KR101510846B1 - Apparatus for controling consumption of electrical power and method for controling the same - Google Patents

Abstract

The present invention relates to a power consumption control device for reducing power consumption by connecting additional control means to a circuit for controlling output in a conventional SMPS and allowing the additional control means to control the intensity of the power output from the SMPS, The present invention relates to a power control method, and more particularly, to a power control method, which includes an SMPS for converting an external power source and outputting an appropriate level of DC power, an LED unit for emitting light through a power source converted by the SMPS, Further control means connected to the SMPS for controlling the output of the power converted by the SMPS, and a switch connected between the SMPS and an external power source to turn on / off the power.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power consumption control apparatus,

The present invention relates to a power consumption control apparatus and a power consumption control method using the power consumption control apparatus. More particularly, the present invention relates to a power consumption control apparatus, And a power consumption control method using the power consumption control apparatus.

Generally, in the dimming of the LED lamp, the dimming switch has a variable resistance or a device for changing the voltage, and the dimming wiring is separately provided for the lamp driver or the dimmer Controller).

However, since the conventional LED light dimming control apparatus performs dimming control only through the dimming wiring, the dimming switch, the wireless sensing unit, and the wireless operation unit, which are separately added, dimming control through the conventional lighting switch and lamp driving unit has hardly been developed .

As a result, compatibility with the conventional lighting switch and the lamp driving unit is low, and the conventional apparatus needs to be replaced entirely.

In addition, since a commonly used dimmer is an expensive device, there is a problem that the manufacturing cost of the LED illumination increases.

A related prior art is Korean Patent No. 10-1201803.

The present invention relates to a power consumption control device for reducing power consumption by connecting additional control means to a circuit for controlling output in a conventional SMPS and allowing the additional control means to control the intensity of the power output from the SMPS, And to provide a power control method.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems.

According to an aspect of the present invention, there is provided a power consumption control apparatus including an SMPS for converting an external power source and outputting an appropriate level of DC power, an LED unit for emitting light through a power source converted by the SMPS, An additional control means connected to a circuit for controlling an output of the SMPS and capable of additionally controlling the output of a power source converted by the SMPS and a switch connected between the SMPS and an external power source to turn on / Wherein the additional control means includes a voltage change input stage into which a voltage change of the LED unit is inputted and a clock conversion unit which causes the input voltage change to be recognized as a clock signal, An IC unit for sequentially outputting a signal from a plurality of output pins for each of the plurality of output pins; And an output signal unit which receives a signal output from the IC unit according to a button input of the switch and converts the signal into a control signal corresponding to power consumption and outputs the control signal, The additional control means controls the output of the photocoupler connected between the additional control means and the circuit for controlling the output of the SMPS by receiving the control signal converted from the output signal portion, And a connection unit for applying power to the LED unit.

Specifically, the additional control means sets a reference time by a capacitor and a resistor included in the reset unit, and when the switch is turned off and the power output from the SMPS is cut off, When the next operation signal is inputted through the switch, the IC unit can be initialized such that the power of the power outputted from the SMPS is outputted as the maximum or minimum initial value.

According to another aspect of the present invention, there is provided a power consumption control method using a power consumption control apparatus, comprising: initializing a switch connected between an external power supply and an SMPS and initializing an IC unit; A step of outputting a signal to the IC unit and outputting the signal to the output signal unit; and a step of outputting the signal to the output unit, The signal unit outputs the corresponding control signal and transmits the control signal to the connection unit to adjust the current of the photocoupler in the SMPS. The SMPS supplies an output adjusted by the change of the current of the photocoupler to the LED unit, If the switch detects that the switch is turned off and the switch is not turned off, the IC unit continues to hold the output signal and transmits it to the output signal unit The method comprising the steps of: returning to a step of outputting a corresponding control signal, and proceeding to a next step when the switch is turned off; and, when the switch is turned off, And if the switch is turned ON within the reference time, returning to the first step, and proceeding to the next step when the reference time elapses, and if the reference time elapses, And turning off the power of the LED unit.

As described above, since the power consumption of the LED lamp is controlled through the additional control means which is simply connected to the circuit for controlling the output from the inside of the SMPS and additionally mounted, it can be utilized as it is without changing the existing SMPS. There is an advantage that the manufacturing cost of the lamp is reduced.

Further, the additional control means of the present invention can be mounted in a simple connection to a conventional SMPS as a separate configuration from the control circuit of the existing SMPS, and the power consumption of the LED portion and the power consumption of the LED portion can be reduced by ON / It is possible to sequentially change the intensity of light according to the light intensity. Therefore, each of the power consumption and the light intensity can be easily selected.

