KR20010077522A - Purity compensation circuit of crt display - Google Patents

Abstract

PURPOSE: An image rotation correction circuit of a CRT display is provided to display a purity of image exactly by automatically correcting image rotation by detecting influence of an earth magnetic field varied according to the location of the CRT display. CONSTITUTION: An image rotation correction circuit of a CRT display includes an earth magnetic field detection signal generating part(10), a micro-controller(20), and an image rotation correction coil driver(30). The earth magnetic field detection signal generating part(10) detects a variation of an earth magnetic field through a variation of voltage induced at an image rotation coil. The micro-controller(20) converts an earth magnetic field detecting signal into a digital signal by receiving the earth magnetic field detecting signal from the earth magnetic field detection signal generating part(10), and performs an image rotation correction through a correction table including a predetermined set-up value by using the converted digital signal. By receiving a pulse width modulation signal for controlling a voltage induced at an image rotation correction coil from the micro-controller(20), the image rotation correction coil driver(30) outputs an amplified pulse width modulation signal to the image rotation correction coil(L2).

Description

PURITY COMPENSATION CIRCUIT OF CRT DISPLAY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a purity correction circuit of a display device. More particularly, the present invention relates to a purity correction circuit that automatically corrects a change in purity generated by a geomagnetic field in a display device using a cathode ray tube using its characteristics.

As is well known, display devices using Cathode Ray Tubes (CRTs) are affected by the Earth's magnetic field. The CRT display apparatus displays an image by deflecting an electron beam emitted from an electron gun. The electron beam is deflected by the electromagnetic field formed by the deflection coil, which is affected by the geomagnetic field, and consequently changes the landing position of the electron beam, resulting in image rotation. In order to correct image rotation caused by the influence of the geomagnetic field, a CRT display is produced in consideration of the geomagnetic characteristics of each region used, and an image rotation correction circuit that can be adjusted by a user is provided. The image rotation correction circuit changes the amount of current in the image rotation coil to perform image rotation correction. Recently, a technique for automatically correcting image rotation using a geomagnetic field characteristic has been provided.

On the other hand, the geomagnetic field also affects the purity of the CRT display. Unlike image rotation, the change in purity is very sensitive, and the change in purity is caused by minute changes in the geomagnetic field. This change in purity is difficult to manually adjust and correct.

Accordingly, an object of the present invention is to provide a purity correction circuit capable of automatically correcting a change in purity of a CRT display as proposed to solve the above-mentioned problems.

1 is a circuit diagram of a purity correction circuit according to a preferred embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: geomagnetic field detection signal generator 15, 25: filter

20: microcontroller 30: purity correction coil driver

According to a feature of the present invention for achieving the object of the present invention as described above, a purity correction circuit for a Cathode Ray Tube (CRT) display device includes: means for detecting a change in a geomagnetic field; Means connected to said earth magnetic field sensing means for generating a geomagnetic field detection signal when said earth magnetic field sensing means detects a change in the earth magnetic field; Means for receiving the geomagnetic field detection signal and generating a pulse modulated signal for purity correction in response to a geomagnetic field change; And means for accepting the pulse width modulated signal for purity correction and applying an induced voltage to the purity correction coil.

In this embodiment, the first smoothing means constituted between the geomagnetic field detection signal generating means and the pulse width modulated signal generating means and the second smoothing means constituted between the pulse width modulated signal generating means and the induced voltage applying means. It includes more.

In this embodiment, the pulse width modulation signal generating means comprises a microcontroller, the microcontroller including a purity correction table for adjusting the voltage to be induced in the purity correction coil in accordance with the change of the geomagnetic field.

(Example)

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

The purity correction circuit of the novel CRT display of the present invention automatically corrects the purity by changing the amount of current in the purity coil in accordance with the change of the geomagnetic field.

1 is a circuit diagram of a purity correction circuit according to a preferred embodiment of the present invention. Referring to FIG. 1, the purity correction circuit of the present invention drives a geomagnetic field detection signal generator 10 for detecting a change in geomagnetic field, a microcontroller 20 for controlling purity correction, and a purity correction coil L2. The purity correction coil driver 30 is comprised.

