KR101718302B1 - Adaptive led driving circuit and driving method therefor - Google Patents

Abstract

An adaptive LED driving circuit according to the present invention is a circuit for driving an LED element on / off (ON / OFF). The circuit includes an output for storing an output voltage value output from one end of the LED element A voltage storage unit; And an output voltage setting unit for setting an output voltage output from one end of the LED element using a voltage value stored by the output voltage storage unit.
According to the adaptive LED driving circuit and the driving method of the present invention, the output voltage outputted from one end of the LED element of the previous stage is stored, and the output voltage value of the LED element The output voltage output from one end can be restored and the amount of charge charged in the parasitic capacitor can be discharged. In addition, according to the present invention, it is possible to reduce variations in the time until the LED element emits light irrespective of the voltage of the LED element and the parasitic capacitor in the board, thereby improving the uniformity of the LED display.

Description

[0001] Description [0002] ADAPTIVE LED DRIVING CIRCUIT AND DRIVING METHOD THEREFOR [0003]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adaptive LED driving circuit and a driving method thereof, and more particularly to an adaptive LED driving circuit capable of improving the uniformity of an LED element constituting a display using an LED element, .

In a typical LED display, the pixel pitch is large and the driving current is several tens of mA. However, as the demand for fine pitch in LED displays increases, there is an increasing need to drive the LED driving circuit up to a low current level of several mA or less, thereby increasing the uniformity of the LED element, An efficient driving method is required.

 In the case of an LED display, the on-voltage (VF) level differs not only from the color of the elements constituting the display, that is, the RGB pixel, but also from the deviation. In addition, a parasitic capacitor in parallel with the LED element and a parasitic capacitor due to the PCB pattern exist. When the LED element is in the OFF state, the parasitic capacitors store the voltage by the difference of VF, Is different by the deviation of the VF per pixel.

Accordingly, when the driving current level is several tens of mA, the current flowing through the parasitic capacitor is relatively small. However, at the level of the driving current of 1 mA or less, the specific gravity of the current flowing in the parasitic capacitor becomes large, and the overall uniformity .

Korean Patent Laid-Open Publication No. 10-2011-0052406 (May 18, 2011): Driving Circuit and Method of Light Emitting Diode Korean Patent Laid-Open No. 10-2008-0050877 (Jun. 10, 2008): Liquid crystal display device and driving method thereof

An object of the present invention is to solve the technical problem as described above, and it is an object of the present invention to provide a method of controlling an LED device in which an output voltage outputted from one end of an LED element of a previous stage is stored, The present invention provides an adaptive LED driving circuit capable of restoring an output voltage output from one end of an LED element and discharging a charge amount charged in a parasitic capacitor, and a driving method thereof.

In addition, the present invention can reduce variations in time until the LED element emits light irrespective of the voltage of the LED element and the deviation of the parasitic capacitor in the board, thereby improving the uniformity of the LED display. And a driving method thereof.

An LED driving circuit for ON / OFF-driving an LED element according to the present invention includes an output voltage storage unit for storing an output voltage value output from one end of the LED element in a period in which the LED element is turned on; And an output voltage setting unit for setting an output voltage output from one end of the LED element using the voltage value stored by the output voltage storage unit.

Specifically, it is preferable to store an output voltage value output from one end of the LED element in a section in which the LED element is turned on by using a pulse signal that is enabled for a predetermined time before the LED element is turned off. The output voltage setting unit may set an output voltage output from one end of the LED element to the stored voltage value by using a pulse signal that is enabled for a predetermined time before the LED element is turned on do. According to the output voltage setting of the output voltage setting unit, the charge stored in the parasitic capacitor formed at the output voltage terminal output from one end of the LED element is discharged.

A method of driving an LED using a circuit for on / off driving an LED element according to the present invention includes the steps of: (a) storing an output voltage value output from one end of the LED element during a period in which the LED element is turned on; ; And (b) setting an output voltage output from one end of the LED element using the voltage value stored in the step (a).

Specifically, in the step (a), an output voltage value output from one end of the LED element in an interval in which the LED element is turned on is calculated by using a pulse signal that is enabled for a predetermined time before the LED element is turned off . Further, in the step (b), an output voltage outputted from one end of the LED element is set to the stored voltage value by using a pulse signal which is enabled for a predetermined time before the LED element is turned on . The output voltage setting in the step (b) discharges the charge charged in the parasitic capacitor formed at the output voltage terminal output from one end of the LED element.

According to the adaptive LED driving circuit and the driving method of the present invention, the output voltage outputted from one end of the LED element of the previous stage is stored, and the output voltage value of the LED element The output voltage output from one end can be restored and the amount of charge charged in the parasitic capacitor can be discharged.

In addition, according to the present invention, it is possible to reduce variations in time until the LED element emits light irrespective of the voltage of the LED element and the deviation of the parasitic capacitor in the board, thereby improving the uniformity of the LED display.

