KR101735638B1 - Control apparatus of dc power load - Google Patents

Abstract

The present invention relates to a DC power supply load control device that can remotely control a DC power supply load while directly utilizing a DC power supply device such as a conventional SMPS (Switching Mode Power Supply).
To this end, according to the present invention, the DC power supplied from the DC power supply unit, which rectifies the AC power supplied when the ignition switch is turned on, converts the DC power into DC power and converts the DC power into DC voltage for driving the internal circuit A DC / DC converter; A communication unit for receiving a dimming control command from outside; A voltage sensing unit for recognizing an on / off signal of the AC power supply as a dimming control signal; A current sensing unit for sensing a current of the DC power source and recognizing the current as a dimming control signal; And a brightness adjusting unit for adjusting the brightness of the illumination load according to the dimming control command.
Accordingly, the present invention can remotely control the DC power load while utilizing the DC power supply device such as SMPS as it is.

Description

[0001] CONTROL APPARATUS OF DC POWER LOAD [0002]

[0001] The present invention relates to a DC power supply load control device, and more particularly, to a DC power supply control device that uses a DC power supply device such as a conventional SMPS (Switching Mode Power Supply) And more particularly, to a DC power supply load control device for controlling a DC power supply.

Various lighting loads such as street lamps, discharge lamps, high ceilings, security lamps, and landscape lamps, which were installed and operated by metal halide lamps, sodium lamps, mercury lamps, incandescent lamps, etc., LED lamps are gradually being replaced.

In this way, various lighting loads installed and operated by a mixture of existing lighting equipment (metal halide lamp, sodium lamp, mercury lamp, incandescent lamp, etc.) and LED lamp are generally turned on or off at a set time, When the lighting load is turned on in a batch, the lighting load is illuminated with a brightness of 100% irrespective of the brightness of the installed surroundings.

In addition, various illumination loads may be turned on or off all at once depending on the ambient brightness in conjunction with the ambient light sensor. If the illumination load is turned on in conjunction with the illumination sensor, it is impossible to adjust the brightness step by step. 100% brightness, so that the energy efficiency is deteriorated.

Meanwhile, in the case of an illumination load implemented by an LED lamp, the brightness of the LED lamp can be adjusted by using an LED lamp capable of dimming in conjunction with the dimmer and the dimmer.

However, conventionally, a dimmer and a dimmable LED lamp must be installed in order to control the brightness of the LED lamp, so that the initial installation cost tends to be large, and further, there is a problem that the installation of the dimmer is inconvenient have.

In order to solve such a problem, there has been proposed a method of adjusting the brightness of an LED lamp using a cycle and number of repetitions of on / off switching of a switch provided on a wall without a dimmer.

However, even in this case, there is a need for the user to move to the place where the switch is directly installed.

Meanwhile, the LED lamp, the motor driving device, and the moving control device are driven by the DC power supply through the DC power supply device such as the SMPS. However, conventionally, There is a problem.

Korean Patent Publication No. 10-2012-90967

SUMMARY OF THE INVENTION It is an object of the present invention to provide a DC power supply load control device capable of remotely controlling a DC power supply load while directly utilizing a DC power supply device such as an SMPS.

According to an aspect of the present invention, there is provided an apparatus for controlling a DC power supply according to an exemplary embodiment of the present invention, comprising: a DC power supply device for rectifying an AC power supplied when a lighting switch is turned on, A DC / DC converter for receiving a DC voltage to be converted and converting the DC voltage into a DC voltage for driving an internal circuit; A communication unit for receiving a dimming control command from outside; A voltage sensing unit for recognizing an on / off signal of the AC power supply as a dimming control signal; A current sensing unit for sensing a current of the DC power source and recognizing the current as a dimming control signal; And a brightness adjusting unit for adjusting the brightness of the illumination load according to the dimming control command.

According to the DC power supply load control apparatus of the present invention, it is possible to remotely control the DC power supply load while directly utilizing the DC power supply device such as the SMPS, to control the point / The speed of the control device and the like can be controlled.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing a configuration of a DC power supply load control apparatus according to an embodiment of the present invention; FIG.
FIG. 2 through FIG. 5 illustrate connections between a DC power supply control device and a DC power supply device according to the present invention; FIG.
6 is a diagram schematically showing a configuration of an integrated control system of a DC power load to which a DC power load control device according to the present invention is applied.

Hereinafter, a DC power supply load control apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the DC power supply load control apparatus according to the present invention, in the embodiment of the present invention, the DC power supply load which controls the point / light and brightness of the illumination, which is an example of the DC power supply load, The control device will be described as an example. However, the present invention is not limited to this, and it is also possible to control the DC power load using the DC power source such as the motor driving device or the moving control device by using the existing DC power supply device as it is, .

