KR200150478Y1 - Circuit for protecting horizontal deflection circuit in a display apparatus - Google Patents

Abstract

The present invention relates to a horizontal deflection circuit of a display device, wherein the PWM duty is output from the size controller to the horizontal output circuit through a current control stage for controlling the amount of current.

When abnormal PWM duty due to abnormal operation of the size controller is output, damage is caused to the horizontal output circuit. To prevent such damage, the size controller senses in advance before the abnormal PWM duty is applied to the current control stage. It is a horizontal deflection circuit of the display device with a horizontal output protection circuit to stop the operation of the size controller.

Description

Horizontal output protection circuit that controls the PWM duty of the display device.

The present invention relates to a display device, and more particularly, in a horizontal deflection circuit of a display device, before an abnormal PWM duty output from an abnormal size controller is applied to a horizontal output circuit through a current control stage that controls an amount of current. (SENSING) is a horizontal deflection circuit of the display device that can prevent the damage to the horizontal output transistor and other components of the horizontal output circuit by stopping the operation of the size controller using a switching operation of the silicon controlled rectifier (SCR).

The display device is a representative peripheral device of a computer that forms and displays an image so that a user can recognize a signal transmitted from the computer.

The basic configuration of the internal circuit will be briefly described with reference to FIG. 1.

As shown, a video card 10 mounted in a computer (not shown) for providing video signals R, G, B and horizontal / vertical synchronization signals H_Sync / V_Sync necessary for image formation, and the video. The microcomputer 20 generates a screen control signal for controlling the monitor screen by receiving the horizontal / vertical sync signal from the card 10, and receives the horizontal sync signal H_Sync and the vertical sync signal V_Sync, respectively, and receives the CRT ( The electron beam generated by the electron gun of 80) is deflected in order from the upper left to the lower right of the CRT 80 by deflection yoke (DY) to perform horizontal and vertical deflection so as to form an image like a picture. An anode of the CRT 80 using a deflection circuit 30 and a horizontal deflection circuit 40 and a retrace pulse generated from an output terminal of the horizontal deflection circuit 40 using the principle of switching circuitry and high voltage technology. Go to A high voltage circuit 50, a device for supplying a voltage, and a video preamplifier 60 that maintains a constant voltage level by amplifying low image signals R, G, and B transmitted from the video card 10 by a low voltage amplifier. And a video main amplifier 70 that amplifies the amplified signal through the video preamplifier 60 into a signal of 40V _PP to 60V _PP and supplies energy to each pixel.

In such a display device, an image is formed through an electron beam projected on a fluorescent surface, and a circuit for changing the deflection of the electron beam is called a deflection circuit.

Commonly, deflection circuits are classified into electrostatic deflections using electric fields and electronic deflections using magnetic fields. In the case of TVs, the latter, that is, electronic deflections, uses a sawtooth current through horizontal and vertical coils to form a screen.

The general configuration of the horizontal deflection circuit 40 among these deflection circuits is shown in FIG. 2. A horizontal oscillation circuit 41 mainly using a blocking oscillation circuit, and a single stage or two stage amplification using a transistor TR or a field effect transistor FET to turn on / off an output transistor of the horizontal output circuit 43. A horizontal drive circuit 42 for supplying sufficient base current and performing waveform correction, and a horizontal output circuit 43 for generating a sawtooth wave current through the deflection coil by using a switching operation of the transistor.

In addition, a horizontal size adjusting circuit 44 is connected to the horizontal output circuit 43 to maintain a constant size of the horizontal size of the display device at all times.

3 illustrates the configuration of the horizontal output circuit 43 and the horizontal size adjusting circuit 44 stage according to the related art in more detail. The configuration includes a microcomputer 20 for generating a horizontal size control signal, a size controller 44-1 for adjusting the horizontal size according to the control signal of the microcomputer 20, and an amount of current flowing in the choke coil of the horizontal output circuit. It consists of the current control stage 44-2 to control.

