JP2022164424A - Communication device, communication control system, lighting system, and lighting control system - Google Patents

Abstract

To provide a communication device that, even when a host control system and the communication device are not connected to each other and when identification information is not set to lighting devices, can easily check the connection between the communication device and the lighting devices and can easily specify the lighting devices connected to the communication device.SOLUTION: A communication device such as a transmission adapter 20 includes an input unit such as a checking switch 21, a first communication unit 26 that communicates by wire with one or more lighting devices according to a first communication protocol; and a second communication unit 27 that communicates with a control system for controlling the lighting devices according to a second communication protocol different from the first communication protocol. The communication device can operate a first operation mode of outputting a signal for controlling the lighting devices from the first communication unit 26 based on a signal received by the second communication unit 27, and a second operation mode of outputting a signal for controlling the lighting devices from the first communication unit 26 based on information input to the input unit.SELECTED DRAWING: Figure 3

Description

The present disclosure relates to communication devices, communication control systems, lighting systems, and lighting control systems.

Patent Literature 1 describes that a control unit controls a lighting control terminal of an equipment system provided in a facility via a communication unit. The communication unit is said to have a function as a network node that connects networks with different communication standards such as the communication standard between the control unit and the communication unit and the communication standard between the equipment system and the communication unit. . The lighting control terminal controls lighting fixtures (lighting devices) installed in the facility.

Japanese Patent Application Laid-Open No. 2020-48090

By the way, in a configuration in which one or more lighting devices and a communication device are connected by wire, the communication device communicates with the lighting device using the first communication protocol, and the communication device communicates with the control system using the second communication protocol, the control A configuration is conceivable in which the system controls the lighting device via a communication device. On the other hand, when installing a lighting control system with this configuration in a building, a setting contractor who sets the operation specifications of the lighting equipment installs the control system, installs the communication equipment and lighting equipment, and performs wiring between them. A trader may do it. At this time, if the host control system and the communication device are not yet connected by wiring, or if the identification information such as the control address is not set in the lighting device, the wiring between the lighting device and the communication device is normally connected. The lighting contractor cannot easily confirm that it has been done. In addition, when a plurality of communication devices are connected to the control system and each communication device is connected to a plurality of lighting devices, the wiring becomes complicated. Such users cannot be easily identified.

An object of the present disclosure is to facilitate confirmation of connection between a communication device and a lighting device even when the host control system and the communication device are not connected or when identification information is not set in the lighting device, and To provide a communication device, a communication control system, a lighting system, and a lighting control system that can easily identify a lighting device connected to a network.

A communication device according to one aspect of the present disclosure includes an input unit, a first communication unit that communicates with one or more lighting devices by wire using a first communication protocol, and a control system that controls the lighting devices with the first communication protocol. a second communication unit that communicates with a different second communication protocol, and a first operation mode in which the first communication unit outputs a signal for controlling the lighting device based on the signal received by the second communication unit; The communication device is configured to be operable in a second operation mode in which a signal for controlling the lighting device is output from the first communication section based on information input to the input section.

A communication device that is one aspect of the present disclosure is a communication control system that includes the communication device of the present disclosure and a control system.

A lighting system that is one aspect of the present disclosure is a lighting system that includes a communication device of the present disclosure and a lighting device.

A lighting control system that is one aspect of the present disclosure is a lighting control system that includes the lighting system of the present disclosure and a control system.

According to a communication device, a communication control system, a lighting system, and a lighting control system according to one aspect of the present disclosure, a lighting device connected to a communication device is operated based on information input to an input unit of the communication device. can be done. This makes it possible to easily check the connection between the communication device and the lighting device even when the control system and the communication device are not connected or when the identification information is not set in the lighting device. The device can be easily identified.

