KR101006816B1 - Control system of led lamp by binary cdma - Google Patents

Abstract

PURPOSE: A system for wirelessly controlling an LED lamp is provided to improve communication quality of a network by using a binary CDMA communication. CONSTITUTION: An LED lamp(10) comprises a binary CDMA module. A second binary CDMA wireless control unit(20b) processes the routing of an LED lamp. A first binary CDMA wireless control unit(20a) transmits sensed data of the LED lamp to a remote controller through a wire/wireless internet network. A remote controller(30) monitors the status of a network and an LED lamp. The remote controller transmits an LED lamp control command to the first binary CDMA wireless control unit.

Description

LED lighting control system using binary CDA {Control System of LED Lamp by Binary CDMA}

The present invention relates to a control system for LED lighting using binary CDMA, and more particularly, to reduce installation costs by wireless control of LED lighting using binary CDMA technology (near field communication), and to provide convenience of a control environment. It relates to a wireless control technology that can provide LED lighting.

For example, a streetlight system that illuminates a street, can be found in the streetlight controller and streetlight program, where the administrator directly turns on / off a local circuit breaker and simply detects the day and night illumination. The unidirectional communication streetlight control system is common.

However, such a conventional street light control system can control the street light fixtures remotely, but the power saving control of the street light fixtures and the state of the street lights such as lamps, ballasts, igniters, etc. can not be remotely checked, and thus unnecessary time is required. There was a waste.

In order to solve this problem, a device for collecting fault information of a street light is provided by using a power line. However, the high frequency noise component generated by the dot / light off of the street light cannot be blocked, resulting in noise caused by noise on another load sharing the power line with the street light fixture. It caused a problem, there is a problem that the consumption of electrical energy by reducing the energy consumption by reducing the lighting time of the entire street light by reducing the lighting time of the street lights when the oil price surges.

On the other hand, US Patent Publication No. 10-2009-0072690 is a USN that compensates for the shortcomings of the VHF method and CDMA / PCS method by using a weak radio as a local wireless communication means through the transmission and reception of ZigBee (IP-USN) wireless data using a public network Although a street light remote control system using the PDP has been disclosed, direct transmission of a synchronous beacon between a ZigBee End Device (ZED) and a ZigBee Coordinator (ZC) is not guaranteed to reinforce vulnerabilities on a ZigBee-based ubiquitous sensor network (ZigBee USN). Therefore, there is a problem that the quality of communication (QoS) of the entire network is not guaranteed when noise is interfered with the operating network.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and reduces installation costs by wireless control such as LED lighting using binary CDMA technology, provides convenience of the control environment, and prevents interference of noise in the network, thereby improving communication quality (QoS). The purpose of the present invention is to provide a LED lighting control system using binary CDMA.

LED lamp control system using a binary CDMA according to the present invention for achieving the above object is a plurality of LED lamps equipped with a binary CDMA module to communicate with the second binary CDMA wireless control unit in a binary CDMA system,

The second binary CDMA radio control unit, which acts as a coordinator, transmits a beacon frame to the LED lamps, constructs a network with the responding LED lamps, processes the routing of the LED lamps, and receives control signals from the first binary CDMA radio control unit. and,

Monitoring the status of the network by monitoring the binary LED CDMA packet of the LED lamp and the second binary CDMA wireless control unit, and collects the detection data such as the LED light transmitted by the binary CDMA method from the second binary CDMA wireless control unit wired and wireless Internet network A first binary CDMA wireless control unit which transmits to a remote controller through a remote controller and controls an LED light according to an external control input;

It is connected to the first binary CDMA radio control unit via the wired / wireless internet network to monitor the status of the network at a remote location, and analyzes the sensing data transmitted from the first binary CDMA radio control unit to monitor the state of the LED lamp and the LED. It is configured to include a remote controller for commanding the control of the lamp.

According to the above-mentioned problem solving means, it is possible to reduce the installation cost by providing wireless control such as LED lighting using binary CDMA technology, to provide the convenience of the control environment, and to ensure the communication quality (QoS) because there is no interference of noise in the network. .

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

1 is a conceptual diagram of an LED lighting control system according to an embodiment of the present invention, Figure 2 is a block diagram of FIG.

As shown, the LED lamp 10, the binary CDMA radio control unit (20a, 20b), the remote controller 30, and comprises a portable radio device 40.

