KR19990013884U - Monitor brightness adjustment circuit - Google Patents

Abstract

The present invention relates to an automatic brightness limiting circuit (ABL: Automatic Brightness Control or ACL: Automatic Current Control) to prevent the screen from becoming too bright when the anode current is excessively increased in the monitor.

The present invention is an ABL circuit 210 for adjusting the brightness of the entire screen according to the magnitude of the anode current flowing through the CRT screen, the contrast control unit 220 to reflect the user-adjusted contrast size to the brightness control, A microcomputer 230 for outputting an ABL adjustment signal, a darlington transistor 240 for adjusting the ABL terminal voltage of the ABL circuit 210 according to the ABL control signal output from the microcomputer 230, and the darlington transistor It consists of a plurality of resistors R21, R22, R23 to protect 240.

Therefore, the present invention can automatically adjust the amount of ABL in the monitor using a microcomputer, thereby reducing the ABL adjustment time and maximizing the work efficiency of the operator.

Description

An apparatus for controlling brightness of a monitor

The present invention relates to an automatic brightness limiting circuit (ABL: Automatic Brightness Control or ACL: Automatic Current Control) to prevent the screen from becoming too bright when the anode current is excessively increased in the monitor.

In general, a cathode ray tube (CRT) focuses and accelerates hot electrons emitted from R, G and B electron guns, and then collides with R, G and B fluorescent surfaces through a point on a shadow mask to form pixels, and vertical and horizontal deflection coils. Sawtooth current flows to form a two-dimensional screen.

In order to operate the cathode ray tube (CRT), a heater voltage of about 6.3V is applied to the heater, and a focus grid voltage, a screen grid voltage, etc. are required for focusing the emitted hot electrons, and about the anode is accelerated. A high pressure of 20-30 KV is applied.

As the anode current increases in the cathode ray tube, the screen becomes bright. Accordingly, the size of the screen is changed, and the fluorescent plate of the CRT is easily aging due to excessive brightness, or the user's eyes are tired.

In order to solve the above problems, most monitors are equipped with an automatic luminance limiting circuit (ABL or ACL).

1 shows a brightness control circuit of a monitor equipped with a general automatic luminance limiting circuit (ABL circuit), which includes a DC-DC converter 100, an FBT 110, a horizontal output unit 120, and a horizontal driving unit ( 130, a video preamplifier 140, a video power amplifier (not shown), and an ABL circuit 160 and a contrast adjusting unit 170.

The ABL circuit 160 includes a resistor R1 connected in series to the ABL terminal of the FBT 110, a resistor R1 connected to a base, and a Vcc 12V connected to the emitter through a resistor R2. The transistor Q1, the resistor R2 connected to the emitter of the transistor Q1, the diode D1 and the capacitor C1 connected in parallel to the base of the resistor R2 and the transistor Q1, respectively. It is composed of In addition, the Vcc (80V) voltage is connected to the ABL terminal of the FBT 110 through the variable resistor VR, and this connection point is grounded through the capacitor C2.

The contrast adjusting unit 170 is connected to the other end of the resistor R3 and the comparator OP1 negatively feedbacked by the resistor R4, and the microcomputer 140 for outputting a contrast control signal according to the user's adjustment; The division resistors R5 and R6 for dividing the contrast control signal and applying them to the positive input terminal of the comparator OP1 and the output signal of the comparator OP1 to the contrast terminal CONT of the video preamplifier 150. The resistor R7 is applied.

In general, the ABL circuit is a circuit for preventing a large anode current flowing through the CRT screen and overloading the high-voltage generating circuit when the screen brightness is abnormally high, thereby destroying components.

For this purpose, ABL is applied by detecting the change of anode current and feeding back to the brightness control voltage or contrast control voltage. When the brightness of the screen increases and the anode current exceeds the threshold, the contrast control voltage of the video preamplifier 150 is lowered. Limit the current.

That is, the video preamplifier 150 amplifies and outputs the R, G, and B video signals input through the sub-connector according to the magnitude of the signal input through the contrast terminal CONT. Amplification with higher gain makes the video signal larger, and when the voltage at the contrast terminal is lowered, amplification with lower gain makes the video signal small.

Referring to the operation of the ABL circuit illustrated in FIG. 1, when the anode current increases and the voltage of the node A decreases, the transistor Q1 is turned on and the collector voltage of the transistor Q1 increases. When the collector voltage increases, the negative input signal of the comparator OP1 increases, so that the output signal of the comparator OP1 decreases.

When the low output signal of the comparator OP1 is applied to the contrast terminal CONT of the video preamplifier 150, the video preamplifier 150 amplifies the video signal with low amplification and then outputs it to the video power amplifier.

On the other hand, when the voltage of the node A is changed, the amount of ABL is adjusted. When the voltage of the node A is lowered, the transistor Q1 is turned on even if the anode current increases by a small amount, and when the voltage of the node A is increased, the anode current is increased. When the transistor Q1 is turned on to increase ABL, the voltage of the node A is lowered when the voltage of the variable resistor VR is increased.

