KR980010006U - Geomagnetic field automatic correction function TV - Google Patents

Abstract

The present invention relates to a television receiver, and more particularly, to a TV for an earth magnetic field automatic correction function that automatically detects and partially corrects a magnetic field generated on a CRT. The magnetic field sensor detects a magnetic field on a CRT and generates a magnetic field. The microprocessor judges whether the current flows through the element coil and executes the element to prevent deterioration of image quality due to magnetization due to a change in TV direction.

Description

Geomagnetic field automatic correction function TV

The present invention relates to a television receiver (hereinafter referred to as a TV), and more particularly, to a geomagnetic field automatic correction function TV that detects and automatically corrects a magnetic field partially generated in a CRT.

In general, when a shadow mask or a cabinet of a TV is magnetized due to geomagnetism or disturbed magnetism, the electron beam is bent to deteriorate color purity. In addition, even if the color purity is well adjusted in the magnetized state, if the direction of the TV is changed, the color purity deteriorates due to the influence of residual magnetism, and thus the residual magnetic field must be erased.

Therefore, in the early TV, the external magnetic field applied to the AC magnetic field was gradually reduced to eliminate the magnetism. Currently, the attenuated vibration current is increased every time the power switch is turned "on / off" by constructing a device circuit as shown in FIG. It flows and becomes an element automatically.

Referring to the operation of a conventional TV element circuit, when the power switch SW1 is turned "on", the resistance value of the transistor (PR1) is initially small, so that it is alternating with the degaussing coil (DG COIL) installed around the CRT. Although a lot of current flows, as time elapses, the temperature increases due to the current of i, and thus the resistance value gradually increases, and the current of the element coil gradually decreases, and eventually becomes "0".

Therefore, the attenuated vibration flows in the device coil and generates an alternating magnetic field, so that the molecular magnets existing as residual magnets in the shadow mask and other fittings are disturbed and scattered to lose magnetic.

Since the TV using the device circuit implements the device only when the power switch is "on / off", the electrons are misdoted due to the magnetic field generated in part or the whole of the shadow mask due to the change of the TV direction during TV viewing. There was a problem that the image quality deteriorates.

In order to solve the above problems, the microprocessor receives information about the magnetic field from the magnetic force detectors installed in the upper and lower parts of the shadow mask, and controls the element unit when the magnetic field is generated to reduce the image quality due to magnetization during TV viewing. The purpose is to provide a TV with a geomagnetic correction function to prevent.

1 is a device circuit of a conventional TV

2a and 2b are block diagrams and flowcharts according to an embodiment of the present invention.

3a and 3b are a block diagram and a flowchart according to another embodiment of the present invention

4 is a state diagram of the installation of the magnetic force sensor according to an embodiment of the present invention

5 is a circuit diagram of the TV device unit of the present invention

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

10, 20: magnetic sensor A, B 30: microprocessor 40: element

41: relay SW1, 2: power switch PR1 to 3: position

D / G COIL1, 2: Element coil Q1: Transistor

According to an exemplary embodiment of the present invention for achieving the above object, as shown in FIG. 2A, a magnetic force sensor A, B (10) (20), and the magnetic force sensor for detecting a magnetic field of a CRT in a typical TV, When the magnetic field detectors A and B (10) 20 receive information on the magnetic field and the values of the magnetic field detectors A and B (10) 20 are different from each other, it is determined that the magnetic field is partially generated. The microprocessor 30 outputs to the unit 40, and the element unit 40 for performing the element under the control of the microprocessor 40 is characterized by.

In addition, as shown in FIG. 5, the device unit 40 is connected to the transistor Q1 whose "on / off" is controlled by the microprocessor 30 and the "on / off" of the transistor Q1. The relay 41 is operated, and a transistor PR3 for supplying current to the element coil DG COIL2 when the relay 41 is operated.

According to another embodiment of the present invention, as shown in FIG. 3A, the configuration includes all of the above-described FIG. 2A, and further includes a direction sensor 50 for detecting a change in TV direction.

In addition, the microprocessor 30 uses the information on the magnetic field and the change of direction of the magnetic force detectors A, B (10) 20 and the direction sensor 50, the control signal for implementing the element in the magnetic field change or direction change element It characterized in that it comprises a function to output to the unit (40).

The operation of the present invention having the configuration as described above will be described with reference to FIGS.