1 is a diagram schematically showing a configuration of a DC power supply load control apparatus according to an embodiment of the present invention.

1, the DC power supply load control apparatus 100 according to the present invention includes a power supply unit 105, an EMI (Electromagnetic Interference) filter unit 110, a constant voltage supply unit 115, a coupling circuit unit 120 A DC / DC converting unit 125, a brightness adjusting unit 130, a communication unit 140, a voltage sensing unit 150, a current sensing unit 155, a controller 160, and the like.

In such a configuration, the power supply unit 105 converts AC power supplied from the outside into DC power and outputs the DC power.

The EMI filter unit 110 removes electromagnetic interference noise of the AC power applied to the power supply unit 105.

The constant voltage supply unit 115 converts the DC power applied from the power supply unit 105 to a constant voltage and outputs the constant voltage.

Coupling circuitry 120 is coupled to the power line to isolate the dimming control command received via the power line.

The DC / DC converting unit 125 receives the DC voltage output from the DC power supply unit (not shown) and converts the DC voltage into an internal circuit driving DC voltage.

Here, the DC power supply unit (not shown) rectifies the applied AC power as the ON switch is turned on, converts the AC power into DC power and outputs it, and may be implemented by a Switching Mode Power Supply (SMPS) or the like.

The communication unit 140 receives a dimming control command from the outside and includes a PLC (Power Line Communication) communication unit 141 for receiving a dimming control command through a power line, a dimming control command (not shown) A wireless communication unit 145 that receives a dimming control command from an integrated control device (not shown) through a wireless communication network, a wireless communication unit 145 that receives a dimming control command from a wireless remote control (not shown) through a short- A short range wireless communication unit 147, and the like.

The wireless communication unit 145 includes a CDMA communication module, a WCDMA communication module, a WIBRO communication module, a high speed downlink packet access (HSDPA) communication module, and the like , And the short-range wireless communication unit 147 may include a Bluetooth communication module, a Zigbee communication module, an NFC communication module, an infrared communication module, and an RFID communication module.

The voltage sensing unit 150 recognizes the on / off signal of the AC power source as a dimming control signal, and applies the dimming control signal to the controller 160.

The current sensing unit 155 senses the current of the DC power source and recognizes the current as a dimming control signal, and applies the recognized dimming control signal to the controller 160.

The brightness controller 130 controls the brightness of the illumination load 50 in conjunction with the controller 160 according to the dimming control command.

When the brightness control unit 130 recognizes the dimming control signal according to various methods, the lighting control unit 130 lights the lighting load 50 with the brightness corresponding to the corresponding lighting brightness level. Here, the various methods for recognizing the dimming control signal include a method in which the time when the lighting switch (not shown) is turned on after the voltage sensing unit 150 and the current sensing unit 155 is turned off, It can recognize the dimming control signal as a dimming control signal and recognize the dimming control signal among the control signals transmitted using the power line communication between the PLC communication unit 141 and the integrated controller . The dimming control signal can also be recognized from the control signals received from the IR remote controller (not shown) via the short-range wireless communication unit 147. [ In addition, the dimming control signal can be recognized among the control signals received through various communication methods.

When the dimming control signal is recognized according to various methods, the lighting load 50 is controlled to a desired brightness level through the controller 160 and the brightness controller 130. At this time, the brightness adjusting step may be changed in accordance with the dimming control signal. For example, when the dimming control signal is recognized through the ON / OFF time period of the ON / OFF period of the ON / OFF switch (not shown), the ON and OFF times are sequentially converted to the next brightness of the OFF brightness. That is, it is possible to adjust one step to step 6 or step 4, which is the next brightness, when the brightness step is the step 5 when the on-off switch-on time is off within the set time period. When the initial lighting switch is turned on, the brightness controller 130 sequentially converts the brightness of the illumination from the maximum brightness to the minimum brightness, or from the minimum brightness to the maximum brightness, or when the initial lighting switch is turned on, Brightness or minimum brightness can be maintained. As described above, the illumination brightness step at the time point when the lighting switch is turned off while gradually changing the brightness of illumination step by step is stored. For example, if the user turns off the lighting switch and selects the desired lighting brightness while the lighting load 50 is being stepped up in sequence and the lighting load 50 is being lit in the lighting brightness step 6, Step 6, which is the illumination brightness step, is stored.

