KR100956213B1 - Power supply for LED - Google Patents

Abstract

The present invention provides a power supply for an LED that can increase power conversion efficiency and facilitate a transformer manufacturing process by using a single secondary coil, and includes a primary coil receiving one input power and one conductor. And a dimming power supply having a single secondary coil for converting the input power from the primary coil into a first DC power source and a second DC power source having a predetermined voltage level according to a winding ratio with the primary coil. And a brightness controller configured to convert the first DC power from the power converter into a preset LED driving power according to a signal and supply a sum of voltages of the LED driving power and the second DC power to the LED. .

Power Supply, Light Emitting Diode (LED), Brightness Control

Description

Power supply for LED {POWER SUPPLY FOR LED}

The present invention relates to a power supply for LED, and more particularly to a power supply for LED for supplying power used to drive the LED using a single secondary coil.

In general, currently widely used light emitting diodes (LEDs) are widely used for transmitting various signals or emitting light in electronic products such as home appliances, TVs, and monitors.

In order to drive the LED, when the voltage applied to the LED is higher than the threshold voltage (Threshold Voltage), current begins to flow in the LED and light is generated. For this, a battery, a battery, a power supply, and the like are employed, so that It is common to receive DC power.

As a device for supplying the above-described low voltage DC power supply, a power supply device is mainly employed.

The power supply device receives commercial AC power and converts it into a predetermined DC power, and converts the power into a LED driving power and supplies the LED to the LED.

At this time, the power supply for driving the LED is controlled according to the dimming (Dimming) signal from the outside, and the brightness of the LED is adjusted accordingly.

On the other hand, the above-described conventional power supply apparatus is coupled to the primary coil and the primary coil receiving the AC power in order to convert the commercial AC power into a predetermined DC power source is a secondary coil electromagnetically coupled to convert the voltage according to the turns ratio Although a transformer having a transformer is used, such a transformer includes a plurality of secondary coils, thereby lowering power conversion efficiency, and making the transformer manufacturing process difficult.

In order to solve the above problems, it is an object of the present invention to provide a power supply for LED that can increase the power conversion efficiency and facilitate the manufacturing process of the transformer by using a single secondary coil.

In order to achieve the above object, one technical aspect of the present invention is formed of a primary coil receiving an input power source, and one conductor, the input power source from the primary coil in accordance with the winding ratio with the primary coil A power conversion unit having a single secondary coil for converting the power into a first DC power supply and a second DC power supply having a predetermined voltage level, and the first DC power supply from the power conversion unit according to a dimming signal is preset. It provides a power supply for the LED comprising a brightness control unit for converting into a LED driving power supply for supplying the sum of the voltage of the LED driving power supply and the second DC power supply to the LED.

According to one technical aspect of the present invention, the power converter includes a rectifier for rectifying commercial AC power, a power factor corrector for power factor correcting the rectified power from the rectifier, and a power factor corrected power source from the power factor corrector. A transformer having the primary coil and the single secondary coil magnetically coupled to the primary coil and a switching unit for switching the power factor corrected power input to the primary coil; have.

According to one technical aspect of the present invention, the brightness control unit includes a first capacitor charging the first DC power, a second capacitor charging the second DC power, and the charged charge from the first capacitor. And a switching circuit configured to switch a first DC power source according to the dimming signal to convert the first DC power source into the LED driving power source, and a third capacitor to charge the LED driving power source from the switching circuit.

According to one technical aspect of the present invention, the luminance adjusting unit includes a first diode which transfers the first DC power to the first capacitor when the switching unit is switched off, and the switching unit when the switching unit is switched off. The display device may further include a second diode that blocks transmission of the first DC power to a second capacitor.

According to one technical aspect of the present invention, the switching circuit includes an inductor for charging the first direct current power source from the first capacitor and the first direct current power source switched in accordance with the dimming signal and charged in the inductor. It may include a switch for converting the power for driving the LED.

According to one technical aspect of the present invention, the transformer may be electrically insulated from the primary coil and the single secondary coil.

