KR101347242B1 - Led lighting controller - Google Patents

Abstract

The present invention relates to a LED lighting control device, and more particularly, LED lighting control device that can control the lighting with a single controller regardless of the type of communication module using a sub-board equipped with a communication module which is a light control signal It is about.
LED lighting control device according to the present invention is a microcontroller responsible for the overall control of the LED lighting control device, a communication module connection connector for connecting to the communication module sub-board and communication with the main board, and drives the LED luminaire A main board including an LED driver for driving the electronic device; Communication board which is mounted on any one of Dali interface communication module, RS-485 interface communication module or 0-10V interface communication module, is formed independently of the main board and connected to the connector for connecting the communication module. And a port of the microcontroller as an output port in a pull-up resistance connection state, connecting the output port to the connector for connecting the communication module, and the communication module subboard connected to the connector for connecting the communication module. It is made by connecting a resistor in parallel to the connection jack of the communication mode of the communication module to automatically set.

Description

LED LIGHTING CONTROLLER

The present invention relates to a LED lighting control device, and more particularly, LED lighting control device that can control the lighting with a single controller regardless of the type of communication module using a sub-board equipped with a communication module which is a light control signal It is about.

Many methods are used as interfaces for on-off and dimming control of lighting.

Among them, Dali system and 0-10V system, which is an analog system using voltage in places with poor ambient conditions such as noise, are mainly used for indoor lighting.

In recent years, the use of a system using the RS-485 communication standard, which is advantageous for many lighting controls, is increasing.

The trend of using LED is increasing as lighting, and LED module has a plurality of LED elements mounted on a circuit board in a constant array, and the control circuit that controls each of the LED elements has a flashing order, emission color, and brightness for a plurality of LEDs. It outputs a signal for controlling the operation of the back.

Control devices having such control circuits have to use a different control device according to a communication standard for controlling the LED lighting, and thus has a lot of complex problems of installation, operation and control of a plurality of control devices.

In order to improve this problem, Korean Patent No. 10-1003719 discloses a technology of an integrated LED lighting transmission controller.

Korean Patent No. 10-1003719 discloses at least one of IR control, DMX 512 control, ZERO TO TEN control, RS 485 home network system wall pad communication control, human body detection control, light detection control, DALI communication control, and wireless communication control. The LED lighting integrated transmission controller which has a mode selector for selecting a mode according to one type of lighting control and outputs a corresponding lighting control signal according to the type of lighting control selected by the mode selector based on the input signal. Is disclosed.

However, the Republic of Korea Patent No. 10-1003719 has the advantage that can be integrated control irrespective of the communication module, while the appropriate mode to select the mode suitable for the communication module in accordance with the communication module by one, the cumbersome disadvantages It also has a number of communication modules listed (IR control, DMX 512 control, ZERO TO TEN control, RS 485 home network system wall pad communication control, human body detection control, light detection control, DALI communication control, and wireless communication control). If applied, there is a problem in that a proper circuit configuration and a plurality of mode selection functions are required.

KR 10-1003719 B1 (2010.12.17)

An object of the present invention for solving the above problems of the prior art is to provide an LED lighting control device that can control the lighting with one controller irrespective of the type of the lighting control signal.

In addition, the type of lighting control signal is limited to RS 485 communication, Dali communication, 0-10V communication and mounted on a separate sub board to be connected to the connector to provide an LED lighting control device that can actively cope with various communication modules. I would like to.

In addition, it is to provide an LED lighting control device that can control the LED lighting by automatically recognizing all the communication module signals in addition to connecting the integrated communication module board to the connector.

LED lighting control device according to the present invention for achieving the above object, the microcontroller responsible for the overall control of the LED lighting control device, the communication module is connected to the communication board and the communication module is connected to the main board A main board including a connector for driving the LED lamp and an LED driver; Communication board which is mounted on any one of Dali interface communication module, RS-485 interface communication module or 0-10V interface communication module, is formed independently of the main board and connected to the connector for connecting the communication module. And a port of the microcontroller as an output port in a pull-up resistance connection state, connecting the output port to the connector for connecting the communication module, and the communication module subboard connected to the connector for connecting the communication module. It is made by connecting a resistor in parallel to the connection jack of the communication mode of the communication module to automatically set.

In addition, the LED lighting control apparatus according to the present invention, the microcontroller responsible for the overall control of the LED lighting control device, a communication module connection connector to be connected to the communication module sub-board and communication with the main board, LED A main board including an LED driver for driving the luminaire; Communication board which is mounted on any one of Dali interface communication module, RS-485 interface communication module or 0-10V interface communication module, is formed independently of the main board and connected to the connector for connecting the communication module. A board; connecting an ADC pin to the communication module connection connector using an analog-to-digital converter (ADC) of the microcontroller, and converting an analog voltage by a resistance value in the communication module subboard. It is characterized in that for setting the communication mode of the communication module.