1 is a diagram showing a structure of a power consumption control apparatus according to an embodiment of the present invention.
Figure 2 is a block diagram of the further control means shown in Figure 1;
3 is a specific circuit diagram of the additional control means shown in Fig.
4 is a flowchart showing a control method using a power consumption control apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 shows a structure of a power consumption control apparatus according to an embodiment of the present invention, which includes an SMPS 10 for converting an external power source and outputting an appropriate level of DC power, An additional control means 30 connected to the control circuit in the SMPS 10 for further controlling the intensity of the power converted in the SMPS 10 and connected to the SMPS 10 to control the SMPS 10, And an LED unit 20 driven by a power source output from the LED 10.

First, the SMPS 10 receives a control signal from the control unit 30 when external power is applied through the operation of the switch 40, and the power of the power source is additionally converted to apply power to the LED unit 20 .

At this time, according to the control signal of the control unit 30, the SMPS 10 gradually decreases the power of the power source in a sequential step or increases the power of the power source, and outputs the converted power.

The additional control means 30 sequentially outputs a control signal to the circuit controlling the output from the inside of the SMPS 10 with the change of the voltage when the switch 40 is turned on as an input signal, So that the output power value of the SMPS 10 is converted.

Each time the switch 40 is turned on or off, the additional control means 30 receives the change of the voltage as an input signal and outputs the set power supply output values sequentially and repeatedly from the SMPS 10 And outputs a corresponding control signal.

In addition, after the LED unit is turned off due to the external power supply being cut off, the switch 40 is not turned on again within a predetermined time by the additional control means 30, The additional control means 30 initializes the sequential output of the control signal so that the output of the power source converted by the SMPS 10 is initialized to the maximum or minimum value which is the initial output value and is output.

The power outputted from the SMPS 10 is converted by the control signal of the additional control means 30 and the intensity of the light is changed through the power source outputted from the SMPS 10 in the LED unit 20.

Further, the additional control means 30 is connected to the existing SMPS 10 in a configuration separate from the circuit for controlling the output from the existing SMPS 10, and further controls the control circuit of the existing SMPS 10 .

The further control means 30 of the present invention constituted as described above will be described in more detail.

FIG. 2 is a block diagram of the additional control means 30 according to the present invention, and FIG. 3 is a diagram showing a specific circuit configuration of the additional control means 30 accordingly.

2 and 3, the additional control means 30 includes a voltage change input stage 31 into which a voltage change of the LED unit 20 is inputted, a clock change unit 31 which converts the input voltage change into a clock signal, An IC unit 33 for sequentially outputting any one of a plurality of output pins each time a clock signal of the clock conversion unit 32 is input; A reset section 34 for initializing the IC section 31 and a signal output from the IC section 33 to be converted into a control signal corresponding to the power consumption when a voltage change of the voltage change input stage 31 is inputted And outputting an output signal 35 to the SMPS 10.

The voltage change input stage 31 is connected to a power source line for applying power to the LED unit 20 so that a change in voltage of the LED unit 20 is introduced when the power source switch 10 is turned on / Is the input of the additional control means (30).

The clock converter 32 includes a plurality of Zener diodes ZD1 and ZD2, transistors Q1 and Q2 and a resistor R. The Zener diode ZD2 is connected to the voltage change input stage 31, The change in the voltage applied to the IC element input pin of the IC section 33 by the transistor Q1 which is intermittently turned on is recognized as a clock signal and is supplied to the IC section 33, Lt; RTI ID = 0.0 > IC < / RTI >

The IC portion 33 includes an IC element, and the IC element may be a general commercialized counter-current circuit element. The IC device changes a clock signal from a LOW state to a HIGH state so that one output pin of each of the plurality of output pins sequentially becomes HIGH each time the clock signal is input.

At this time, since the plurality of output pins of the IC element are connected to different parts in the internal circuit of the output signal part 35, So that the control signal can be outputted from the output signal section 35.

The reset section 34 includes a transistor Q3 and a plurality of capacitors C2 and C3 and a resistor R whose collector terminal is connected to the IC element reset pin of the IC section 33 The emitter and the base terminal are connected to the voltage change input terminal 31 and apply a reset signal to the reset pin of the IC device when the incoming power is turned off and then turned on again after a predetermined time elapses.