According to the present invention, a single secondary coil can be used to increase the power conversion efficiency and facilitate the manufacturing process of the transformer, and also increase the power conversion efficiency by the single secondary coil, thereby reducing heat generation, reducing the volume of the transformer, and It is effective in reducing manufacturing costs.

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

1 is a configuration diagram of a power supply device of the present invention.

Referring to FIG. 1, the power supply device 100 of the present invention includes a power conversion unit 110 and a circuit control unit 120.

The power converter 110 may include a rectifier 111 for rectifying commercial AC power and a power factor corrector for correcting a power factor by adjusting a voltage and a current phase of the power rectified from the rectifier 111 ( 112).

In addition, a transformer 113 having a primary coil P receiving the power factor corrected power from the power factor corrector 112 and a secondary coil S outputting the first and second DC power according to a preset winding ratio. And a switching unit 114 electrically connected to the primary coil P of the transformer 113 to switch the power factor corrected power.

The transformer 113 includes a primary coil P and a secondary coil S as described above.

The primary coil P is formed of one conductor so that one end is electrically connected to the power factor corrector 112 and the other end is electrically connected to the switching unit 114.

Similarly, the secondary coil S is formed of one conductor to adjust brightness by outputting a first DC power supply and a second DC power supply having a voltage level preset according to a preset winding ratio with the primary coil P. Transfer to section 120.

The primary coil P and the secondary coil S are magnetically coupled and electrically insulated.

The switching unit 114 may perform a switching on / off operation according to a pulse width modulation (PWM) signal S1 from the outside. The switching unit 114 may be configured of at least one switch as illustrated, but the push-pull ( The push-pull method, the half-bridge method, the full-bridge method, etc. may be variously configured.

The luminance adjusting unit 120 is electrically connected in parallel between both ends of the secondary coil S to charge the first DC power, and the negative terminal of the first capacitor C1 and the negative terminal of the first capacitor C1. And a second capacitor C2 electrically connected in parallel between the ground and the ground to charge the second DC power.

In addition, the first DC power is electrically connected in series to one end of the first capacitor C1, and the first DC power charged in the first capacitor C1 is switched according to the dimming signal S2 from the outside to be used as the LED driving power. The switching circuit 121 to be converted is electrically connected in parallel between the output terminal of the switching circuit 121 and the positive (+) terminal of the second capacitor C2 to charge the LED driving power from the switching circuit 121. And a third capacitor C3.

In addition, the brightness adjusting unit 120 is electrically connected in series between one end of the secondary coil S and the positive terminal of the first capacitor C1 to supply the first DC power to the first capacitor C1. Is electrically connected in series between the transmitting first diode D1 and one end of the secondary coil S and the negative terminal of the second capacitor C2, so that the switching unit 114 is switched off. 1 further includes a second diode D2 that blocks DC power from being transferred to the second capacitor C2.

Hereinafter, with reference to the drawings will be described in detail with respect to the operation and operation of the present invention.

2A to 2D are diagrams illustrating the operation of the power supply device of the present invention.

Referring to (a) to (d) of FIG. 2 together with FIG. 1, the power supply device 100 of the present invention is a power factor corrected transferred to the primary coil P according to a PWM signal S1 from the outside. The power is switched on / off to transfer power to the secondary coil S according to a preset turns ratio.

Referring to FIG. 2A, when the switching unit 114 is switched on, power of the primary coil P is transferred to the secondary coil S and charged in the second capacitor C2. That is, the second DC power supply Vo2 is charged in the second capacitor C2.

Referring to FIG. 2B, the power transferred to the secondary coil S when the switching unit 114 is switched off is charged in the first capacitor C1 through the first diode D1. That is, the first DC power supply Vo1 is charged in the first capacitor C1. At this time, the first DC power source Vo1 is the second capacitor C2 in the second diode D2 electrically connected between one end of the secondary coil S and the negative terminal of the second capacitor C2. To be passed).

Referring to FIG. 2C, when the dimming signal S2 from the outside is a switching on signal, the first DC power Vo1 charged in the first capacitor C1 is transferred to the switching circuit 121. do.

