KR100594891B1 - Forward dimming control circuit of inverter - Google Patents

Abstract

The present invention relates to a forward dimming control circuit of an inverter, and more particularly, an amplifier for outputting a voltage corresponding to a dimming control signal through a dimming control signal input terminal, and adding a voltage output from the amplifier to a reference voltage. Next, a division resistor for dividing the added voltage, a voltage divided from the distribution resistor, a voltage fed back from the cold cathode tube, and an added dimming voltage are inputted through a current control feedback terminal to determine the input voltage of the cold cathode tube. An inverter including a driving IC for controlling brightness, the amplifier being provided between the dimming control signal input terminal and the non-inverting terminal of the amplifier, the amplifier being switched according to the voltage level of the dimming control signal input from the dimming control signal input terminal. The level of the signal input to the It characterized in that it comprises a forward dimming control circuit for controlling the level of the output voltage of the amplifier. Accordingly, according to the present invention configured as described above, the circuit is provided by providing an inverter capable of adjusting the dimming direction in which the brightness is minimum when the voltage level of the dimming control signal is 0V and the brightness is maximum when the voltage level of the dimming control signal is 5V. You can widen your choices.

Inverter, Dimming, Forward, Reverse, Transistor

Description

FORWARD DIMMING CONTROL CIRCUIT OF INVERTER}

1 is a block diagram schematically showing the configuration of a reverse dimming control circuit of a conventional inverter.

2 is a block diagram schematically showing the configuration of a forward dimming control circuit of an inverter according to the present invention.

<Description of the symbols for the main parts of the drawings>

11: amplifier 12: drive IC

100: forward dimming control circuit R1 to R4, R10 to R50: resistance

Q10: transistor

The present invention relates to an inverter, and more particularly, to a forward dimming control circuit of an inverter that allows the dimming direction of the inverter to be selected as necessary in the forward or reverse direction using a linear region of the transistor.

In general, a monitor such as an LCD monitor, a TFT LCD monitor, or the like is provided with an inverter using a booster winding transformer for turning on a cold cathode tube.

Among these inverters, a dimming control circuit for controlling the brightness of an analog system is configured as shown in FIG. 1.

Referring to the configuration and operation of the dimming control circuit for controlling the brightness of the analog method with reference to Figure 1, when the dimming control signal (Vbr) is input to the non-inverting terminal (+) of the amplifier 11 through the dimming control signal input terminal, The amplifier 11 outputs a voltage corresponding to the input dimming control signal Vbr. Here, since the amplifier 11 functions as a voltage buffer, the dimming control signal Vbr and the output voltage levels of the amplifier 11 are equal to each other.

The voltage output from the amplifier 11 is divided with the reference voltage Vc through the distribution resistors R1, R2, and R3, and then added with the voltage fed back from the cold cathode tube (not shown), and the added voltage is The dimming voltage Vdim is input to the current control feedback terminal of the driving IC 12. Here, since the current control feedback terminal of the driving IC 12 is generally given 1.1 to 3 V, the dimming control signal Vbr is a voltage input to the current control feedback terminal of the driving IC 12 using the reference voltage Vc. Do the voltage distribution so that it falls within the range of.

In this case, the level of the dimming voltage Vdim, which is divided by voltage, is expressed by Equation 1 below.

On the other hand, when the voltage level of the dimming control signal Vbr is 0V, the level of the dimming voltage Vdim becomes 1.1V. When the voltage level of the dimming control signal Vbr is 5V, the level of the dimming voltage Vdim is 3V. Adjust the resistance values of R1, R2, and R3 so that they can be adjusted. Here, the brightness is the maximum when the voltage input to the current control feedback terminal of the driving IC 12 is 1.1V, and the minimum when the voltage is 3V.

However, the conventional dimming control circuit of the inverter has the maximum brightness when the voltage input to the current control feedback terminal of the driving IC is 1.1V, the minimum when 3V, that is, the maximum brightness when the voltage level of the dimming control signal is 0V. Since the dimming control signal has a voltage level of 5V, only the reverse dimming control method in which the brightness is minimum can be controlled, thereby limiting the selection range of the circuit.

Accordingly, an object of the present invention is to solve the above problems, and the dimming control method in which the brightness is minimum when the voltage level of the dimming control signal is 0V and the brightness is maximum when the voltage level of the dimming control signal is 5V. By providing this possible inverter, it is possible to expand the circuit selection.

Features of the present invention for achieving the above object,

 An amplifier for outputting a voltage corresponding thereto when a dimming control signal is input through a dimming control signal input terminal; a divider resistor that adds a voltage output from the amplifier to a reference voltage and divides the added voltage; An inverter comprising a driving IC configured to receive a supplied voltage, a voltage fed back from a cold cathode tube, and an added dimming voltage through a current control feedback terminal to control brightness of the cold cathode tube according to a magnitude of an input voltage.

The output of the amplifier is provided between the dimming control signal input terminal and the non-inverting terminal of the amplifier, and is switched according to the voltage level of the dimming control signal input from the dimming control signal input terminal to vary the level of the signal input to the amplifier. And a forward dimming control circuit for controlling the level of the voltage.