That is, when the LED lamp is turned on or off, the transistor Q3 is turned off when there is no change in the voltage applied thereto. When the LED lamp is turned on after a predetermined time has elapsed with the LED lamp turned off, Since the IC device is turned on and initializes the IC device, the LED lamp irradiates light corresponding to the first power consumption stage among the power consumption stages of various stages.

The output signal portion 35 includes a plurality of transistors Q5, Q6 and Q7 and a plurality of resistors R. One of the plurality of output terminals of the IC element of the IC portion 33 is connected to the base of the transistor Q5 Terminal or another output pin may be connected to a specific circuit portion of the output signal portion 35. [

That is, every time the power switch 40 is turned on / off, the IC element sequentially turns the plurality of output pins one by one, in which the transistor connected to the output pin of the HIGH state Q5) or makes the transistor connected to the other output pin conductive to change the voltage applied to the resistor R25 in the output signal portion 35. [ At this time, the changed value becomes the control signal outputted by the output signal section 35.

Further, the additional control means 30 may further include a connection portion 36.

The connection section 36 is connected between the output signal section 35 and the circuit for controlling the output of the SMPS 10 and includes a photocoupler PC and resistors R250 and R260, Is transmitted to the SMPS 10 through the photocoupler PC so that the SMPS 10 changes the output and the thus-converted output is supplied to the LED unit 20.

Next, each component of the additional control means 30 according to the present invention will be described in detail.

In the clock converter 32, when the switch 40 is changed from the OFF state to the ON state, a change in the voltage is input to the voltage change input terminal 31 and the clock connected to the voltage change input terminal 31 The voltage is distributed to the resistor R of the converting portion 32 and the zener diodes ZD1 and ZD2, respectively. At this time, when the voltage is low due to the characteristics of the zener diodes ZD1 and ZD2, the current hardly flows. However, when the voltage increases and the voltage suddenly flows when a specific voltage is applied and a voltage is applied to the base of the transistor Q1, Current is conducted to the collector terminal. In this case, the transistor Q1 conducts only at a specific voltage or higher, and when the voltage is lower than a specific voltage, the voltage change introduced is recognized as a clock signal and input to the input pin of the IC device.

The IC unit 33 causes the first output pin of the IC element to be in the HIGH state when the clock signal input to the input pin of the IC element changes from the LOW state to the HIGH state.

The power switch 40 is turned on and off in the state that power is applied to the LED unit 20 so that the change in the voltage is once again introduced into the control unit 30 and the IC unit 33 of the IC unit 33 The IC device makes the existing output pin in the HIGH state LOW and the second output pin in the HIGH state so that a predetermined sequential output stage Is set to three levels of maximum, middle, and minimum, a control signal corresponding to the intermediate power output value is generated by the second output pin.

Then, when a clock signal is applied once again to the input pin of the IC element, the third output pin becomes HIGH, and is input to the output signal portion 35 to generate a control signal corresponding to the minimum level.

When the output voltage of the LED unit 20 is again input to the IC unit 33 as a clock signal when the output of the power supply is the minimum value in the SMPS 10, ) Or the above process is repeated or the output stage is set to 4 stages so that the fourth output pin is made HIGH to be inputted to the output signal section 35 so that the control signal corresponding to the power- And transmit it to the SMPS 10.

Here, the output stage and the configuration of the output circuit section 35 corresponding thereto may be variable. The IC element output pin of the IC section 33 is controlled by the operation of the switch 40 before the IC element is initialized, Is sequentially input to the input terminal, and the above procedure is repeated.

Since the reset unit 34 keeps the capacitors C2 and C3 constantly charged when the LED unit 20 is kept ON, the voltage of the emitter and the base of the transistor Q3 are different from each other So that no current flows through the emitter and base. If the current does not flow through the base, the transistor Q3 is turned off and the reset pin of the IC element is not supplied with power, so that the IC element can continue the sequential operation following the previous operation.

On the other hand, the reset unit 34 can perform two different operations according to the elapse of the reference time when the LED unit 20 is turned off and then turned on.

First, when the LED unit 20 is turned on after the power switch 40 is turned off, and the LED unit 20 is turned on again, if the LED unit 20 is turned on within a preset reference time, The capacitor C2 connected to the base of the transistor Q3 is charged again in a state in which it is not completely discharged, so that there is no difference between the voltage of the emitter and the base of the transistor Q3. Thus, as described above, the IC device is not reset and continues the next operation sequentially, following the previous operation.

