KR19990037258U - Horizontal deflection circuit of display device - Google Patents

Abstract

The present invention relates to a display device, and more particularly, to a horizontal deflection circuit that operates stably by adjusting a voltage applied to a horizontal drive circuit according to an output signal of a microcomputer according to an input horizontal frequency.

A microcomputer that recognizes an input frequency and changes an output signal, a horizontal oscillation circuit mainly using a blocking oscillation circuit, a horizontal output circuit which generates a sawtooth current through a deflection coil using a switching operation of a transistor, and an amplifying switching element Horizontal drive circuit that supplies enough base current to drive the output transistor of horizontal output circuit, and driver control that automatically detects the horizontal frequency control signal of microcomputer and varies the drive voltage of horizontal drive transformer according to the state. It is configured to include a circuit to detect the horizontal frequency control signal output from the microcomputer and to adjust the voltage applied to the primary coil of the horizontal drive transformer based on this.

Description

Horizontal deflection circuit of display device

The present invention relates to a display device, and more particularly, to a horizontal deflection circuit that operates stably by adjusting a voltage applied to a horizontal drive circuit according to a horizontal frequency control signal.

A monitor is a representative display device of a computer as a display device for forming and displaying 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 in the drawing, the microcomputer 20 generates a control signal for controlling a monitor screen by receiving a color signal and a synchronization signal necessary for image formation from a video card 10 mounted in a computer, and a screen according to a user's intention. A control button unit 80 for outputting a control signal to the microcomputer 20 and a vertical 30 and horizontal deflection for receiving a synchronization signal from the microcomputer 20 to deflect the electron beam generated by the electron gun of the CRT 70. A high voltage circuit 50 for supplying a high voltage to the anode 71 of the CRT 70 by using a circuit 40, switching and high voltage technology, and video signals R, G, and And a video circuit 60 for amplifying B) to maintain a constant voltage level, and an OSD circuit 90 for displaying a screen control signal provided by the microcomputer 20 in OSD (On Screen Display) characters.

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 frequency control circuit 44 is connected to the horizontal output circuit 43 to maintain a constant level of the horizontal frequency of the display device at all times.

3 is a circuit diagram illustrating the horizontal driver and the horizontal output circuit shown in FIG. 2 in more detail. A horizontal drive circuit 42 comprising a horizontal drive transistor Q1 and a horizontal drive transformer (HDT), resistors R1, R2, and R3, and a capacitor C1 extending to the collector stage thereof, and a horizontal output; A horizontal output circuit 43 composed of a horizontal deflection yoke DY, a damping diode D1, and a capacitor C2 connected to the transistor Q2 and its collector stage is shown.

The main operation of the horizontal drive circuit 42 is to provide enough base current to turn on / off the horizontal output transistor Q2 by amplifying one or two stages using the drive transistor Q1, and It is to calibrate. The drive circuit type includes an in-phase (dynamic) drive system in which the output stage is on when the drive stage is on, and an inverse phase (reverse polarity) in which the output stage is off when the drive stage is on. There is a drive method, and the latter is used a lot. In this example, a circuit of an antiphase drive system is also shown.

The voltage driving the output can also be a pulse waveform, so if the horizontal oscillation output is large enough, the horizontal output transistor can be driven directly. However, when the output stage is used as the output load of the oscillation circuit directly, the drive stage is operated as a buffer amplifier (buffer) because the power is large and the oscillation frequency is likely to become unstable.

When the input frequency is changed in such a display device, a part or the whole of the screen is distorted. To solve and compensate for this problem, it is necessary to design a small change in the high pressure according to the change of the input frequency. While the adjustment of the frequency is improved, in the monitor without a separate correction for the horizontal phase frequency, the phase frequency change in the horizontal direction occurs as the entire image of the displayed screen changes as the input frequency changes.