1 is a configuration diagram of a conventional LED driving circuit.
Figure 2 is a model diagram of a typical LED display.
Fig. 3 is a timing chart when driving the LED display shown in Fig. 2 by the conventional LED driving circuit of Fig.
4 is a configuration diagram of an adaptive LED driving circuit according to a preferred embodiment of the present invention.
Fig. 5 is a timing chart when the LED display shown in Fig. 2 is driven by the LED driving circuit of the present invention shown in Fig.
6 is a circuit diagram of an output voltage storage unit and an output voltage setting unit according to a preferred embodiment of the present invention;
7 is a flowchart of an adaptive LED driving method using an adaptive LED driving circuit according to a preferred embodiment of the present invention.

Hereinafter, an adaptive LED driving circuit and a driving method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Fig. 1 is a configuration diagram of a conventional LED driving circuit 100. Fig.

The conventional LED driving circuit 100 shown in FIG. 1 includes a reference current generator 110, a brightness controller 120, a timing controller 130, and a driver 140.

The reference current generating unit 110 generates a reference current for driving the LED pixel using the current mirror. The brightness controller 120 controls the brightness of the LED elements D1 and D2.

The timing controller 130 controls ON / OFF timing of the LED elements D1 and D2. The driving unit 140 drives the LED elements D1 and D2 using brightness information from the brightness controller 120 and on / off timing information from the timing controller 130. [

2 is a model diagram of a typical LED display.

2, a typical LED display includes a first parasitic capacitor C1_1 and C2_1 in parallel with a plurality of LED devices D1 and D2, and a second parasitic capacitor C1, which is a parasitic capacitor of a PCB (Printed Circuit Board) There are parasitic capacitors C1_2 and C2_2.

FIG. 3 is a timing chart when the LED display shown in FIG. 2 is driven by the conventional LED driving circuit 100 of FIG.

For example, when the level of the output current Iout in the ON period of the LED elements D1 and D2 is 1 mA, the deviation of the ON voltage VF of the LED elements D1 and D2 itself The levels of the output voltages Vout_1 and Vout_2 are different for each of the devices and the second parasitic capacitors C1_2 and C1_2 due to the deviation of the PCB on which the LED devices D1 and D2 and / C2_2) are also different.

Moreover, LED devices (D1, D2) is turned off (OFF) the output voltage at the time of (Vout_1, Vout_2) the second parasitic capacitor (C1_2 that between the terminal and the V _B terminal, that is formed of a path in parallel with the output current (Iout) And C2_2 are stored as voltages obtained by subtracting the LED device ON voltage VF from the voltage V _{A at} the other end of the LED devices D1 and D2. Thereafter, when the LEDs D1 and D2 are turned on again, the level shifts from the output voltage Vout (OFF) at the time of turning off to the output voltage Vout (ON) , And C2_2 are discharged to the Vout (ON) voltage level, and then a current flows to the LED elements D1 and D2 to generate light.

Therefore, depending on the deviation of the LED element ON voltage VF and the values of the second parasitic capacitors C1_2 and C2_2, the time for contributing to actual light emission in the ON section is the difference DELTA t1, DELTA t2 ), Which is a difference in the uniformity of the LED brightness.

It can be seen from FIG. 3 that a difference occurs in the current values of I (D1) and I (D2) flowing through the LED elements D1 and D2 depending on the deviation of the LED device on voltage VF.

4 is a configuration diagram of an adaptive LED driving circuit 200 according to a preferred embodiment of the present invention.

The adaptive LED driving circuit 200 according to the preferred embodiment of the present invention as seen from FIG. 4 is for driving the LED elements D1 and D2 constituting the LED display on / off A reference current generator 210, a brightness controller 220, a timing controller 230, a driver 240, an output voltage storage 250, and an output voltage setting unit 260.

The reference current generating unit 210 serves to generate a reference current for driving the LED elements D1 and D2, that is, the LED elements D1 and D2, using the current mirror. The brightness controller 220 controls the brightness of the LED elements D1 and D2.

The timing controller 230 controls the ON / OFF timing of the LED elements D1 and D2 and the enable timing of the output voltage storage unit 250 and the output voltage setting unit 260 . The driving unit 240 drives the LED devices D1 and D2 using brightness information from the brightness control unit 220 and on / timing information from the timing control unit 230. [

The output voltage storage unit 250 stores an output voltage value output from one end of the LED elements D1 and D2 in a period in which the LED elements D1 and D2 are turned on. The output voltage setting unit 260 sets an output voltage output from one end of the LED elements D1 and D2 using the voltage value stored by the output voltage storage unit 250. [

5 is a timing chart for driving the LED display shown in Fig. 2 by the LED driving circuit of the present invention shown in Fig. 6 is a circuit diagram of an output voltage storage unit 250 and an output voltage setting unit 260 according to a preferred embodiment of the present invention.

5 and 6, the output voltage storage unit 250 uses a pulse signal that is enabled for a predetermined time ta of the ON period before the LED elements D1 and D2 are turned off And stores an output voltage value output from one end of the LED elements D1 and D2 in a section (ton) in which the LED elements D1 and D2 are turned on.

