KR20090056567A - Light emitting diode driver controlling brightness with input power - Google Patents

Abstract

An LED(Light Emitting Diode) driving device is provided to exclude an additional circuit for generating a dimming signal by controlling the brightness of the LED directly according to the change of the input power source. A dimming signal generator(110) generates a first dimming signal with a voltage level according to the voltage level of the driving power source. A switching controller(120) includes a first comparator, a second comparator, a first logic device, an oscillator, and a flip-flop. The first comparator compares the voltage level of the first dimming signal and the voltage level of the detection voltage. The second comparator compares the voltage level of the detection voltage and the voltage level of the reference voltage. The first logic device performs the logic operation of the comparison result of the first and second comparators. The oscillator produces the oscillation signal. The flip-flop receives the logical operation result of the first logic device. A switching unit(130) switches the driving power supplied to the LED according to the control of the switching controller.

Description

LIGHT EMITTING DIODE DRIVER CONTROLLING BRIGHTNESS WITH INPUT POWER}

The present invention relates to a light emitting diode driving apparatus, and more particularly, to a light emitting diode driving apparatus for controlling luminance by controlling a current flowing in a light emitting diode according to a change in an input DC power input.

In general, semiconductor light emitting diodes (LEDs) are attracting attention in various fields as environmentally friendly light sources that do not cause pollution. Recently, LED devices have been applied in the form of providing different emission wavelengths by combining with wavelength converting phosphors. Typically, LED devices generating short wavelength light are combined with specific phosphors or phosphor combinations to provide white light. It is actively applied to the light emitting device for lighting.

Such a light emitting device for illumination employs a driving device to adjust the brightness of a desired light source.

1 is a configuration diagram of a conventional LED driving apparatus.

Referring to FIG. 1, the conventional LED driving apparatus 10 receives a dimming signal from the outside to adjust luminance, and the dimming signal is signal processed through the signal processor 11 and switched. The unit 12 switches to a current level of a reference level and controls the dimming by driving the LED 13 by interrupting a current flowing in the LED according to the dimming signal from the signal processing unit 11.

An analog dimming signal or a pulse width modulation (PWM) dimming signal is used as the dimming signal. When such a dimming signal is input from the outside and dimming the output of the driving device, an additional circuit is required and noise may be generated. That is, since an additional circuit for generating a dimming signal is added to the outside of the driving device, there is a problem that causes the cost of the overall product.

In order to solve the above problems, an object of the present invention is to provide a light emitting diode driving device for adjusting the brightness of the light emitting diode according to the change of the input DC power input without installing an additional additional circuit to the outside.

In order to achieve the above object, a light emitting diode driving apparatus of the present invention includes a dimming signal generator for generating a first dimming signal having a voltage level set to a voltage level of a driving power supply; A switching controller for controlling switching by comparing a voltage level of a first dimming signal with a voltage level of a detection voltage detecting a current flowing into the light emitting diode; and switching the driving power under the control of the switching controller to switch the light emitting diode. And a switching unit for transmitting the detected voltage to the switching control unit.

According to one embodiment of the present invention, the switching controller includes a first comparator for comparing the voltage level of the first dimming signal and the voltage level of the detection voltage, a voltage level of the detection voltage and a voltage of a preset reference voltage. A second comparator for comparing levels, a first logic element for ORing the comparison results from the first and second comparators, an oscillator for generating an oscillation signal, and a logic operation result from the first logic element; It may include a flip-flop having a reset terminal and a set terminal receiving the oscillation signal from the oscillator.

According to one embodiment of the present invention, the first dimming signal is an analog dimming signal having a voltage level set according to the voltage level of the driving power supply, and the dimming signal generator is configured to preset a high signal level. The second dimming signal may be further generated.

According to another embodiment of the present invention, the first dimming signal is a pulse width modulation (PWM) dimming signal having a voltage level set according to the voltage level of the driving power supply and a preset frequency, and the dimming signal generating unit The second dimming signal having a preset high signal level may be further generated.

According to an embodiment of the present invention, the switching controller may further include a buffer for buffering the first dimming signal, and a second logic element for logically multiplying a logic operation result from the flip flop and a signal level from the buffer. Can be.

According to an embodiment of the present invention, the switching unit opens and closes an inductor for inducing the driving power to the light emitting diode and a transfer path of a current transmitted from the light emitting diode to ground under switching control from the switching controller. A switch, a diode that provides a circulating path of current from the light emitting diode when the switch is opened, and a detection resistor that detects a current transmitted from the switch to the ground as the detection voltage when the switch is connected. have.

