KR101770426B1 - Lamp driving apparatus - Google Patents

Abstract

According to the present invention, there is provided an analog-to-digital converter comprising: an AD converter for converting a voltage of an analog format outputted from a lamp string into a digital format voltage; a control unit for comparing a digital format voltage with a set reference voltage, And a comparator for comparing the voltage outputted from the lamp string with the voltage outputted from the lamp string to control a current flowing through the lamp string according to the comparison result.

Description

[0001] The present invention relates to a lamp driving apparatus,

The present invention relates to a lamp driving apparatus, and more particularly, to a lamp driving apparatus for driving a lamp used in a backlight of a liquid crystal display apparatus.

In general, the liquid crystal display device has been gradually widened due to features such as lightness, thinness, and low power consumption driving. The liquid crystal display device has been used for office automation equipment, audio / video equipment, etc. .

Since a liquid crystal display device can not emit light by itself, a separate light source called a backlight is required. As such a backlight, a light emitting diode (LED), a cold cathode fluorescent lamp (CCFL) And an external electrode fluorescent lamp (EEFL).

On the other hand, a drive circuit for driving a plurality of lamp strings is provided with a correction circuit for correcting a current deviation of a lamp string caused by a characteristic deviation of each component constituting the drive apparatus.

The correction circuit corrects the deviation of the current by controlling the switching operation of the switching element according to the magnitude of the output current by feeding back the current outputted from each lamp string.

However, since the drive apparatus adjusts the current based on the lamp string that feeds back the lowest current value among the plurality of lamp strings without individually controlling the current of the lamp string, the problem that the current deviation of each lamp string can not be completely compensated .

As a result, the luminance uniformity between the lamp strings is lowered.

The idea of the present invention is to provide a lamp driving apparatus which compensates a current deviation of each lamp by varying the magnitude of a reference voltage input to the switching element through comparison of a voltage fed back from each lamp and a reference voltage.

To this end, a lamp driving apparatus according to an embodiment of the present invention includes an A / D converting unit for converting an analog type voltage outputted from a lamp string into a digital type voltage; A control unit for comparing the voltage of the digital format and the set reference voltage with each other in a digital format and varying the reference voltage according to a comparison result; A register for storing the voltage of the digital format and receiving and storing a control signal including the set reference voltage from the controller; A DA converter for converting a reference voltage of a variable digital format into a reference voltage of an analog format; And a comparator for comparing the voltage of the analog format with the voltage output from the lamp string and adjusting the current flowing through the lamp string according to the comparison result, So as to compensate the current deviation of each lamp string.

As described above, according to the lamp driving apparatus of the embodiment of the present invention, by comparing the voltage fed back from each lamp and the reference voltage, the magnitude of the reference voltage input to the switching device is appropriately varied, Can be compensated for.

That is, since the reference voltage is set according to the current deviation of the lamp by using the voltage outputted from each lamp when the reference voltage is set during the initial driving of the lamp, the uniformity of luminance according to the current deviation of each lamp string can be improved .

1 is a circuit diagram of a lamp driving apparatus according to an embodiment of the present invention.
2 is a flowchart illustrating a process of controlling a lamp driving apparatus according to an exemplary embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a circuit diagram of a lamp driving apparatus according to an embodiment of the present invention.

1, the lamp driving apparatus 1 includes a control unit 100 and a driver unit 200. The driver unit 200 includes a communication unit 210, a register unit 220, An A / D conversion unit 230, a DA conversion unit 240, a comparison unit 250, and a switching unit 260.

The plurality of lamp strings 10a to 10n are arranged in parallel with each other and the lamps constituting the lamp strings 10a to 10n are classified into a cold cathode fluorescent lamp (CCFL), an external electrode fluorescent lamp : EEFL) HCFL (Hot Cathode Fluorescent Lamp: HCFL), and EIFL (External & Internal Electrode Fluorescent Lamp: EIFL).

These lamps include a glass tube, inert gases (Ar, Ne) filled in the glass tube, and electrodes provided at both ends of the glass tube, and the inner wall of the glass tube is coated with a phosphor.

The communication unit 210 is a means for communicating with the control unit 100 and receives a control signal transmitted from the control unit 100 or performs serial communication so that information stored in the register unit 220 can be transmitted to the control unit 100 .

The register unit 220 performs a read and write function and stores (records) the control signal transmitted for driving the lamp strings 10a to 10n in the control unit 100, (100).

The analog-to-digital (AD) converter 230 converts an analog voltage into a voltage of a digital format. The analog-to-digital converter 230 feeds back analog voltage signals output from the lamp strings 10a through 10n, (Hereinafter, referred to as a digital voltage), and transmits the converted digital format voltage to the register unit 220 and stores the voltage in the storage area of the register unit 200. [

In other words, the voltage of the analog format output from the lamp strings 10a to 10n is converted into a digital form and converted into data, and then the digital form is stored in the register unit 220 so that the controller 100 can use voltage data in digital form do.

The control unit 100 is a microcomputer that controls the lamp driving apparatus 1 as a whole. The control unit 100 compares the set reference voltage with the voltage of the digital format converted by the AD conversion unit 230, Lt; / RTI >

More specifically, when the lamp driving apparatus 1 is turned on to drive the plurality of lamp strings 10a to 10n, the control unit 100 transmits a control signal to the driver unit 200 The reference voltage is set to adjust the deviation of the current flowing in each of the lamp strings 10a to 10n and is transmitted to the driver 200 so that the current deviation of the lamp Compensation.

