KR20000007302U - Degaussing Circuit - Google Patents

Abstract

The present invention relates to a degaussing circuit of the water pipe, the circuit of the present invention detects it at the time of power switch on or degaussing switch on and outputs a degaussing control signal; When the degaussing control signal is input, a degaussing coil installed around the water pipe through a position of a commercial AC voltage input from the outside ( L _D ), Wherein the degaussing circuit (20) is provided with a degaussing circuit (20) for supplying a demagnetizing circuit (20) for supplying element magnetization generated by a geomagnetic or external magnetism. L _D A resistor for varying the degaussing current flowing in the circuit; A peak voltage detector 30 for detecting a peak voltage of a commercial AC voltage input from the outside; A comparator 40 for comparing the detected peak voltage with a reference voltage and outputting a driving signal having a high or low level according to a comparison result; And a switching unit 50 which is switched on / off by the driving signal and connects the resistor in series or in parallel to the transistor, thereby providing a commercial AC voltage supplied from the outside. Depending on the size of the resistors, the degaussing coil ( L _D This always works by supplying a constant degaussing current to.

Description

A degaussing circuit in a CRT

The present invention relates to a degaussing circuit of a water pipe, and in particular, a degaussing current is always applied to a degaussing coil by connecting a resistor in series or in parallel according to the magnitude of a commercial AC voltage supplied from the outside. It relates to a degaussing circuit of a water pipe intended to be supplied.

In general, when the shadow mask or the attachment tool of the water pipe is magnetized due to the influence of geomagnetism or external magnetism, staining may occur on the screen. As described above, when any part of the water pipe is magnetized, color purity may appear. Falls out.

In addition, even if the color purity is well adjusted in the magnetized state, if the direction of the water pipe is changed, the color purity deteriorates due to the influence of residual magnetism. Therefore, the magnetized part of the shadow mask must be demagnetized.

At this time, removing the magnetism in the magnetized part is called degaussing (消磁).

In general, a degaussing element is used to demagnetize a water pipe. The degaussing coil is a coil group installed around the water pipe, and a degaussing coil is connected to a power circuit and a power switch or degaussing switch is used. Each time the same switching means is turned on / off, an alternating current flows through the degaussing coil so as to apply an alternating magnetic field on the shadow mask, thereby automatically demagnetizing the element.

FIG. 1 is a circuit diagram illustrating an example of a general degaussing circuit using a positive temperature characteristic thermistor (Posistor). Referring to FIG. 1, the operation of a general degaussing circuit will be described below.

When the user turns on the power switch or the degaussing switch, the microcomputer 1 detects this and outputs a high level degaussing control signal.

The high level degaussing control signal is applied to the base terminal of the NPN transistor Q1 through a resistor R1 to turn on the transistor Q1.

Since the transistor Q1 is turned on, one side of the relay RL1 coil is grounded. Therefore, a predetermined voltage 12V connected to the other side of the relay RL1 coil is applied to the relay RL1 coil. A magnetic field is formed, and the relay RL1 switch is turned on by the magnetic field.

As the relay RL1 is switched on, a commercial AC current flows through a desistoring coil (Posistor). L _D ), And an element is applied by applying an alternating magnetic field on the shadow mask.

In this case, the resistor is a thermosensitive resistor. Since the resistor has a characteristic that the resistance value gradually increases as the temperature increases, the resistor P1 initially has a small resistance value when the power switch SW is turned on. Degaussing coil L _D ), But a lot of current flows, but as time elapses, the temperature increases due to the current, and thus the resistance value of the transistor becomes larger. L _D The current flowing in the 감소 gradually decreases and eventually becomes zero.

Therefore, the degaussing coil ( L _D ), The attenuation current (degaussing current) is supplied for a certain time (typically 1 second), and the device is automatically formed.

However, as described above, the degaussing circuit of the conventional water tube uses a commercial AC current degaussing coil ( L _D ) By applying an alternating magnetic field on the shadow mask, and degassing coil ( L _D Power consumption increases because the amount of current flowing in the filter becomes larger than necessary, and conversely, when the commercial AC voltage is smaller than the rated voltage, the degaussing coil ( L _D Since the amount of the current flowing in the i) becomes less than necessary, there is a problem that the element on the shadow mask is not properly made.