Here, the main board, an address for setting any one of the setting method to set the address through the communication line to set the address to the address or to the LED luminaire built in (Dip) built-in An LED driver mode setting dip switch may be formed to set a setting dip switch and a constant current circuit for driving the LED luminaire in any one mode so as to be implemented in any case mounted inside or outside the LED luminaire. .

According to the above-described configuration of the present invention, lighting can be controlled by one controller regardless of the type of the lighting control signal, and the lighting control signal communication module is mounted on a separate sub board so as to be connected to a connector to various communication modules. Actively coping, and by connecting the integrated communication module board to the connector, it is possible to provide an LED lighting control device that can automatically control the LED lighting by recognizing all communication module signals automatically.

1 is a schematic structural diagram of an LED lighting control device according to the present invention.
2 is an internal block diagram of the LED lighting control apparatus according to the present invention.
3 is a schematic view for explaining an example of communication mode recognition of the LED lighting control device communication module subboard according to the present invention.
4 is a schematic diagram illustrating another example of communication mode recognition of the LED lighting control device communication module subboard according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the structure and effect of the LED lighting control device according to the present invention.

1 is a schematic structural diagram of an LED lighting control apparatus according to the present invention, Figure 2 is an internal block diagram of the LED lighting control apparatus according to the present invention.

As shown in FIG. 1, the LED lighting control device 100 according to the present invention includes a main board 111 on which electronic circuits and electronic components are mounted, an input power line and an LED output formed on the main board 111. A communication module connection connector 113 connected to a line, a communication module subboard 112, a communication connector 114 for network communication, and a communication module connection connector 113, and a communication module mounted thereon. It comprises a communication module sub-board 112.

The communication module subboard 112 may be any one of a communication module of RS 485 communication, DALI communication, or ZERO TO TEN communication module, which is a communication mode for lighting control, and if necessary, IR control, DMX 512 control, and human body detection control. It can be applied by extending the communication module using communication sensors such as light detection control, wireless communication control DSI, IR sensor remote control, human body detection sensor and light detection sensor.

The user only needs to connect the communication module sub board 112 to the communication module connection connector 113, the main board 111 automatically recognizes the corresponding communication mode regardless of the type of lighting control to be controlled. Done.

With reference to Figure 2 looks at the internal configuration of the LED lighting control device 100 of the present invention.

LED lighting control device 100 of the present invention comprises a main board 111 and the communication module sub-board 112.

The main board 111 includes a microcontroller 211, a connector for connecting a communication module 212, an address setting dip switch 213, an LED driver mode setting dip switch 214, a power supply module 215, and an LED. Driver 216 is included.

The microcontroller 211 is responsible for the overall control of the LED lighting control device 100.

The communication module connection connector 212 is a connector connected to the communication module subboard 112 and the communication between the subboard 112 and the main board 111 through the communication module connecting jack 112a of the communication module subboard 112. Make this possible.

The address setting dip switch 213 is a dip switch for selecting a method of setting an address of the corresponding LED luminaire 220, which is an address for each LED lighting controller in the case of a Dali communication system and an RS-485 communication system. It is necessary because it should be given.

As an address assigning method, a method of setting an address through a communication line and a method of embedding a dip switch inside the LED lighting controller are possible. In the present invention, an address is assigned through a communication line and an address is assigned by a dip switch. It is implemented to mount the address setting dip switch 213 to apply all of them.

The LED driver mode setting dip switch 214 is a dip switch for controlling the driving method of the LED driver 216, and the power supply module 215 serves as a module receiving AC power.

The LED driver 216 is an IC circuit chip for driving the LED.

Since the LED is a current driving device, a constant current circuit must be provided to drive the LED. The constant current circuit may be built in the LED luminaire 220 or may be separately mounted outside the LED luminaire 220.

In the case where the constant current circuit is built in the LED luminaire 220, only the dimming circuit capable of dimming the LED needs to be built in the LED lighting control device 100, and when the constant current circuit is to be mounted outside the LED luminaire 220. Requires an LED driver 216 including a constant current circuit and a dimming circuit inside the LED lighting control device 100. In the present invention, the described constant current circuit is implemented to embed the LED driver mode setting dip switch 214 so that it can be applied to both the inside and outside of the LED luminaire 220.

