KR20000009164U - Monitor with auxiliary light - Google Patents

Abstract

The present invention relates to a monitor with an auxiliary lamp, the device of the present invention is attached to the front of the monitor to detect the brightness of the front of the monitor and outputs a voltage according to the brightness detection sensor 10; A microcomputer 20 for outputting a brightness control voltage having a level of 0-5 V in accordance with the brightness detection voltage; A current amplifying unit 30 for amplifying the current according to the brightness control voltage; An auxiliary lamp 40 attached to the front of the monitor, the brightness of which is varied according to the current supplied from the current amplifier 30; And a variable resistor (VR) for forcibly manipulating the brightness of the auxiliary lamp 40 from the outside, and when the brightness detection sensor detects the brightness around the monitor, the microcomputer outputs a control signal accordingly and is installed in the monitor. By automatically adjusting the brightness of the auxiliary light, the user can operate the monitor while maintaining the desired brightness without adjusting the screen brightness according to the variable state of the ambient brightness.

Description

A monitor with a sub-light

The present invention relates to a brightness control device of the monitor, and more particularly to a monitor provided with an auxiliary lighting lamp is installed to automatically adjust the brightness of the lighting lamp according to the brightness of the monitor by installing an auxiliary lighting lamp.

In general, the operator needs to adjust the brightness or contrast to adjust the brightness of the monitor. An ABL circuit is mainly used to adjust the brightness of the monitor. Here, the ABL (Automatic Brightness Limit) circuit refers to a circuit for preventing overload of the fly-back transformer of the monitor due to a large anode current to destroy components.

In general, as shown in FIG. 1, the ABL circuit detects a change in current of the flyback transformer 1, and when the average brightness is equal to or greater than the average brightness, lowers the brightness control voltage and feeds it back to the ABL terminal of the flyback transformer 1. As a result, the output voltage of the flyback transformer 1 supplied to the anode is reduced, so that the anode current is suppressed within an allowable value. The brightness control voltage is also supplied to the contrast terminal of the video preamplifier 2 so as to reduce the video signal size itself.

That is, the ABL circuit 3 is a current output to the flyback transformer (1) I ₁ When () increases, the amount of current discharged from the capacitor C1 increases, and the potential at the point (a) is lowered. (a) When the potential at the point is lowered, the current ( I ₃ ) Increases and current ( I ₄ ) Also increases, so that the brightness control current supplied to the contrast end of the video preamplifier 2 I _con As) increases, the contrast decreases and the screen darkens overall.

At this time, the current output to the flyback transformer (1) I ₁ If) decreases, the opposite is true.

In order to adjust the brightness of the monitor as described above, the monitor generally uses the ABL circuit 3, but there is a problem that the brightness of the monitor is different depending on the brightness of the surroundings in which the monitor is installed. In other words, even if the user sets the screen brightness to a constant level, the screen looks brighter when the brightness around the monitor is brighter, and the screen looks darker when the brightness of the surroundings is darker. There was a problem to be manipulated.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, by providing an auxiliary lamp to the monitor to provide a monitor with an auxiliary lamp is installed to automatically adjust the brightness of the lamp according to the brightness around the monitor. The purpose is.

A monitor equipped with an auxiliary lamp according to the present invention for achieving the above object,

A brightness detection sensor attached to the front of the monitor and configured to detect brightness around the monitor and output a voltage according thereto;

A microcomputer for outputting a brightness control voltage having a level of 0-5V in accordance with the brightness detection voltage;

A current amplifier for amplifying the current according to the brightness control voltage;

An auxiliary lamp attached to the front of the monitor, the brightness of which is varied according to the current supplied from the current amplifier; And

Characterized in that it consists of a variable resistor for forcibly manipulating the brightness of the auxiliary light from the outside.

1 is a circuit diagram showing a general ABL circuit,

2 is a circuit diagram showing a monitor equipped with an auxiliary lamp according to the present invention,

3 is a view showing the type and installation position of the auxiliary lighting according to the present invention.

* Names of symbols for main parts of the drawings

10: brightness detection sensor 20: micom

30: current amplifier 40: auxiliary lighting

VR: Variable resistance OP: Amplifier

Q1: NPN type first transistor Q2: PNP type second transistor

R 1,2,3,4,5,6: resistance

Hereinafter, an embodiment according to the present invention will be described with reference to the accompanying drawings.

2 is a circuit diagram illustrating a monitor installed with an auxiliary lamp according to the present invention.