Binary CDMA communication between the LED lamp 10, the binary CDMA radio control unit 20b, the binary CDMA radio control unit 20a and the portable radio device 40, and the binary CDMA radio control unit 20a, 20b in the above-described configuration. The wired / wireless internet communication is performed between the binary CDMA radio control unit 20a and the remote controller 30 through the wired / wireless internet network 50.

The LED lamp 10 forms a network 100 with the binary CDMA radio control unit 20b so that a plurality of LED lamps 10 form a group, and constitute a network 100. Each LED illuminator 10 performs binary CDMA communication with the binary CDMA radio control unit 20b serving as a slave.

Each of the LED lamps 10 is equipped with a binary CDMA module 12 to binarize the multiple code modulation signal of the CDMA technology to transmit the waveform of the TDMA signal and to receive the TDMA signal transmitted from the binary CDMA radio control unit 20b. do.

The LED lamp 10 detects a flashing state, a power failure, an LED lamp state, a short circuit, a short state, and the like through a data frame in response to the received beacon frame, and acts as a slave by detecting data as a payload. Transmitting the waveform of the TDMA signal to the control unit 20b and receiving the data (control) signal transmitted from the binary CDMA radio control unit 20b as the waveform of the TDMA signal to turn off the LED lamp, or to adjust the brightness or color. Adjust

In addition, each of the LED lamp 10 is given a unique ID is attached to the transmission of its own unique ID at the time of data transmission, and when receiving the data to check its own unique ID from the data has an ID assigned to itself Only works in response.

The binary CDMA radio control unit 20b operates as a coordinator, transmits a beacon frame, configures the network 100 with responsive LED lights 10, and processes the routing of the LED lights 10 according to a routing protocol. The control signal is received from the binary CDMA radio control unit 20a serving as a master.

The binary CDMA radio control unit 20a serving as a master among the binary CDMA radio control units 20a and 20b monitors the binary CDMA packets of the LED lamp 10 and the other binary CDMA radio control unit 20b to monitor the network 100. ), And collects the sensing data of each LED lamp 10 transmitted from the other binary CDMA wireless control unit 20b and transmits it to the remote controller 30 through the wired / wireless Internet network 50 and controls externally. Control the LED lamp 10 in accordance with the input.

The remote controller 30 is connected to a binary CDMA radio control unit 20a serving as a master via a wired / wireless internet network 50 to monitor the status of the network 100 at a remote location, and the binary CDMA radio control unit 20a. Analyze the sensed data transmitted from the input the external command to monitor the state of the LED light 10 and to control the flashing light of the LED light 10.

In addition, the present invention is provided with a portable wireless device 40, such as a notebook, PDA for controlling the LED lamp 10 in the field, the portable wireless device 40 is equipped with a binary CDMA module (not shown), The radio device 40 binarizes the multiple code modulation signal (control signal) of the CDMA technology and transmits it to the binary CDMA radio control unit 20a serving as a master as a waveform of the TDMA signal.

Accordingly, the binary CDMA radio control unit 20a controls the LED lamp 10.

The network 100 using binary CDMA includes RS-232C, RS-485 and TTL logic connection devices, binary CDMA protocol control devices, and IEEE standard RF communication devices as basic components. Additional components include a comprehensive set of operating devices, including Ad-Hoc network operators, communication status monitors, text message relays for cell phones for communication status, and remote network control devices over the Internet.

3 is a block diagram of an LED lighting control system according to another embodiment of the present invention.

As shown in the figure is configured to include an LED lamp 10, a binary CDMA radio control unit 20, a remote controller 30, a portable radio device (40).

Binary CDMA communication between the adjacent LED lamp 10, one LED lamp 10 and the binary CDMA radio control unit 20, the binary CDMA radio control unit 20 and the portable radio device 40 in the above configuration, and binary The wired / wireless internet communication is performed between the CDMA wireless control unit 20 and the remote controller 30 through the wired / wireless internet network 50.

The LED lamp 10 is composed of a plurality of the binary LED CDMA communication with the adjacent LED lamp 10, the LED lamp 10 of the plurality of LED lamps 10 closest to the binary CDMA radio control unit 20 is binary Binary CDMA communication with the CDMA radio control unit 20 transfers data to another adjacent LED lamp 10 by relay transmission.

