KR101248576B1 - Method and apparatus for remotely controlling multiple lighting units - Google Patents

Abstract

The present invention relates to a multiple lighting remote control method and apparatus thereof. More specifically, the method includes: transmitting a voltage of a carrier for power line communication to 100 mV or less without affecting the operation of other equipment connected to the power line; Wow; (2) filtering noises introduced through a power frequency (60 Hz) and other power lines using a filter and a digital element in a communication terminal for lighting control; (3) making a peak to peak (5 Volt) so that only a carrier (50 KHz) necessary for communication can meet the input requirements of the microcontrol unit (MCU); ④ dividing the carrier (50KHz) into 16Step through a divider and dividing it into a frequency of 3,125Hz; ⑤ When the divided frequency is transmitted to the input terminal of the MCU (Micro Control Unit), it is configured to communicate with the communication terminal at a communication speed of 1,562.5 bps when the presence or absence of the carrier is recognized by the MCU's built-in program and recognized as the carrier. Many individual lighting devices can be controlled remotely, so that not only can you achieve the maximum power saving effect through proper flashing control of the lighting device, but also lower the cost of the main equipment. Star illumination can also be controlled, allowing lighting to maximize aesthetics.

Description

Method and apparatus for remotely controlling multiple lighting units

The present invention relates to a multiple lighting remote control method and a device thereof, and more particularly, to transmit a control signal by dividing a frequency of a pulse to a power line modem installed in a lighting device and to take an auxiliary synchronization to control a flashing and lighting of the lighting device. A multi-illumination remote control method and apparatus for enabling individual operational control such as control.

In general, lighting equipment is used to illuminate the darkness, and it is most commonly installed inside a building, but a street light installed on a street to illuminate a certain point inside the building to enhance the aesthetics of the building. It is widely used in various fields such as the landscape installed outside the building to emphasize the aesthetic beauty of the building.

However, when the number of installed lighting equipment increases, it is inconvenient for the user to manually control the blinking of all the lights, or to check whether all the lighting is broken, so that large buildings with a large number of lighting equipment installed such as large commercial buildings or bridges In this case, it may be necessary to use an integrated lighting control device that makes it easier to perform flicker control and failure diagnosis of all lighting devices installed in the building.

Therefore, the conventional lighting integrated control device generally used is to install a power line modem in each lighting equipment, and transmit the control signal of a specific frequency band generated by the central control unit to the power line modem installed in the lighting equipment through the power line, the power line modem is By transmitting the control signal to the controller installed in the lighting equipment by analyzing the transmitted frequency signal, it is possible to remotely control the blinking of the lighting equipment and to remotely manage the failure of the lighting equipment through normal flashing by the control signal. will be.

However, the conventional lighting integrated control device as described above requires separate equipment for channel separation because the control signal must be separated and transmitted for each power line modem installed in each lighting device when the control signal is generated in the central control unit. In addition, the existing power line modem installed in each lighting device must have a dedicated chip for frequency modulation because it must modulate the frequency signal transmitted through the power line. There was a problem that the minimum construction cost increases significantly because the price burden of the power line modem installed in the.

In addition, when using a device that separates the control signal generated by the central control unit for each channel because there is a limit to separate the channel, the existing integrated lighting control unit is only 200 of the total number of lights that can be controlled.

However, in the case of a large commercial building such as a business building with tens or hundreds of floors or a large shopping mall with many stores, not only the lighting in the offices and corridors, but also the scenery installed in various sculptures Since as few as hundreds to tens of thousands of luminaires are installed, there is a problem in that too much construction cost is required to apply the conventional integrated lighting control device for integrated control of such luminaires.

The present invention has been made to solve the above-mentioned conventional problems, an object of the present invention in the configuration of an integrated lighting control device for controlling a plurality of lights expensive channel separation equipment or expensive power line modem for frequency modulation There is provided a multiple lighting remote control method and apparatus for enabling individual operation control such as flashing control and illuminance control for a plurality of lighting devices without using the same.

According to an aspect of the present invention,

(1) transmitting a voltage of a carrier for power line communication to 100 mV or less without affecting the operation of other equipment connected to the power line;

(2) filtering noises introduced through a power frequency (60 Hz) and other power lines using a filter and a digital element in a communication terminal for lighting control;

(3) making a peak to peak (5 Volt) so that only a carrier (50 KHz) necessary for communication can meet the input requirements of the microcontrol unit (MCU);

④ dividing the carrier (50KHz) into 16Step through a divider and dividing it into a frequency of 3,125Hz;

⑤ When the divided frequency is transmitted to the input terminal of the microcontrol unit (MCU), it is configured to communicate with the communication terminal at a communication speed of 1,562.5 bps when the presence or absence of the carrier is detected by the MCU's built-in program and recognized as the carrier.

On the other hand, the control device of the present invention includes a built-in memory (1) for classifying and storing a plurality of selection data for each ID so as to classify the signal for the illumination control of the lighting equipment by ID to control individually and group; A microprocessor (2) for outputting a control signal to the ID of each lighting device to be controlled; An internal software routine for converting the content of the output signal into a carrier division frequency using a 50 KHz carrier; A signal transmitter (3) for transmitting the control signal through a power line; The LCD display 4 which displays the content currently under control is comprised by a control apparatus.

Since the present invention can remotely control a number of lighting devices individually, the maximum power saving effect can be obtained through proper flashing control of the lighting devices.

In addition, since the cost of the main equipment constituting the lighting control device can be significantly lowered, there is an advantage that the initial construction cost is low.