Thus, the present invention was devised to solve the above problems, and the circuit of the present invention is always fixed to the degaussing coil by connecting a resistor in series or in parallel with a resistor according to the magnitude of a commercial AC voltage supplied from the outside. It is an object of the present invention to provide a degaussing circuit of a water tube adapted to supply degaussing current.

Degaussing circuit of the water pipe according to the present invention for achieving the above object,

A microcomputer that detects the power switch on or the degaussing switch on and outputs a degaussing control signal; When the degaussing control signal is input, the degaussing device supplies the commercial AC voltage inputted from the outside to the degaussing coils installed around the receiving pipe through a positioner, thereby demagnetizing the water pipe magnetization generated by geomagnetism or external magnetism. In the water pipe equipped with a Singh circuit,

A resistor for varying a degaussing current flowing through the degaussing coil;

A peak voltage detector for detecting a peak voltage of a commercial AC voltage input from the outside;

A comparator for comparing the detected peak voltage with a reference voltage and outputting a driving signal having a high or low level according to a comparison result; And

Switching on / off by the drive signal is characterized in that it further comprises a switching unit for connecting the resistor in series or parallel to the positive electrode.

1 is a circuit diagram showing a degaussing circuit of a general water pipe;

2 is a circuit diagram showing a first embodiment of the degaussing circuit of the water pipe according to the present invention;

3 is a circuit diagram showing a second embodiment of the degaussing circuit of the water pipe according to the present invention.

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

10: micom 20: degaussing circuit

30: peak voltage detector 40: comparator

50; Switching unit L _D Degaussing Coil

Posistor: Posistor Resistor: Resistance

RL1: Relay RL11: Switching Relay

Q1: transistor Q11: switching transistor

D 1,11 diode C 1,2,11,12 capacitor

R 1,11: resistance

Hereinafter, with reference to the accompanying drawings will be described in detail a first embodiment and a second embodiment according to the present invention.

2 is a circuit diagram showing a first embodiment of the degaussing circuit of the water pipe according to the present invention.

As shown in FIG. 2, the circuit of the present invention includes: a microcomputer 10 for detecting a power switch on or a degaussing switch on and outputting a degaussing control signal; When the degaussing control signal is input, a degaussing coil installed around the water pipe through a position of a commercial AC voltage input from the outside ( L _D ), Wherein the degaussing circuit (20) is provided with a degaussing circuit (20) for supplying a demagnetizing circuit (20) for supplying element magnetization generated by a geomagnetic or external magnetism. L _D A resistor connected in series with the posistor to vary the degaussing current flowing through the resistor; A peak voltage detector 30 for detecting a peak voltage of a commercial AC voltage input from the outside; A comparator 40 outputting a high level driving signal when the detected peak voltage is greater than a reference voltage; And a switching unit 50 connected in parallel to the resistor and connected to the resistor in series when the switch is turned off by the high level driving signal.

Here, the switching unit 50 has a base terminal supplied with a drive signal from the comparator 40, a collector terminal supplied with a predetermined voltage (12V), and an emitter terminal grounded, thereby driving a high level from the comparator 40. An NPN type switching transistor Q11 that is turned on when a signal is input; A coil is connected in series with the collector voltage supply line of the switching transistor Q11, a switch is connected in parallel with the resistor, and is switched off when the switching transistor Q11 is turned on so that the transistor is turned on. It consists of a switching relay RL11 that connects a resistor in series.

Subsequently, the circuit operation of the first embodiment according to the present invention configured as described above will be divided into a case where the commercial AC voltage is the rated voltage and the rated voltage or more.

1. When commercial AC voltage is rated voltage

The peak voltage detector 30 receiving the commercial AC voltage AC detects the peak voltage of the commercial AC voltage and outputs the peak voltage to the comparator 40.

