KR101326988B1 - Bleed circuit, lighting control circuit and method thereof - Google Patents

Abstract

A bleed circuit according to an embodiment of the present invention includes a bleed resistor connected in parallel to an input voltage; A first switching unit operating based on an input voltage; By including a second switching unit to allow a current to conduct to the bleed resistor in accordance with the driving of the first switching unit, it is possible to reduce the power loss due to full dimming.

Description

Bleed circuit, lighting control circuit including the same, lighting control method {BLEED CIRCUIT, LIGHTING CONTROL CIRCUIT AND METHOD THEREOF}

The present invention relates to a bleed circuit and a lighting control circuit including the same, and more particularly, a bleed circuit capable of connecting a bleed circuit in the case of no dimming or full dimming of a lighting device, and an illumination including the same. It relates to a control circuit.

LEDs are characterized by low current consumption and long life, and their use is expanding not only for display devices but also for luminaires and other applications. In LED lighting fixtures a plurality of LED units are often used to achieve the desired illuminance.

The general luminaire typically uses a commercial AC 100V power source, and in the case of using an LED luminaire in place of an incandescent bulb or a general luminaire, the LED luminaire is preferably configured to use a commercial AC 100 V source like a general luminaire.

In addition, when dimming control is applied to an incandescent bulb, a switching element (typically a thyristor element or a triac element) is turned on at a certain phase angle of an AC power supply voltage, so that the power supply to the incandescent bulb is easily provided as one volume element. Phase-controlled dimmers (commonly referred to as incandescent light control) with dimming control are used. However, when an incandescent bulb is dimmed by a phase controlled dimmer, it is known that flickering or blinking occurs when the incandescent bulb having a small number of watts is connected to the dimmer so that normal dimming is impossible.

On the other hand, in order to operate the dimmer (Wall Dimmer) used in the conventional luminaire requires a certain current (latching & holding) to operate the components in the dimmer. In order to use a conventional dimmer as it is, the driver for LED lighting must provide this current. For this reason, dimmable drivers require a peripheral circuit called a bleeding circuit. Dimmable driver can be used in connection with dimmer as needed, or as a driver without dimmer connection. Therefore, this bleeding circuit is a necessary circuit to be used in connection with a dimmer, but when used without a dimmer, it reduces the efficiency of LED lighting as a circuit that reduces efficiency. In addition, in the dimming condition, the output current decreases and the total power consumption decreases, resulting in a dimmer holding current shortage.

The present invention increases the efficiency of the dimmable driver by allowing the bleed circuit to operate only in the case of deep dimming, that is, a full dimming condition by receiving an input average voltage.

A bleed circuit according to an embodiment of the present invention includes a bleed resistor connected in parallel to an input voltage; A first switching unit operating based on an input voltage; And a second switching unit for conducting current to the bleed resistor according to the driving of the first switching unit.

In one embodiment, a lighting control method includes: receiving an input voltage according to a dimming control command; Determining whether the applied input voltage reaches a voltage value according to full dimming; In accordance with the determination, conducting a bleed resistor for controlling illumination.

According to the present invention, power loss when there is no dimming effect can be reduced.

1 is a block diagram of a configuration of a lighting control device including a bleed circuit according to an embodiment of the present invention.
2 is a flowchart illustrating a bleed circuit driving method according to an embodiment of the present invention.

1 is a block diagram of a configuration of a lighting control device including a bleed circuit according to an embodiment of the present invention. Referring to FIG. 1, the lighting control apparatus 100 according to an exemplary embodiment of the present disclosure receives a dimming command of lighting and applies a predetermined input voltage Vin to the bleed circuit 10 based on the lighting dimming command. The circuit 20 may include a rectifier circuit 30 for rectifying the input voltage Vin, a bleed circuit 10, and an illumination driver 40. Since the lighting control circuit 20, the rectifier circuit 30, and the lighting driver 40 are the same as or similar to the operations of the conventional lighting control apparatus for the dimming effect, description thereof will be omitted.

The bleed circuit 10 may receive an input voltage Vin by a command of the illumination control circuit 20. The bleed circuit 10 bleeds in response to the bleed resistor Rb connected in parallel to the input voltage, the first switching unit SR and the first switching unit SR operating based on the input voltage Vin. It may include a second switching unit (Q) to allow a current to conduct to the resistor (Rb). The first switching unit SR may be configured as a shunt regulator. The second switching unit Q may be connected in series to the bleed resistor Rb to conduct current of the bleed resistor according to turn-on and turn-off, and may be a MOS transistor or a bipolar transistor. Transistor). Hereinafter, the operation of the bleed circuit 10 will be described.

When the command from the lighting control circuit 20 is full dimming, the dimming effect by the bleed resistor Rb is not necessary. When the input voltage Vin is applied by full dimming, a part of the input voltage, that is, a voltage Va as shown in Equation 1 below is applied to the first switching unit SR. According to the full dimming command, when the input voltage Vin is the maximum value, the Va value is also the maximum value.

