KR100898554B1 - Unifying Control System Of LED Lighting Device - Google Patents

Abstract

The present invention relates to an integrated LED lighting control system, and more particularly, to an LED lighting integrated control system capable of integrally controlling a variety of LED lighting equipment according to the type and control circuit of the LED.

LED Lighting, Main Board, Slot Board

Description

LED lighting integrated control system {Unifying Control System Of LED Lighting Device}

1A to 1D are circuit diagrams schematically showing a method of driving a conventional LED lighting device.

2 is a system configuration diagram schematically showing an LED lighting device integrated control system according to a preferred embodiment of the present invention.

3 is a block diagram of FIG. 2.

4 is an exemplary view showing a signal connection state according to a preferred embodiment of the present invention.

5A to 5F are block diagrams of slot boards in accordance with a preferred embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

110: power supply 120: DMX board

130: main board 140: slot board

150: direct current DC inverter 20: LED lighting equipment

The present invention relates to an integrated LED lighting control system, and more particularly, to an LED lighting integrated control system capable of integrally controlling a variety of LED lighting equipment according to the type and control circuit of the LED.

Conventional LED lighting equipment control method is using a lot of DMX (Digital Multiplex) control method, DMX control method means a digital multiplexer signal and is the most common international standard standard used with the equipment associated with the light source.

DMX, short for DMX512, uses RS-485 communication over two wires to transmit data at 250.000 bits per second (250kbps) and provides 512 channels per data link.

In the conventional LED lighting device, a DMX controller generating a DMX control signal and a plurality of LED lighting devices are connected to each other using a daisy-chain method.

According to the DMX communication standard, the DMX controller has 512 consecutive start bits (Start bit: 1 bit), data bits (Data bit: 8 bits), and stop bit (2 bits) as one packet. Send the packet to the LED luminaire.

Each of the LED lighting devices has a unique address, and receives the data code of the corresponding packet and uses the same to control the lighting.

1A to 1D are circuit diagrams schematically showing a method of driving a conventional LED lighting device.

1A to 1D, a conventional LED lighting device driving method is as follows.

1. LED always on

As can be seen from Figure 1a, the current detection circuit for limiting the current flowing in the LED lighting device in such a way that the LED is always turned on when the power is applied in a manner of directly connecting the LED lighting device to the DC power supply (DC) To the anode or cathode of an LED luminaire. Here, the current detection circuit may be a resistor, a regulator, a constant current circuit module, or the like.

2. Commonly used DC power supply (V +)

As can be seen from FIG. 1B, an NPN transistor or an N-channel FET (Field Effect Transistor) or the like can be used as a switching element for the LED driver by connecting the LED driver to the LED cathode using a common DC power source (V +). When the DC power is low and the current flowing through the LED is low, it is directly connected to the microprocessor used in the control circuit.

3. How to use ground (GND) in common

As can be seen in FIG. 1C, a PNP transistor or a P-channel FET can be used as a switching element for the LED driver by connecting the LED driver to the anode of the LED using the ground (GND) in common, and the DC power is low. When the current flowing through the LED is small, it can be directly connected to the microprocessor used in the control circuit.

4. Method used for power LED

As can be seen from Figure 1d, a method of configuring a constant current driver circuit in a manner commonly used for power LED (Power LED) of 1W or more shows the method of connecting to the cathode of the LED.

As described above, since the configuration of the conventional LED lighting equipment control system is different for each manufacturer, it is difficult to implement a standardized system, and because the LED lighting device and its control system are manufactured and sold together, the LED lighting device and its control The system must be purchased at the same time, there was a problem that it is difficult to implement the system by purchasing only the LED lighting equipment.

In order to solve the above problems, an object of the present invention is to provide a LED lighting device integrated control system that can integrally control the LED lighting device having a variety of LED lighting device driving method using a plurality of slot boards There is to offer.

LED lighting integrated control system according to the present invention to achieve the above object is a plurality of DMX board and various ways to control the LED lighting device for transmitting and receiving data from the power supply and power supply to the external DMX transmitter It characterized in that it comprises a main board for transmitting the power supply and DMX data of the slot board and the LED lighting device through the slot board.

The apparatus may further include a direct current DC converter configured to convert the power supply of the power supply unit into various DC voltages when the system supply voltage of the power supply unit and the input voltage of the LED lighting device are different.

In addition, the DC-to-DC converter is characterized by consisting of a regulator or a pulse width control (PWM) circuit for supplying a variety of voltages.

In addition, the DMX board is characterized in that it comprises a repeater for stable operation.

And, when the slot board is connected to the LED lighting equipment that is always ON (ON)

A terminal block connecting the LED luminaire, a current detection circuit for detecting current of the LED luminaire, a feedback circuit for feeding back the detected signal to a control circuit, and a control circuit for controlling the LED luminaire current from the feedback signal. Characterized in that configured.