At this time, since the detected peak voltage is smaller than the reference voltage, the comparator 40 outputs a low level driving signal to the base terminal of the switching transistor Q11.

Accordingly, the switching transistor Q11 is turned off so that no magnetic field is formed in the coil L11 of the switching relay RL11, so that the switch SW11 of the switching relay RL11 remains on.

On the other hand, when the microcomputer 10 outputs the high level degaussing control signal to demagnetize the water tube, the high level degaussing control signal is transmitted to the base terminal of the transistor Q1 through the resistor R1. Is applied to turn on the transistor Q1. As the transistor Q1 is turned on, an effect of grounding one of the relay RL1 coil L1 is grounded, so that a predetermined voltage 12V connected to the other side of the relay RL1 coil L1 is connected to the relay ( RL1 is applied to the coil L1 to form a magnetic field, and the relay RL1 switch SW1 is turned on by the magnetic field.

As the relay RL1 switch SW1 is turned on, the commercial alternating current is applied to the degaussing coil through only a transistor. L _D ), And an element is applied by applying an alternating magnetic field on the shadow mask.

2. When the commercial AC voltage is above the rated voltage

Since the peak voltage of the commercial AC voltage AC detected by the peak voltage detector 30 is greater than the reference voltage, the comparator 40 outputs a high level driving signal to the base terminal of the switching transistor Q11.

As a result, the switching transistor Q11 is turned on, so that one end of the coil L11 of the switching relay RL11 is grounded. Therefore, the switching transistor Q11 is connected to the other side of the coil L11 of the switching relay RL11. The voltage 12V is applied to the switching relay RL11 coil L11 to form a magnetic field, and the switch SW11 of the switching relay RL11 is turned off by the magnetic field.

As the switch SW11 of the switching relay RL11 is turned off, a resistor and a resistor are connected in series.

On the other hand, when the microcomputer 10 outputs a high level degaussing control signal for demagnetizing the water tube, the relay RL1 switch is turned on by the high level degaussing control signal.

As the relay RL1 is turned on, a degaussing coil may be formed through a resistor and a resistor in which commercial AC currents are connected in series. L _D ), And an element is applied by applying an alternating magnetic field on the shadow mask.

At this time, the amount of degaussing current is reduced by the transistors and resistors connected in series, thereby reducing the amount of magnetic elements.

That is, when the commercial AC voltage is above the rated voltage, the resistor is connected in series with the resistor to reduce the amount of degaussing current, so that the commercial AC voltage is at the rated voltage. It is equal to the amount of degaussing current flowing in the degaussing coil ( L _D Always supply constant degaussing current.

3 is a circuit diagram showing a second embodiment of the degaussing circuit of the water pipe according to the present invention.

As shown in FIG. 3, the circuit of the present invention includes: a microcomputer 10 for detecting a power switch on or a degaussing switch on and outputting a degaussing control signal; When the degaussing control signal is input, a degaussing coil installed around the water pipe through a position of a commercial AC voltage input from the outside ( L _D ), Wherein the degaussing circuit (20) is provided with a degaussing circuit (20) for supplying a demagnetizing circuit (20) for supplying element magnetization generated by a geomagnetic or external magnetism. L _D A resistor connected in parallel to the posistor to vary the degaussing current flowing through the transistor; A peak voltage detector 30 for detecting a peak voltage of a commercial AC voltage input from the outside; A comparator 40 for outputting a high level drive signal when the detected peak voltage is less than a reference voltage; And a switching unit 50 connected in series to the resistor and connected to the resistor in parallel when the switch is turned on by the high level driving signal.

Here, the switching unit 50 has a base terminal supplied with a drive signal from the comparator 40, a collector terminal supplied with a predetermined voltage (12V), and an emitter terminal grounded, thereby driving a high level from the comparator 40. A switching transistor Q11 that is turned on when a signal is input; A coil is connected in series with the collector voltage supply line of the switching transistor Q11, a switch is connected in series with the resistor, and is switched on when the switching transistor Q11 is turned on so that the transistor is turned on. It consists of a switching relay RL11 that connects a resistor in parallel.