First, the operation according to an embodiment of the present invention having the configuration as shown in FIG. 2a will be described with reference to the flowchart of FIG. 2b.

Magnetic sensor A and B (10) (20) is installed above and below the shadow mask of the CRT as shown in Figure 4 detects the magnetic field on the CRT and transmits it to the microprocessor (30).

The microprocessor 30 compares the values transmitted from the magnetic force detectors A and B (10) and 20 and if the values of the magnetic force detectors A (10) and the magnetic force detector (B) 20 are the same, there is no change in the magnetic field on the CRT. If the values of the two magnetic force detectors are different from each other, it is determined that a magnetic field is partially generated, and the device unit 40 outputs a control signal for performing the device to the device unit 40 for a predetermined time.

Accordingly, an operation process of the device unit 40 will be described.

In the initial device process of "ON" of the power switch (SW2), since the resistance value of the transistor (PR2) is initially small, a large amount of AC current flows in the device coil (DG COIL2) installed around the CRT. As the temperature increases, the resistance value gradually increases, so that the current of the element coil DG COIL2 gradually decreases, and eventually becomes "0" to implement the element.

However, when a magnetic field is generated due to a change in TV direction or the like while watching TV, the device is implemented by a control signal output from the microprocessor 30.

That is, when the microprocessor 30 outputs a control signal (“high”) informing the device to be performed for a certain period of time to the transistor Q1, the transistor Q1 is “on” and the relay 41 is “on” in association with the transistor Q1. " do.

Accordingly, the device coil DG COIL2 installed around the CRT flows current through the resistor PR3 again, and as time passes, the device coil is driven by the resistor PR3, which becomes high in temperature due to the current. The current of the (DG COIL2) is gradually reduced and eventually becomes " 0 " to implement the device.

The transistor Q1 is " on " for a predetermined time by the control signal of the microprocessor 30, and then " off " again, so that the relay 41 is also " off "

Meanwhile, an operation according to another embodiment of the present invention having the configuration as shown in FIG. 3a will be described with reference to the flowchart of FIG. 3b.

The magnetic force detectors A and B 10 and 20 detect a magnetic field on the CRT and transmit the magnetic field to the microprocessor 30, and the direction sensor 50 transmits information about the TV direction to the microprocessor 30.

The microprocessor 30 first determines whether there is a change in the TV direction by using the information of the direction sensor 50, and implements an element if there is a change in direction, and if there is no change in direction, the magnetic force detectors A and B (10) (20). If the values of the magnetic sensor A (10) and the magnetic sensor B (20) are the same, the magnetic field does not change on the CRT, so the device is not implemented. If the values of the two magnetic sensors are different, the magnetic field is partially generated. It is determined that the control unit for the device implementation for a predetermined time to the device unit 40 to perform the device.

Therefore, the device is implemented when there is a change in the direction of the TV or when the magnetic field is partially or entirely generated.

As described above, the present invention has an effect of automatically reducing the partial or totally generated magnetic field due to the change of direction while watching TV, thereby reducing the inconvenience of adjusting the color purity deteriorated due to magnetization and preventing the image quality from being lowered.

The present invention has been described only with respect to the two embodiments of the geomagnetic field automatic correction TV as described in the claims, but is not limited to this and those skilled in the art will be possible in various applications and modifications.

Claims (3)

In a TV, magnetic field sensors A and B (10) and (20) 20 detecting magnetic fields of a CRT and magnetic field changes are received from magnetic field sensors A and B (10 and 20) to determine magnetic field changes. A geomagnetic field automatic correction function, comprising a microprocessor (30) for outputting a control signal to the element unit (40), and an element unit (40) for performing an element under control of the microprocessor (40). TV. The method of claim 1, further comprising a direction sensor (50) for detecting a change in TV direction, wherein the microprocessor (30) includes magnetic fields of the magnetic force detectors A, B (10) 20, and the direction sensor (50). And a magnetic field auto-correction function TV comprising a function of outputting a control signal to the element unit 40 to perform the element in the magnetic field change or the direction change by using the information on the direction change. 3. The device portion (4) according to claim 1 or 2, wherein the element portion (40) is connected to a transistor (Q1) whose " on / off " is controlled by the microprocessor (30) and " on / off " of the transistor (Q1). And a relay (PR3) for supplying current to the element coil (DG COIL2) when the relay (41) is operated. ※ Note: This is to be disclosed based on the first application.