In addition, when the slot board is connected to a common LED lighting device for direct voltage (+ V)

It is connected to the terminal block and the DC voltage (+ V) terminal to connect the LED lighting equipment, LED driver to detect the current and control the driving of the LED lighting equipment, and transmit and receive DMX data and the microprocessor and LED lighting equipment to control the LED driver. It is characterized in that it comprises a dip switch (Dip switch) for inputting the address of.

And, when the slot board is connected to the ground (GND) common LED lighting equipment, the LED driver and the main board connected to the terminal block and ground (GND) terminal for connecting the LED lighting equipment to control the driving of the LED lighting equipment It is characterized in that it comprises a microprocessor and a dip switch for inputting the address of the LED luminaire to control the lighting direction of the LED luminaire through the LED driver receives a voltage and a DMX signal.

In addition, when the slot board is connected to the LED lighting device in the power LED type, the terminal block for connecting the LED lighting device, the current detection circuit for detecting the current of the LED lighting device and the switching element for controlling the on / off of the LED lighting device And a feedback circuit for feeding back the current detected from the current detection circuit to a control circuit, a LED luminaire current from the fed back signal, a control circuit for controlling the driving of the LED driver, and a voltage and a DMX signal from the main board. It is characterized in that it comprises a microprocessor for controlling the lighting direction of the LED lighting device through the control circuit and a dip switch for inputting the address of the LED lighting device.

Here, the LED driver is characterized in that it comprises a constant current circuit for limiting the current flowing in the LED lighting device and a switching element for controlling the on / off of the LED lighting device.

When the slot board outputs only power and DMX signals to the LED lighting device, the terminal board receives a DMX signal transmitted from the power supply unit to the LED lighting device from the main board. Characterized in that it comprises a block.

In addition, the slot board is a microprocessor and the DMX to control the transmission of the DMX signal according to the illumination directing program stored in the input end and the illumination directing program received through the input terminal inputting the external light directing program And a DMX output terminal for outputting a signal through the main board.

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

2 is a system configuration diagram schematically showing an integrated control system for LED lighting equipment according to a preferred embodiment of the present invention, Figure 3 is a block diagram of Figure 2, Figure 4 is a signal connection according to a preferred embodiment of the present invention It is an exemplary figure which shows the state.

2 and 4, the LED lighting device integrated control system according to the present invention is a power supply device 110 for supplying DC power and the DMX board 120 for transmitting and receiving data from an external DMX transmission device of various ways It comprises a plurality of slot board 140 for controlling the LED lighting device and the main board 130 for transmitting power and DMX data to the LED lighting device through the slot board.

In addition, when the system supply voltage of the power supply device and the input voltage of the LED lighting device is different may further include a direct current DC converter 150 for converting the power of the power supply unit to a variety of DC voltage.

 Here, the DC DC converter may be configured as a regulator or a pulse width modulation (PWM) type circuit to supply various voltages.

For example, when the voltage supplied to the main board of the LED lighting integrated control system according to the present invention is 5V, and the voltage used for the LED lighting equipment is 12 ~ 15V, it is necessary to convert the DC voltage for controlling the LED lighting equipment At this time, it can be supplied by converting the DC voltage using a DC DC converter.

Hereinafter, for convenience of description, a voltage used in the system according to the present invention is defined as + V ₁ , and a voltage converted for controlling LED lighting equipment is defined as + V ₂ .

The DMX board 120 is responsible for transmitting DMX data (DMX +, DMX-) transmitted from an external DMX transmitter to each slot board through a main board. To this end, the DMX board may be configured to include a transceiver for transmitting and receiving DMX data.

In addition, the DMX board 120 may include a repeater for stable operation from attenuation of DMX data.

The main board 130 is responsible for transferring power and data transmitted from the power supply device 110, the direct current DC converter 150, and the DMX board 130 to each slot board 140.

The slot board 140 may be configured in plural, and each slot board may be configured differently according to the driving method of the LED lighting device. That is, in order to integrally control the LED lighting device 20 that is operated by various driving methods can be manufactured and configured as a board for each driving method.

Therefore, by simply connecting the corresponding LED board to the slot board 140 of various driving methods it is possible to integrally control the LED lighting device.

5A to 5F are block diagrams of slot boards in accordance with a preferred embodiment of the present invention.

Looking at the configuration of the slot board with reference to Figures 5a to 5f as follows.

1. Slot board 141 connected to the LED lighting equipment that is always ON

Referring to FIG. 5A, a slot board includes a terminal block (not shown) for connecting an LED luminaire, a current detection circuit 141a for detecting a current of the LED luminaire, and a feedback circuit for feeding back the detected signal to a control circuit ( 141b) and a control circuit 141c for controlling the LED luminaire current from the feedback signal.