Va = Vin * (Ra) / (Ra + R1 + R2) ------- Equation 1

The first switching unit SR may be set to conduct when the input voltage Va according to the full dimming command is applied. Accordingly, the first switching unit SR may be turned on, and the first switching unit SR may be connected to a predetermined power voltage Vc. That is, the current from the first switching unit SR may flow to the power supply voltage Vc. In this case, the directional diode D1 may be connected to the second switching unit Q connected in parallel with the bleed resistor Rb. The directional diode D1 may be set such that current in a direction opposite to the current direction by the first switching unit SR flows. That is, when the first switching unit SR is turned on, no current flows in the diode D1, and the second switching unit Q is turned off. Accordingly, the bleed resistor Rb does not have current. Since does not flow, there is no power loss due to the bleed resistor Rb. That is, in a full dimming condition in which the bleed circuit 10 is not necessary, unnecessary current loss can be prevented by configuring the current not to flow in the bleed resistor Rb disposed in the bleed circuit 10.

On the other hand, when the command from the dimming control circuit 20 is deep dimming, the dimming effect by the bleed resistor Rb is necessary. When the input voltage Vin` by deep dimming is applied, a part of the input voltage, that is, a voltage Va` as shown in Equation 2 below is applied to the first switching unit SR.

Va` = Vin` * (Ra) / (Ra + R1 + R2) ------- Equation 2

The first switching unit SR may be set to be turned off when the input voltage Va ′ according to the deep dimming command is applied. Accordingly, the first switching unit SR may be turned off and the directional diode D1 may be connected to the predetermined power supply voltage Vc. As a result, current flows through the bleed resistor Rb, thereby causing power loss due to the bleed resistor Rb. That is, the bleed circuit 10 according to the deep dimming command is operated. That is, during the turn-on operation of the first switching unit SR, a predetermined power supply voltage Vcc is connected to the first switching unit.

In the turn-on operation of the second switching unit Q, the predetermined power supply voltage Vcc connected to the first switching unit SR is connected to the second switching unit Q to bleed according to the dimming command. The resistance may be conductive-blocked.

Here, the voltage Va applied to the first switching unit SR when the full dimming command is input and the voltage Va` applied to the first switching unit SR when the deep dimming command is input are the first switching unit. The lighting control circuit 20 may be set based on the operating voltage of SR, and the input voltage Vin and Vin` may be input according to the set voltage values Va and Va`.

In conclusion, in the bleed circuit of the present invention, the input voltage Vin can be adjusted based on the dimming command, and accordingly, the output circuit 40 connected to the bleed circuit 10 is also adjusted stepwise. For example, when the input voltage Vin is the maximum value according to the full dimming command, the first switching unit SR is turned on so that the second switching unit Q is turned off. In this case, the first switching unit SR is turned off.

2 is a flowchart illustrating a bleed circuit driving method according to an embodiment of the present invention.

In step S11, an input voltage according to the dimming control command is applied.

In step S12, it is determined whether the applied input voltage reaches a voltage value according to full dimming.

In step S13, when the applied input voltage is a voltage value according to full dimming, the first switch for full dimming is driven to control illumination by full dimming in step S14.

In step S23, when the applied input voltage is a voltage value according to deep dimming, the second switch for deep dimming is driven to control illumination by deep dimming in step S24.

In the above, the bleed circuit and the like according to an embodiment of the present invention have been described. In the present specification, the bleed circuit according to full dimming or deep dimming has been described by way of example, but the scope of the present invention is not limited thereto, and the bleed circuit and the lighting control method for an intermediate dimming effect between full dimming and deep dimming are provided. It can also be applied. The lighting control method according to an embodiment of the present invention may be recorded by an electronic code on a computer-readable electronic recording medium and executed by a computer.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

Claims (7)

In the bleed circuit,
A bleed resistor connected in parallel to the input voltage;
A first switching unit operating based on an input voltage;
And a second switching unit configured to conduct current to the bleed resistor in response to driving of the first switching unit. The method of claim 1,
The first switching unit is composed of a shunt regulator,
And the second switching unit is connected in series to the bleed resistor to conduct current of the bleed resistor according to turn-on and turn-off. The method of claim 1,
In the turn-on operation of the first switching unit, a predetermined power supply voltage is connected to the first switching unit,
In a turn-on operation of the second switching unit, the bleed circuit operates to connect a predetermined power supply voltage that was connected to the first switching unit to the second switching unit. The method of claim 1,
The input voltage is adjusted stepwise based on a command for stepwise adjusting a voltage of an output circuit connected to the bleed circuit, and when the input voltage is a maximum value, the first switching unit is turned on, and the 2 A bleed circuit in which the switching section is turned off. An illumination control circuit comprising the bleed circuit of any one of claims 1-4. In the lighting control method,
Receiving an input voltage according to a dimming control command;
Determining whether the applied input voltage reaches a voltage value according to full dimming; And
And in accordance with the determination, conducting a bleed resistor for controlling the illumination. The method according to claim 6,
When the applied input voltage is a voltage value according to full dimming, the first switch for full dimming is driven.
And driving the second switch for deep dimming when the applied input voltage is a voltage value according to deep dimming.

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