In the embodiment of the present invention, the detection of the change in the geomagnetic field of the geomagnetic field detection signal generator 10 utilizes the change in voltage induced in the image rotating coil. The geomagnetic field detection signal generator 10 includes a first amplifier OP1. The non-inverting input terminal of the first amplifier OP1 is connected to the image rotation coil L1 through the first resistor R1, and the inverting input terminal is connected to ground through the first zener diode ZD1. The output terminal and the non-inverting input terminal of the first amplifier OP1 are connected to the second resistor R2. The geomagnetic field detection signal generator 10 detects and amplifies a change in the voltage induced by the image rotation coil L1 and outputs it as a geomagnetic field detection signal.

The voltage induced in the image rotating coil L1 is changed under the influence of the geomagnetic field, and the geomagnetic field can be detected using this. In this embodiment, the image rotation coil L1 is used to detect the geomagnetic field, but a general sensor circuit for detecting the geomagnetic field can be used. The geomagnetic field detection signal output from the geomagnetic field detection signal generation unit 10 is controlled by a microcontroller through the first smoothing unit 15 including the third and fourth resistors R3 and R4 and the first capacitor C1. 20) to the analog / digital port (A / D).

The geomagnetic field detection signal input to the analog / digital port (A / D) of the microcontroller 20 is converted into a digital value. The microcontroller 20 converts the input of the geomagnetic field detection signal into a digital value and uses this to perform purity correction. The microcontroller 20 uses a correction table (not shown) built in purity correction. The calibration table contains current values for varying the induced voltage of the purity correction coil depending on the direction in which the CRT display is located. The microcontroller 20 outputs a pulse width modulation signal PWM for adjusting the voltage induced in the purity correction coil. The pulse width modulation signal PWM is input to the purity correction coil driver 30 through the second smoothing unit 25 including the fifth and sixth resistors R5 and R6 and the second capacitor C2.

The purity correction coil driver 30 has a second amplifier OP2. The pulse width modulation signal PWM is input to the non-inverting input terminal of the second amplifier OP2. The inverting input terminal of the second amplifier OP2 is connected to the ground through the second zener diode ZD2, and the output terminal is connected to the ground through the third capacitor C3. In the output terminal and the non-inverting input terminal, the seventh resistor R7 and the fourth capacitor C4 are connected in parallel. The second amplifier OP2 amplifies the input pulse width modulation signal PWM and inputs it to the purity correction coil L2.

In this way, the purity correction circuit of the present invention automatically corrects purity by adjusting the voltage induced in the purity correction coil when the CRT display is affected by the geomagnetic field according to the direction in which it is located.

In the above, the configuration and operation of the circuit according to the present invention are shown in accordance with the above description and drawings, but this is merely described, for example, and various changes and modifications are possible without departing from the spirit of the present invention. .

According to the present invention as described above, the purity of the image displayed on the screen is displayed accurately by automatically correcting the change in purity due to the influence of the geomagnetic field that changes according to the direction in which the CRT display is located.

Claims (3)

In purity correction circuit for CRT (Cathode Ray Tube) display device: Means for detecting a change in geomagnetic field; Means connected to said earth magnetic field sensing means for generating a geomagnetic field detection signal when said earth magnetic field sensing means detects a change in the earth magnetic field; Means for receiving the geomagnetic field detection signal and generating a pulse modulated signal for purity correction in response to a geomagnetic field change; And And means for accepting the pulse width modulated signal for purity correction and applying an induced voltage to the purity correction coil. The method of claim 1, A first smoothing means configured between said geomagnetic field detection signal generating means and a pulse width modulation signal generating means, and a second smoothing means configured between said pulse width modulation signal generating means and said induced voltage applying means. Purity correction circuit for CRT displays. The method of claim 1, The pulse width modulation signal generating means is composed of a microcontroller, the microcontroller includes a purity correction table for adjusting the voltage to be induced in the purity correction coil according to the change of the geomagnetic field for the CRT display Purity correction circuit.