Subsequently, the circuit operation of the second embodiment according to the present invention configured as described above will be divided into a case where the commercial AC voltage is a rated voltage and a case below the rated voltage.

1. When commercial AC voltage is rated voltage

The peak voltage detector 30 receiving the commercial AC voltage AC detects the peak voltage of the commercial AC voltage and outputs the peak voltage to the comparator 40.

At this time, since the detected peak voltage is greater than the reference voltage, the comparator 40 outputs a low level driving signal to the base terminal of the switching transistor Q11.

Accordingly, the switching transistor Q11 is turned off so that no magnetic field is formed in the coil L11 of the switching relay RL11, so that the switch SW11 of the switching relay RL11 remains off.

On the other hand, when the microcomputer 10 outputs the high level degaussing control signal to demagnetize the water tube, the high level degaussing control signal is transmitted to the base terminal of the transistor Q1 through the resistor R1. Is applied to turn on the transistor Q1. As the transistor Q1 is turned on, an effect of grounding one of the relay RL1 coil L1 is grounded, so that a predetermined voltage 12V connected to the other side of the relay RL1 coil L1 is connected to the relay ( RL1 is applied to the coil L1 to form a magnetic field, and the relay RL1 switch SW1 is turned on by the magnetic field.

As the relay RL1 switch SW1 is turned on, the commercial alternating current is applied to the degaussing coil through only a transistor. L _D ), And an element is applied by applying an alternating magnetic field on the shadow mask.

2. When commercial AC voltage is below rated voltage

Since the peak voltage of the commercial AC voltage AC detected by the peak voltage detector 30 is smaller than the reference voltage, the comparator 40 outputs a high level driving signal to the base terminal of the switching transistor Q11.

As a result, the switching transistor Q11 is turned on, so that one end of the coil L11 of the switching relay RL11 is grounded. Therefore, the switching transistor Q11 is connected to the other side of the coil L11 of the switching relay RL11. The voltage 12V is applied to the switching relay RL11 coil L11 to form a magnetic field, and the switch SW11 of the switching relay RL11 is turned on by the magnetic field.

As the switch SW11 of the switching relay RL11 is turned on, a posistor and a resistor are connected in parallel.

On the other hand, when the microcomputer 10 outputs a high level degaussing control signal for demagnetizing the water tube, the relay RL1 switch is turned on by the high level degaussing control signal.

As the relay RL1 is turned on, a degaussing coil is formed through a resistor and a resistor in which commercial AC currents are connected in parallel. L _D ), And an element is applied by applying an alternating magnetic field on the shadow mask.

At this time, the amount of the degaussing current is increased by the resistors and the resistors connected in parallel, thereby increasing the amount of magnetic field devices.

In other words, if the commercial AC voltage is lower than the rated voltage, the resistor is connected in parallel to the resistor to increase the amount of degaussing current, so that the commercial AC voltage is the rated voltage. It is equal to the amount of degaussing current flowing in the degaussing coil ( L _D Always supply constant degaussing current.

As described above, according to the present invention, a degaussing coil (a resistor) is connected in series or in parallel with a resistor according to the magnitude of a commercial AC voltage supplied from the outside. L _D This always works by supplying a constant degaussing current to.

Claims (1)

A microcomputer 10 which detects this when the power switch is turned on or the degaussing switch is turned on and outputs a degaussing control signal; When the degaussing control signal is input, a degaussing coil installed around the water pipe through a position of a commercial AC voltage input from the outside ( L _D In the water pipe provided with the degaussing circuit 20 for supplying the element to the magnetron by the geomagnetic or external magnetism, The degaussing coil ( L _D A resistor for varying the degaussing current flowing in the circuit; A peak voltage detector 30 for detecting a peak voltage of a commercial AC voltage input from the outside; A comparator 40 for comparing the detected peak voltage with a reference voltage and outputting a driving signal having a high or low level according to a comparison result; And The degaussing circuit of the water pipe is further configured to be switched on / off by the drive signal to further comprise a switching unit 50 for connecting the resistor in series or in parallel with the resistor (Posistor). .