In addition, since the illumination control for each light is possible, there is an advantage that can maximize the effect of the use of various landscape lighting to enhance the aesthetic effect using the light.

1 is a flow chart according to a preferred embodiment of the present invention
2 is a block diagram according to a preferred embodiment of the present invention.
3 is an exemplary view showing the configuration of a control device according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

It is to be noted that like elements in the accompanying drawings use the same reference numerals in any of the drawings, and detailed descriptions of well-known functions or known configurations that may unnecessarily obscure the gist of the present invention are omitted. Come on.

The present invention includes the following steps: transmitting a voltage of a carrier for power line communication to 100 mV or less without affecting the operation of other equipment connected to the power line; (2) filtering noises introduced through a power frequency (60 Hz) and other power lines using a filter and a digital element in a communication terminal for lighting control; (3) making a peak to peak (5 Volt) so that only a carrier (50 KHz) necessary for communication can meet the input requirements of the microcontrol unit (MCU); ④ dividing the carrier (50KHz) into 16Step through a divider and dividing it into a frequency of 3,125Hz; ⑤ When the divided frequency is transmitted to the input terminal of the microcontrol unit (MCU), it is configured to communicate with the communication terminal at a communication speed of 1,562.5 bps when the presence or absence of the carrier is detected by the MCU's built-in program and recognized as the carrier.

The present invention constituted as described above is the communication of the lighting device connected to the power line when starting the carrier (Carrier) informing the start of control in the central control unit for remote control of the lighting device with the initialization data (0xFA) consisting of its own protocol The terminal sets the synchronization to find the starting point as the signal and sets the operation of the individual micro control unit (MCU) as the starting point.

Thus, the method of recognizing carrier (50KHz) as actual carrier (1,562.5bps) is to divide the carrier (50KHz) delivered through the power line through the divider (16 Step Binary Counter) and deliver it to the MCU (Micro Control Unit). If the carrier is valid for more than 50% for 16 minutes (3,125Hz = 320us), the MCU recognizes it as high level and waits 320us at that time to reset the frequency divider. The return data is stored as "1".

On the other hand, if the carrier is invalid (0) for more than 50% during 16 minutes (3,125Hz = 320us), the MCU recognizes the low level and waits 320us at this point to reset the frequency divider. The return data is stored as "0".

As described above, the present invention analyzes the presence of a carrier more than 50% during the time (320us) of distributing the carrier and distributing the carrier, thereby resetting the divider (16Step Binary Counter), and again, the carrier. The method is repeated in a manner of checking whether there is a difference between the two carriers, and the synchronization of these contents is taken from a carrier, which is different from a conventional modulation type using a carrier.

As described above, the present invention divides a carrier wave and transmits a control command of the lighting device to a communication terminal installed in the lighting device, and remotely controls the blinking of the lighting device by outputting a control command of the lighting device from the communication terminal. It is possible to simultaneously control the flashing control for a plurality of lighting equipment.

In addition, the control signal generated according to the user's desired setting can be classified to each lighting device ID and transmitted to each lighting device. Therefore, if the illuminance for each lighting is to be different, the illumination control command can be transmitted for each lighting device. In addition, each lighting device that has received the illumination control command can easily adjust the illuminance of the plurality of lighting devices as desired by the user by converting the illuminance using the illuminance converting means.

On the other hand, in order to control the illuminance of the lighting device as described above, the internal memory (1) for classifying and storing a plurality of selection data for each ID so as to classify the signal for illuminance control of the lighting device by ID to control individually and group And a microprocessor (2) for outputting a control signal to the ID of each lighting device to be controlled, an internal software routine for converting the content of the output signal to a carrier division frequency using a 50 KHz carrier, and the control signal. By configuring the signal transmitter 3 for transmitting via the power line and the LCD display 4 for displaying the content currently being controlled by the controller, the user can more conveniently control the illuminance of the lighting device.

This illuminance control function can not only increase the power saving effect by appropriately adjusting the illuminance of many lighting devices, but also maximize the visual effect through each lighting device in the case of lighting devices installed for purposes such as landscape lighting or mood lighting. Will be.

In addition, when the control of the lighting device is not necessary, the present invention stops the carrier transmission so that unnecessary carriers are not added to the power line, thereby preventing malfunction of a communication terminal or lighting device connected to the power line. .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

1: internal memory 2: microprocessor
3: signal transmitter 4: display

Claims (2)

(1) transmitting a voltage of a carrier for power line communication to 100 mV or less without affecting the operation of other equipment connected to the power line;
(2) filtering noises introduced through a power frequency (60 Hz) and other power lines using a filter and a digital element in a communication terminal for lighting control;
(3) making a peak to peak (5 Volt) so that only a carrier (50 KHz) necessary for communication can meet the input requirements of the microcontrol unit (MCU);
④ dividing the carrier (50KHz) into 16Step through a divider and dividing it into a frequency of 3,125Hz;
⑤ When the divided frequency is transmitted to the input terminal of the microcontrol unit (MCU), the MCU's built-in program detects the presence or absence of the carrier and recognizes the carrier as a carrier, thereby communicating with the communication terminal at a communication speed of 1,562.5 bps. Lighting remote control method.
An internal memory (1) for classifying and storing a plurality of selection data for each ID in order to classify signals for illuminance control of the lighting device by ID and to control them individually and in groups; A microprocessor (2) for outputting a control signal to the ID of each lighting device to be controlled; An internal software routine for converting the content of the output signal into a carrier division frequency using a 50 KHz carrier; A signal transmitter (3) for transmitting the control signal through a power line; A multi-illumination remote control device composed of an LCD display (4) which displays the content currently being controlled.

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