Each of the LED lamps 10 is equipped with a binary CDMA module 12 to binarize the CDMA technology multi-code modulation signal is transmitted as a waveform of the TDMA signal and received as a waveform of the TDMA signal.

The LED lamp 10 detects a light-off state, a power failure, an LED lamp state, a short circuit, a short-circuit state, and the like through a data frame in response to the received beacon frame, and the adjacent LED lamp 10 using the detection data as a payload. The data transmission of the TDMA signal is transmitted to the binary CDMA radio control unit 20 in the form of a waveform of the TDMA signal by the relay transmission between the binary CDMA radio control unit 20 and the relay transmission of the data. Receive and turn off the LED lamp, or adjust the brightness or color.

When the LED lamp 10 has a unique ID is assigned to each of its own ID attached to the data transmission when transmitting, and when receiving the data to check the unique ID of its own when the unique ID assigned to itself It only works in response.

The binary CDMA radio control unit 20 operates as a coordinator to transmit the beacon frame to the adjacent LED lamp 10, and then configures the network 100 with responsive LED lamps 10 and in accordance with the routing protocol according to the LED lamp ( 10) Handle routing between.

In addition, the binary CDMA radio control unit 20 monitors the state of the network 100 by monitoring the binary CDMA packet between the adjacent LED lamp 10, and collects the sensing data of each LED lamp 10 received by wired or wireless It transmits to the remote controller 30 through the Internet network 50, and controls the LED lamp 10 in accordance with the external control input.

The remote controller 30 is connected to the binary CDMA wireless control unit 20 through a wired or wireless Internet network 50 to monitor the status of the network 100 at a remote location, and is transmitted from the binary CDMA wireless control unit 20. The control data is input to monitor the state of the LED light 10 by analyzing the detection data and to control the flashing light of the LED light 10.

In addition, the present invention is provided with a portable wireless device 40 such as a notebook PDA for controlling the LED lamp 10 in the field, the portable wireless device 40 is equipped with a binary CDMA module, the portable wireless device 40 Binarizes the multiple code modulation signal (control signal) of the CDMA technology and transmits the waveform to the binary CDMA radio control unit 20 in the waveform of the TDMA signal.

Accordingly, the binary CDMA radio control unit 20 controls the LED lamp 10.

The network 100 using binary CDMA includes RS-232C, RS-485 and TTL logic connection devices, binary CDMA protocol control devices, and IEEE standard RF communication devices as basic components. Additional components include a comprehensive set of operating devices, including Ad-Hoc network operators, communication status monitors, text message relays for cell phones for communication status, and remote network control devices over the Internet.

FIG. 4 is a block diagram of the LED lamp shown in FIGS. 2 and 3.

As shown, each LED lamp 10 applied to the present invention is equipped with a binary CDMA module 12, the power supply unit 15 supplies power to each component of the LED lamp 10.

The lamp control unit 13 controls the brightness of the LED lamp 14 by turning on / off the LED lamp 14 by the control of the controller 11 or through a pulse width modulation (PWM) function by power control, and each RGB The color is controlled by adjusting the amount of power supplied to the LED lamp.

The sensing unit 16 detects a flashing light state, a power failure, an LED lamp 14 state, a short circuit, a short circuit state, and the like, and the lamp control unit 13 switches off the LED lamp 14 by a control signal of the controller 11. Adjust the brightness or color.

The controller 11 controls the LED lamp 10 by processing a signal of each component, and thus the LED lamp 10 in which the binary CDMA module 12 is installed is adjacent to the LEDs related to the state of each LED lamp 10. The lamp 10 or the binary CDMA radio control units 20a and 20 are formed with a network 100 to transmit data to each other in a binary CDMA manner wirelessly.

FIG. 5 is a block diagram of the binary CDMA module shown in FIG. 4.

As shown, for example, a binary CDMA protocol for communicating the serial interface unit 12a for connecting serial devices such as a sensor and the data of the serial devices connected through the serial interface unit 12a in a binary CDMA manner. A control unit 12b and an IEEE802 standard RF communication unit 12c which communicates wirelessly through the antenna 12d under the control of the binary CDMA protocol control unit 12b, and the binary CDMA protocol control unit 12b and the IEEE802 standard RF. The communication unit 12c and the antenna 12d are integrated.

