KR101129952B1 - LED string driving apparatus - Google Patents

Abstract

The present invention provides a plurality of LED strings, a smoothing unit for smoothing a voltage output from each of the plurality of LED strings, a comparison unit for outputting a pulse control signal by comparing the smoothed output voltage with a set input voltage, and turning on according to the pulse control signal. Alternatively, the LED string driving apparatus may include a switching unit configured to control the current flowing through the LED string by turning off, thereby smoothly converting the voltage output from the LED string into a DC voltage, thereby driving the LED string normally.

Description

LED string driving apparatus

The present invention relates to an LED string driving device, and more particularly, to an LED string driving device for driving an LED string used for a backlight of a liquid crystal display device.

In general, liquid crystal display devices tend to be increasingly wider due to light weight, thinness, and low power consumption, and according to such trends, liquid crystal display devices are used in office automation equipment, audio / video equipment, and the like. .

The liquid crystal display does not emit light by itself, and thus requires a separate light source called a backlight. Such a backlight includes a light emitting diode (LED), a cold cathode fluorescent lamp (CCFL), External Electrode Fluorescent Lamps (EEFLs) are used.

Among these, in order to drive the LED string, the voltage output from the LED string is fed back to control the switching operation of the switching element according to the magnitude of the output voltage to control the desired current to flow in the LED string.

However, when the output voltage of the LED string input to the switching element is not constant in the conventional LED string driving device, since the abnormal control signal is output from the switching element, it is difficult to operate the LED string normally.

An object of the present invention is to provide an LED string driving device that can normally drive the LED string by smoothing the voltage output from the LED string to a DC voltage.

To this end, the LED string driving apparatus according to an embodiment of the present invention includes a plurality of LED strings, a smoothing unit for smoothing voltages output from each of the plurality of LED strings, and pulse control by comparing the smoothed output voltage with a set input voltage. Comparing unit for outputting a signal and a switching unit for controlling the current flowing in the LED string by turning on or off in accordance with the pulse control signal.

According to the LED string driving apparatus according to an embodiment of the present invention as described above, there is an advantage that the LED string can be normally driven by smoothing the voltage output from the LED string to a DC voltage.

That is, even in PWM dimming state, the voltage output from the LED string is smoothed and converted into a DC voltage, thereby preventing an abnormal operation from occurring in the LED string.

In addition, since the current flowing through each LED string is individually controlled, there is an advantage of minimizing the variation of the current flowing through the LED string.

1 is a circuit diagram of an LED string driving apparatus according to an embodiment of the present invention.
FIG. 2 is a timing diagram of an output voltage applied to the output resistance of FIG. 1.
3 is a timing diagram of an output voltage smoothed in the smoothing unit of FIG. 1.
4 is a timing diagram of a pulse control signal output from the comparator of FIG. 1.

The terms or words used in this specification and claims are not to be construed as being limited to their ordinary or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best describe their invention. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that 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 an LED string driving apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the LED string driving apparatus 100 includes a plurality of LED strings 110a to 110n, smoothing parts 120a to 120n, a comparator 130a to 130n, and a switching part 140a to 140n. It is configured to include.

The plurality of LED strings 110a to 110n are disposed in parallel with each other.

The smoothing parts 120a to 120n are means for smoothing the voltages output from the plurality of LED strings 110a to 110n and converting them into direct current voltages. The smoothing parts 120a to 120n include smoothing resistors 122a to 122n and smoothing capacitors 124a to 124n. do.

More specifically, one end of the LED strings 110a to 110n is connected to the switching unit 140a, and the output resistors E1 to En and 150a to the other end of the LED strings 110a to 110n and the ground GND. When the current is output from the LED strings 110a to 110n with the installed 150n), the output current is fed back to the smoothing resistors 122a to 122n and the smoothing capacitors 124a to 124n, and the voltage of the fed back current. Is converted into a DC level voltage through the smoothing resistors 122a through 122n and the smoothing capacitors 124a through 124n.

The converted DC voltage is input to the non-inverting terminal (+) of the comparators 130a to 130n.

The comparators 130a to 130n compare the smoothed DC voltage with an input voltage applied from the outside and output the result of the comparison as a pulse control signal.

In detail with respect to the comparison unit (130a ~ 130n), the comparison unit (130a ~ 130n) applies a smooth DC voltage to the non-inverting terminal (+), the input voltage (Vref) to the inverting terminal (-) do.

When the smoothed DC voltage is greater than the input voltage Vref by comparing the magnitudes of the two voltages, a pulse control signal of high (that is, binary "1") is output, and the smoothed DC voltage is the input voltage Vref. If not greater than), a pulse control signal of low (that is, binary " 0 ") is output.

In this case, the input voltage applied from the outside may be configured as a triangular waveform or a sawtooth waveform.