Secondly, when the LED unit 20 is turned on again after the power switch 40 is turned off, when the LED unit 20 is turned on again, The capacitor C2 connected to the base of the transistor Q3 is charged again in a completely discharged state.

At this time, power is directly applied to the emitter of the transistor Q3 from the voltage change input end 31, while the voltage applied to the base is applied later than the voltage applied to the emitter by the capacitor C2 connected to the base, And the current due to the voltage difference of the base flows from the emitter to the base.

Then, a current flows from the emitter to the collector, current flows into the reset pin of the IC element of the IC section 33 connected to the collector, and the IC element is initialized. After that, when the clock signal is input to the input pin of the IC device, the first operation is resumed, and the first output pin becomes HIGH.

The output signal unit 35 outputs a control signal by varying the voltage value applied to both ends of the resistor R25 by the respective output pins of the HIGH state of the IC element. That is, each time the clock signal is input, the IC element sequentially sets one of the plurality of output pins to the HIGH state, and each output pin is connected to the circuit part of the output signal part 35 differently, The voltage values applied to both ends of the resistor R25 in the signal portion 35 are also output differently, and these voltage values become predetermined control signals corresponding to the respective output pins.

The connection section 36 allows the control signal of the output signal section 35 to be transmitted to the current regulation circuit of the SMPS 10 via the photocoupler PC.

The photocoupler PC is generally provided in a feedback control circuit in the control circuit of the SMPS 10 to monitor the output of the SMPS 10 to readjust its output. A photocoupler (PC) is provided in the SMPS 10 If the photocoupler (PC) is not provided in the SMPS 10, the photocoupler (PC) may be connected to the connecting portion 36. In this case, Means 30 may be additionally provided.

The photocoupler PC electrically insulates the additional control means 30 from the SMPS 10 to prevent the additional control means 30 from being subjected to interference such as noise by the high power SMPS 10, The control means 30 can stably match the output of the SMPS 10 with the control signal.

The output value transmitted to the SMPS 10 by the photocoupler PC of the connection portion 36 is converted corresponding to the voltage applied to the resistor R25 of the output signal portion 35. [ The output terminal of the photocoupler PC is connected to the primary side circuit of the DC / DC converter of the SMPS 10 through the resistor R260, thereby being able to convert the output of the SMPS 10 and the finally converted SMPS 10 Is applied to the LED unit 20. The DC output of the LED unit 20 shown in Fig.

A method of controlling power consumption through the configuration of the present invention configured as described above is as follows.

4, the switch 40 connected between the external power source and the SMPS is first turned on, and the IC unit 33 is reset (S10)

The clock conversion unit 32 of the additional control means 30 converts the voltage change when the switch 40 is turned ON so that it can be recognized as a clock signal in the IC unit 33, 33 to the IC element input pin (S20).

Then, the IC unit 33 sequentially outputs a signal and transmits it to the output signal unit 35 (S30). That is, each time the clock signal is input to the input pin, the IC element of the IC unit 33 turns one of the plurality of output pins into a HIGH state and transfers it to the output signal unit 35 sequentially.

Next, the output signal unit 35 receiving the signal from the IC unit 33 outputs the corresponding control signal and transmits it to the control circuit of the SMPS 10 to adjust the current of the photocoupler therein (S40) , The SMPS 10 supplies an output adjusted by the change of the current of the photocoupler to the LED unit 20 (S50).

In this case, when the input of the switch 40 is the first signal for operating the LED unit 20, the additional control means 30 outputs the control signal corresponding to the power value of the maximum intensity or the power value of the minimum intensity, To the SMPS (10).

Here, the initial operation set value of the additional control means 30 is a value corresponding to the output pin first outputted in the state in which the IC element of the IC section 33 is initialized.

That is, the output pin when one of the plurality of output pins is made to be HIGH for the first time is changed by the element of the connected output signal section 35, that is, the change of the voltage applied to the resistor R25 of the output signal section 35 Value.

When the voltage value applied to the resistor R25 at this time is a control signal transmitted to the SMPS 10 and input to the control circuit of the SMPS 10, the SMPS 10 outputs a power value of the maximum or minimum intensity.

Then, the additional control means 30 detects whether the switch 40 is turned off, and if the switch 40 is not turned off, the IC unit 33 continues to maintain the same output signal, After the signal is transmitted to the signal unit 35, the process returns to step S40 where the output signal unit 35 outputs the corresponding control signal. If the switch 40 is turned off, the process proceeds to step S70 ).

