KR20120014320A - Power supply for lighting device - Google Patents

Abstract

PURPOSE: A power supply apparatus for a lighting apparatus is provided to employ a linear type LED operation part, thereby supplying power to an LED lighting apparatus with a low cost. CONSTITUTION: A power supply apparatus(100) is comprised of an SMPS(Switching Mode Power Supply) part(10) and an LED operation part(20). The SMPS part is comprised of an AC-DC converter(11) and a DC-DC converter(12). The DC-DC converter converts DC voltage to be suitable for the operation of a connected LED panel(200). The LED operation part controls the DC voltage converted in the DC-DC converter. The LED panel is a light source which includes one or more LEDs.

Description

Power Supply for Lighting Equipment {POWER SUPPLY FOR LIGHTING DEVICE}

The present invention relates to a power supply, and to a power supply that can be used for a wide range of outputs.

LED is used as a high-efficiency energy equipment because of its high power efficiency, and is mainly used for lighting and traffic signals. LED operates by direct current power source, and has the energy saving effect of about 80 to 90% at the same brightness. Recently, due to the development of semiconductor technology, light emitting diodes that consume less than 1/10 of the power required to obtain the same illuminance than general lighting have been applied to vehicles, walking signals, and backlights.

In order to drive a light emitting device using a light emitting diode, a separate power supply device is required. SMPS is mainly used as a power supply for generating and supplying dynamic power required for a conventional LED lamp. Conventional general lamps use AC power of 220V, so no separate power supply is needed.However, since LED uses DC power, 220V commercial power is rectified to DC, and the rectified DC voltage is converted into DC voltage of required size. A separate power supply is needed to convert.

The power supply device includes an SMPS unit for converting an AC voltage into a DC voltage determined by the driving voltage of the LED module and an LED driver for maintaining a constant current applied to the LED module. In this case, an integrated power supply device in which the SMPS unit and the dedicated LED driver unit are integrally formed in the power supply unit, and a separate power supply unit including the LED driver separated from the SMPS unit are generally used.

One object of the present invention is to provide a general-purpose power supply that can be used in a wide driving voltage range.

Another object of the present invention is to provide an economical power supply.

One aspect of the invention,

AC-DC converter for converting an AC voltage input from the outside into a fixed first DC voltage, LLC resonant DC-DC for converting the first DC voltage converted by the AC-DC converter into a second DC voltage SMPS unit including a conversion unit; And an output voltage is determined by a voltage or a current required to drive an LED, and is connected between the LLC resonant DC-DC converter and the LED to provide information about a voltage applied to the LED. And a LED driver for feeding back to the converter and controlling the LED to the constant current, wherein the second DC voltage is determined by feedback of the LED driver to the voltage applied to the LED. to provide.

In one embodiment of the present invention, the LED driver may be a linear method.

In one embodiment of the present invention, the LED driver may be a switching method.

In this case, the LED driver may be configured by one of a boost, a buck, a buck-boost, a flying capacitor, or a charge-pump.

In one embodiment of the present invention, the power supply for the LED may be connected to the LED panel including at least one LED.

In this case, the LED panel may have an electrical connection structure of at least one of a series connection, a parallel connection, and a form in which the serial and parallel connections are mixed.

In the case of the LED power supply according to the present invention, the SMPS part can be used universally by replacing only the LED driver according to the driving voltage required by the LED panel, and the economical power supply for the LED is adopted by adopting the linear LED driver. Can provide.

1 is a block diagram of a power supply for LEDs according to an embodiment of the present invention.
2 is a circuit diagram of the LLC resonant DC-DC converter 12.
3 is a block diagram showing another embodiment according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for clarity, and the elements denoted by the same reference numerals in the drawings are the same elements.

1 is a block diagram of a lighting drive device according to an embodiment of the present invention. Hereinafter, the light source is described in detail as an LED, but is not limited thereto, and may be replaced with various light sources that can be used for illumination. Referring to FIG. 1, the LED panel 200 is connected to a power supply device 100 that supplies a driving voltage Vf for driving the LED panel 200. The power supply device 100 is composed of a SMPS (Swithcing Mode Power Supply, hereinafter referred to as SMPS) unit 10 and the LED driver 20, the SMPS unit 10 is a direct current AC voltage supplied from the outside It consists of an AC-DC converter 11 for converting the voltage and a DC-DC converter 12 for converting the converted DC voltage into a DC voltage suitable for driving in the connected LED panel 200. The LED driver 20 connected to the SMPS unit 10 controls the DC voltage converted by the DC-DC converter 12 to maintain a constant current provided to the LED panel 200.

The LED panel 200 is a light source including at least one LED, and may include LEDs having various numbers of various electrical connection relationships. The LED panel 200 may include a plurality of LEDs connected in series, or in parallel, or in an electrical connection structure in which a series and a parallel connection are mixed according to an application to which the LED is applied.

Generally, SMPS is a device that converts a DC input voltage into a square wave voltage by using a semiconductor device such as a power MOSFET as a switch, and then obtains a controlled DC output voltage through a filter. Since the power flow is controlled, it is more efficient, more durable, and smaller and lighter than the conventional linear power supply. According to the present invention, by employing the LLC resonant converter in the DC-DC converter 12 in the SMPS unit 12, LEDs requiring a variety of driving voltages only by replacing the LED driver 20 except for the SMPS unit 12 It is possible to provide a power supply that can be used universally for the panel.