First, the current control stage 44-2 includes a resistor R1 for detecting an output signal of the size controller 44-1, a transformer T1 for inducing the output voltage at a later stage, and a transformer T1. It is composed of a field effect transistor (FET1) for controlling the amount of current supplied to the chopper coil (T2) of the horizontal output circuit by receiving the induced voltage to the gate terminal and the current flowing through the source terminal.

The operation of the conventional size control circuit having the above configuration will be described.

The on / off time of the field effect transistor FET1 connected to the secondary side of the transformer T1 is controlled according to the pulse width control signal output from the size controller 44-1.

The transistor FET1 is turned on during the on duty supplied from T1 and turned off during the off duty. Therefore, the chopper coil T2, which receives current through the source terminal of the transistor FET1, is charged in the ON period of the FET1 and discharged in the OFF period to generate a horizontal flyback pulse.

The compared pulse of the horizontal flyback pulse and the pulse applied to the base end of the horizontal output transistor Q3 in the horizontal drive 42 is displayed at the collector end of the horizontal output transistor Q2 and the The size indicates the horizontal phase size.

Therefore, when the PWM duty output from the size controller 44-1 is changed, the pulse applied to the collector terminal of the horizontal transistor Q2 is changed, thereby changing the horizontal phase size.

Therefore, when the PWM duty output from the size controller 44-1 is biased toward the MAX pulse due to a failure or abnormal state of a peripheral component, V _{PP applied} to the collector stage of the horizontal output transistor Q2 due to this pulse. Becomes quite large.

In the process, the high voltage is broken out of the basic value of the horizontal output transistor Q1, which causes the horizontal output transistor Q1 and other components of the horizontal output circuit to be damaged.

The present invention aims to prevent damage to horizontal output transistors and other components caused by abnormal PWM duty output due to an abnormal size controller.

In order to achieve the above object, a striking feature of the present invention is that the horizontal duty controller is configured to detect the abnormal PWM duty before the PWM duty output from the size controller is applied to the horizontal output circuit through the current control stage. It blocks the operation.

The specific configuration is as follows. A microcomputer for outputting a signal for controlling the horizontal size of the displayed image, a horizontal size controller for outputting a PWM duty for adjusting the amount of current flowing through the deflection coil of the horizontal output circuit according to the control signal of the microcomputer, and the horizontal size A horizontal deflection circuit comprising a current control stage for controlling the amount of current supplied from the controller to the choke coil of the horizontal output circuit, and a horizontal output circuit for generating sawtooth current through the damper diode and the deflection coil using the switching function of the transistor. The horizontal size adjustment circuit may include a horizontal output protection circuit which can be sensed in advance before the horizontal flyback pulse output from the horizontal size controller is applied to the switching element of the current control stage.

1 is a block diagram showing a schematic configuration of a general display device;

FIG. 2 is a block diagram illustrating the horizontal deflection circuit of FIG. 1 in detail;

3 is a horizontal size adjustment circuit according to the prior art,

4 is a block diagram of a horizontal deflection circuit applying the horizontal output protection circuit according to the present invention,

5 is a horizontal deflection circuit diagram according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the configuration of the present invention and its operation. 4 is a block diagram of a horizontal deflection circuit according to an application of the present invention.

First, unlike the block diagram of the horizontal deflection circuit according to the related art shown in FIG. 3, the horizontal output protection circuit 44-before the PWM duty output from the horizontal size controller 44-1 is applied to the current control stage 44-2. 3) is added to sense in advance.

The horizontal deflection circuit having the above configuration will be described with reference to the circuit diagram of FIG. 5.

First, the horizontal output protection circuit 44-3 includes a diode D2 for pre-sensing the PWM duty by the size controller 44-1 and converting it into a DC voltage through rectification, and a resistor for dividing the DC voltage. R5 and R6, a bypass capacitor C2 connected to the voltage dividing resistors R5 and R6, a Silicon Controlled Rectifer (TL431) for switching operation due to the divided DC voltage, and the SCR ( Due to the switching operation of the TL431, a PNP type transistor Q2 performs a switching operation of dropping the input voltage line of the PWM duty to LOW.

