2, is sensed by the brightness sensor 40, and the flow proceeds to step S4 to the brightness sensor 40 in step S3. The analog data of the detected luminance value is converted into digital data of the voltage through the measuring device 50.

In step S5, the digital data of the voltage converted in step S4 is received by the microcomputer 10 and compared with the target data set in advance to determine whether or not the brightness of the cathode ray tube 30 is adjusted. If none (No), complete the adjustment. On the other hand, when the brightness adjustment of the cathode ray tube 30 is necessary (Yes) in step S5, the brightness value adjustment signal is output from the microcomputer 10 to the motor 60 in step S6, and the flow proceeds to step S7. The brightness value of the cathode ray tube 30 is changed while adjusting the motor 60 in accordance with the brightness value adjustment signal output in step S6, and then the operation of step S3 or less is repeated.

According to the luminance adjusting device and the luminance adjusting method of the cathode ray tube according to the present invention as described above, since the luminance data output from the cathode ray tube is automatically adjusted using a luminance sensor and a motor, uniformity of quality and Not only can the automation of the production line be achieved, but the precise brightness can be adjusted to increase the productivity.

Claims (4)

PLC for controlling the overall operation, microcomputer for inspecting and adjusting the brightness of cathode ray tube, pattern generator for outputting adjustment pattern signal for adjusting brightness of cathode ray tube, and screen output from the cathode ray tube A luminance sensor for sensing a luminance value of an image, a meter for receiving analog data of the luminance value detected by the luminance sensor, converting the digital data into voltage data, and outputting the digital data to the microcomputer; and a luminance value output from the microcomputer. Receiving an adjustment signal to adjust the volume of the adjustment of the cathode ray tube, the brightness adjustment device of the cathode ray tube, characterized in that consisting of a robot for moving the brightness sensor and the motor to a specified position. In the first step of setting the brightness sensor and the motor by a robot at a designated position, the second step of outputting an adjustment pattern signal for adjusting the brightness of the cathode ray tube in the pattern generator to the cathode ray tube, and in the second step A third step of sensing the luminance value on the screen output from the cathode ray tube of the luminance sensor, and converting analog data of the luminance value detected by the luminance sensor in the third step into digital data of the voltage in the measuring instrument. And a fifth step of receiving digital data of the voltage converted in the fourth step from a microcomputer and comparing the target data with a predetermined target data to determine whether to adjust the brightness of the cathode ray tube. How to adjust the brightness. According to claim 2, If the brightness of the cathode ray tube is required in the fifth step, the microcomputer outputs a brightness value adjustment signal to the motor to adjust the motor while converting the luminance value of the cathode ray tube, characterized in that How to adjust the brightness of cathode ray tube. The robot according to claim 1, wherein the PLC instructs the robot to move according to the coordinate values related to the operation of the robot stored in the robot, and receives the position completion signal from the robot when the robot is correctly positioned. And a sequence control signal for outputting a brightness adjustment command of the cathode ray tube and receiving a brightness adjustment completion signal from a microcomputer so as to return the robot to the origin.