1 is a diagram showing a configuration of a lighting control system including a transmission adapter that is a communication device of an example of an embodiment; FIG. FIG. 4 is a schematic diagram showing a state in which a user operates a confirmation switch, which is an input unit, to confirm connection of the lighting device in the lighting system according to one example of the embodiment. 2 is a block diagram showing the configuration of a transmission adapter in FIG. 1; FIG. 2 is a sequence diagram showing operations of the control system, transmission adapter, and lighting device when the transmission adapter of FIG. 1 operates in a first operation mode; FIG. FIG. 4A is a diagram showing a work procedure of a lighting contractor, and FIG. 4B is a diagram showing a work procedure of a setting contractor at the time of construction of the lighting control system of the embodiment; 2 is a sequence diagram showing operations of the transmission adapter and lighting device when the transmission adapter of FIG. 1 operates in a second operation mode; FIG. FIG. 11 is a block diagram showing the configuration of a transmission adapter in another example of the embodiment; FIG. 10 is a sequence diagram showing operations of the transmission adapter and the lighting device when the transmission adapter operates in the second operation mode in another example of the embodiment; FIG. 10 is a sequence diagram showing operations of the transmission adapter and the lighting device when the transmission adapter operates in the second operation mode in another example of the embodiment;

Hereinafter, embodiments of a communication device, a communication control system, a lighting system, and a lighting control system according to the present disclosure will be described in detail with reference to the drawings. However, the present disclosure is not limited to the embodiments described below.

The subject of the system of the present disclosure comprises a computer. The main functions of the system of the present disclosure are implemented by the computer executing the program. A computer has a processor that operates according to a program as a main hardware configuration. Any type of processor can be used as long as it can implement the above functions by executing a program. A processor is composed of one or more electronic circuits, including integrated circuits (ICs) or large scale integrated circuits (LSIs). A plurality of electronic circuits may be integrated on one chip or may be provided on a plurality of chips. A plurality of chips may be integrated into one device, or may be provided in a plurality of devices. Also, the program is stored in a non-temporary storage medium such as a computer-readable ROM, optical disk, hard disk drive, or the like. The program may be pre-stored in a storage medium, or may be supplied to the storage medium via a wide area network including the Internet.

FIG. 1 is a diagram showing the configuration of a lighting control system 10 including a transmission adapter 20, which is a communication device according to an embodiment. The lighting control system 10 includes a plurality of transmission adapters 20, a plurality of lighting devices 30 communicatively connected to each transmission adapter 20 by wire, and a control system 12 communicating with the plurality of transmission adapters 20. be. The transmission adapter 20 and the control system 12 are connected by wire, but may be able to communicate wirelessly. The lighting control system 10 of the present disclosure is installed, for example, in buildings such as office buildings and shopping centers.

A plurality of lighting devices 30 are connected to each transmission adapter 20 via a transmission line L1. Each lighting device 30 has a communication unit that communicates according to, for example, the DALI (registered trademark) (Digital Addressable Lighting Interface) standard, and communicates with the transmission adapter 20 according to the DALI (registered trademark) standard, which is the first communication protocol.

A plurality of transmission adapters 20 are connected to the control system 12 via transmission lines L2. connect. The control system 12 has an interface provided for communicating with the transmission adapter 20 and a control unit including a processor, memory and the like. The control system 12 may be configured by being integrated into a single device, or may be configured by communicably connecting a plurality of devices.

The transmission adapter 20 is a network node for connecting networks with different communication protocols, such as the network between the control system 12 and the transmission adapter 20 and the network between the lighting device 30 and the transmission adapter 20. has the function of

In such a lighting control system 10 , a communication control system 14 is configured by the transmission adapter 20 and the control system 12 . A lighting system 16 is configured by the transmission adapter 20 and the lighting device 30 .

The lighting control system 10 is not limited to the configuration having a plurality of transmission adapters 20 , and may have a configuration having only one transmission adapter 20 .

Each lighting device 30 has a light source section, converts a commercial AC voltage into a DC voltage with a power supply circuit, and lights or blinks the light source section with the DC voltage. The type of each lighting device 30 is not limited. For example, the lighting device 30 may be a ceiling light, a downlight, a spotlight, or the like.

