JP2022092654A - Lighting control system - Google Patents

Abstract

To provide a lighting control system that, even when lighting fixtures with different communication protocols are mixed, can more appropriately control the lighting fixtures with a simple configuration.SOLUTION: A lighting control system of an aspect of the present invention comprises: a plurality of lighting fixtures that illuminate an illumination space; a lighting controller that controls the lighting fixtures; first communication means that performs communication between the lighting controller and the lighting fixtures and is according to a specific protocol; and second communication means that performs communication between the lighting controller and the lighting fixtures and is according to a protocol different from that of the first communication means. A converter that converts a signal according to the protocol of the first communication means and a signal according to the protocol of the second communication means is provided between the lighting controller and the second communication means.SELECTED DRAWING: Figure 2

Description

The present invention relates to a lighting control system.

Conventionally, there has been known a technique in which a lighting controller controls a plurality of lighting fixtures by communicating between the lighting controller and a plurality of lighting fixtures by a predetermined communication protocol. In Patent Document 1, a wired converter is connected to a lighting controller by wire, a plurality of lighting fixtures are connected by wire to the wired converter, and the wired converter converts commands and responses between the lighting controller and the lighting fixture. And, when the communication protocol between the lighting controller and the wired converter is different from the communication protocol between the lighting controller and the lighting fixture, the technique of the lighting system that relays and performs the protocol conversion is disclosed.

Japanese Unexamined Patent Publication No. 2020-909535

In the lighting system disclosed in Patent Document 1, a converter such as a wired converter or a wireless converter is required between the lighting controller and all the lighting fixtures, and a communication protocol between the lighting controller and the lighting fixture is used. Even in the same case, there is a problem that the configuration of the lighting system becomes complicated because it is necessary to go through a converter.

For example, in a lighting control system, there is a method of connecting subsystems when linking a dedicated communication method and DALI (registered trademark) (Digital Addressable Lighting Interface), but in the past, two controllers were required and cooperation was performed. The complexity and cost of the was a problem.

An object of the present invention is to provide a lighting control system capable of appropriately controlling each lighting fixture with a simple configuration even when lighting fixtures having different communication protocols are mixed.

The lighting control system of one aspect of the present invention is
With multiple lighting fixtures that illuminate the lighting space,
A lighting controller that controls the lighting equipment,
A first communication means according to a specific protocol for communicating between the lighting controller and the luminaire, and the like.
A second communication means having a protocol different from that of the first communication means, which communicates between the lighting controller and the lighting fixture, and a second communication means.
It is a lighting control system equipped with
The lighting controller and the second communication means are provided with a conversion device that converts a signal by the Putrocol of the first communication means and a signal by the protocol of the second communication means. ..

According to the embodiment of the present invention, it is possible to provide a lighting control system capable of appropriately controlling each lighting fixture with a simple configuration even when lighting fixtures having different communication protocols are mixed.

It is a block diagram of the lighting control system in Embodiment 1. FIG. It is operation sequence diagram of the network address setting in the lighting control system in Embodiment 1. FIG. FIG. 3 is an operation sequence diagram of group installation and pattern setting of the lighting control system according to the first embodiment. It is operation sequence diagram of the group operation and the pattern operation of the lighting control system in Embodiment 1. FIG. It is operation sequence diagram of the motion sensor of the lighting control system in Embodiment 2. FIG.

Hereinafter, the lighting control system according to the embodiment of the present invention will be described in detail with reference to the drawings. However, the embodiments shown below exemplify a lighting control system for embodying the technical idea of the present invention, and do not specify the present invention as these, but other embodiments included in the claims. It is equally applicable to those of embodiments.

[Embodiment 1]
The lighting control system according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 4.

FIG. 1 is a block diagram of a lighting control system. A PC setting device 10 is connected to the lighting controller 11 by a LAN 17. The lighting controller 11 is connected to each lighting fixture 20 (hereinafter referred to as a lighting fixture) or the like equipped with a communication function by a dedicated BUS. The lighting controller 11 is connected to, for example, a relay terminal 12 and a switch 13 via a dedicated BUS 18. Further, the lighting controller 11 is connected to the amplifier 14 and the DALI amplifier 15 via the dedicated BUS 18. A lighting fixture 20, a switch 21, and the like are connected to the amplifier 14 via a dedicated BUS 18.

