KR19980047494U - Automatic Luminance Limiting Circuit in Monitors - Google Patents

Abstract

An automatic luminance limiting circuit is disclosed in a monitor. The automatic luminance limiting circuit includes a microcomputer 21 for outputting a contrast adjustment voltage according to a user's operation, an integrator 22 for converting a contrast adjustment voltage output from the microcomputer into an analog signal, and an analog signal output from the integrator. A monitor comprising a video preamplifier (23) input to an input terminal and a flyback transformer (12) for generating a high voltage and supplying it to the anode of a CRT, comprising: a diode (D21) having a positive terminal connected to the output terminal of the integrator; A diode (D22) whose negative terminal is connected to the ABL terminal of the flyback transformer; The base terminal is connected to the positive terminal of the diode D22, and is connected to a predetermined power supply voltage terminal through a capacitor C23 and a resistor R28 connected in parallel, and the emitter terminal is connected in series with two resistors ( It is grounded through R25 and R26 and connected to the negative terminal of the diode D21 through the resistor R26, and the collector terminal is connected to the transistor Q21 connected to the predetermined power supply voltage terminal through the resistor R29. It is composed. Therefore, if the anode current of the cathode ray tube (CRT) flows excessively, the contrast voltage supplied to the contrast voltage input terminal of the video preamplifier is reduced, so that the brightness of the screen is automatically within an appropriate range regardless of the variation of the anode current. You can limit it.

Description

Automatic Luminance Limiting Circuit in Monitors

The present invention relates to an automatic brightness limiting circuit of a monitor. In particular, when the anode current of a cathode ray tube (CRT) flows excessively, the contrast voltage supplied to the contrast voltage input terminal of a video preamplifier is reduced. An automatic brightness limiting circuit for the present invention.

In general, the CRT beam current (anode current) varies depending on the brightness of the screen. This is a load change from the point of view of the flyback transformer (FBT), and the high voltage of the FBT varies with the change of the beam current, and the screen size changes accordingly. In general, when the screen is dark and the beam current is small, the high pressure becomes high and accordingly the horizontal size becomes small. On the contrary, when the high voltage drops (that is, when the beam current increases and the screen is bright), the horizontal size becomes large.

That is, in the CRT, the size of the screen depends on the amount of deflection (the larger the deflection amount, the larger the screen, and the smaller the deflection amount, the smaller the screen). The deflection amount is approximately expressed by the following equation (1).

Here, 'B' is the magnitude of the magnetic field, which is proportional to the product of the number of turns of the deflection coil and the current (i _dy ) flowing in the coil, 'Is the length of the deflection coil, and' L 'is the distance from the deflection point to the fluorescent surface. 'Va' is also the anode voltage of the water tube.

When the voltage of the anode is constant in Equation 1, Since L and L are fixed constants, the amount of deflection varies according to 'B', and since the number of turns of the deflection coils also has a fixed constant value, the amount of deflection is usually determined according to the current i _dy flowing in the deflection coil. Therefore, in the horizontal and vertical deflection circuits, a sawtooth current is generated and flows through this deflection coil, thereby deflecting the beam to form a screen.

However, in practice, since the voltage of the anode changes, the amount of deflection changes according to the anode voltage. As shown in Equation 1, as the anode voltage increases, the amount of deflection decreases and the screen size decreases accordingly. As the voltage decreases, the amount of deflection increases and the screen increases.

On the other hand, the voltage (high voltage) of the anode of the CRT is expressed by the following equation (2).

Here, 'Va ₀ ' is the anode voltage when the anode current is '0', 'Rs' is the internal resistance of the CRT, and 'Ia' is the anode current.

Therefore, as the current Ia of the anode increases, the voltage Va of the anode decreases, and when the voltage Va of the anode decreases, the amount of deflection increases according to Equation 1, thereby increasing the size of the screen. On the contrary, as the current Ia of the anode decreases, the voltage Va of the anode increases, and as the voltage of the anode increases, the amount of deflection decreases according to Equation 1, thereby reducing the size of the screen.

However, since the current Ia of the anode increases when the brightness of the screen becomes bright, and decreases when the screen becomes dark, the size of the screen eventually changes according to the brightness of the screen. As the current increases, the size of the screen becomes larger, and when the screen becomes dark, the anode current decreases and the screen becomes smaller.

Therefore, it is required to prevent the size of the screen from changing according to the brightness of the screen. To this end, there is an automatic brightness limit (ABL) circuit for controlling the brightness of the screen by monitoring the anode current on the secondary side of the flyback transformer (FBT).

Referring to FIG. 1, the ABL circuit 13 is a circuit for preventing a large anode current from flowing when the luminance is abnormally high, thereby overloading the high-voltage generator circuit and destroying components. To this end, a change in the anode current is detected and fed back to the brightness control voltage or contrast control voltage to apply the ABL. That is, when the brightness increases and the anode current exceeds the threshold, the anode current is limited by lowering the contrast control voltage of the video preamplifier 14.

However, in the case of the automatic luminance limiting circuit, a transistor, an operational amplifier, and a plurality of passive elements are frequently used, which causes a complicated circuit.

Therefore, the present invention was devised to solve the above problems, and the circuit is simplified compared to the conventional one, and the contrast supplied to the contrast voltage input terminal of the video preamplifier is excessive when the anode current of the cathode ray tube (CRT) flows excessively. It is an object of the present invention to provide an automatic luminance limiting circuit for reducing a voltage.