The communication module subboard 112 is a PCB board on which any one of the Dali interface communication module 217, the RS-485 interface communication module 218, or the 0-10V interface communication module 219 is mounted. It is made of a PCB board formed independently of the (111) and is connected to the communication module connection connector 212 of the main board 111, regardless of the type of communication mode by the microcontroller 211 of the main board 111 To recognize the communication mode to control the corresponding LED lamp 220.

When connecting the communication module sub-board 112 with the main board 111, the microcontroller 211 of the main board 111 is implemented to automatically recognize the communication mode, which is implemented in the following manner It is possible.

3 is a schematic diagram illustrating an example of communication mode recognition of the LED lighting control device communication module subboard according to the present invention, Figure 4 is another example of the communication mode recognition of the LED lighting control device communication module subboard according to the present invention It is a schematic diagram for explaining.

It is possible to use a resistor and a microcontroller's analog-to-digital converter (ADC) converter in the LED lighting controller.

Referring to FIG. 3, as a method of using a resistor instead of using a dip switch, in general, when a dip switch has four terminals, a total of 16 modes may be set according to on-off. If this is used as a resistor:

Ports 1, 2, 3, and 4 of the microcontroller 211 are connected with pull-up resistors and designated as output ports.

And R1. You can automatically select the implemented communication mode of the communication module subboard 112 by configuring the resistance values of R2, R3, and R4 as resistors having 10kΩ and 0Ω, and setting the ID of each communication board, that is, the communication mode according to the resistance value. So that you can implement

If the I / O pin of the microcontroller 211 is designated as an output port in the pull-up resistance connection state, the internal pull-up resistor is connected so that the microcontroller 211 has no effect even if the I / O pin and GND (0V) are connected. It will not hurt.

Pull-up resistors vary depending on the type of device, but are a few kW to allow inputs in the range of a few mA, typically available from 1.5 kW to 4.7 kW or 10 kW.

Referring to FIG. 4, as a method of using an ADC of a microcontroller, an analog voltage based on a resistance value in the communication module subboard 112 is converted into a digital value to recognize a communication mode ID, that is, a communication type of the communication module subboard.

In this case, the type of the communication board can be recognized by the level of the ADC value, and the type of the communication board can be easily increased by the ADC PIN extension.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and variations are possible within the scope of the claims and the claims.

It is evident, however, that such simple modifications and variations are not to be regarded as a departure from the scope of the present invention.

100: LED light control device 111: main board
112: communication module sub-board 112a: communication module connection jack
113, 212: connector for communication module 114: connector for communication
211: microcontroller 213: address setting dip switch
214: LED driver mode setting dip switch 215: power supply module
216 LED driver 217 Dali interface communication module
218: RS-485 interface communication module 219: 0-10V interface communication module
220: LED Luminaire

Claims (3)

The main board includes a microcontroller for overall control of the LED lighting control device, a connector for connecting a communication module connected to the communication module subboard to enable communication with the main board, and an LED driver for driving the LED luminaire. Wow;
Communication board which is mounted on any one of Dali interface communication module, RS-485 interface communication module or 0-10V interface communication module, is formed independently of the main board and connected to the connector for connecting the communication module. A board;
Designating a port of the microcontroller as an output port in a pull-up resistance connection state, connecting the output port to the connector for connecting the communication module, and paralleling the resistance to the connection jack of the communication module subboard connected to the connector for connecting the communication module. Connect to set the communication mode of the communication module,
The main board,
An address setting dip switch for setting an address through a communication line to give an address to the LED luminaire, or a setting method for setting an address by embedding a dip switch therein;
The LED lighting mode control device is formed, the LED driver mode setting dip switch that can be set to implement the constant current circuit for driving the LED luminaire in any case mounted inside or outside the LED luminaire. The main board includes a microcontroller for overall control of the LED lighting control device, a connector for connecting a communication module connected to the communication module subboard to enable communication with the main board, and an LED driver for driving the LED luminaire. Wow;
Communication board which is mounted on any one of Dali interface communication module, RS-485 interface communication module or 0-10V interface communication module, is formed independently of the main board and connected to the connector for connecting the communication module. A board;
Connect the ADC pin to the communication module connection connector using an analog-to-digital converter (ADC) of the microcontroller, and convert the analog voltage according to the resistance value in the communication module subboard to communicate with the communication module. , Set
The main board,
An address setting dip switch for setting an address through a communication line to give an address to the LED luminaire, or a setting method for setting an address by embedding a dip switch therein;
The LED lighting mode control device is formed, the LED driver mode setting dip switch that can be set to implement the constant current circuit for driving the LED luminaire in any case mounted inside or outside the LED luminaire. delete

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