KR20010005318A - Apparatus for controlling as to initial driving voltage of invertor lamp - Google Patents

Abstract

The present invention relates to an initial drive voltage control device for an inverter lamp that detects an output side voltage of a transformer for supplying a drive voltage to an inverter lamp to control the initial drive voltage of the inverter lamp. In the initial drive voltage control device of the inverter lamp having a transformer to induce the vehicle side and the inverter lamp to be driven by the voltage output from the transformer, the secondary output of the transformer is detected through the control unit, and to the inverter lamp according to the detected voltage By controlling the supplied driving voltage, it is possible to compensate the driving voltage error of the inverter lamp due to the deviation and loss of the transformer.

Description

{Apparatus for controlling as to initial driving voltage of invertor lamp}

The present invention relates to the control of the initial drive voltage of the inverter lamp for driving CCFL, in particular the initial drive voltage of the inverter lamp to detect the output voltage of the transformer for supplying the drive voltage to the inverter lamp to control the initial drive voltage of the inverter lamp It relates to a control device.

In general, in order to maintain a constant initial drive voltage of the CCFL driving inverter lamp, by measuring the primary side voltage of the transformer for supplying the drive voltage to the inverter lamp, and adjusts the primary side voltage of the transformer according to the measurement result Constant control of the initial drive voltage of the inverter lamp.

1 is a block diagram illustrating an exemplary embodiment of an initial driving voltage control apparatus for a conventional inverter lamp.

As shown, a switch 1 for switching the input voltage VCC and a transformer 2 for receiving the voltage through the switch 1 to the primary side and inducing the primary input voltage to the secondary side for output. ), The inverter lamp 3 driven by the output voltage of the transformer 2, and the primary side voltage of the transformer 2 are measured, and the primary side voltage of the transformer 2 is measured according to the measurement result. The controller 4 is configured to control and adjust the voltage of the output side of the transformer 2.

In the initial drive voltage control device of the conventional CCFL driving inverter lamp configured as described above, the switch 1 operates under the control of the control unit 4 to supply the input voltage VCC to the transformer 2.

Then, the transformer 2 supplies the driving voltage to the inverter lamp 3 by inducing the voltage input to the primary side to the secondary side, and the inverter lamp 3 is driven by the driving voltage.

Here, in order to initially control the driving voltage supplied to the inverter lamp 3, the control unit 4 detects the primary side input voltage of the transformer 2 by using a resistor, and according to the detection result, the transformer 2 By adjusting the primary side voltage of), the secondary output voltage of the transformer 2, that is, the driving voltage of the inverter lamp 3 is adjusted.

However, the initial drive voltage control device of the conventional inverter lamp detects the primary input voltage of the transformer with a resistor and adjusts the drive voltage of the inverter lamp by adjusting the primary side voltage of the transformer in order to adjust the initial drive voltage of the inverter lamp. However, this is often caused by variations in the transformer (transmission) and loss (loss), it was difficult to accurately adjust the drive voltage of the inverter lamp.

An object of the present invention for solving the problems of the prior art has been proposed in order to solve the general problems occurring in the initial drive voltage control device of the conventional inverter lamp, the output voltage of the transformer for supplying the driving voltage to the inverter lamp It is to provide an initial drive voltage control device of the inverter lamp to detect and control the initial drive voltage of the inverter lamp.

1 is a block diagram showing an embodiment of an initial driving voltage control device of a conventional CCFL driving inverter lamp;

Figure 2 is a block diagram showing an embodiment of the initial drive voltage control device of the CCFL drive inverter lamp according to the present invention.

<Explanation of symbols for main parts of drawing>

1: switch 2: transformer

3: inverter lamp 4,5 control part

A feature of the present invention for achieving the above object is an initial drive voltage control device for an inverter lamp having a transformer for inducing an input voltage to the secondary side and an inverter lamp for driving with the voltage output from the transformer: A control unit for detecting a secondary side output of the control unit and adjusting a driving voltage supplied to the inverter lamp according to the detected voltage, wherein the control unit detects the secondary output voltage of the transformer using a pad PAD of a PCB. There is.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention according to the technical spirit as described above in detail.

2 is a block diagram showing an embodiment of an initial driving voltage control apparatus for an inverter lamp according to the present invention.

Here, the switch 1 for switching the input voltage (VCC), a transformer (2) for receiving the voltage through the switch (1) to the primary side and induces the primary input voltage to the secondary side, and the transformer (2) The configuration of the inverter lamp 3 driving with the voltage output from the same as that of the initial drive voltage control device of the conventional inverter lamp of FIG.

The present invention comprises a controller 5 which detects the secondary output of the transformer 2 and adjusts the drive voltage supplied to the inverter lamp 3 in accordance with the detected voltage.

In addition, the controller 5 detects the secondary output voltage of the transformer 2 by using the pad PAD of the PCB.

In the initial drive voltage control device of the inverter lamp according to the present invention configured as described above, the drive voltage VCC is first supplied by the switch 1.

When the driving voltage is supplied as described above, the transformer 2 receives this to the primary side, and induces the voltage input to the primary side to the secondary side and outputs the driving voltage of the inverter lamp 3.

At this time, the controller 5 detects the secondary output voltage of the transformer 2 and adjusts the driving voltage supplied to the inverter lamp 3 according to the detected voltage.

Here, the controller 5 forms a PCB pattern and senses the voltage induced in the transformer 2 by using the principle of a capacitor. That is, the secondary output voltage of the transformer 2 is sensed using the PAD of the PCB.

By detecting the secondary output voltage of the transformer (2) in this way to control the initial drive voltage of the inverter lamp (3), it is possible to compensate for the deviation of the drive voltage of the inverter lamp (3) due to the deviation of the transformer (2) or loss. have.

While the invention has been shown and described in connection with specific embodiments thereof, it will be appreciated that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

According to the present invention described above, by controlling the initial drive voltage of the inverter lamp by sensing the secondary output voltage of the transformer, there is an effect that can compensate the error of the drive voltage of the inverter lamp due to the deviation or loss of the transformer. .

Claims (2)

In the initial drive voltage control device of the inverter lamp having a transformer for inducing the input voltage to the secondary side, and an inverter lamp for driving the voltage output from the transformer: And a control unit for detecting a secondary output of the transformer and controlling a driving voltage supplied to the inverter lamp in accordance with the detected voltage. The method of claim 1, The control unit uses the pad of the PCB (PAD) and the initial drive voltage control device of the inverter lamp, characterized in that for detecting the secondary output voltage of the transformer using the principle of the capacitor.