The dedicated BUS is a transmission line in a lighting system of a dedicated standard. For example, an FBUS of Mitsubishi Electric Lighting Co., Ltd. can be adopted, but the present embodiment is not limited to this, and the dedicated BUS is not limited to this. Various other types of transmission lines can be adopted.

The DALI amplifier 15 includes a DALI standard lighting device 25, a DALI standard switch 26, and a DALI standard sensor (indicating an illuminance sensor, a motion sensor, and an image sensor) 27 via a DALI transmission line 19. Is connected. In the present embodiment, the DALI standard has been described as an example of a communication protocol linked with the dedicated BUS, but the present invention is not limited to this, and various other communication standards are adopted as the communication standard. It is possible. DALI is an abbreviation for Digital Addressable Lighting Interface, which is an international standard communication standard for lighting control compliant with IEC62386. The switch 13, the switch 21, or the switch 26 is not particularly limited, and examples thereof include a wall switch and the like.

The lighting controller 11 can control not only the dedicated BUS connection device but also the DALI communication standard device connected to the DALI amplifier 15. In order to control the DALI standard device by the lighting controller 11, in the system of this embodiment, the DALI amplifier 15 has a function of converting a protocol, a power supply function for risk distribution, a function of controlling a wall switch operation, and a function of controlling a motion sensor operation. It is possible to provide a lighting control system with the addition of.

FIG. 2 is an explanatory diagram of DALI conversion in a lighting control system. The DALI amplifier 15 has a function of setting a unique address of DALI corresponding to the unique address managed by the lighting controller 11 for a lighting fixture, a wall switch, and a sensor having a unique address corresponding to the unique address system of DALI.

(A) Unique address reading A unique address reading request is transmitted from the PC setting device 10 to the lighting controller 11. The “UA request” in FIG. 2 corresponds to a unique address read request. The UA request from the lighting controller 11 is transmitted to the terminal fixture 20 via the amplifier 14. Here, examples of the terminal device 20 include a lighting fixture 20 compatible with a dedicated BUS.

On the other hand, when the UA request from the lighting controller 11 is transmitted to the DALI amplifier 15, the DALI amplifier 15 automatically sets a unique address for the DALI sensor 27, the DALI switch 26, the DALI terminal device 25, and the like. The set unique address is stored in the non-volatile memory of the DALI amplifier 15. Further, examples of the DALI terminal fixture 25 include a DALI standard lighting fixture and the like.

(B) Unique address display As a response to the unique address reading request from the terminal device 20, the unique address ad of the terminal device 20 is transmitted to the lighting controller 11 via the amplifier 14 and stored in the database 30 of the lighting controller 11. The "UA response" in FIG. 2 corresponds to a response to a unique address read request.

On the other hand, the DALI amplifier 15 transmits a unique address assigned to the DALI sensor 27, the DALI switch 26, the DALI terminal device 25, etc. to the lighting controller 11 as a UA response, and this unique address is the database 30 of the lighting controller 11. It is stored in the flash memory.

Each unique address stored in the database 30 of the lighting controller 11 is transmitted to the PC setting device 10 and displayed on the display of the man-machine interface connected to the PC setting device 10.

(C) Network address setting A network address setting request is transmitted from the PC setting device 10 to the lighting controller 11. The lighting controller 11 sets a network address for the terminal fixture 20 via the amplifier 14. The "NA setting" in FIG. 2 corresponds to the network address setting. It is used for the purpose of reducing the amount of communication data by associating a network address with a data length of 2 bytes with a unique address with a data length of 10 bytes. The data length may be changed according to the system scale.

On the other hand, the lighting controller 11 transmits an NA setting request to the DALI amplifier. Upon receiving the NA setting request from the lighting controller 11, the DALI amplifier 15 sets the network address for the DALI switch 26 and the DALI terminal 25, respectively.

FIG. 3 is an operation sequence diagram of a group and pattern setting of the lighting control system. Corresponding to the network address NA, unique address UA, group number and pattern number set on the dedicated BUS side, the DALI amplifier 15 assigns the network address NA, unique address UA, group number and pattern number to the DALI side, respectively. Set. The database 32 of the DALI amplifier 15 contains the network address NA, unique address UA, group number and pattern number on the dedicated BUS side, and the corresponding network address NA, unique address UA, group number and pattern number on the DALI side. It is stored in the flash memory.