Here, the forward dimming control circuit,

A transistor having a base connected to the dimming control signal input terminal, a collector connected to a constant voltage supply terminal applying a constant voltage, and an emitter grounded to ground;

And a plurality of resistors connected between the dimming control signal input terminal and the base of the transistor and between the constant voltage supply terminal and the collector of the transistor.

Hereinafter, the configuration of the forward dimming control circuit of the inverter according to the present invention will be described in detail with reference to FIG. 2. In FIG. 2, the same parts as those of the conventional inverter shown in FIG. 1 are given the same reference numerals as in FIG.

2 is a block diagram schematically illustrating a configuration of a forward dimming control circuit of an inverter according to the present invention.

2, the forward dimming control circuit 100 of the inverter according to the present invention is provided between the dimming control signal input terminal and the non-inverting terminal (+) of the amplifier 11, the dimming input from the dimming control signal input terminal The base is connected to the dimming control signal input terminal to control the level of the output voltage of the amplifier 11 by varying the level of the signal input to the amplifier 11 by switching according to the voltage level of the control signal Vbr, and the constant voltage Vcc The transistor is connected to a constant voltage supply terminal to which is applied and the emitter is grounded to ground, between the dimming control signal input terminal and the base of the transistor Q10 and between the constant voltage supply terminal and the collector of the transistor Q10. It consists of a plurality of resistors R10 to R14 connected. Here, the constant voltage supply terminal is supplied with a constant voltage of 5V.

Hereinafter, referring to FIG. 2, the operation of the forward dimming control circuit of the inverter according to the present invention will be described. First, the transistor Q10 is linearly operated by using the following equations for the resistance values of the resistors R10, R20, and R30. Adjust to operate in the range (0.5 ~ 0.7V).

In this state, when the dimming control signal Vbr of 0 V is input to the base of the transistor Q10 through the dimming control signal input terminal, the voltage of 5 V of the constant voltage supply terminal is maintained because the transistor Q10 is kept in the off state. It is input to the non-inverting terminal (+) of the amplifier 11 through R40 and R50.

When a voltage of 5 V is input through the non-inverting terminal (+) through the resistors R40 and R50, the amplifier 11 outputs a voltage having a magnitude corresponding to the input voltage.

The voltage output from the amplifier 11 is divided with the reference voltage Vc through the distribution resistors R1, R2, and R3, and then is added to the voltage fed back from the cold cathode tube, and the dimming voltage, which is the added voltage, Vdim) is input to the current control feedback terminal of the driver IC 12. Then, the voltage of the current control feedback terminal of the driver IC 12 is near 3V, whereby the brightness is kept to a minimum.

In this state, when the dimming control signal Vbr gradually increases to be input to the base of the transistor Q10, the transistor Q10 is turned off because the transistor Q10 is kept in the off state.

When the transistor Q10 is turned on, the voltage between the collector and the emitter of the transistor Q10 is input to the non-inverting terminal + of the amplifier 11. This is inversely proportional to the voltage of the dimming control signal Vbr. When the voltage between the collector of the transistor Q10 and the emitter is input to the non-inverting terminal (+) of the amplifier 11 and the voltage of the dimming control signal Vbr becomes 5V, the transistor is turned on completely and the driving IC The voltage at the current control feedback terminal of (12) is near 1.1V, thereby keeping the brightness at its maximum.

In addition, when only the forward dimming control circuit 100 is opened in the inverter to which the present invention is applied, and the dimming control signal Vbr is directly connected to the non-inverting terminal (+) of the amplifier 11, the dimming control can be adjusted in the reverse direction as in the prior art. do.

Therefore, if the voltage of the dimming control signal is 0V, the brightness is kept to a minimum. If the voltage of the dimming control signal is 5V, the brightness is to be kept to the maximum, the dimming can be adjusted in the forward direction and dimming can be adjusted in the reverse direction. have.

As described above, according to the forward dimming control circuit of the inverter according to the present invention, the brightness is the minimum when the voltage level of the dimming control signal is 0V, the brightness is the maximum when the voltage level of the dimming control signal is 5V By providing an adjustable inverter, the choice of the circuit can be expanded.

Claims (2)

An amplifier for outputting a voltage corresponding thereto when a dimming control signal is input through a dimming control signal input terminal; a divider resistor that adds a voltage output from the amplifier to a reference voltage and divides the added voltage; An inverter comprising a driving IC configured to receive a supplied voltage, a voltage fed back from a cold cathode tube, and an added dimming voltage through a current control feedback terminal to control brightness of the cold cathode tube according to a magnitude of an input voltage. The output of the amplifier is provided between the dimming control signal input terminal and the non-inverting terminal of the amplifier, and is switched according to the voltage level of the dimming control signal input from the dimming control signal input terminal to vary the level of the signal input to the amplifier. And a forward dimming control circuit for controlling the level of the voltage. The method of claim 1, The forward dimming voltage circuit, A transistor having a base connected to the dimming control signal input terminal, a collector connected to a constant voltage supply terminal applying a constant voltage, and an emitter grounded to ground; And a plurality of resistors connected between the dimming control signal input terminal and the base of the transistor and between the constant voltage supply terminal and the collector of the transistor.

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