According to the present invention, the luminance of the light emitting diode can be stably controlled by directly adjusting the luminance of the light emitting diode according to the change of the input DC power input, without adjusting the luminance according to the dimming signal from the outside, and generating the dimming signal. There is no need for a separate additional circuit for reducing the cost of production.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram of the LED driving apparatus of the present invention.

Referring to FIG. 2, the LED driving apparatus 100 of the present invention includes a dimming signal generator 110, a switching controller 120, and a switching unit 130.

The dimming signal generator 110 generates a dimming signal according to a voltage level of a driving power source having a preset voltage level. The dimming signal may be a pulse width modulation (PWM) dimming signal having a preset frequency and / or an analog dimming signal having a variable voltage level. The dimming signal generator 110 may be configured of a micro controller unit, an amplifier, an op amp, a comparator, an analog-digital converter, a digital-analog converter, or the like.

The switching controller 120 transfers the switching control signal to the switching unit 130 according to the dimming signal from the dimming signal generator 110.

The switching controller 120 includes a buffer b for receiving a PWM dimming signal from the dimming signal generator 110 and a first comparator U1 for receiving an analog dimming signal.

The first comparator U1 compares the voltage level of the detection voltage with the voltage level of the analog dimming signal.

In addition, the switching controller 120 performs an OR on the comparison result of the second comparator U2, the first comparator U1, and the second comparator U2 comparing the detected voltage with a reference voltage having a preset voltage level. The first logic element Lo1, an oscillator os generating an oscillation signal having a preset frequency, a flip flop that receives an oscillation signal from the oscillator os and a logic result of the first logic element Lo1. And a second logic element Lo2 that logically multiplies the logic result of the flip U3 and the flip flop U3 with the PWM dimming signal from the buffer b.

The dimming signal generator 110 may set the voltage level of the PWM dimming signal or the voltage level of the analog dimming signal according to the voltage level of the driving power supply.

For example, when the voltage level and frequency of the PWM dimming signal are set according to the voltage level of the driving power supply, the voltage level of the analog dimming signal is set to a signal having a high level, and When the voltage level of the analog dimming signal is set according to the voltage level, the PWM dimming signal may set the voltage level as a signal having a high level without setting a frequency.

Referring to the operation of the switching controller 120, first, the voltage level of the analog dimming signal is set according to the voltage level of the driving power source, and the voltage level of the PWM dimming signal has a high level without setting a frequency. In the case of setting the signal, the detected voltage from the switching unit 130 is transmitted to the first and second comparators U1 and U2, respectively, and is compared with the voltage level of the reference voltage and the voltage level of the analog dimming signal, respectively. .

If the voltage level of the detection voltage is greater than the reference voltage or the voltage level of the analog dimming signal, the logic operation result of the first logic element Lo1 becomes High and the logic operation result is reset of the flip-flop U3. The flip-flop U3 outputs a low level signal input to the (reset) terminal.

At this time, the dimming signal generator 110 sets the voltage level of the PWM dimming signal to a high level and outputs the high voltage. The dimming signal generator 110 outputs the second logic element Lo2 together with the output of the flip-flop U3 through the buffer b. The second logic element (Lo2) is input to the AND, and the AND is multiplied to output a low level switching control signal.

Accordingly, the switching unit 130 turns off the switching of the driving power supplied to the light emitting diode (LED). Thereafter, the oscillation signal from the oscillator os is input to the set terminal of the flip flop U3 so that the flip flop U3 outputs a high level signal and the second logic element Lo2 is buffered. The high level switching control signal is output by logically multiplying the high level PWM dimming signal from (b). Accordingly, the switching unit 130 resumes switching the driving power supplied to the light emitting diode (LED).

As described above, the luminance of the light emitting diode may be directly adjusted according to the comparison result of the analog dimming signal in which the voltage level is set according to the detection voltage and the voltage level of the driving power source.

Next, when setting the voltage level and frequency of the PWM dimming signal according to the voltage level of the driving power supply and setting the voltage level of the analog dimming signal to a signal having a high level, the voltage of the detection voltage If the level is greater than the reference voltage level, the logic operation result of the first logic element Lo1 becomes High, and the logic operation result is input to the reset terminal of the flip flop U3 to flip the flip flop U3. ) Outputs a low level signal. The oscillation signal from the oscillator os is input to the set terminal of the flip flop U3 so that the flip flop U3 outputs a high level signal.