(D) Group setting A group setting request is transmitted from the PC setting device 10 to the lighting controller 11. The lighting controller 11 sets a group of terminal fixtures 20 via the amplifier 14. As a result, the terminal appliance 20 is assigned a dedicated BUS side group number.

On the other hand, the lighting controller 11 transmits a group setting request to the DALI amplifier 14. The DALI amplifier 14 sets the group for the DALI terminal device 25. As a result, the DALI terminal device 25 is assigned a DALI side group number, and the database 32 of the DALI amplifier 15 stores the DALI side group number and the corresponding dedicated BUS side group number in the DALI terminal 25. Will be done. As a result, the lighting controller 11 can control the DALI terminal fixture 25 based on the group information managed by the DALI amplifier 15 in response to the operation of the wall switch 21. Group settings are also made for the switch 21 and the DALI switch 26.

(D) Pattern setting A pattern setting request is transmitted from the PC setting device 10 to the lighting controller 11. The lighting controller 11 transmits a pattern setting request to the DALI amplifier 15. When the DALI amplifier 15 receives the pattern setting request from the lighting controller 11, the DALI amplifier 15 sets the pattern for the DALI side terminal fixture 25. The pattern number set on the DALI side is stored in the flash memory of the database 32 of the DALI amplifier 15 together with the corresponding dedicated BUS side pattern number. Patterns such as on / off and brightness of the corresponding terminal equipment 20 and DALI terminal equipment 25 are set according to the pattern number. Note that these pattern information may also be referred to as scene information. If a pattern is set for the switch 21 and the DALI switch 26, the lighting scene can be controlled by operating the switch 21 and the DALI switch 26.

FIG. 4 is an operation sequence diagram of group control, pattern control, and display matching of the lighting control system. The luminaire is controlled based on the group information managed by the DALI amplifier 15 with respect to the operation of the DALI switch 26 connected to the DALI amplifier 15. The DALI amplifier 15 notifies the lighting controller 11 of the operation information of the wall switch, and the lighting controller 11 can group-control the lighting equipment and the relay terminal connected to the lighting controller based on the wall switch information.

(F) Group operation by a dedicated BUS switch A group operation signal from the switch 21 is transmitted to the lighting controller 11 via the amplifier 14. The lighting controller 11 transmits a group control signal corresponding to the group operation signal to the terminal appliance 20. When the terminal fixture 20 receives the group control command from the lighting controller 11, the control is executed when the setting content set in the terminal fixture memory 31 matches the group control content.

The group control command transmitted from the lighting controller 11 is also transmitted to the DALI amplifier 15. The DALI amplifier 15 transmits a group control command from the lighting controller 11 to the DALI terminal fixture 25. When the DALI terminal device 25 receives the group control command from the DALI amplifier 15, the DALI terminal device 25 executes the control when the setting content set in the DALI terminal device memory 34 matches the group control content.

The lighting controller 11 transmits a display instruction command corresponding to the group control command to the switch 21. The display of the switch 21 is controlled according to the display instruction command from the lighting controller 11.

The display instruction command corresponding to the group control command transmitted from the lighting controller 11 is also transmitted to the DALI amplifier 15. When the DALI amplifier 15 receives the display instruction command from the lighting controller 11, the DALI amplifier 15 transmits the display instruction command to the DALI switch 26. The display of the DALI switch 26 is controlled according to the display instruction command from the lighting controller 11 transmitted via the DALI amplifier 15.

(G) Group control by the DALI switch 26 The group operation signal from the DALI switch 26 is transmitted to the lighting controller 11 via the DALI amplifier 15. The lighting controller 11 transmits a group control signal corresponding to the group operation signal to the terminal appliance 20. When the terminal fixture 20 receives the group control command from the lighting controller 11, the control is executed when the setting content set in the terminal fixture memory 31 matches the group control content.

On the other hand, when the DALI amplifier 15 receives the group operation signal from the DALI switch 26, it directly transmits the group control command corresponding to the group operation signal to the DALI terminal appliance 25 without going through the lighting controller 11. When the DALI terminal device 25 receives the group control command from the DALI amplifier 15, the control is executed when the setting content set in the DALI terminal device memory 34 matches the group control content.

The lighting controller 11 transmits a display instruction command corresponding to the group control command to the switch 21. The display of the switch 21 is controlled according to the display instruction command from the lighting controller 11.