When the DC voltage is supplied again through the DC / DC converting unit 125 and the constant voltage supplying unit 115, the brightness adjusting unit 130 controls the brightness of the image displayed on the control unit 160, The illumination load 50 is turned on at the brightness corresponding to the stored brightness level of the stored brightness (e.g., step 6), that is, the brightness level corresponding to the brightness level of the brightness level at the time point when the brightness switch (not shown) is turned off.

When the dimming control signal is a dimming control signal received from the IR remote controller (not shown) through the short distance wireless communication unit 147, the short distance wireless communication unit 147 and the controller 160 adjust the brightness ) Or down (DOWN), and sequentially converts the brightness to the next brightness corresponding to the brightness control perceived by the brightness controller 130. When the dimming control signal is received through the PLC communication unit 141, the control unit 16 determines whether the brightness adjustment is UP or DOWN and the brightness adjustment unit 130 To the next brightness corresponding to the perceived brightness control. In this case, in order to sequentially control the brightness, the DC / DC converting unit 125 and the brightness adjusting unit 130 use an output DC voltage of the DC power supply unit 40 to electrically adjust the dimming control signal corresponding to the received dimming control signal And outputs the specification.

In addition, the brightness controller 130 may turn on the illumination load 50 at a brightness corresponding to the stored illumination brightness level (e.g., step 6), and then, when the lighting switch (not shown) The lighting load 50 is turned on by the brightness of the next step (for example, step 7 or step 5) in conjunction with the control unit 160. For example, if the illumination brightness of the illumination load 50 is sequentially converted stepwise from maximum brightness to minimum brightness, then the illumination load 50 is turned on with the brightness of step 5, and stepwise sequential conversion from minimum brightness to full brightness The lighting load 50 is turned on in step 7.

When the DC voltage is alternately supplied through the DC / DC converting unit 125 and the constant voltage supplying unit 115 as the lighting switch is turned on / off, the brightness adjusting unit 130 controls the brightness 160 to sequentially convert the brightness of the illumination load 50 stepwise from the maximum brightness to the minimum brightness or from the minimum brightness to the maximum brightness. For example, assuming that the brightness of illumination is divided into five levels, the brightness of the light is changed to the brightest level 5 according to the DC voltage alternately outputted within the set time in the DC / DC converter 125 or the constant voltage supplier 115 To step 4, from step 4 to step 3, ... , Stepwise conversion stepwise from step 2 to darkest step 1, or step 1 to step 2 in which the brightness of light is the darkest, step 2 to step 3, ... , Stepwise conversion from step 4 to the brightest step 5.

As described above, when the DC voltage is continuously outputted from the DC / DC converting unit 125 or the constant voltage supplying unit 115 while the lighting brightness is gradually converted in stages, that is, when the on / off operation of the power source is stopped, The controller 130 interlocks with the controller 160 to continuously turn on the illumination load 50 at the point of time when the DC voltage is constantly outputted (the point in time when the power on / off operation is stopped). For example, after the brightness of the illumination load 50 is converted from step 3 to step 4 according to the DC voltage alternately outputted in the DC / DC conversion unit 125 or the constant voltage supply unit 115, the DC / When the constant voltage is continuously output from the power supply unit 125 or the constant voltage supply unit 115 (when the on / off operation of the power supply is stopped), the brightness control unit 130 continuously lights the illumination load 50 to the brightness of step 4 .

When the dimming control command is received through the communication unit 140, the brightness adjusting unit 130 determines the brightness level of the lighting load 50 based on the received dimming control command, (50) is turned on.

The brightness adjusting unit 130 that adjusts the brightness of the illumination load 50 receives the output specification of the DC power supply unit 40 and varies the DC voltage output to the illumination load 50, 50).

The control unit 160 controls each of the units 105 to 155 of the DC power load control apparatus 100 and controls the brightness level of the DC power source A lighting switch (not shown) is turned on within a predetermined time period after the lighting switch (not shown) is turned off during the stepwise conversion of the brightness of the lighting by interlocking with the brightness adjusting unit 130 Once turned on, the lighting load 50 is turned on with a brightness corresponding to the stored lighting brightness level (e.g., step 6).

In addition, the controller 160 controls the DC voltage supplied to the DC / DC converter 125 and the constant voltage supplier 115 alternately, or controls the voltage controller 150, the current sensor 155, When the signal is recognized, the brightness of the illumination load 50 is converted in stepwise manner from the maximum brightness to the minimum brightness or from the minimum brightness to the maximum brightness in cooperation with the brightness adjusting unit 130.