The first DC power Vo1 transferred to the switching circuit 121 is charged to the inductor L and has an LED having a voltage level preset by the switch Q switched on / off according to the dimming signal S2. It is converted to the driving power source Vo3. That is, according to the dimming signal S2, when the switch Q is switched on, the first DC power supply Vo1 is circulated, and when the switch Q is switched off, the switch Q is switched off to charge the inductor L by the counter electromotive force. The first direct current power source Vo1 is converted into the LED driving power source Vo3.

Referring to FIG. 2 (d), finally, the LED driving power source Vo3 from the switching circuit 121 is charged in the third capacitor C3 and the second direct current charged in the second capacitor C2. A plurality of LEDs together with the power supply Vo2 are delivered to the electrically connected LED array LA.

3 is a graph of the output voltage of the power supply of the present invention.

Referring to FIG. 3 together with FIG. 1, the power supply device of the present invention applies a single secondary coil to a transformer so that only the second DC power source Vo2 is applied to the LED array LA when the dimming signal S2 is switched off. When the LED array LA is not turned on and the dimming signal S2 is switched on, the second DC power source Vo2 and the LED driving power source Vo3 are delivered to the LED array LA so that the LED array LA is turned on. Lights up.

Therefore, while performing the inherent function of LED brightness control in which the brightness of the LED array LA is adjusted according to switching on / off of the dimming signal, a single secondary coil is applied to increase the efficiency of the transformer, ease of manufacture, reduce heat, and reduce cost. And the effect of volume reduction.

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 power supply of the present invention.

2A to 2D are diagrams showing the operation of the power supply device of the present invention.

3 is a graph of the output voltage of the power supply of the present invention.

<Detailed Description of Major Symbols in Drawing>

100 ... power supply unit 110 ... power conversion unit

111 ... rectifier 112 ... power factor corrector

113 ... Transformer 114 ... Switching Unit

120 ... Brightness control 121 ... Switching circuit

D1, D2 ... first, second diode C1, C2, C3 ... first, second, third capacitor

P ... Primary Coil S ... Secondary Coil

L ... Inductor Q ... Switch

Vo1 ... first DC power supply Vo2 ... 2nd DC power supply

Power supply LA ... LED array for Vo3 ... LED driving

Claims (6)

A first DC power source and a second DC power source formed of a primary coil receiving an input power and one conductor, the input power from the primary coil having a predetermined voltage level according to a winding ratio with the primary coil; A power conversion unit having a single secondary coil for converting to a power supply; And A brightness controller which converts the first DC power from the power converter into a preset LED driving power according to a dimming signal and supplies the sum of the voltages of the LED driving power and the second DC power to the LED; Power supply for the LED comprising a. The method of claim 1, wherein the power conversion unit Rectifier for rectifying commercial AC power; A power factor corrector for correcting power factor rectified from the rectifier; A transformer having the primary coil receiving the power factor corrected power from the power factor corrector as the input power and the single secondary coil magnetically coupled to the primary coil; And A switching unit for switching the power factor corrected power input to the primary coil Power supply for the LED comprising a. The method of claim 2, wherein the brightness control unit A first capacitor charging the first DC power source; A second capacitor charging the second DC power source; A switching circuit for switching the charged first DC power source from the first capacitor according to the dimming signal to convert the first DC power source into the LED driving power source; And A third capacitor charging the power for driving the LED from the switching circuit Power supply for the LED comprising a. The method of claim 3, wherein the brightness control unit A first diode transferring the first DC power to the first capacitor when the switching unit is switched off; And A second diode that blocks transmission of the first DC power to the second capacitor when the switching unit is switched off LED power supply, characterized in that it further comprises. The method of claim 4, wherein the switching circuit An inductor charging the first DC power supply from the first capacitor; And A switch which is switched according to the dimming signal and converts the first DC power charged in the inductor into the LED driving power Power supply for the LED comprising a. The method of claim 2, The transformer is a power supply for the LED, characterized in that the primary coil and the single secondary coil is electrically insulated.

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