The display instruction command corresponding to the group control command transmitted from the lighting controller 11 is also transmitted to the DALI amplifier 15. When the DALI amplifier 15 receives the display instruction command from the lighting controller 11, the DALI amplifier 15 transmits the display instruction command to the DALI switch 26. The display of the DALI switch 26 is controlled according to the display instruction command from the lighting controller 11 transmitted via the DALI amplifier 15.

(H) Pattern operation by a dedicated BUS switch When a pattern operation signal is transmitted from the switch 21 to the lighting controller 11 via the amplifier 14, the lighting controller 11 controls the terminal device 20 in a group corresponding to the pattern operation signal. Send a command. When the terminal fixture 20 receives the group control command from the lighting controller 11, the control is executed when the setting content set in the terminal fixture memory 31 matches the group control content. Since the pattern information is not stored in the terminal device memory 31 on the dedicated BUS side, that is, the terminal device 20 does not wait for the pattern information, the pattern control on the dedicated BUS side is performed by the group information.

On the other hand, when the pattern operation signal is transmitted from the switch 21 to the lighting controller 11 via the amplifier 14, the lighting controller 11 transmits a pattern control command corresponding to the pattern operation signal to the DALI amplifier 15. When the DALI amplifier 15 receives the pattern control command, it transmits the pattern control command to the DALI terminal device 25. When the DALI terminal device 25 receives the group control command from the DALI amplifier 15, the DALI terminal device 25 executes the control when the setting content set in the DALI terminal device memory 34 matches the pattern control content. Since the pattern information is stored in the DALI terminal device memory 34 on the DALI communication side, that is, the pattern information is made to wait in the DALI terminal device 25, the pattern control on the DALI communication side is performed by the pattern information. ..

In this way, in the control by the lighting controller 1 for the pattern operation signal by the switch 21, group control is performed for the lighting fixture 20 connected to the dedicated BUS, and the lighting fixture 25 connected to the DALI amplifier 15 is controlled. Pattern control is performed.

The lighting controller 11 transmits a display instruction command corresponding to the pattern operation signal to the switch 21. The display of the switch 21 is controlled according to the display instruction command from the lighting controller 11.

The display instruction command corresponding to the pattern operation signal transmitted from the lighting controller 11 is also transmitted to the DALI amplifier 15. When the DALI amplifier 15 receives the display instruction command from the lighting controller 11, the DALI amplifier 15 transmits the display instruction command to the DALI switch 26. The display of the DALI switch 26 is controlled according to the display instruction command from the lighting controller 11 transmitted via the DALI amplifier 15.

Data conversion between the dedicated BUS side system and the DALI communication side system is possible in the DALI amplifier 15. The DALI amplifier database 32 stores the network address NA, unique address UA, group number and pattern number on the dedicated BUS side, and the corresponding network address NA, unique address UA, group number and pattern number on the DALI side. Between the network address NA on the dedicated BUS side and the network address NA on the DALI side, between the unique address UA on the dedicated BUS side and the unique address UA on the DALI side, the group number on the dedicated BUS side and the group on the DALI side. Data conversion between the numbers and between the pattern number on the dedicated BUS side and the pattern number on the DALI side is possible.

For example, when a group control command is transmitted from the lighting controller 11 to the DALI amplifier 15, the group number on the dedicated BUS side is converted into the group number on the DALI communication side in the DALI amplifier 15, and the group number is converted to the DALI terminal device 25. Is transmitted a group control command based on the group number on the DALI communication side. Similarly, when a control command is transmitted from the lighting controller 11 to the DALI amplifier 15, the network address NA on the dedicated BUS side becomes the network address NA on the DALI side, and the unique address UA on the dedicated BUS side in the DALI amplifier 15. The data is converted to the unique address UA on the DALI side, the group number on the dedicated BUS side to the group number on the DALI side, and the pattern number on the dedicated BUS side to the pattern number on the DALI side. A control command based on the data-converted information is transmitted for the DALI communication side.