When the dimming control command is received through the communication unit 140, the control unit 160 analyzes the dimming control command to check the brightness level. Then, the controller 160 controls the brightness control unit 130 The lighting load is turned on according to the DC output voltage value corresponding to the brightness level.

FIGS. 2 to 5 are views showing a connection state between a DC power supply load control device and a DC power supply device according to the present invention.

2, the DC power supply device 40 and the DC power supply load control device 100 connect the DC output terminal of the DC power supply device 40 to the DC input terminal of the DC power supply load control device 100, And the AC power is also connected to the DC power supply load control device 100 so as to be remotely controlled by PLC communication between the PLC communication unit 141 built in the DC power supply load control device 100 and the integrated control device The brightness of the illumination load 50 and the like can be controlled. Further, the brightness of the illumination load 50 and the like can be controlled remotely using the wireless remote controller 60.

3, the DC power supply device 40 and the DC power supply load control device 100 are configured such that the DC output terminal of the DC power supply device 40 is connected to the DC input terminal of the DC power supply load control device 100, The brightness of the illumination load 50 and the like can be controlled according to the dimming control signal recognized through the on / off switch of the lighting switch, the voltage sensing unit 150, and the current sensing unit 155. Further, the brightness of the illumination load 50 and the like can be controlled remotely using the wireless remote controller 60.

On the other hand, when there is a dimming port in the DC power supply 40, the DC power supply 40 and the DC power load controller 100 are connected as shown in FIG. 4, 100 communicate with the integrated control device (not shown) through PLC communication to remotely control the brightness of the lighting load 50 and the like, and to the DC power supply device 40 in which the dimming port exists, (For example, RS485 / 232 communication), and it is possible to remotely control the brightness and the like of the lighting load 50 by using the wireless remote controller 60.

On the other hand, the DC power supply device 40 and the DC power supply load control device 100 are connected as shown in Fig. 5, and are used for controlling the dimming control using the PLC communication, the on / off repetition period and the number of times Dimming control using the wireless remote controller 60, and dimming control using the wire remote communication with the DC power supply 40 for the dimming port.

As described above, the DC power supply load control device 100 according to the present invention utilizes the output voltage of the conventional DC power supply device 40 as it is, so that the dimming control by the constant voltage method or the constant current method can be performed .

FIG. 6 is a diagram schematically showing a configuration of an integrated control system of a DC power load to which a DC power load control device according to the present invention is applied.

In Fig. 6, the server 10 or the client PC 20 controls the lighting load 50 to be turned on / off, the brightness of illumination, etc. according to the operation of the manager remotely.

The server 10 or the client PC 20 receives the dimming control command related to the lighting load 50 on / off, the brightness of illumination, etc. from the manager, and transmits the dimming control command to the integrated controller (30).

Here, the client PC 20 may be implemented as a personal computer, a smart phone, a tablet PC, or the like.

When the client PC 20 is implemented as a smart phone or a tablet PC, a dimming control application can be installed in the client PC 20. The client PC 20 can receive various lighting load related information, Event information, video, etc. can be remotely managed.

It is preferable that the server 10 is implemented to analyze the real-time power consumption and adjust the brightness of the lighting load at a time when power consumption is high to increase the energy efficiency.

When receiving the dimming control command from the server 10 through the wired / wireless communication network, the integrated controller 30 transmits the received dimming control command to the DC power load controller 100 through the wired / wireless communication network.

The DC power supply device 40 rectifies the AC power applied when the lighting switch is turned on, converts the AC power into a DC voltage, and outputs the DC voltage.

The DC power supply load control apparatus 100 controls the brightness of the illumination load 50 according to the dimming control signal recognized through the cycle and the number of repetitions of the ON / OFF repetition of the ON / OFF switch, the voltage sensing unit 150 and the current sensing unit 155 It is a step-by-step conversion from maximum brightness to minimum brightness or minimum brightness to maximum brightness.

When receiving the dimming control command from the integrated controller 30, the DC power load control device 100 analyzes the received dimming control command to check the brightness level of the lighting load 50 desired by the remote manager, Illuminates the illumination load 50 with a DC output voltage value corresponding to the brightness level of the illuminated load 50 and illuminates the illumination load 50 with the brightness level desired by the remote manager.

When receiving the dimming control command from the wireless remote controller 60, the DC power load controller 100 grasps the lighting load 50 for adjusting the brightness using the received dimming control command and the received identification information, The dimming control command is analyzed to determine whether the command is a command for raising the brightness level or a command for decreasing the brightness level. Then, the DC output voltage value output to the lighting load 50 is varied to brighten or darken the brightness of the lighting load 50 .