2 is a circuit diagram of the LLC resonant DC-DC converter 12. Referring to FIG. 2, the LLC resonant DC-DC converter 12 provides two first and second switching signals SW1 and SW2 having different phases. The LLC resonant DC-DC converter 12 supplies a switching control IC 121, a switching unit 122, an LLC resonant transformer 123, and a smoothing unit 124 that provide an operating voltage V _B. Include. The switching unit 122 includes two first and second switching transistors Q1 and Q2 connected in series to a ground at a power supply B + terminal, and the first and second switching transistors Q1 and Q2 are connected to each other. A terminal of the operating voltage V _B is connected at a connection point, and the first switching transistor Q1 switches according to the first switching signal SW1, and the second switching transistor Q2 switches the second switch. The switch operates according to the signal SW2. The LLC resonant transformer 123 converts the voltage applied to the primary winding L1 into the secondary winding L2 according to the switching of the switching unit 122, and on both sides of the primary winding L1. LLC resonance is performed by the resonant inductor Lr and the resonant capacitor Cr, respectively. The rectifier 124 rectifies and smoothes the voltage from the LLC resonant transformer 123.

Here, when the primary winding L1, the resonant inductor Lr, and the resonant capacitor Cr included in the LLC resonant transformer 123 cause LLC resonance, the voltage of the second switching transistor Q2 rises. The second switching transistor Q2 is turned off, and current flows through the first switching transistor Q1 to the transformer unit 123 until the second switching transistor Q2 is turned on. do. That is, LLC resonance occurs at the moment when the second switching transistor Q2 is turned on and off.

Accordingly, by employing the LLC resonant DC-DC converter 12 in the SMPS unit 10, a voltage having a wide output range can be provided without degrading efficiency. Referring back to FIG. 1, the AC-DC converter 11 in the SMPS unit 10 converts an AC voltage input from the outside into a fixed first DC voltage and exchanges the AC-DC converter 11 with the AC-DC converter 11. The connected LLC type DC-DC converter 12 converts the fixed first DC voltage into a second DC voltage.

On the other hand, the LED driver 20 is the output voltage is determined by the voltage or current required to drive the LED. The LED driver is connected between the LLC resonant DC-DC converter 12 and the LED panel 200 to convert the second DC voltage converted by the LLC resonant DC-DC converter 12 to the LED panel 200. To pass. In addition, the LED driver 20 feeds back information about the voltage applied to the LED to the LLC resonant DC-DC converter 12, and is converted by the LLC resonant DC-DC converter 12. The value of the second DC voltage is determined. Therefore, according to the voltage or current required to drive the LED, by employing an LED driver having an output suitable for the LED, it is possible to drive various LED modules with the same SMPS within a wide range of driving voltages using the same SMPS.

In case of separately manufacturing and using the constant voltage SMPS part and the LED driver, the constant voltage SMPS and the LED driver must separately perform efficiency optimization, and the constant voltage SMPS part outputs a predetermined constant voltage (for example, 12V or 24V). In order to cope with various driving voltages of the LED module, a switching LED driver should be adopted. However, according to the present invention, it is more economical because a low-cost linear LED driver can be employed. However, the LED driver of the present invention is not limited to a linear method, and a switching LED driver may be used as necessary.

The selection and interconnection of the LED driver 100 depends on whether the input voltage to be converted is greater than, less than, or a large voltage to a small voltage required to drive the LED to the desired operating current. Is determined. For example, a buck converter used when the input voltage is greater than the LED voltage, a boost converter used when the input voltage is less than the LED voltage, and the input may change from above the LED voltage. Buck-Boost converters used in possible situations, as well as flying capacitors or charge-pumps, linear voltage regulators.

3 is a block diagram showing another embodiment according to the present invention. Since the SMPS unit 10 can be used within a wide driving voltage range, when installing a plurality of LED panels, the SMPS unit 10 is standardized, and a plurality of LED drivers 21 to 29 suitable for each LED panel are combined into one. By attaching to the outer mechanism 20, it is possible to miniaturize the device and simplify the installation.

The present invention is not limited by the above-described embodiment and the accompanying drawings, but is intended to be limited by the appended claims. Accordingly, various forms of substitution, modification, and alteration may be made by those skilled in the art without departing from the technical spirit of the present invention described in the claims, which are also within the scope of the present invention. something to do.

10: SMPS section 11: AC-DC converter
12: LLC resonant DC-DC converter 20: LED driver
100: power supply for LED 200: LED panel
121: switching control IC 122: switching unit
123: LLC resonant transformer 124: smoothing part

Claims (7)

AC-DC converter for converting an AC voltage input from the outside into a fixed first DC voltage, LLC resonant DC-DC for converting the first DC voltage converted by the AC-DC converter into a second DC voltage SMPS unit including a conversion unit; And
The output voltage is determined by a voltage or a current required to drive a light source, and is connected between the LLC resonant DC-DC converter and the light source to convert information about the voltage applied to the light source into the LLC resonant DC-DC converter. And a light source driver for feeding back negatively and controlling the constant current of the light source.
The second DC voltage is determined by the feedback of the light source driver with respect to the voltage applied to the light source.
The method of claim 1,
The light source is a power supply for illumination, characterized in that the LED.
The method of claim 1,
The light source driving unit is a lighting power supply, characterized in that the linear system.
The method of claim 1,
The light source driving unit is a lighting power supply, characterized in that the switching method.
The method of claim 4, wherein
The light source driving unit is configured as one of a boost, a buck, a buck-boost, a flying capacitor, or a charge-pump. Feeder.
The method of claim 1,
The lighting power supply is connected to a light source panel including at least one light source.
The method of claim 6,
The light source panel is a power supply for illumination characterized in that it has at least one electrical connection structure of the form of a serial connection, a parallel connection and a mixture of a series and a parallel connection.

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