For example, 1 to 64 lighting devices 30 can be connected to each transmission adapter 20 . Each lighting device 30 has a control address, which is its own identification information. The control address is, for example, a short address. The control system 12 controls the lighting operation of each lighting device 30 using the control address.

FIG. 2 is a schematic diagram showing a state in which the user U operates the confirmation switch 21, which is an input unit, to confirm the connection of the lighting device 30 in the lighting system 16. As shown in FIG. Each transmission adapter 20 is arranged in an operation panel 60 installed on a wall or the like, for example. Each transmission adapter 20 may be attached to a structure such as a ceiling. When the transmission adapter 20 is attached to the ceiling, a communication unit capable of wirelessly communicating with a portable information terminal such as a smartphone held by the user is attached to the transmission adapter, as in another example of the embodiment described later with reference to FIG. 20 so that input for confirming wiring is performed by wireless communication. A transmission line L<b>1 connected to the transmission adapter 20 is wired behind the ceiling and connected to the lighting device 30 provided in the ceiling section 62 . Although only one transmission adapter 20 is shown in FIG. 2, other transmission adapters 20 can be installed in the same manner. A confirmation switch 21 and a power switch 22, which will be described later, are arranged in the transmission adapter 20 so that the user U can operate them.

The transmission adapter 20 will be described in more detail with reference to FIG. FIG. 3 is a block diagram showing the configuration of the transmission adapter 20. As shown in FIG. The transmission adapter 20 has a first communication section 26 , a second communication section 27 , a communication control section 25 , the above confirmation switch 21 and power switch 22 , and a storage section 29 .

The first communication unit 26 communicates with one or more lighting devices 30 by wire according to the DALI (registered trademark) standard. The second communication unit 27 communicates with the control system 12 using a second communication protocol different from the DALI (registered trademark) standard. The communication control section 25 controls the communication sections 26 and 27 .

The confirmation switch 21 is an operation unit, such as a push button switch or a rocker switch (or seesaw switch) for switching on and off. As an input to the input unit, the confirmation switch 21 outputs a signal representing the operation to the communication control unit 25 when it is operated by the user U or the like, or is turned on, as will be described later. When a signal indicating that the confirmation switch 21 has been operated is input, the communication control unit 25 turns on the lighting device 30 connected to the transmission adapter 20 via the second communication unit 27. Alternatively, it outputs a lighting control signal for blinking. Therefore, as will be described later, the user U can easily check the connection between the transmission adapter 20 and the lighting device 30 and easily identify the lighting device 30 connected to the transmission adapter 20 .

The power switch 22 is an on/off switch for starting or stopping the transmission adapter 20 . The power switch 22 is connected to a power circuit section 28 provided inside the transmission adapter 20 . The power supply circuit unit 28 is connected to an external power supply 64 and converts commercial AC voltage into DC voltage. When the power switch 22 is turned on, the DC voltage converted by the power circuit section 28 is supplied to the communication control section 25 and the like. When the power switch 22 is a push button, the power switch 22 may be configured to alternately turn on and off by repeatedly pressing the button.

The storage unit 29 is connected to the communication control unit 25 . The storage unit 29 stores addresses such as the address of the device itself and the address for control of the lighting device 30 connected to the device itself.

Furthermore, the storage unit 29 stores a first operation mode and a second operation mode. The first operation mode is an operation mode when controlling the lighting device 30 from the control system 12 while both the control system 12 and the lighting device 30 are connected to the transmission adapter 20 .

Specifically, the transmission adapter 20 operates in the first operation mode according to the first operation mode stored in the storage section 29 . The first operation mode is based on the signal received by the second communication unit 27 from the control system 12, and when the signal includes the control address of the lighting device 30 connected to the transmission adapter 20, the first communication unit 26 transmits a lighting control signal for controlling the lighting device 30 from the lighting device 30 to operate the lighting device 30; .