In order to achieve the above object, the automatic luminance limiting circuit according to the present invention is an integrator, an integrator that converts an analog signal into an analog signal by integrating a contrast adjustment voltage output from a micom and a micom according to a user's operation. A monitor comprising a video preamplifier for inputting an output analog signal to a contrast voltage input terminal, and a flyback transformer for generating a high voltage and supplying it to a CRT anode, the monitor comprising: a first diode having a positive terminal connected to an output terminal of the integrator; A second diode having a negative terminal connected to the ABL terminal of the flyback transformer; The base terminal is connected to a predetermined power supply voltage terminal through a capacitor and a resistor connected in parallel while being connected to the positive terminal of the second diode, and the emitter terminal is grounded through two resistors connected in series to simultaneously Connected to the negative terminal of the first diode, and the collector terminal is composed of a transistor connected to the predetermined power supply voltage terminal through a resistor, and when the anode current of the CRT increases, the contrast voltage input terminal of the video preamplifier It characterized in that to reduce the voltage supplied to.

1 is a circuit diagram showing a conventional automatic luminance limiting circuit in a monitor;

2 is a circuit diagram illustrating an automatic luminance limiting circuit according to the present invention in a monitor.

* Explanation of symbols for main parts of the drawings

21: Micom 22: Integrator

23: video preamplifier 24: automatic luminance limit circuit

110: horizontal output unit 120: flyback transformer

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The microcomputer 21 outputs the contrast adjustment voltage according to the user's operation, the integrator 22 converts the contrast adjustment voltage output from the microcomputer into an analog signal, and inputs the analog signal output from the integrator to the contrast voltage input terminal. In the monitor equipped with the video preamplifier 23 and the flyback transformer 120 which generates a high voltage and supplies it to the anode of the CRT, the automatic luminance limiting circuit 24 according to the present invention has a large positive terminal integrator 22. Diode (D21) connected to the output terminal of the diode), a diode (D22) whose negative terminal is connected to the ABL terminal of the flyback transformer, and a base (C23) connected in parallel while the base terminal is connected to the positive terminal of the diode (D22). And the resistor R28 is connected to a predetermined power supply voltage terminal Vcc, and the emitter terminal is grounded through two resistors R25 and R26 connected in series, and at the same time, the resistor R26 is connected. The transistor terminal is connected to the negative terminal of the diode D21, and the collector terminal is composed of a transistor Q21 connected to a predetermined power supply voltage terminal through a resistor R29.

Referring to the operation of the present invention in detail based on the above configuration as follows.

First, a B + power supply voltage is applied to one end of the primary winding of the FBT 120 and a horizontal output unit 110 is connected to the other end. In addition, there are usually a plurality of secondary windings of the FBT 120. There are a secondary winding for generating a high voltage, a secondary winding for monitoring a high voltage induced in the secondary winding, and the like.

The horizontal output transistor of the horizontal output unit 110 is turned on or off by a horizontal drive signal (H.drive) according to the horizontal synchronous signal. When the horizontal output transistor is turned off, a high voltage is generated in the primary winding. Accordingly, the voltage according to the turns ratio is induced to the secondary winding to obtain a desired voltage on the secondary side.

Therefore, the high voltage (HV) applied to the anode of the CRT is used to rectify the voltage induced in the secondary winding of the FBT, and the high voltages (FOCUS, SCREEN) applied to the focus and screen grid of the CRT are also used for the secondary winding of the FBT. Is provided by

First, in the normal state, since the two diodes D21 and D22 are off, the automatic luminance limiting circuit 24 does not operate. Therefore, the contrast adjustment voltage output from the microcomputer 21 is converted into an analog signal by the integrator 22 and supplied to the contrast voltage input terminal CONT of the video preamplifier 23. At this time, the magnitude of the voltage supplied to the contrast voltage input terminal CONT of the video preamplifier 23 is about 0 to 5V.

On the other hand, when the anode current of the CRT flows excessively, the high voltage of the FBT 120 is lowered, and the voltage Va at the ABL terminal of the FBT 120 is also lowered. Therefore, since the diode D22 becomes conductive, the base current I ₁ of the transistor Q21 is lowered accordingly. This reduces the emitter current I _E of the transistor Q21 and lowers the emitter voltage. That is, since the voltage of the negative terminal of the diode D22 is lower than the voltage of the positive terminal, the diode D21 becomes conductive to reduce the voltage Vb supplied to the contrast voltage input terminal CONT of the video preamplifier 23. Let's go. Therefore, the brightness of the screen is automatically lowered.

As described above, according to the present invention, when the anode current of the cathode ray tube (CRT) flows excessively, the contrast voltage supplied to the contrast voltage input terminal of the video preamplifier is reduced, so that the screen is independent of the variation of the anode current. You can automatically limit the brightness of the light within the appropriate range.

Claims (1)

The microcomputer 21 outputs the contrast adjustment voltage according to the user's operation, the integrator 22 converts the contrast adjustment voltage output from the microcomputer into an analog signal, and inputs the analog signal output from the integrator to the contrast voltage input terminal. In the monitor provided with the video preamplifier 23 and the flyback transformer 120 which generate | occur | produces a high pressure and supplies it to the anode of a CRT, A diode (D21) having a positive terminal connected to the output terminal of the integrator; A diode (D22) whose negative terminal is connected to the ABL terminal of the flyback transformer; The base terminal is connected to the positive terminal of the diode D22, and is connected to a predetermined power supply voltage terminal through a capacitor C23 and a resistor R28 connected in parallel, and the emitter terminal is connected in series with two resistors ( It is grounded through R25 and R26 and connected to the negative terminal of the diode D21 through the resistor R26, and the collector terminal is connected to the transistor Q21 connected to the predetermined power supply voltage terminal through the resistor R29. Consist of, And the voltage supplied to the contrast voltage input terminal of the video preamplifier decreases when the anode current of the CRT increases.