FIG. 6 is a block diagram of the binary CDMA radio control unit shown in FIGS. 2 and 3.

As shown, through the binary CDMA protocol control unit 22 and the binary CDMA protocol control unit 22 for communicating the detection and control / management data in a binary CDMA scheme, and transmits the beacon frame in the beacon period, Comprising a network (100) consisting of LED lamps 10 in response to the, and the routing unit 21 for processing the routing of the LED lamps 10 and the antenna 24 under the control of the binary CDMA protocol control unit 22 It is composed of an IEEE802 standard RF communication unit 23 for communicating wirelessly through.

The binary CDMA radio control units 20b, 20 perform network joining, resource allocation, communication synchronization, and router functions between the LED lamps 10 when a plurality of LED lamps 10 are arranged in a wide area.

FIG. 7 is a block diagram of the remote controller shown in FIGS. 2 and 3.

As shown in the drawing, the remote controller 30 is configured to display the paging LED and the status LED by dividing the operation state of the internet connection unit 32 for connecting to the wired / wireless internet network 50 and the network 100 by MAC address. The display unit 34 which consists of the control panel 34a and the monitor 34b which outputs the control program and operation state of the LED lamp 10, the input part 31 which a manager inputs a control command, and the network 100. Under the control of the memory 35 for storing the state of the state and the management log and the state of the LED lamp 10, the binary CDMA protocol control unit 36 for binary CDMA communication, and the binary CDMA protocol control unit 36 Communication between the IEEE802 standard RF communication unit 37 which communicates wirelessly via the antenna 38 and each LED lamp 10 or binary CDMA radio control unit 20a of the binary CDMA system through the binary CDMA protocol control unit 36. tile After collecting the kits and classifying them into MAC addresses, the operation state is displayed on the control panel 34a, and the state of each LED lamp 10 is collected through the binary CDMA protocol controller 36 and output to the monitor 34b. The microcomputer 33 controls and manages the network 100 and the LED lamp 10 according to a control command input through the input unit 31 of the manager.

FIG. 8 is an exemplary diagram of a wireless control program output to the monitor of FIG. 7, and shows that the LED lamp 10 may be assigned with an illumination color and may be applied to create a lighting scenario desired by a user.

FIG. 9 is an exemplary view of the control panel shown in FIG. 7. The remote controller 30 monitors the state of the network 100 in real time and outputs it to the control panel 34a so that the administrator can always check whether there is an abnormality in the network. In addition, according to the operation state of the LED lamp 10 displays a warning message when an error occurs, the warning message is transmitted to the manager in the form of sound, LED, text message.

10 is a flowchart of the control system shown in FIG.

The binary CDMA radio control units 20b and 20 generate and broadcast beacon frames in the beacon period of the super frame (S102).

The LED lamp 10 receiving the beacon frame responds (S104), and the binary CDMA radio control units 20b and 20 configure the network 100 with the responded LED lamp 10 (S106). A routing table based on the routing protocol is generated (S108).

The binary CDMA radio control units 20a and 20 collect communication packets between the LED lamp 10 and the binary CDMA radio control unit 20b or between the LED lamps 10 and analyze the packets (S110), and then monitor the information. It is transmitted to the remote controller 30 through the wired or wireless Internet network 50 and the remote controller 30 displays the state of the network at a remote location (S112).

In addition, when the administrator inputs a remote control command (S114), the remote controller 30 transmits the remote control command to the binary CDMA radio control units 20a and 20, and transmits the remote control to the binary CDMA radio control units 20a and 20. When the on-site control command is input through the portable wireless device 40, the network 100 is managed accordingly or the LED lamp 10 is controlled (S116). The LED lamp 10 is turned off or the brightness or the color is adjusted.

By adopting the binary CDMA communication method for controlling the LED lamp 10 as described above, noise and interference can be overcome by binarizing the multiple codes of the CDMA technology, and transmitting in the TDMA signal waveform can be reliably transmitted at high speed and high capacity. .