That is, in the above step, if the user does not operate the switch 40 while the LED unit 20 is turned on, the LED unit 20 continuously maintains the current on state (S60).

Next, when the switch 40 is turned off, it is determined whether a predetermined reference time elapses from the time when the switch 40 is turned off. When the predetermined reference time has not elapsed and the switch 40 is turned on The process returns to step S20 to output the power value of the next power among the power values of the various power levels. When the reference time has elapsed, the process proceeds to step S80, which is the next step.

That is, contrary to step S60, the additional control means 30 determines whether or not the reference time has elapsed when the user turns off the switch 40 when the LED unit 20 is turned on. Other actions of the branch.

In other words, the additional control means 30 determines whether the operation of the user intends to completely turn off the LED unit 20 or to turn on / off the switch 40 to change the power consumption of the LED unit 20 It is determined whether or not the intention has passed the predetermined reference time.

If the switch 40 is turned on within the reference time, the additional control means 30 causes the user to turn on / off the switch 40 to switch the power consumption of the LED unit 20 to the next step It is determined that the intention is to change the power consumption to the power consumption and the operation returns to step S20 to change the power consumption to the next power consumption of the LED unit 20. [

When the reference time elapses after the user turns off the switch 40, the additional control means 30 determines that the operation of the user is completely extinguished through the LED unit 20, To the SMPS 10 (S80).

The above method will be described with reference to an embodiment.

First, the control signal step set by the additional control means 30 is set to the third step, and the reference time until the next voltage change is inputted after the switch 40 is turned off is set to 10 seconds As an example. Of course, the reference time at which the step of the control signal and the voltage change are input may be adjusted differently depending on the setting of the additional control means 30.

The step of turning on the switch connected between the external power source and the SMPS 10 means turning on the switch when the user first turns on the LED unit, The capacitor in the reset unit 34 of the IC unit 33 is discharged and then the IC unit 33 is reset in the process of charging again.

Next, when the switch is turned on in this state, a voltage change flows into the voltage change input stage 31 and is input to the inside of the additional control means 30, the clock conversion unit 32 converts the input voltage change To be recognized as a clock signal by the IC unit 33 and inputs the converted signal to the IC unit 33. [

At this time, in the IC element of the IC unit 33, when the initial voltage change is input as a clock signal through the input pin in the initial state, the output pin corresponding to the first stage among the output pins corresponding to the third stage is in the high state When the second voltage change is input as a clock signal, the output pin corresponding to the second step goes to the HIGH state. When the third voltage change is inputted as the clock signal, the output pin corresponding to the third step goes to the HIGH state. And the signal is outputted to the output signal unit 35 while repeating this process sequentially each time a clock signal is input.

 Next, the output signal of the first output pin operates the circuit of the connected output signal part 35 to output the first control signal to the photocoupler (PC) of the connection part 36.

Next, the photocoupler PC of the connection unit 36 is connected to and connected to the current regulation circuit on the primary side of the DC / DC converter of the SMPS 10 to monitor the output of the SMPS 10 to readjust the output .

Next, in the SMPS 10, the additional control means 30 supplies the LED portion 20 with the output corresponding to the first stage among the outputs corresponding to the power consumption of the three stages adjusted through the change of the current of the photocoupler do.

 Next, after the light is turned on for the first time in the LED unit 20, it is determined whether or not the user operates the switch 40 again.

That is, the additional control means 30 detects whether the switch 40 is turned off again by the voltage change as in the previous step, and if the switch 40 is not turned off, the IC portion 33 The same output signal is maintained and transmitted to the output signal unit 35. [ Referring to FIG. 4, it is shown to return to step S40.

Next, when the switch 40 is turned off in contrast to the previous step, it is determined whether or not the reference time has elapsed.

That is, when the power switch 40 is turned off, the capacitors C2 and C3 of the reset unit 34 start discharging, and it is determined whether or not the reference time has elapsed by the time when the capacitors C2 and C3 are completely discharged And the reference time can be adjusted by the capacitances of the capacitors C2 and C3 and the resistors R13, R14 and R15.

In this embodiment, 10 seconds is taken as an example. It is assumed that 10 seconds have elapsed from when the power switch 40 is turned off, that is, before the capacitors C2 and C3 are completely discharged, and the power switch 40 is turned ON ) State, the voltage change corresponding thereto is inputted to the voltage change input stage 31, and the process is returned to the output stage corresponding to the power consumption of the next stage.