The wireless remote controller 60 communicates with the DC power load controller 100 via the short-range wireless communication scheme, receives the dimming control command from the user, and transmits the dimming control command to the DC power load controller 100 through the short-range wireless communication network .

When the dimming control command is transmitted to the DC power supply load control device 100 according to the button operation, the wireless remote controller 60 is assigned to the illumination load to identify the lighting load to which the button operation is performed, It is preferable to transmit the identification information together with the identification information.

As described above, when controlling the brightness of the illumination load 50 by configuring the integrated control system of the DC power load, the illuminance sensor is installed on the site where the illumination load 50 is installed, The system may be implemented so that the brightness of the illumination load 50 can be controlled step by step using the brightness value sensed by the sensor. Alternatively, after the IP camera is installed on the site where the illumination load 50 is installed, So that the brightness of the illumination load 50 can be controlled step by step.

The DC power supply load control device of the present invention is not limited to the above-described embodiments, but can be variously modified and embodied within the scope of the technical idea of the present invention.

10. Server, 20. Client PC,
30. Integrated control device, 40. DC power supply,
50. Lighting load, 60. Wireless remote control,
100. DC power load control device, 105. EMI filter part,
110. Power supply, 115. Constant voltage supply,
120. Coupling circuit section, 125. DC / DC conversion section,
130. Brightness control section, 140. Communication section,
141. PLC communication section, 143. Wired communication section,
145. Wireless communication, 147. Short-range wireless communication,
150. Voltage sensing unit, 155. Current sensing unit,
160. Control unit

Claims (9)

In a DC power supply of Switching Mode Power Supply (SMPS)
A DC / DC converter for converting a DC voltage supplied from an installed DC power supply into a DC voltage for driving an internal circuit, which rectifies the AC power supplied when the ignition switch is turned on, DC converter;
A communication unit for receiving a dimming control command from outside;
A voltage sensing unit for recognizing an on / off signal of the AC power supply as a dimming control signal;
A current sensing unit for sensing a current of the DC power source and recognizing the current as a dimming control signal;
A brightness adjusting unit adjusting the brightness of the illumination load according to the dimming control command recognized through any one of the communication unit, the voltage sensing unit, and the current sensing unit;
A power supply unit for converting an AC power supplied from the outside into a DC power and outputting the DC power;
A constant voltage supply unit that receives a DC power from the power supply unit and outputs a constant voltage; And
And a coupling circuit unit connected to the power line for separating the dimming control command received through the power line,
Wherein,
A PLC (Power Line Communication) communication unit for receiving a dimming control command through a power line;
A wired communication unit for receiving a dimming control command through a wired communication network;
A wireless communication unit for receiving a dimming control command through a wireless communication network;
And a short range wireless communication unit for receiving a dimming control command from the wireless remote controller,
Wherein the brightness adjusting unit comprises:
And recognizes the dimming control signal as a dimming control signal through the voltage sensing unit or the current sensing unit when the lighting switch is turned on and off within a predetermined period, Recognizes a dimming control signal among the control signals transmitted using the wireless communication unit, recognizes a dimming control signal among control signals received from the integrated control unit through the wired communication unit, Recognizes a dimming control signal in a control signal, recognizes a dimming control signal among control signals received from a wireless remote control through the short-
When the AC power or the DC voltage is supplied, the initial illumination brightness is maintained at the maximum brightness or the minimum brightness, and when the AC power or the DC voltage is cut off and then supplied again within a predetermined time, The lighting load is turned on at the brightness corresponding to the lighting brightness level at the time point when the lighting load is turned on,
Alternatively, when AC power or DC voltage is supplied, the AC power or the DC voltage is interrupted during the stepwise conversion of the brightness of the illumination from the maximum brightness to the minimum brightness or from the minimum brightness to the maximum brightness in a stepwise manner The lighting load is turned on at a brightness corresponding to the lighting brightness level at the time when the AC power or the DC voltage is cut off in conjunction with the control unit,
Wherein the DC output terminal of the previously installed DC power supply is connected to the DC input terminal of the DC power load control device. delete delete delete delete The apparatus of claim 1,
Wherein the brightness of the lighting load is sequentially converted from the maximum brightness to the minimum brightness or from the minimum brightness to the maximum brightness in a stepwise manner in cooperation with the control unit in accordance with the DC voltage alternately supplied. The apparatus of claim 1,
And a dimming control command received via the communication unit to grasp the brightness level of the lighting load and to illuminate the lighting load with the identified brightness level. 8. The apparatus according to any one of claims 6 to 7,
And adjusts the brightness of the illumination load by varying a DC voltage output to the illumination load. delete

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