The operation of the size adjustment circuit having the horizontal output protection circuit having the above configuration will be described.

When the microcomputer 20 transmits the horizontal size control signal, the size controller 44-1 receives the horizontal size control signal and adjusts the horizontal size to transmit the PWM duty.

The PWM duty is applied to the resistor R1 of the current control terminal 44-2 so that an induced voltage due to the induction action of the transformer T1 is applied to the gate terminal of the field effect transistor FET1 so that the amount of current flowing through the source terminal. The amount of current supplied to the chopper coil T2 of the horizontal output circuit is adjusted.

At this time, before the PWM duty is applied to the current control stage 44-2, a horizontal output protection circuit 44-3 is added to rectify the PWM duty to a DC voltage through rectification of the diode D3, and the DC voltage The voltage divided by the voltage dividing resistors R5 and R6 is applied to the SCR TL431.

The SCR TL431 is designed to operate only when the reference voltage is 2.5V or higher. If the SCR TL431 is designed to obtain a horizontal size output of 50% duty in the initial design, the 50% duty is output. The voltage is rectified through the voltage dividing resistors R5 and R6 so that the value of the rectified duty to DC voltage is not 2.5V or more.

However, when the PWM duty output from the size controller 44-1 is output as a MAX pulse such that the transistor Q2 of the horizontal output circuit 43 is damaged due to a failure or abnormal state of a peripheral component, the horizontal output is output. The PWM duty is rectified to a high DC voltage through the diode D2 of the protection circuit 44-3, which operates the SCR TL431 having a reference voltage of 2.5V.

At this time, the cathode of the SCR TL431 is LOW and the PNP transistor Q2 that performs the switching operation is TURN ON to adjust the input voltage line for adjusting the output of the PWM duty of the size controller 44-1. Drop to LOW to prevent operation.

Therefore, when an abnormal PWM duty is output to the size controller 44-1, the horizontal output circuit and other components can be prevented from being damaged by blocking the operation of the size controller.

In the size controller, a PWM output high enough to damage the horizontal output transistors and other components of the horizontal output circuit is output and a horizontal output protection circuit is added to the front end of the power control unit before being applied to the power control unit to sense the PWM duty in advance. SENSING) The horizontal output protection circuit operates to prevent the transient voltage from flowing, thereby stopping the operation of the size controller to prevent abnormal PWM duty from being output, thereby preventing damage to the horizontal output transistors and other components of the horizontal output circuit. Have

Claims (4)

A microcomputer for outputting a signal for controlling the horizontal size of the displayed image; A horizontal output circuit which generates a sawtooth current through a damper diode and a deflection coil using a switching function of a transistor, A horizontal size controller for outputting a horizontal flyback pulse for adjusting an amount of current flowing through a deflection coil of a horizontal output circuit according to the control signal of the microcomputer; A current control stage for controlling an amount of current supplied from the horizontal size controller to the choke coil of the horizontal output circuit; A horizontal size adjustment circuit of a horizontal deflection circuit comprising a horizontal drive circuit for supplying a base current sufficient to turn on / off an output transistor of the horizontal output circuit and performing waveform correction, And a horizontal output protection circuit configured to sense a waveform output from the horizontal size controller to control an operation of the horizontal size controller when a waveform having a predetermined value or more is output. The method of claim 1, The horizontal output protection circuit includes a horizontal size control circuit of a display device including a silicon controlled rectifier (TL431) that operates only when a predetermined reference voltage or more. The method of claim 1, The horizontal output protection circuit is a diode for rectifying the waveform output from the horizontal size controller to a DC voltage; And a plurality of resistors for dividing the DC voltage rectified by the diode to a predetermined reference voltage. The method of claim 1, The horizontal output protection circuit is a horizontal size control circuit of the display device, characterized in that for controlling the operation of the horizontal size controller by a switching operation of a voltage of a predetermined reference or more applied through the SCR (Silicon Controlled Rectifer: TL431).