The switching units 140a to 140n turn on or turn off according to the pulse control signals output from the comparators 130a to 130n to control the current flowing through the LED strings 110a to 110n. do.

In more detail, the switching units 140a to 140n are turned on in a high section in which a pulse control signal output from the comparators 130a to 130n outputs a high pulse control signal. The turn-off operation is performed in the low section, which is a section in which the low pulse control signal is output.

When the switching units 140a to 140n are turned on, the power supply voltage Vled is turned into the LED strings 110a to 110n according to the turn on operation of the switching units 140a to 140n. It is supplied to control the driving of the LED string (110a ~ 110n).

Here, each voltage output from the LED strings 110a to 110n is a voltage obtained by subtracting a power voltage Vled by a product of a forward voltage Vf of the LED and the number of LEDs.

If this is expressed as an expression, each voltage output from the LED strings 110a to 110n = power supply voltage Vled-is expressed as (forward voltage of LED * number of LEDs).

On the other hand, if the magnitude of the current flowing through the LED string (110a ~ 110n), the duty ratio (duty ratio) of the pulse control signal output from the switching unit (140a ~ 140n) is reduced to less than the preset reference duty ratio switching unit 140a ~ By reducing the turn-on time of the 140n), a small current flows in the LED strings 110a to 110n.

On the contrary, when the magnitude of the current flowing through the LED strings 110a to 110n is small, the duty ratio of the pulse control signal output from the switching units 140a to 140n is increased to be greater than the preset duty ratio, thereby switching unit 140a. By adjusting the turn-on time of ˜140n), a large current flows in the LED strings 110a to 110n.

As described above, in order to adjust the current flowing in the LED strings 110a to 110n, the characteristics of the LED forward voltage Vf may be changed, and the values of the output resistances E1 to En and 150a to 150n may be changed. have.

2 is a timing diagram of an output voltage applied to the output resistor of FIG. 1, FIG. 3 is a timing diagram of an output voltage smoothed by the smoothing unit of FIG. 1, and FIG. 4 is a timing diagram of a pulse control signal output from the comparator of FIG. 1. Indicates.

If the voltage across the output resistors E1 to En, 150a to 150n, i.e., the output from the LED strings 110a to 110n, is an alternating voltage as shown in FIG. 3, it is converted to a DC voltage having a DC level (DC level).

As shown in FIG. 4, when the DC voltage is higher than the reference voltage Vref set to an average value such as F1 by comparing the DC voltage with an input voltage applied from the outside, the duty ratio of the pulse control signal By reducing the duty ratio to less than the preset reference duty ratio to reduce the turn-on time of the switching unit (140a ~ 140n) is adjusted so that a small current flows through the LED string (110a ~ 110n).

If the DC voltage is lower than the reference voltage Vref set to an average value such as F2, as shown in (b), the duty ratio of the pulse control signal is increased to be greater than the preset reference duty ratio, thereby switching units 140a to 140n. By increasing the turn on time of the LED string 110a to 110n is adjusted to allow a large current flow.

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.

100 ... LED string driver 110a to 110n ... LED string
120a to 120n ... smoothing section 122a to 122n ... smoothing resistance
124a ~ 124n ... Smoothing Capacitor 130a ~ 130n ... Comparative
140a ~ 140n ... switching part

Claims (6)

A plurality of LED strings;
A smoothing unit connected to an output terminal of the plurality of LED strings and outputting a DC voltage by smoothing voltages output from each of the plurality of LED strings;
A comparator for comparing the smoothed output voltage with a set input voltage and outputting a pulse control signal; And
A switching unit connected between an input power supply of the plurality of LED strings and each of the plurality of LED strings, the switching unit controlling a current flowing through each of the plurality of LED strings by turning on or off according to the pulse control signal; ,
And an output from each of the plurality of LED strings is fed back to an input terminal of each of the plurality of LED strings through the smoothing unit, the comparing unit and the switching unit.
The method of claim 1,
Wherein,
If the smoothed output voltage is greater than the input voltage, output a high pulse control signal,
And output a low pulse control signal when the smoothed output voltage is not greater than the input voltage.
The method of claim 1,
The voltage output from each of the plurality of LED strings,
LED string driving device is a voltage obtained by subtracting the forward voltage of the LED times the number of LEDs from the power supply voltage.
The method of claim 1,
The voltage output from each of the plurality of LED strings,
LED string driving device is variable according to the magnitude of the LED forward voltage.
The method of claim 1,
The duty ratio of the pulse control signal is,
And comparing the output voltage with a set reference voltage, and when the output voltage is greater than the reference voltage, the LED string driving device is set smaller than the set reference duty ratio.
The method of claim 1,
The duty ratio of the pulse control signal is,
And comparing the output voltage with a set reference voltage to set the output voltage to be greater than the set reference duty ratio when the output voltage is smaller than the reference voltage.

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