On the other hand, when data is transmitted from the DALI communication side system to the dedicated BUS side system, for example, when the group operation signal from the DALI switch 26 is transmitted to the lighting controller 11 in (g), the DALI amplifier 15 is on the DALI communication side. After the group number is converted into the group number on the dedicated BUS side, the group operation signal is transmitted to the lighting controller based on the group number on the dedicated BUS side. Similarly, when data is transmitted from the DALI communication side system to the dedicated BUS side system, the DALI side network address NA is the dedicated BUS side network address NA, and the DALI side unique address UA is the dedicated BUS side unique address in the DALI amplifier 15. Data is converted to UA, the group number on the DALI side to the group number on the dedicated BUS side, and the pattern number on the DALI side to the pattern number on the dedicated BUS side. At 25, the information converted into the data for the dedicated BUS side is transmitted.

The lighting control system of the present embodiment has the following effects.
(1) The dedicated BUS and the DALI transmission line can be mixed, and each device connected to both transmission lines can be controlled by one lighting controller 11.

(2) Distributed control can be realized, and even when dedicated BUS control is not possible, DALI alone can operate. For example, in the above (g), when the DALI amplifier 15 receives the group operation signal from the DALI switch 26, the group corresponding to the group operation signal directly to the DALI terminal appliance 25 without going through the lighting controller 11. Send a control command.

(3) The buffering action of the DALI amplifier 15 enables cooperation between systems having different communication speeds. For example, when the communication speed of the dedicated BUS is 10 KBPS, while the communication speed of the DALI transmission line is 1200 BPS and there is a large difference in the communication speed, the DALI amplifier 15 is used as a buffer between the two transmission lines. It is possible to cooperate with.

(4) Data can be converted in the DALI amplifier 15. The DALI amplifier database 32 stores the network address NA, unique address UA, group number and pattern number on the dedicated BUS side, and the corresponding network address NA, unique address UA, group number and pattern number on the DALI side. Between the network address NA on the dedicated BUS side and the network address NA on the DALI side, between the unique address UA on the dedicated BUS side and the unique address UA on the DALI side, the group number on the dedicated BUS side and the group on the DALI side. Data conversion between the numbers and between the pattern number on the dedicated BUS side and the pattern number on the DALI side is possible.

[Embodiment 2]
The lighting control system according to the second embodiment of the present invention will be described with reference to FIG. In FIG. 5, the same reference numerals are used for the same configurations as those in FIGS. 1 to 4, and the description thereof will be omitted. FIG. 5 is an operation sequence diagram of a motion sensor of a lighting control system. On the DALI communication side, the DALI motion sensor 27 is connected to the DALI amplifier 15 instead of the DALI switch 25, which is different from the lighting control system of the first embodiment.

Regarding the group control based on the DALI motion sensor 27 connected to the DALI amplifier 15, in the DALI communication side system, the DALI amplifier 15 directly controls the group without going through the lighting controller 11 based on the group information managed by the DALI amplifier 15. , Controls the terminal device 25. Further, the motion sensor detection notification from the DALI motion sensor 27 is also notified to the lighting controller 11, and the lighting controller 11 is connected to the lighting controller based on the motion sensor detection notification from the DALI motion sensor. The lighting fixture and the relay terminal, which are the terminal fixtures 20 of the above, are group-controlled.

(I) Human detection control by the DALI motion sensor When the DALI motion sensor 27 detects the presence / absence of a person who is present / absent / moving, the motion sensor detection notification is transmitted to the DALI amplifier 15. When the DALI amplifier 15 receives the motion sensor detection notification from the DALI motion sensor 27, the DALI amplifier 15 transmits the motion sensor detection notification to the lighting controller 11.

When the lighting controller 11 receives the motion sensor detection notification from the DALI amplifier 15, the lighting controller 11 transmits a group control signal to the terminal device 20. When the terminal fixture 20 receives the group control command from the lighting controller 11, the control is executed when the setting content set in the terminal fixture memory 31 matches the group control content.

On the other hand, when the DALI amplifier 15 receives the motion sensor detection notification from the DALI motion sensor 27, the group control corresponding to the motion sensor detection notification is directly applied to the DALI terminal device 25 without going through the lighting controller 11. Send the command. When the DALI terminal device 25 receives the group control command from the DALI amplifier 15, the control is executed when the setting content set in the DALI terminal device memory 34 matches the group control content.

The lighting controller 11 transmits a display instruction command corresponding to the group control command to the switch 21. The display of the switch 21 is controlled according to the display instruction command from the lighting controller 11.