At this time, the output signal of the flip-flop (U3) and the second logic element (Lo2) outputs a low level switching control signal by logically multiplying the PWM dimming signal, which is a low level voltage level having a specific frequency from the buffer (b), Accordingly, the switching unit 130 stops switching the driving power supplied to the light emitting diode (LED). Thereafter, the second logic element Lo2 performs the same operation as the output signal of the flip flop U3 by performing a logical multiplication on the PWM dimming signal, which is a high level voltage level having a specific frequency, from the buffer b and the output signal of the flip flop U3. Outputs a switching control signal, so that the switching unit 130 resumes switching of the driving power supplied to the light emitting diode (LED).

Accordingly, the switching unit controls the dimming according to the high level and the low level of the PWM dimming signal.

The switching unit 130 controls the brightness of the LED by switching the driving power supplied to the LED under the control of the switching controller 120.

Accordingly, the switching unit 130 may include a diode (D), an inductor (L), a switch (S), and a detection resistor (R).

The driving power is transferred to the inductor L, and the inductor L induces the driving power and transfers the driving power to the light emitting diode LED. The current flowing in the light emitting diode (LED) is transmitted to the switch (S) connected in series between the light emitting diode (LED) and the ground, the switch (S) from the light emitting diode (LED) in accordance with the switching control signal of the switching control unit 120 Open and close the path of current delivered to ground.

The detection resistor R is connected in series between the switch S and the ground. Accordingly, when the switch S is switched on, the detection resistor R detects a current flowing into the switch S as a voltage and transfers the detected voltage to the switching controller 120.

When the switch S is switched off, the diode D is electrically connected to the inductor L to provide a circulating path of current from the light emitting diode LED.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, but is defined by the claims below, and the configuration of the present invention may be modified in various ways without departing from the technical spirit of the present invention. It will be apparent to those skilled in the art that the present invention may be changed and modified.

1 is a block diagram of a conventional LED driving apparatus.

2 is a configuration diagram of a light emitting diode driving apparatus of the present invention.

<Detailed Description of Major Symbols in Drawing>

Drive unit 110 ... Dimming signal generator

120 ... switching control 130 ... switching

b ... buffer U1 ... first comparator

U2 ... 2nd comparator os ... oscillator

U3 ... flip-flop Lo1 ... first logic element

Lo2 ... second logic element D ... diode

S ... switch R ... detection resistance

L ... Inductor LED ... Light Emitting Diode

Claims (6)

A dimming signal generator for generating a first dimming signal having a voltage level set according to a voltage level of a driving power source; A switching controller for controlling switching by comparing a voltage level of the first dimming signal from the dimming signal generator with a voltage level of a detection voltage that detects a current flowing into the light emitting diode; And A switching unit configured to drive the light emitting diode by switching the driving power under the control of the switching controller, and to transmit the detection voltage to the switching controller; Light emitting diode driving device for adjusting the brightness according to the input power source, characterized in that it comprises a. The method of claim 1, wherein the switching control unit A first comparator comparing a voltage level of the first dimming signal with a voltage level of the detection voltage; A second comparator for comparing the voltage level of the detection voltage with a voltage level of a preset reference voltage; A first logic element for ORing the comparison result from the first and second comparators; An oscillator for generating an oscillation signal; And A flip-flop having a reset terminal receiving a logic operation result from the first logic element and a set terminal receiving an oscillation signal from the oscillator Light emitting diode driving device for adjusting the brightness according to the input power source, characterized in that it comprises a. The method of claim 2, The first dimming signal is an analog dimming signal having a voltage level set according to the voltage level of the driving power supply, And the dimming signal generator further generates a second dimming signal having a predetermined high signal level. The method of claim 2, The first dimming signal is a PWM (Pulse Width Modulation) dimming signal having a voltage level and a frequency set according to the voltage level of the driving power source, And the dimming signal generator further generates a second dimming signal having a predetermined high signal level. The method of claim 4, wherein the switching control unit A buffer for buffering the first dimming signal; And A second logic element that logically multiplies the result of the logical operation from the flip-flop with the signal level from the buffer The LED driving device for adjusting the brightness according to the input power source characterized in that it further comprises. The method of claim 1, wherein the switching unit An inductor for inducing the driving power to the light emitting diode; A switch for opening and closing a transfer path of a current transmitted from the light emitting diode to the ground according to a switching control from the switching controller; A diode that provides a circulating path of current from the light emitting diode when the switch is opened; And When the switch is connected to the detection resistor for detecting the current transmitted from the switch to the ground as the detection voltage Light emitting diode driving apparatus for adjusting the brightness according to the input power source, characterized in that it comprises a.

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