The present invention has been described above with reference to one embodiment shown in the drawings, but those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

1 is a conceptual diagram of a LED lighting control system according to an embodiment of the present invention,

2 is a block diagram of FIG. 1;

3 is a block diagram of an LED lighting control system according to another embodiment of the present invention;

4 is a block diagram of the LED lamp shown in FIGS. 2 and 3;

5 is a block diagram of a binary CDMA module shown in FIG. 4;

6 is a block diagram of the binary CDMA radio control unit shown in FIGS. 2 and 3;

7 is a block diagram of the remote controller shown in FIGS. 2 and 3;

8 is an exemplary diagram of a wireless control program output to the monitor of FIG.

9 is an exemplary view of the control panel shown in FIG.

10 is a flowchart of the control system shown in FIG.

<Description of the symbols for the main parts of the drawings>

10: LED light 20, 20a, 20b: binary CDMA wireless control unit

30: remote controller 40: portable wireless device

50: wired and wireless network 100: network

Claims (6)

A plurality of LED lamps equipped with a binary CDMA module to perform binary CDMA communication with a second binary CDMA radio control unit; The second binary CDMA radio control unit, which acts as a coordinator, transmits a beacon frame to the LED lamps, constructs a network with the responding LED lamps, processes the routing of the LED lamps, and receives control signals from the first binary CDMA radio control unit. ; Monitoring the status of the network by monitoring the binary LED CDMA packet of the LED lamp and the second binary CDMA wireless control unit, and collects the detection data such as the LED light transmitted by the binary CDMA method from the second binary CDMA wireless control unit wired and wireless Internet network A first binary CDMA wireless control unit which transmits to a remote controller via a second control unit and controls an LED lamp according to an external control input; It is connected to the first binary CDMA radio control unit to monitor the status of the network at a remote location, and analyzes the sensing data transmitted from the first binary CDMA radio control unit to monitor the state of the LED light, the first binary CDMA radio control LED lighting control system using binary CDMA including a remote controller for instructing the unit to control the LED lighting. A plurality of LED lamps equipped with a binary CDMA module to communicate with the adjacent binary CDMA radio control unit and binary CDMA and relay communication between adjacent LED lamps in a binary CDMA manner; It acts as a coordinator and sends a beacon frame to the LED lights, then configures the network with the responding LED lights, processes the routing of the LED lights, monitors the network status by monitoring binary CDMA packets between the LED lights, and close LED lights. Binary CDMA wireless control unit for collecting the sensing data of the LED light transmitted by the relay in the binary CDMA method to transmit to the remote controller through the wired and wireless Internet network, and to control the LED light according to the external control input; It is connected to the binary CDMA radio control unit to monitor the status of the network from a remote location, analyze the sensing data transmitted from the binary CDMA radio control unit to monitor the state of the LED light, and control the LED light to the binary CDMA radio control unit LED lighting control system using a binary CDMA including a remote controller for commanding. The method according to claim 1 or 2, And a portable wireless device equipped with the binary CDMA module for inputting control of LED lighting in a first binary CDMA radio control unit or a binary CDMA radio control unit in the field. The method according to claim 1 or 2, The LED lamp and the LED lamp, A binary CDMA module for binarizing a multiple code modulated signal of CDMA technology and transmitting it as a waveform of a TDMA signal; A lamp controller for turning on or off the LED lamp and adjusting brightness or color; A detection unit for detecting a state of the LED lamp, a lighting state, a power failure, a short circuit, a short circuit state, and the like; LED lighting control system using a binary CDMA characterized in that a controller for controlling the LED lights as a whole by processing the signal of each component. delete The method according to claim 1 or 2, A display unit comprising a control panel for displaying a paging LED and a status LED by dividing an operation state of a network by a MAC address to the remote controller and a monitor for outputting a control program and an operation state of an LED lamp; An input unit for inputting an external control command, A memory for storing the state of the network and the state of the management log and the LED lamp, A binary CDMA protocol control unit for binary CDMA communication; An IEEE802 standard RF communication unit for wirelessly communicating through an antenna under the control of the binary CDMA protocol control unit; After collecting the binary CDMA type LED lighting lamp or the communication packet of the binary CDMA wireless control unit through the binary CDMA protocol control unit, the MAC address is divided into the MAC address, and the operation state is displayed on the control panel. It collects the state of the lamp and outputs it to the monitor, and the microcomputer to transmit and manage the control commands related to the network and the LED lamp by the input of the input unit to the first binary CDMA radio control unit or binary CDMA radio control unit is provided. LED lighting control system using binary CDMA.

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