At this time, the IC element of the IC section 33 outputs the output pin corresponding to the second stage in a high state. Then, when the switch 40 is turned on / off again by the user, the IC element makes the output pin corresponding to the third stage high, and when the operation of the user's switch 40 is continued This sequential operation is repeated.

Next, when the user has turned off the LED 20 in the previous step and the reference time of 10 seconds elapses, the capacitor in the reset unit 34 is completely discharged, and the power supply of the LDE unit 20 Finally, it is completely blocked.

That is, after the elapse of the reference time of 10 seconds, the additional control means 30 judges that the LED lamp is turned off by the user and completely cuts off the power supply. Then, when the user turns on the power supply switch 40, The SMPS 10 transmits a control signal corresponding to the first power consumption stage to the SMPS 10 regardless of the power consumption of the previous LED unit 20, And the power corresponding to the power consumption is applied to the LED unit 20.

After the LED unit 20 is operated for the first time, the user continuously turns off the power switch 40, then turns on the power switch 40 within the reference time, So that the desired power consumption is selected while changing the power consumption level of the LED unit 20. [ When the power consumption is selected, the operation of the power switch 40 is stopped and the power consumption of the LED unit 20 is maintained. When the LED unit 20 is completely turned off, the power switch 40 is turned off, It is enough to elapse.

The present invention configured as described above can be utilized as it is without changing the existing SMPS since the power consumption of the LED lamp is controlled through the additional control means which is simply connected to the circuit for controlling the output from the inside of the SMPS and additionally mounted. There is an advantage that the manufacturing cost of the lamp is reduced.

Further, the additional control means of the present invention can be easily mounted on a conventional SMPS with a simple connection, which is independent of the control circuit of the existing SMPS, so that the ON / OFF operation of the power switch alone It is possible to sequentially change the power consumption of the light source and the intensity of the light so that the power consumption and the light intensity can be easily selected.

The power consumption control device is not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

10: SMPS 20: LED part
30: additional control means 31: voltage change input stage
32: clock conversion unit 33: IC unit
34: reset section 35: output signal section
40: Switch

Claims (3)

An LED unit which emits light through a power source which is connected to the SMPS and is converted and output by the SMPS, a circuit which controls an output power source inside the SMPS, And a switch connected between the SMPS and an external power supply for turning on and off a power supply, the power consumption control apparatus comprising: ,
Wherein the additional control means comprises:
A voltage change input stage into which a voltage change of the LED unit flows,
A clock conversion unit connected to the voltage change input terminal to allow the voltage change to be recognized as a clock signal;
An IC unit connected to the clock converting unit and sequentially outputting a signal from a plurality of output pins each time the clock signal is input;
A reset unit connected between the voltage change input terminal and the IC unit to initialize the IC unit when a voltage change of the voltage change input terminal flows after a predetermined time elapses after the switch is shut off,
And an output signal unit connected to the IC unit for receiving a signal output from the IC unit according to a button input of the switch and converting the signal into a control signal corresponding to power consumption and outputting the control signal,
The additional control means controls the output of the SMPS by controlling the output of the photocoupler connected between the circuit for controlling the output of the SMPS and the control means for receiving the control signal converted from the output signal portion, And a connection unit for applying power to the LED unit.
The method according to claim 1,
Wherein the additional control means sets a reference time by a capacitor and a resistor included in a reset unit, and when the switch is turned off and the power output from the SMPS is cut off, Wherein the controller initializes the IC unit so that the intensity of the power output from the SMPS is output as the maximum or minimum initial value when the next operation signal is input through the SMPS.
The switch connected between the external power supply and the SMPS is turned on and the IC unit is initialized;
Converting the voltage change when the switch is turned on to be recognized as a clock signal by the IC unit of the additional control means and inputting the converted voltage to the IC unit;
The IC unit sequentially outputting a signal and transmitting the signal to an output signal unit;
The output signal unit outputs a corresponding control signal and transmits the control signal to the connection unit to adjust the current of the photocoupler therein;
Supplying the adjusted output to the LED unit according to a change in current of the photocoupler;
When the switch detects that the switch is off and the switch is not turned off, the IC unit continues to maintain the output signal, and after transmitting the output signal to the output signal unit, the output signal unit outputs the corresponding control signal And returning to the next step when the switch is turned off;
When the switch is turned off, it is determined whether a reference time elapses from a time when the switch is turned off. If the reference time does not elapse and the switch is turned on, Returning to the next step when the reference time elapses; And
And turning off the power of the LED unit when the reference time elapses.

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