FIG. 4 is a sequence diagram showing operations of the control system 12, the transmission adapter 20, and the lighting device 30 when the transmission adapter 20 operates in the first operation mode. First, the control system 12 outputs a lighting control signal for controlling the lighting device 30 specified by the control address to the transmission adapter 20 through communication using the first protocol. Upon receiving the signal, the transmission adapter 20 converts the communication protocol and outputs the lighting control signal to the lighting device 30 of the specified control address according to the DALI (registered trademark) standard. The illumination device 30 that has received the illumination control signal is controlled in its lighting state according to the illumination control signal.

Returning to FIG. 3, the transmission adapter 20 operates in the second operation mode according to the second operation mode stored in the storage section 29. FIG. The second operation mode enables the user U to easily confirm the connection to the lighting device 30 and identify the lighting device 30 connected to the transmission adapter 20 even when the control system 12 is not connected to the transmission adapter 20. Therefore, this mode operates based on the user U's operation.

Specifically, in the second operation mode, the illumination device 30 is turned on from the first communication unit 26 based on the information input to the confirmation switch 21, which indicates that the confirmation switch 21 has been operated or turned on. Outputs a lighting control signal for control. Hereinafter, the operation or ON operation of the confirmation switch 21 will be referred to as the operation of the confirmation switch 21 . Also, the second operation mode is configured to be operable when not operating in the first operation mode. Further, the second mode of operation is configured to be operable prior to being capable of operation in the first mode of operation. In the second operation mode, the communication control unit 25 of the transmission adapter 20 causes the first communication unit 26 to output lighting control signals to all the lighting devices 30 connected to the transmission adapter 20 by broadcasting without specifying addresses, The illumination device 30 is activated, that is, illuminated or blinked according to the contents of a preset illumination control signal.

FIG. 5 shows (a) the work procedure of the lighting contractor and (b) the work procedure of the setting contractor at the time of construction, which is before the operation of the lighting control system 10 . When constructing the lighting control system 10, as shown in FIG. 5(a), the lighting contractor installs the transmission adapter 20 and the lighting device 30 (Sa1). Next, the lighting contractor connects the transmission adapter 20 and the lighting device 30 by wiring, connects the wiring for power supply to the lighting device 30, and starts supplying power to the lighting device 30. Then, the transmission adapter 20 and the lighting device 30 are connected. is properly connected (Sa2). Confirmation of the wiring connection between the transmission adapter 20 and the lighting device 30 is performed in a power-on state in which power supply to the lighting device 30 is started.

On the other hand, as shown in FIG. 5B, the setting contractor installs the control system 12, connects the control system 12 and the transmission adapter 20, and then confirms that the wiring is properly connected. (Sb1). Next, the setting company connects the setting machine for setting the control address to the lighting device 30 and the transmission adapter 20 (Sb2). The setting device is a device that outputs a signal for setting a control address to the lighting device 30 to the transmission adapter 20, and is, for example, a personal computer (PC), a smart phone, a mobile information terminal such as a tablet terminal. The setting machine may be connected to the control system 12 or the transmission adapter 20 by wire, or may communicate with the control system 12 or the transmission adapter 20 by wireless signals.

Next, the setting company uses a setting machine to output to the transmission adapter 20 a signal instructing setting of a random address, which is a provisional setting address randomly assigned to the connected lighting device 30 . Thereby, the transmission adapter 20 assigns and sets a random address to the connected lighting device 30 (Sb3). Next, the setting company uses a setting machine to provide the transmission adapter 20 with a short address or the like, which is an address assigned to the connected lighting device 30 in accordance with a user's instruction and overwritten with a random address. Outputs a signal that instructs the setting of the control address. At this time, the setting company turns on the lighting devices 30 in the order of random addresses, for example, and sets appropriate control addresses according to the positions of the turned-on lighting devices 30 . As a result, the control address is reassigned to the lighting device 30 (Sb4).