As shown in FIG. 2, the apparatus of the present invention includes: a brightness detection sensor 10 attached to the front of the monitor to detect brightness of the front of the monitor and output a voltage according thereto; A microcomputer 20 for outputting a brightness control voltage having a level of 0-5 V in accordance with the brightness detection voltage; A current amplifying unit 30 for amplifying the current according to the brightness control voltage; An auxiliary lamp 40 attached to the front of the monitor, the brightness of which is varied according to the current supplied from the current amplifier 30; And a variable resistor VR for forcibly manipulating the brightness of the auxiliary lamp 40 from the outside.

The brightness detection sensor 10 is configured as a photo transistor in which the output current increases and decreases according to the irradiation amount of light, and supplies the output current to the microcomputer 20 through the resistor R1.

The current amplifier 30 further includes: an amplifier OP for amplifying the brightness control voltage input from the microcomputer 20 through the resistor R2; In order to supply sufficient current to the auxiliary lamp 40 according to the amplified brightness control voltage, an NPN type terminal in which a base end receives the amplified brightness control voltage through resistors R4 and R5 and the emitter end is grounded. 1 transistor Q1; And a PNP having a base terminal connected to the collector terminal of the first transistor Q1 through a resistor R6, the emitter terminal being supplied with a predetermined voltage Vcc, and the collector terminal being grounded through the auxiliary lamp 40. It consists of the type 2nd transistor Q2.

Looking at the operation and effects of the device according to the present invention configured as described above with reference to FIG.

3 is a view showing the type and installation position of the auxiliary lighting according to the present invention.

First, the phototransistor which is the main device of the present invention will be described. The phototransistor 10 is an element in which the output current increases or decreases according to the irradiation amount of light, and converts the irradiated light energy into electrical energy. That is, the output current increases when the irradiation amount of light is large, and the output current decreases when the irradiation amount of light is small.

For example, when the peripheral brightness of the monitor is dark, the irradiation amount of the photo transistor 10 decreases, so that the output current of the photo transistor 10 decreases.

The microcomputer 20 receives the brightness detection voltage from the photo transistor 10 through the resistor R1 and outputs a brightness control voltage that is already set according to the brightness detection voltage. That is, since the microcomputer 20 outputs a brightness control voltage inversely proportional to the magnitude of the brightness detection voltage, the lower the brightness detection voltage, the higher the brightness control voltage is output.

The high level brightness control voltage output from the microcomputer 20 is input to the amplifier OP of the current amplifier 30 and amplified and then amplified and then amplified by the resistors R4 and R5 of the NPN type first transistor Q1. It is input to the base end.

As the base current of the first transistor Q1 increases, the current flowing from the collector of the first transistor Q1 to the emitter increases.

At this time, since the base terminal of the PNP type second transistor Q2 is connected to the collector terminal of the first transistor Q1, the base current of the second transistor Q2 is decreased, so that the emi of the second transistor Q2 is reduced. The current flowing from the rotor to the collector increases.

Since the auxiliary lamp is connected between the collector terminal of the second transistor Q2 and the ground, the current supplied to the auxiliary lamp 40 increases as the current flowing from the emitter of the second transistor Q2 to the collector increases. The whole screen is brighter.

At this time, as shown in Figure 3 (a) may be attached to the upper side of the front of the monitor, as shown in Figure 3 (b) may be attached to the four corners of the front of the monitor, Figure 3 As shown in (c), it may be attached to the support 41 extending from the top of the monitor.

As described above, according to the present invention, when the brightness detection sensor detects the brightness of the surroundings of the monitor, the microcomputer outputs a control signal accordingly and automatically adjusts the brightness of the auxiliary lighting installed in the monitor so that the user may Therefore, there is an effect that it is possible to work on the monitor while maintaining the desired brightness without adjusting the screen brightness separately.

Claims (1)

A brightness detection sensor 10 attached to the front of the monitor to detect brightness of the front of the monitor and output a voltage according thereto; A microcomputer 20 for outputting a brightness control voltage having a level of 0-5 V in accordance with the brightness detection voltage; A current amplifying unit 30 for amplifying the current according to the brightness control voltage; An auxiliary lamp 40 attached to the front of the monitor, the brightness of which is varied according to the current supplied from the current amplifier 30; And Monitor equipped with an auxiliary lamp, characterized in that consisting of a variable resistor (VR) for forcibly manipulating the brightness of the auxiliary lamp (40) from the outside.