More specifically, the current flowing through the LED lighting device 20 through the current detecting circuit 141a is detected by the LED lighting device 20 connected through the terminal block, and this signal is transmitted to the control signal through the feedback circuit 142b. By feeding back, the control circuit 141c controls the electric current, and can constitute a constant current circuit. Here, a resistor may be used as the current detection circuit 141a, and the control circuit 141c may control a current using a PWM IC (current mode pulse modulation IC). The PWM method can reduce the component size of the component circuit by switching at a high frequency of 100KHz or more, and the brightness control of the production of light is made by turning the PWM circuit ON / OFF at a frequency of about 100 ~ 1 kHz. In order to connect with the LED luminaire, the slot board needs six output terminals when driving RGB LEDs and two output terminals when driving LEDs of a single color.

2. Slot board 142 connected to the LED lighting equipment for DC voltage (V +) common

Referring to FIG. 5B, the slot board 142 is connected to a terminal block (not shown) connecting a LED lighting device and a common terminal of a DC power source to control the driving of the LED lighting device and the voltage at the main board. And a microprocessor 142b for receiving the DMX signal and controlling the lighting direction of the LED lighting device through the LED driver, and a dip switch 142c for inputting an address of the LED lighting device. .

In addition, the present invention may further include an address input connector 142d capable of receiving an address from an address input device (not shown).

Here, the LED driver 142a may be configured to include a constant current circuit for limiting the current flowing in the LED lighting device 20 and a switching element for controlling the on / off of the LED lighting device. The microprocessor 142b may transmit only a brightness control PWM signal to the switch element.

In addition, the constant current circuit may be configured as a PWM circuit, and when the power consumption is small, it may be simply configured using a device such as a resistor or a regulator.

The switching element may be configured as an NPN transistor or an N-channel FET. Since the slot board connected to the DC voltage (V +) common LED lighting equipment is connected to the DC voltage (V +) in common, four output terminals of the slot board are required when driving RGB LEDs, and two when driving a single LED. It is necessary.

3. Slot board 143 connected to ground (GNE) common LED lighting equipment

Referring to FIG. 5C, the slot board 143 is connected to a terminal block (not shown) and a ground (GND) terminal for connecting the LED lighting device to the LED driver 143a and the main board for controlling the driving of the LED lighting device. It may be configured to include a microprocessor (143b) for receiving the voltage and the DMX signal to control the lighting direction of the LED lighting device through the LED driver and a dip switch (143c) for inputting the address of the LED lighting device. have.

In this case, the LED driver is connected to the ground (GND) terminal and a switching element, which is composed of a PNP transistor or a P-channel FET, as compared with a slot board 142 connected to a common LED lighting device for DC voltage (V +). Except that the configuration is the same, so a detailed description will be omitted.

4. Slot board 144 connected to the LED lighting equipment of the power LED type

Referring to FIG. 5D, the slot board 144 is connected to a terminal block and a ground (GND) terminal for connecting the LED lighting device, and the current detection circuit 144a for detecting the current of the LED lighting device and the on / off of the LED lighting device. The switching element 144b for controlling the off and the feedback circuit 144c for feeding back the current detected from the current a detection circuit to the control circuit and the LED luminaire current are controlled from the feedback signal, and the driving of the LED driver is controlled. Dip switch for inputting the address of the LED lighting device and the microprocessor 144e for controlling the lighting direction of the LED lighting device through the control circuit 144d and the main board to receive the voltage and DMX signal 144f). Here, the current detection circuit may be composed of a resistor, and the switching element may be composed of an NPN transistor or an N-channel FET.

The slot board may further include an address input connector 144g for connection with an address input unit.

5. When outputting power and DMX signal only to LED lighting equipment

Referring to FIG. 5E, the slot board 145 receives a terminal block (not shown) that receives a DC voltage (V +), a ground (GND), and a DMX signal transmitted from a DMX board from a power supply to a LED lighting device. It can be configured to include. And, it may be configured to further include a transceiver for transmitting and receiving the DMX signal.

When the slot board is configured as described above, the slot board is responsible for supplying power (V +, GND) and transmitting only DMX data (DNX +, DMX-) to the LED lighting device.

6. Slot Board (146)

Referring to FIG. 5F, the slot board 146 stores an input terminal for receiving an externally output lighting directing program and an illumination directing program input through the input terminal, and controls transmission of a DMX signal according to the lighting directing program. It may include a microprocessor and a DMX output terminal for outputting the DMX signal through the main board.

Here, the input terminal may be configured as a USB connection port or a serial communication (RS232) port, and the DMX signal according to the lighting directing program may be transmitted to another slot board through the main board.

The slot board according to the present invention may be configured to include any one or two or more slot boards selected from the six slot boards described above.

