KR20010035724A - A horizontal drive circuit - Google Patents

Abstract

PURPOSE: A horizontal drive circuit is provided to perform a drive according to a mode by recognizing a step of a horizontal frequency and controlling a bias of the drive in a microprocessor. CONSTITUTION: The first switching transistor(Q1) transmits an oscillation output of a microprocessor to a base terminal through dividing resistors(R1,R2). The second switching transistor(Q2) divides a voltage provided to the collector terminal of the first switching transistor(Q1) into an operation voltage(Vcc1) through resistors(R3,R4) to receive the divided operation voltage(Vcc1) to a base terminal. An emitter terminal of the second switching transistor(Q2) is connected with a primary side of a transformer(T1). A resistor(R5) transmits a driving power(Vcc2) to a collector terminal of the second switching transistor(Q2). A resistor(R6) is connected with the resistor(R5) in parallel for dividing the driving power(Vcc2) and providing the divided voltage to the primary side of the transformer(T1). An FET(Q3) receives a voltage provided through the primary side of the transformer(T1) at a drain terminal and receives an oscillating signal from a horizontal oscillation circuit at a gate terminal for being switched.

Description

Horizontal drive circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly, to a horizontal drive circuit of a display device capable of performing an appropriate drive operation for each mode by controlling a bias power supply of a horizontal drive.

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 synchronization signal from the card 10 and the electron gun of the CRT 80 receiving the synchronization signal H_Sync / V_sync. The vertical deflection circuit 30 and the horizontal deflection circuit 30 execute horizontal and vertical deflection so that the electron beam is deflected from the upper left part to the lower right part of the CRT 80 by the deflection yoke (DY) to form an image like a photograph. Supplying a high voltage to the anode terminal of the CRT 80 by using a deflection circuit 40, a retrace pulse generated from the output terminal of the horizontal deflection circuit 40 using the principle of switching circuit and high voltage technology. High voltage circuit 50, a video preamplifier 60 for amplifying low image signals R, G, and B transmitted from the video card 10 by a low voltage amplifier, and maintaining a constant voltage level, and the video preamplifier 60. And amplified by a signal of 30V _PP ~ 40V _PP and a video main amplifier 70 supplying energy to each pixel of the cathode ray tube 80.

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 circuit is divided into electrostatic deflection using electric field and electromagnetic deflection using magnetic field. In the case of TV, the latter uses electronic deflection, and the screen is composed of a sawtooth current flowing through horizontal and vertical coils.

The general configuration of the horizontal deflection circuit 40 of these deflection circuits is shown in FIG. A horizontal oscillation circuit 41, which mainly uses 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 the 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 current through a deflection coil 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.

The horizontal drive conditions in conventional horizontal circuits are quite sensitive because they must scan all modes from 31㎑ to 100 일 uniformly, and sometimes the damage is severe when the deflection yoke is not sensitive. have.

An object of the present invention is to selectively drive a horizontal drive circuit for each display mode.

Another object of the present invention is to provide a stable high voltage drive circuit.

A characteristic of the horizontal drive circuit according to the present invention for achieving the object is that the first switching transistor is switched by receiving the oscillation signal provided from the microprocessor to the base end, and the voltage applied to the collector end of the first switching transistor The voltage is supplied to the drain terminal through the second switching transistor which is divided into the base terminal and whose emitter stage is connected to the primary side of the transformer, and the emitter stage of the second switching transistor and the primary side of the transformer are received. In other words, it consists of a field effect transistor which is switched by receiving the oscillation signal from the horizontal oscillation circuit.

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

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

3 is a circuit diagram showing the configuration of a horizontal drive circuit according to the present invention.

Hereinafter, the configuration and operation thereof according to the present invention will be described with reference to the accompanying drawings.

3 is a circuit diagram showing the configuration of a horizontal drive circuit according to the present invention. The first switching transistor Q1 receiving the oscillation output of the microprocessor through the voltage divider R1 and R2 and the voltage applied to the collector terminal of the first switching transistor Q1 are resistors R3 and R4. Is divided into the second terminal transistor Q2 and the collector terminal of the second switching transistor Q2 which are applied to the base terminal by dividing the operating voltage Vcc1 through A resistor R5 for transmitting the driving power source Vcc2, a resistor R6 connected in parallel with the resistor R5 to divide the driving power source Vcc2 and provide it to the primary side of the transformer T1; 2 Field effect that is supplied via the emitter stage of the switching transistor Q2 and the primary side of the transformer T1 to the drain stage and receives the oscillation signal from the horizontal oscillation circuit H-osc at the gate stage. Field Effect Transistors Is configured to include a quot;).

It is advantageous in each frequency characteristic to distribute the drain voltage Vcc of the FET Q3 by mode and by several steps. Then, the variation of the drain voltage Vcc is already determined by the resistor R1, and then the resistor R5 is determined by the value of R5 // R1.

The value of R5 // R1 is when transistor Q2 is turned on, and all of these operations are performed when transistor Q1 is turned off. Similarly, the trigger pulse in the microprocessor is at the low level.

In this case, the amount of drive required for the transformer T1 is selectively turned on / off by the microprocessor, so that the drain voltage Vcc of the FET Q3 is the selective drive voltage of the resistor R5 and the resistor R1. It can be divided into. In this way, the voltage of the drive can be changed to different voltages for each mode.

As described above, the present invention has the effect of performing a mode-specific drive by controlling the bias of the drive by recognizing the step of the horizontal frequency in the microprocessor.

Claims (1)

A first switching transistor switched by receiving an oscillation signal provided from a microprocessor to a base end; A second switching transistor which divides the voltage applied to the collector terminal of the first switching transistor and is applied to the base terminal and whose emitter terminal is connected to the primary side of the transformer; And a field effect transistor configured to receive a voltage provided through an emitter terminal of the second switching transistor and a primary side of a transformer to a drain terminal, and to receive and receive an oscillation signal from a horizontal oscillating circuit to a gate terminal. Horizontal drive circuit.