The horizontal output transistor is also configured to allow collector pulses to drive less than 80% of the device. In terms of performance, it could not be displayed with sufficient driving conditions depending on the horizontal frequency input (31Hz to 69kHz). As a result, transients occur instantaneously during mode changes or power on / off. At this time, the horizontal output transistor Q2, peripheral elements, etc. may be damaged. Therefore, it is necessary to adjust the input by sensing the horizontal frequency.

The present invention is to solve this problem, and to detect the horizontal frequency control signal output from the microcomputer and to adjust the voltage provided to the primary side of the horizontal driver transformer according to the purpose to adjust the input condition of the horizontal output transistor It is done.

The present invention for achieving this purpose is to generate a sawtooth current through the deflection coil by using a microcomputer to change the output signal by recognizing the input frequency, a horizontal oscillator circuit mainly using a blocking oscillator circuit, and the switching operation of the transistor. A horizontal output circuit, a horizontal drive circuit for supplying a base current sufficient to drive an output transistor of the horizontal output circuit using an amplifying switching element, and a horizontal frequency control signal of the microcomputer to detect and adjust the horizontal drive transformer according to the state. Characterized in that it comprises a driver control circuit for automatically varying the drive voltage.

A detailed feature of the present invention includes a detector for detecting a horizontal frequency control signal output from the microcomputer and a voltage controller for adjusting a voltage provided to the primary side of the horizontal driver transformer according to the output signal of the detector.

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

2 is a block diagram schematically showing the configuration of the horizontal deflection circuit of FIG.

3 is a detailed circuit diagram of the horizontal drive circuit and the output circuit of FIG.

4 is a detailed circuit diagram of a horizontal deflection circuit 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 circuit diagram illustrating a horizontal deflection circuit according to the present invention. Unlike the conventional horizontal deflection circuit shown in FIG. 3, it can be seen that the driver control circuit 100 is included in the primary coil of the horizontal drive transformer H.D.T.

The driver adjusting circuit 100 detects a horizontal frequency control signal output from a microcomputer (not shown) and the primary side of the horizontal driver transformer HDT according to the output signal of the detection unit 101. It is composed of a voltage regulator 102 for adjusting the voltage provided.

The detection unit 101 includes a comparison amplifier U1 receiving a horizontal frequency adjustment value provided from the microcomputer and comparing the B ⁺ voltage to amplify the difference, and a plurality of resistors R6, R7, R8, and R9. The voltage adjusting unit 102 connects a resistor R6 for detecting the output voltage of the comparison amplifier U1, a transistor Q3 having a base connected to the detection resistor R6, and a collector terminal and an emitter terminal. Resistor R5.

The comparison amplifier U1 senses each voltage level when the upper limit MAX and the lower limit min of the horizontal frequency adjustment value are driven to drive the transistor Q3. At this time, the B ⁺ voltage of the waveform applied to the horizontal drive transformer (HDT) is automatically changed. Therefore, the input condition of the horizontal output transistor Q2 becomes adjustable.

As described above, the present invention has the effect of detecting the horizontal frequency control signal output from the microcomputer and adjusting the voltage applied to the primary coil of the horizontal drive transformer based on the horizontal frequency control signal.

Claims (3)

A horizontal deflection circuit of a display device; Microcomputer recognizes the input frequency and changes the output signal, A horizontal oscillating circuit mainly using a blocking oscillating circuit, A horizontal output circuit for generating a sawtooth current through the deflection coil using a switching operation of the transistor, A horizontal drive circuit for supplying a base current sufficient to drive an output transistor of the horizontal output circuit using an amplifying switching element; And a driver adjusting circuit which detects an output signal of the microcomputer according to a frequency and automatically varies the driving voltage of the horizontal drive transformer according to the state thereof. The method of claim 1; And the driver adjustment circuit is connected to the primary coil of the horizontal driver transformer. The driver control circuit may include a detector for detecting a horizontal frequency control signal output from the microcomputer; And a voltage adjusting unit for adjusting a voltage provided to the primary side of the horizontal driver transformer according to the output signal of the detecting unit.