In the above, only six embodiments of the slot board according to the preferred embodiment of the present invention have been described, but any LED lighting device having a different driving method can be used integrally by making a slot board suitable for the corresponding LED lighting device.

As described above, the LED lighting device integrated control system according to the present invention generates an excellent effect that can be integrally controlled by connecting the LED lighting device of the various driving method to the slot board supporting the corresponding method.

Although the detailed description of the present invention described above has been described with reference to the preferred embodiment of the present invention, the protection scope of the present invention is not limited to the above embodiment, and those skilled in the art will appreciate It will be understood that various modifications and changes can be made in the present invention without departing from the spirit and scope of the invention.

Claims (12)

A power supply for supplying power; A DMX board for transmitting and receiving data transmitted from an external DMX transmitter; A plurality of slot boards for controlling various types of LED lighting devices; A main board for transmitting power and DMX data through the slot board to the LED luminaire, wherein the slot board In case of connecting to DC voltage (+ V) common LED lighting equipment It is connected to terminal block and DC voltage (+ V) terminal to connect LED lighting equipment, LED driver to detect current and control driving of LED lighting equipment, microprocessor and LED lighting equipment to transmit / receive DMX data and control the LED driver. LED luminaire integrated control system comprising a dip switch to enter the address of the (Dip switch). The method of claim 1, And a direct current direct current (DC) converter for converting power of the power supply into various direct current voltages when the system supply voltage of the power supply and the input voltage of the LED illuminator are different. The method of claim 2, The direct current DC converter LED lighting integrated control system comprising a regulator or pulse width control (PWM) circuit to supply a variety of voltages. The method of claim 1, The DMX board is LED lighting integrated control system comprising a repeater for stable operation. delete delete A power supply for supplying power; A DMX board for transmitting and receiving data transmitted from an external DMX transmitter; A plurality of slot boards for controlling various types of LED lighting devices; A main board for transmitting power and DMX data through the slot board to the LED luminaire, wherein the slot board When connected to the ground (GND) common LED luminaire, the LED driver connected to the terminal block and the ground (GND) terminal for connecting the LED luminaire to control the driving of the LED luminaire and the voltage and DMX signal from the main board The LED lighting device integrated control system comprising a microprocessor for controlling the lighting direction of the LED lighting device through the LED driver and a dip switch for inputting the address of the LED lighting device. A power supply for supplying power; A DMX board for transmitting and receiving data transmitted from an external DMX transmitter; A plurality of slot boards for controlling various types of LED lighting devices; A main board for transmitting power and DMX data through the slot board to the LED luminaire, wherein the slot board When connected to the LED luminaire of the power LED type, the terminal block connecting the LED luminaire, the current detection circuit for detecting the current of the LED luminaire, the switching element for controlling the on / off of the LED luminaire and the current detection circuit A feedback circuit for feeding back the current detected from the feedback circuit to the control circuit and controlling the LED luminaire current from the feedback signal, and a control circuit for controlling the driving of the LED driver, and receiving the voltage and the DMX signal from the main board. LED luminaire integrated control system comprising a microprocessor for controlling the lighting direction of the LED luminaire through and a dip switch for inputting the address of the LED luminaire. The method according to claim 1 or 7, The LED driver A constant current circuit that limits the current through the LED luminaire LED lighting integrated control system comprising a switching element for controlling the on / off of the LED lighting. A power supply for supplying power; A DMX board for transmitting and receiving data transmitted from an external DMX transmitter; A plurality of slot boards for controlling various types of LED lighting devices; A main board for transmitting power and DMX data through the slot board to the LED luminaire, wherein the slot board In case of outputting only power and DMX signal to LED lighting equipment, including terminal block for receiving DMX signal from main board and transmitting DC voltage (V +), ground (GND) and DMX board from power board to LED lighting equipment. LED luminaire integrated control system, characterized in that configured. A power supply for supplying power; A DMX board for transmitting and receiving data transmitted from an external DMX transmitter; A plurality of slot boards for controlling various types of LED lighting devices; A main board for transmitting power and DMX data through the slot board to the LED luminaire, wherein the slot board An input terminal for receiving an illumination output program input from the outside; A microprocessor for storing an illumination directing program received through the input terminal and controlling transmission of a DMX signal according to the illumination directing program; LED lighting device integrated control system comprising a DMX output terminal for outputting the DMX signal through the main board. A power supply for supplying power; A DMX board for transmitting and receiving data transmitted from an external DMX transmitter; A plurality of slot boards for controlling various types of LED lighting devices; A main board for transmitting power and DMX data through the slot board to the LED luminaire, wherein the slot board The integrated control system of the LED lighting device, characterized in that consisting of any one or two or more of the slot board selected from the slot board according to claim 1, 7, 8, 10 and 11.

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