Next, the setting company sets operation specifications such as the range of brightness change for each lighting device 30 (Sb5). Then, the setting company checks the operation of each lighting device 30 (Sb6).

As described above, the processing at the time of installation is executed separately by the lighting contractor and the setting contractor. There is a request to be made even before the processing of ~S6b. That is, the lighting contractor can transmit data to the lighting device 30 even if the control system 12 is not connected to the transmission adapter 20, or even if the control system 12 is connected but the lighting device 30 does not have a control address set. There is a request to check wiring with the adapter 20 . According to the transmission adapter 20 of this example, as will be described later with reference to FIG. 6, simply by operating the confirmation switch 21 of the transmission adapter 20, if the wiring is normal, the transmission adapter 20 operates in the second operation mode. By doing so, the illumination device 30 lights up or blinks. As a result, the lighting contractor can easily check the wiring by looking at the lighting state.

FIG. 6 is a sequence diagram showing operations of the transmission adapter 20 and the lighting device 30 when the transmission adapter 20 operates in the second operation mode. First, the confirmation switch 21 of the transmission adapter 20 is operated by a user such as a lighting contractor. Based on this, the transmission adapter 20 executes the second operation mode, and the transmission adapter 20 outputs a lighting control signal indicating an instruction to blink the lighting devices 30 to all the lighting devices 30 connected to the transmission adapter 20. be. At this time, the transmission adapter 20 first outputs a lighting instruction signal to the lighting device 30, and after a very short predetermined period of time, the transmission adapter 20 outputs to all the lighting devices 30 connected to the transmission adapter 20. A lighting control signal indicating an instruction to turn off the lighting device 30 is output, and after a predetermined period of time, which is a very short time, a lighting control signal indicating an instruction to turn on the lighting device 30 is output from the transmission adapter 20. is repeated multiple times. As a result, the illumination device 30 blinks by repeating turning on and off for a very short period of time. At this time, the transmission adapter 20 may output a control signal indicating a blinking instruction to the lighting device 30 only once, so that the transmission adapter 20 receiving the control signal blinks for a predetermined period of time. In FIG. 6, the case of blinking the lighting device 30 has been described. good too.

According to the transmission adapter 20 , the communication control system 14 including the transmission adapter 20 , the lighting system 16 , and the lighting control system 10 , connection to the transmission adapter 20 is made based on the information input to the confirmation switch 21 of the transmission adapter 20 . The lighting device 30 can be operated. As a result, even when the control system 12 and the transmission adapter 20 are not connected or when the control address as identification information is not set in the lighting device 30, it is possible to easily check the connection between the transmission adapter 20 and the lighting device 30. In addition, the illumination device 30 connected to the transmission adapter 20 can be easily identified.

In the above-described embodiment, a case has been described in which wiring confirmation and the like are performed before operation of the lighting control system 10 during construction. Alternatively, it may be changed, or the lighting device 30 may break down and need to be replaced. In this case as well, the transmission adapter 20 is configured to be operable in the second operation mode when it is not operating in the first operation mode. The connection can be easily confirmed, and the lighting device 30 connected to the transmission adapter 20 can be easily specified.

FIG. 7 is a block diagram showing the configuration of a transmission adapter 20a in another example of the embodiment. In the configuration of this example, the confirmation switch 21 (FIG. 3) is not provided in the transmission adapter 20a. is provided. The third communication unit 24 is an input unit, and can communicate with the communication terminal by wire or wirelessly. The third communication section 24 is connected to the communication control section 25 and controlled by the communication control section 25 . The communication control unit 25 controls the lighting device 30 to light or blink from the first communication unit 26 based on the information received by the third communication unit 24 as the information input to the third communication unit 24. lighting control signal. At this time, for example, the user who checks the wiring between the transmission adapter 20a and the lighting device 30 communicates with the third communication unit 24 using a personal computer (PC), a mobile information terminal such as a smartphone, a tablet terminal, etc., and transmits A signal for outputting a lighting control signal from the adapter 20 to the lighting device 30 is input to the third communication unit 24 .