The pulse signal which is enabled for a predetermined time ta during the ON period before the LED elements D1 and D2 is turned off is supplied to the timing control unit 230 by the timing control unit 230 so that the ON time of the first switch SW1 is maintained at a predetermined time ta. As shown in FIG. The output Vamp1 of the output voltage storage unit 250 charged in the capacitor C3 for the first amplifier is maintained at a constant value during a period tff during which the LED devices D1 and D2 are turned off, (ON), which is the output voltage value output from one end of the LED elements D1 and D2 in the section (ton) in which the first and second LEDs D1 and D2 are turned on.

In addition, the output voltage setting unit 260 sets the output voltage Vout (ON) by using the pulse signal that is enabled for a predetermined time tb of the OFF period before the LED elements D1 and D2 are turned on, And an output voltage output from one end of the LED elements D1 and D2 is set.

The pulse signal that is enabled for a predetermined time tb of the OFF period before the LED elements D1 and D2 is turned on is supplied to the timing control unit 230 by the timing controller 230 to turn on the second switch SW2 for a predetermined time tb, As shown in FIG. Accordingly, the value of Vout (ON), which is the output (Vamp1) of the output voltage storage unit 250, charged in the first amplifier capacitor C3 is output as the output voltage.

By setting the output voltage of the output voltage setting unit 260, the output voltage of the second parasitic capacitor 260 formed in parallel with the path of the output current of the output voltage output from one end of the LED elements D1 and D2, (C1_2, C2_2) are discharged.

7 is a flowchart of an adaptive LED driving method using the adaptive LED driving circuit 200 according to a preferred embodiment of the present invention.

7, the adaptive LED driving method according to the preferred embodiment of the present invention is a method of driving the LEDs D1 and D2 from one end of the LED elements D1 and D2 in which the LED elements D1 and D2 are turned on, And a step S20 of setting an output voltage outputted from one end of the LED devices D1 and D2 using the voltage value stored in the step S10.

Specifically, in step S10, by using a pulse signal that is enabled for a predetermined time ta before the LED elements D1 and D2 are turned off, the LEDs D1 and D2 in the section tones in which the LED elements D1 and D2 are turned on It is preferable to store the output voltage value output from one end of the elements D1 and D2.

The step S20 is a step of outputting a stored voltage value from one end of the LED elements D1 and D2 by using a pulse signal which is enabled for a predetermined time tb before the LED elements D1 and D2 are turned on And the output voltage is set. The output voltage setting in the step S20 sets the charge stored in the parasitic capacitors C1_2 and C2_2 formed in parallel with the path of the output current of the output voltage outputted from one end of the LED elements D1 and D2, Is discharged.

As described above, according to the adaptive LED driving circuit 200 of the present invention and the driving method thereof, the output voltage outputted from one end of the LED elements D1 and D2 in the previous stage is stored, And D2 are turned on, the output voltage outputted from one end of the LED elements D1 and D2 is restored to the stored output voltage value, and at the same time, the amount of charge charged in the parasitic capacitor can be discharged. This makes it possible to reduce time deviations until the LED elements D1 and D2 emit light irrespective of the voltage difference between the LED elements D1 and D2 and the parasitic capacitors C1_2 and C2_2 on the board, The uniformity of the display can be improved.

100: Conventional LED driving circuit
200: an adaptive LED driving circuit according to a preferred embodiment of the present invention
110, 210: reference current generator 120, 220: brightness controller
130, 230: a timing control section 140, 240:
250: Output voltage storage unit 260: Output voltage setting unit

Claims (8)

1. A circuit for driving an LED element on / off (ON / OFF)
An output voltage storage unit for storing an output voltage value output from one end of the LED element in a section in which the LED element is turned on; And
And an output voltage setting unit for setting an output voltage output from one end of the LED element using the voltage value stored by the output voltage storage unit,
Wherein the output voltage storage unit uses a pulse signal that is enabled for a predetermined time ta before the LED element is turned off so that the output voltage value output from one end of the LED element in the section in which the LED element is turned on is Store,
Wherein the output voltage setting unit sets an output voltage output from one end of the LED element to the stored voltage value by using a pulse signal that is enabled for a predetermined time tb before the LED element is turned on,
Wherein the output voltage setting unit sets the output voltage to discharge the charge charged in the parasitic capacitor formed at the output voltage terminal output from one end of the LED element,
Wherein the output voltage storage unit includes a first switch and a first amplifier,
A second terminal of the first switch is connected to a positive input terminal of the first amplifier, an output of the first amplifier is connected to a negative input terminal of the first amplifier,
The pulse signal that is enabled for a predetermined time ta before the LED element is turned off can be generated by controlling the ON time of the first switch to a predetermined time ta,
Wherein the output voltage setting unit includes a second amplifier and a second switch,
The output of the first amplifier is connected to the positive input terminal of the second amplifier, the output of the second amplifier is connected to the negative input terminal of the second amplifier, and the output of the second amplifier is connected to the second The first terminal of the first switch is connected to the first terminal of the switch, the second terminal of the second switch is connected to the first terminal of the first switch,
Wherein the pulse signal that is enabled for a predetermined time (tb) before the LED element is turned on can be generated by controlling the on-time of the second switch to a predetermined time (tb) . delete delete delete delete delete delete delete

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