That is, as described above, in order to adjust the amount of ABL, the prior art has a problem that the work efficiency is lowered and the operation time is lengthened because the variable resistor must be manually adjusted.

Accordingly, an object of the present invention is to provide a brightness adjustment circuit of a monitor that allows the ABL amount to be automatically adjusted by the microcomputer.

The brightness control circuit of the monitor according to the present invention for achieving the above object, the ABL circuit for adjusting the brightness of the entire screen according to the magnitude of the anode current flowing on the CRT screen, and the user-adjusted contrast is the brightness adjustment A brightness adjusting circuit of a monitor configured with a contrast adjusting unit for reflecting in a light source, the brightness adjusting circuit comprising: a microcomputer for outputting an ABL adjustment signal and a darlington transistor for adjusting the ABL terminal voltage of the ABL circuit according to the ABL control signal output from the microcomputer And characterized in that configured.

1 is a circuit diagram showing a brightness control circuit of a monitor according to the prior art,

2 is a circuit diagram illustrating a brightness control circuit of the monitor according to the present invention.

* Names of symbols for main parts of the drawings

100: DC-DC converter 110: FBT

120: horizontal output unit 130: horizontal drive unit

150: video preamplifier 210: ABL circuit

220: contrast adjustment unit 230: micom

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

2 is a circuit diagram illustrating a brightness control circuit of the monitor according to the present invention, which includes a DC-DC converter 100, an FBT 110, a horizontal output unit 120, a horizontal driver 130, and a video preamplifier ( 140), a video power amplifier 150 is provided, the ABL circuit 210 for adjusting the brightness of the entire screen according to the magnitude of the anode current flowing in the CRT screen, and the user-adjusted contrast size is reflected in the brightness adjustment Darlington transistor for adjusting the ABL terminal voltage of the ABL circuit 210 according to the contrast control unit 220, the microcomputer 230 for outputting the ABL adjustment signal, and the ABL control signal output from the microcomputer 230 And a plurality of resistors R21, R22, and R23 for protecting the Darlington transistor 240.

Referring to the operation and effects of the present invention configured as described above are as follows.

In general, when the luminance of the CRT screen is excessively increased above the threshold, the ABL circuit functions to limit the anode current by lowering the contrast control voltage of the video preamplifier 150. Thus, the ABL terminal of the FBT 110, that is, the anode Transistor Q1 is turned on when the voltage at node A is lower than the set value due to an increase in current.

When the transistor Q1 is turned on, the output signal of the comparator OP1 is decreased while the negative input signal of the comparator OP1 is increased, and the output signal of the comparator OP1 is the contrast terminal of the video preamplifier 150. When applied to the video preamplifier 150 amplifies the video signal with low amplification, the anode current is limited.

At this time, the microcomputer 230 can adjust the amount of ABL by varying the ABL control voltage. When the microcomputer 230 reduces the ABL control voltage, the voltage of the base of the darlington transistor 240 decreases while the emitter current increases. As a result, the ABL terminal voltage of the node A, that is, the FBT 110 is lowered.

However, when the ABL control voltage output from the microcomputer 230 increases, the emitter current decreases while the base voltage of the Darlington transistor 240 increases, and the ABL terminal voltage of the FBT 110 increases.

As described above, when the voltage of the node A decreases, the transistor Q1 is turned on even though only a small amount of the anode current flows, and thus the amount of ABL increases, and when the voltage of the node A increases, the anode current flows a lot. The amount of ABL decreases because is turned on.

On the other hand, the contrast monitor is attached to a conventional monitor in order to adjust the sharpness of the screen, the user to adjust the contrast when the user wants to see the screen clearly. At this time, the microcomputer 230 outputs a contrast control signal according to the user adjustment signal, and outputs a contrast control signal proportional to the contrast adjusted by the user.

That is, when the user adjusts the contrast greatly, the positive input signal of the comparator OP1 increases, and the output signal of the comparator OP1 increases in proportion to this and is applied to the contrast terminal of the video preamplifier 150 ( Since the output signal of OP1 is increased, the amplification degree of the video preamplifier 150 is increased, so that the anode current is increased by increasing the video signal.

As described above, the present invention can automatically adjust the amount of ABL in the monitor using a microcomputer, thereby reducing the ABL adjustment time and maximizing the work efficiency of the operator.

Claims (1)

In the brightness control circuit of the monitor consisting of an ABL circuit for adjusting the brightness of the entire screen according to the magnitude of the anode current flowing in the CRT screen, and a contrast adjusting unit for reflecting the contrast size adjusted by the user to the brightness control, A microcomputer to output the ABL adjustment signal, And a Darlington transistor configured to adjust an ABL terminal voltage of the ABL circuit according to an ABL adjustment signal output from the micom.