[Embodiment 3]
The lighting control system according to the third embodiment of the present invention will be described. In the first or second embodiment, DALI communication has been described as an example of the communication standard linked with the dedicated BUS, but the other communication standards of the present embodiment are not limited to DALI communication, for example. It is possible to adopt various communication standards such as MODBUS, KNX, ZIGBee, WiFi, BLE, and other wireless communication. For example, in MODBUS, sequence control is possible, and in KNX, it is possible to connect to switches and sensors in addition to lighting equipment.

In addition to lighting fixtures, relay terminals, and switches, various devices such as sensors 27 can be connected to the dedicated BUS side system or other communication standard side systems. Examples of the sensor include an image sensor, a luminance sensor, and the like. The image sensor can, for example, detect a person, detect brightness, detect illuminance calculated from brightness, detect brightness on a desk surface, and the like. Further, the luminance sensor is provided toward the illumination, for example, and can detect the brightness of the illumination.

Although the lighting control system has been described above in the embodiment of the present invention, the above-described embodiment exemplifies the lighting control system for embodying the technical idea of the present invention, and specifies the present invention to these. It is not a thing, but can be equally applied to other embodiments such as a modification of each embodiment and a combination of each embodiment.

10 PC setting device, 11 lighting controller, 12 relay terminal, 13 switch device, 14 amplifier, 15 DALI amplifier, 17 LAN, 18 dedicated BUS, 19 DALI transmission line, 20 lighting equipment, 21 switch, 25 DALI lighting equipment, 26 switches. , 27 Sensors, 30 Lighting Controller Database, 31 Terminal Equipment Memory, 32 DALI Amplifier Database, 34 Terminal Equipment Memory.

Claims (13)

With multiple lighting fixtures that illuminate the lighting space,
A lighting controller that controls the lighting equipment,
A first communication means according to a specific protocol for communicating between the lighting controller and the luminaire, and the like.
A second communication means having a protocol different from that of the first communication means, which communicates between the lighting controller and the lighting fixture, and a second communication means.
It is a lighting control system equipped with
A conversion device is provided between the lighting controller and the second communication means.
The conversion device has a function of converting a signal by the Putrocol of the first communication means and a signal by the protocol of the second communication means, a power supply function of supplying power to the second communication means side, and the second communication means. A lighting control system that has a control function that controls the lighting. The lighting control system according to claim 1, wherein the second communication means communicates with the first communication means or the lighting controller via the conversion device. The lighting control system according to claim 1 or 2, wherein the first communication means and the second communication means have different communication speeds from each other. The lighting control system according to any one of claims 1 to 3, wherein the first communication means and the second communication means can operate even when one of them is inoperable. The lighting according to any one of claims 1 to 4, wherein the conversion device mutually converts the first address information from the lighting controller and the second address information by the protocol of the second communication means. Control system. The lighting control system according to claim 5, wherein the first address information and the second address information are automatically set by an address setting device and / or the conversion device. The lighting control system according to any one of claims 1 to 6, wherein the conversion device includes a database and stores at least one of address information, group information, and scene information of the lighting fixture. Claim that at least one of individual control, group control, or scene control of the luminaire is possible by the switch connected to the first communication means and / or the switch connected to the second communication means. The lighting control system according to any one of 1 to 7. With respect to the switch operation connected to the second communication means, the lighting connected to the second communication means is controlled based on the information stored in the conversion device, and the lighting is controlled.
The lighting control system according to any one of claims 1 to 8, wherein the lighting connected to the first communication means is controlled with respect to the switch operation connected to the second communication means. The lighting control according to any one of claims 1 to 9, wherein the lighting controller controls the display of the switch connected to the first communication means and the switch connected to the second communication means. system. The one according to any one of claims 1 to 10, wherein the lighting controller transmits group control information to the first communication means and transmits lighting pattern control information to the second communication means. Lighting control system. When the sensor is connected to the second communication means, the lighting equipment is controlled by being connected to the second communication means according to the information of the sensor, and the lighting fixture is controlled.
The lighting control system according to any one of claims 1 to 11, wherein the information of the sensor is notified to the lighting controller, and the lighting equipment connected to the first communication means is controlled based on the information of the sensor. .. The lighting control system according to any one of claims 1 to 12, wherein a relay terminal that can be controlled in the same manner as the lighting fixture is connected to the first communication means and / or the second communication means.

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