According to the above configuration, the illumination device 30 connected to the transmission adapter 20a can be operated based on the information input to the third communication unit 24 of the transmission adapter 20a. As a result, even when the control system 12 and the transmission adapter 20a are not connected or when the control address is not set in the lighting device 30, the connection between the transmission adapter 20a and the lighting device 30 can be easily confirmed, and the transmission can be performed. The illumination device 30 connected to the adapter 20a can be easily identified. Other configurations and actions in this example are the same as those in FIGS.

Also, although not shown, in the configuration of FIGS. 1 to 6 or the configuration of FIG. It may be configured to output a lighting control signal for control. At this time, the power switch 22 corresponds to a power input unit, and turning on the power switch 22 corresponds to power input operation to the power input unit.

According to the above configuration, the illumination device 30 connected to the transmission adapters 20, 20a can be operated based on the information indicating the ON operation input to the power switch 22 of the transmission adapters 20, 20a. In this case, when the power switch 22 is turned on, the transmission adapters 20 and 20a are activated and the lighting control signal is output from the first communication unit 26 . As a result, even when the control system 12 and the transmission adapters 20 and 20a are not connected or when the control address is not set in the lighting device 30, it is possible to easily check the connection between the transmission adapters 20 and 20a and the lighting device 30. In addition, the illumination device 30 connected to the transmission adapter 20, 20a can be easily specified. In this case, the confirmation switch 21 having the configuration shown in FIGS. 1 to 6 or the third communication section 24 having the configuration shown in FIG. 7 may be omitted. In this case, the number of parts can be reduced.

FIG. 8 is a sequence diagram showing operations of the transmission adapter 20 and the lighting device 30 when the transmission adapter 20 operates in the second operation mode in another example of the embodiment. In the configuration of this example, unlike the configurations of FIGS. 1 to 6, when the confirmation switch 21 is operated, the transmission adapter 20 operates in the second operation mode with the illumination device 30 to which the control address is set, It outputs a lighting control signal for controlling a lighting state different from that of the lighting device 30 to which the control address is not set. As a result, the lighting devices 30 to which the lighting control signal is output from the transmission adapter 20 operate so that the lighting devices 30 to which the control address has been set and the lighting devices 30 to which the control address has not been set are in different lighting states. For example, the lighting devices 30 whose control addresses have been set can be operated in one of lighting and blinking, and the lighting devices 30 in which the control address has not been set can be operated in the other of lighting and blinking. Further, the lighting device 30 for which the control address has been set and the lighting device 30 for which the control address has not been set may be lit in different lighting colors. At this time, the behavior of the transmission adapter 20 is changed depending on whether all of the lighting devices 30 connected to the transmission adapter 20 have already been set with control addresses and when they have not yet been set. The display or lighting may be changed in the unit, or the difference may be notified by communication to a mobile terminal or the like. It is also possible to turn on only lighting devices 30 for which control addresses have not been set, and to turn off lighting devices 30 for which control addresses have been set.

According to the above configuration, by operating the confirmation switch 21 , the user can recognize whether the control address has been set or not just by looking at the lighting state of the lighting device 30 . Other configurations and actions in this example are the same as those in FIGS. The configuration of this example may be combined with the configuration of FIG. 7 or the configuration using the power switch 22 as the input section of the transmission adapters 20 and 20a.