However, since the reference voltage is a value set at the time of initial driving (that is, a set value of the average current), the deviation of the current can not be compensated properly. Therefore, the controller 100 controls the reference voltage (240) and the voltage of the digital format converted by the A / D conversion unit (230).

If the reference voltage is greater than the voltage of the digital format, the controller 100 decreases the reference voltage by a predetermined voltage. If the reference voltage is smaller than the voltage of the digital format, To be compensated for.

In other words, since the control unit 100 can adjust the reference voltage according to the current deviation of the lamp using the voltage outputted from each lamp, it is possible to compensate the current deviation of each lamp string to improve the brightness uniformity.

The digital to analog (DA) conversion unit 240 converts the digital reference voltage received from the control unit 100 into a reference voltage of an analog format and applies the reference voltage to the comparison unit 250, thereby outputting the reference voltage from the lamp strings 10a to 10n To the voltage being applied.

In addition, the DA converter 240 transfers the analog voltage to the register unit 220 and stores the voltage in the storage area of the register unit 220.

The comparators 250a to 250n compare the converted analog reference voltage with the voltages output from the lamp strings 10a to 10n and output the comparison result as a pulse control signal.

More specifically, the comparison units 250a to 250n are operational amplifiers including first and second input terminals, and the reference voltage converted by the conversion unit 240 is applied to a first input terminal, which is one input terminal, And applies a voltage output from the lamp strings 10a to 10n to a second input terminal, which is another input terminal, to compare the magnitudes of the two voltages, thereby outputting a high or low pulse control signal.

The comparators 250a to 250n adjust the currents flowing through the lamp strings 10a to 10n by feeding back the output signals obtained by comparing the two applied voltages to the second input terminal.

The switching units 260a to 260n turn on or turn off according to the pulse control signals output from the comparators 250a to 250n to control the current flowing in the lamp strings 10a to 10n do.

Hereinafter, a process of controlling the lamp driving apparatus according to an embodiment of the present invention will be described.

2, when the lamp driving apparatus 1 is powered on, the control unit 100 controls the operation of the lamp driving apparatus 1 according to the embodiment of the present invention. Referring to FIG. 2, And transmits a control signal including a reference voltage to the register unit 220 of the driver unit 200 to drive the lamp strings 10a to 10n.

Next, the register unit 220 stores the reference voltage applied from the controller 100 (S200).

The A / D converter 230 detects the voltage of the analog format output from the lamp strings 10a to 10n (S210) and converts the analog voltage into a voltage of a digital format (S220) and then transfers the voltage to the register unit 220 do.

Then, the control unit 100 compares the set reference voltage with the voltage of the digital format stored in the register unit 220 (S230). If the reference voltage is equal to the digital format voltage (Yes in step 230) Go back to step 210 and repeat the steps below.

If the reference voltage is greater than the digital format voltage (Yes in step 240), the reference voltage is decreased by a predetermined voltage (S250).

In contrast, if the reference voltage is smaller than the digital format voltage (Yes in step 260), the control unit 100 increases the reference voltage by a predetermined voltage (S270).

As described above, the reference voltage is appropriately changed according to the output voltage of the lamp string, and the current deviation of the lamp string can be compensated by adjusting the switching operation of the switching unit.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

1 ... lamp driving device
100 ... control unit 200 ... driver unit
210 ... communication unit 220 ... register unit
230 ... AD conversion section 240 ... DA conversion section
250a to 250n ... comparing units 260a to 260n,

Claims (5)

A plurality of lamp strings connected in parallel; and a lamp driving device for driving the lamp strings,
The lamp driving device may further include a control signal generator for comparing a voltage of a digital format fed back from the lamp string with a set reference voltage to generate a control signal for driving the lamp string, A control unit for generating a control signal; And
And a driver unit for performing serial communication with the control unit and driving the plurality of lamp strings using a control signal including a reference voltage provided from the control unit,
Wherein the driver unit comprises: an A / D (A / D) converter for converting a voltage of an analog format output from the lamp string into a voltage of a digital format; A register unit receiving and storing a voltage of the digital format converted by the A / D conversion unit and a control signal including the variable reference voltage from the control unit; A communication unit for receiving the control signal transmitted from the control unit, storing the received control signal in the register unit, and transmitting the digital voltage information stored in the register unit to the control unit; A DA converter for converting a reference voltage of a variable digital format stored in the register unit into a reference voltage of an analog format; And a comparator for comparing a reference voltage of the analog format output from the DA converter with a voltage output from the lamp string and adjusting a current flowing through the lamp string according to the comparison result.
delete The method according to claim 1,
Wherein,
And compares a voltage of the digital format fed back from the lamp string with a set reference voltage and reduces the set reference voltage by a predetermined voltage if the set reference voltage is greater than the voltage of the digital format.
The method according to claim 1,
Wherein,
And compares the voltage of the digital format fed back from the lamp string with a set reference voltage and increases the reference voltage by a predetermined voltage when the set reference voltage is smaller than the voltage of the digital format.
The method according to claim 1,
Wherein,
An operational amplifier including first and second input terminals,
An analog-type reference voltage output from the DA converter is applied to the first input terminal,
Applying a voltage output from the lamp string to the second input terminal,
Compares the voltage applied to the first input terminal with the voltage applied to the second input terminal, and feeds back the comparison result to the second input terminal.

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