FIG. 9 is a sequence diagram showing operations of the transmission adapter 20 and the lighting device 30 when the transmission adapter 20 operates in the second operation mode in another example of the embodiment. In the configuration of this example, unlike the configurations of FIGS. 1 to 6, the multiple lighting devices 30 connected to the transmission adapter 20 are divided into multiple groups each including one or more lighting devices 30 . At this time, in this example, when the confirmation switch 21 is operated, the transmission adapter 20 controls the lighting devices 30 to be in different lighting states in different groups of the lighting devices 30 in the second operation mode. output a lighting control signal for As a result, the lighting devices 30 to which the lighting control signal is output from the transmission adapter 20 operate so that the lighting devices 30 in different groups are in different lighting states. For example, when there are two groups, a first group and a second group, the lighting devices 30 of the first group are operated by one of lighting and blinking, and the lighting devices 30 of the second group are operated by the other of lighting and blinking. can be done. Alternatively, the plurality of groups may be lit in different lighting colors.

According to the above configuration, by operating the confirmation switch 21 , the user can recognize the lighting devices 30 belonging to the same group and the lighting devices 30 belonging to a different group simply by looking at the lighting states of the lighting devices 30 . Other configurations and actions in this example are the same as those in FIGS. The configuration of this example may be combined with the configuration of FIG. 7 or the configuration using the power switch 22 as the input section of the transmission adapters 20 and 20a.

In each of the above examples, the communication device communicates with one or more lighting devices 30 by wire according to the DALI (registered trademark) standard, and the first communication unit 26 communicates with the control system 12 via the DALI (registered trademark) standard. A case has been described in which the transmission adapter 20 has the second communication unit 27 that communicates using a different second communication protocol. On the other hand, the communication device of the present disclosure is not limited to this, and may be any communication device having first and second communication units that communicate with different communication protocols.

Reference Signs List 10 lighting control system 12 control system 14 communication control system 16 lighting system 20, 20a transmission adapter 21 confirmation switch 22 power switch 25 communication control section 26 first communication section 27 second communication section 28 Power supply circuit unit 29 Storage unit 30 Lighting device 60 Operation panel 62 Ceiling unit 64 External power supply.

Claims (12)

an input unit;
a first communication unit that communicates with one or more lighting devices by wire using a first communication protocol;
a second communication unit that communicates with a control system that controls the lighting device using a second communication protocol different from the first communication protocol;
a first operation mode in which a signal for controlling the lighting device is output from the first communication unit based on the signal received by the second communication unit;
a second operation mode in which a signal for controlling the lighting device is output from the first communication unit based on information input to the input unit;
Communication device. 2. The communication device of claim 1, wherein said second mode of operation is configured to be operable when not operating in said first mode of operation. 3. The communication device of claim 2, wherein said second mode of operation is configured to be operable prior to being capable of operation in said first mode of operation. The communication device according to any one of claims 1 to 3, wherein said second operation mode outputs said signal by broadcasting. The input unit includes an operation unit,
The second operation mode according to any one of claims 1 to 4, wherein a signal for controlling the lighting device is output from the first communication unit based on information input by the operation unit. Communication device. The input unit includes a third communication unit different from the first communication unit and the second communication unit,
The second operation mode according to any one of claims 1 to 5, wherein a signal for controlling the lighting device is output from the first communication unit based on information received by the third communication unit. communication equipment. the input section includes a power input section;
The second operation mode according to any one of claims 1 to 6, wherein a signal for controlling the lighting device is output from the first communication unit based on a power input operation to the power input unit. communication equipment. In the second operation mode, a signal is output for controlling such that the lighting device to which the address for control is set and the lighting device to which the address for control is not set are in different lighting states. The communication device according to any one of claims 1 to 7, wherein The one or more lighting devices are a plurality of lighting devices,
When the plurality of lighting devices are divided into a plurality of groups including one or more of the lighting devices,
The communication according to any one of claims 1 to 8, wherein in the second operation mode, a signal for controlling the lighting devices to be in different lighting states in different groups of the lighting devices is output. Device. A communication control system, comprising: the communication device according to any one of claims 1 to 9; and the control system. A lighting system comprising the communication device according to any one of claims 1 to 9 and the lighting device. A lighting control system comprising the lighting system of claim 11 and the control system.

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