JP2020136129A - Illumination system controller, illumination system, and illumination system communication address setting method - Google Patents

Abstract

To make it easy to control and manage an illumination apparatus when the illumination apparatus is added to an existing illumination system.SOLUTION: An identification information assigning unit 15 sets the same data as in a first data part of identification information assigned to an illumination apparatus 2 in the same classification as an illumination apparatus 3 to a first data part regarding an added illumination apparatus 3, and assigns to a second data part identification information in which data different from a second data part of the identification information assigned to the illumination apparatus 2 is set. A communication address setting unit 16 sorts the identification information using the first data part as a key, and sets a communication address so that address order is order of a sort result.SELECTED DRAWING: Figure 1

Description

The present invention relates to a technique for setting a communication address used when communicating between a controller and a lighting fixture in a lighting system including a plurality of lighting fixtures.

Conventionally, there has been known a lighting system in which a controller transmits a lighting control signal to a plurality of lighting fixtures to control a light source of each lighting fixture. Patent Document 1 discloses a technique for easily setting a communication address used when transmitting a lighting control signal from a controller to each lighting fixture.

JP-A-2017-220435

By the way, when a lighting fixture is added to an existing lighting system, it is necessary to set a communication address for the added lighting fixture in order to send and receive a lighting control signal between the controller and the added lighting fixture. In this case, a communication address that is not used for the existing luminaire is set in the added luminaire.

When the communication address is set by such a setting method, if the existing luminaire includes the luminaire of the same classification as the added luminaire (for example, the same model, installation location, etc.), these communications Addresses may be set apart. Since the same control of luminaires of the same category is often performed at the same time, if the communication addresses of the luminaires of the same category are set apart, it becomes difficult to control and manage the luminaires. In particular, in a lighting system having a large number of lighting fixtures, it is easy for a setting error of the lighting fixtures to occur.

An object of the present invention is to facilitate control and management of lighting fixtures when a lighting fixture is added to an existing lighting system in a lighting system in which a plurality of lighting fixtures are controlled by a controller.

In order to achieve the above object, the controller of the lighting system is a lighting system including a plurality of lighting fixtures, in accordance with the identification information giving unit that gives identification information to each lighting fixture to be installed, and the identification information. It is provided with a communication address setting unit for setting the communication address of each luminaire. The identification information includes a first data unit at a predetermined digit position and a second data unit at a predetermined digit position. The identification information giving unit sets data in the first data unit of a plurality of initially installed lighting fixtures so that the identification information is arranged for each classification of the lighting fixtures when the first data unit is used as a key. Then, the identification information for which predetermined data is set is added to the second data unit, and the additional lighting equipment is assigned to the first data unit in the same category as the lighting equipment. The same data as the first data unit of the identification information is set, and the identification information in which data different from the predetermined data is set is added to the second data unit. The communication address setting unit sorts the identification information given to each luminaire using the first data unit as a key, and sets the communication address of each luminaire so that the address order is the sort result order. ..

According to the present invention, in a lighting system in which a plurality of lighting fixtures are controlled by a controller, when the lighting fixtures are added to the existing lighting system, it becomes easy to control and manage the lighting fixtures.

A block diagram showing a configuration example of a lighting system. The figure which shows the connection example of a lighting system. The figure which shows the correspondence example of a lighting fixture and a communication address. (A) and (b) are flowcharts showing the operation of the lighting system. The figure which shows another example of correspondence of a luminaire and a communication address.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following description of preferred embodiments is merely exemplary and is not intended to limit the present invention, its applications or its uses.

(Overall configuration of lighting system)
FIG. 1 is a block diagram showing a configuration example of a lighting system according to an embodiment, and FIG. 2 is a diagram showing a connection example of a lighting system. In FIG. 1, since the internal configurations of the lighting fixtures 2 and 3 are the same, the illustration is omitted. Further, in FIG. 2, the internal configurations of the controller 1 and the lighting fixtures 2 (2A to 2L) and 3 are omitted.

As shown in FIGS. 1 and 2, the lighting system A according to the embodiment includes a controller 1 and a plurality of lighting fixtures 2 (2A to 2L) and 3. The controller 1 and the luminaires 2 and 3 are connected to the network 4 and can communicate with each other via the network 4. The network 4 is, for example, a communication network composed of a DMX (Digital Multiplex) cable or the like.

In the lighting system A, the controller 1 transmits a lighting control signal to the lighting fixtures 2 and 3 via the network 4. The lighting fixtures 2 and 3 change the mode (color, intensity, direction, etc. of the light source) of their own light source 24 based on the control value indicating the mode of each light source 24 included in the lighting control signal.

(Controller configuration)
The controller 1 includes an operation unit 11, a storage unit 12, a control unit 13, and a communication unit 14.

The operation unit 11 receives an operation input from the user. The operation unit 11 is, for example, an input device such as a keyboard, a mouse, a touch panel, and a fader, and is performed to change the mode (color, intensity, direction, etc. of the light source) of the light source 24 of each of the lighting fixtures 2 and 3. The operation input of the user is detected, and the signal corresponding to the detection result is output to the control unit 13. A display unit may be provided on the controller 1 to display the mode of the light source 24 of the lighting fixtures 2 and 3 on the display unit.

The storage unit 12 is a storage medium composed of a ROM (Read Only Memory), a RAM (Random Access Memory), an HDD (Hard Disk Drive), an SSD (Solid State Drive), and the like. Various programs executed by the control unit 13 are stored in the storage unit 12. Further, the storage unit 12 stores control channel mode setting information, identification information, and communication address for each of the lighting fixtures 2 and 3. The control channel mode setting information, identification information, and communication address will be described in detail later.

The control unit 13 is composed of, for example, a microcomputer including a CPU (Central Processing Unit), a semiconductor memory, and the like. The control unit 13 transmits and receives a lighting control signal to and from each of the lighting fixtures 2 and 3 by executing various programs stored in the storage unit 12. Specifically, the control unit 13 generates a lighting control signal including a control value indicating the mode of the light source 24 of each of the lighting fixtures 2 and 3, and outputs the lighting control signal to the communication unit 14.

Further, the control unit 13 includes an identification information giving unit 15 and a communication address setting unit 16.

The identification information giving unit 15 gives identification information including an identification number to each of the lighting fixtures 2 and 3. The identification information given by the identification information giving unit 15 is associated with the corresponding lighting fixtures 2 and 3 and stored in the storage unit 12.

The communication address setting unit 16 sets a communication address in each of the lighting fixtures 2 and 3 based on the identification information stored in the storage unit 12.

The communication unit 14 is composed of, for example, an electric circuit or the like, and outputs a lighting control signal input from the control unit 13 to the network 4.

(Composition of lighting equipment)
The lighting fixtures 2 (2A to 2L) and 3 include a communication unit 21, a storage unit 22, a control unit 23, and a light source 24, respectively.

The communication unit 21 is composed of, for example, an electric circuit or the like, and receives a lighting control signal output from the controller 1 via the network 4. The communication unit 21 outputs the received lighting control signal to the control unit 23.

The storage unit 22 is a storage medium composed of a ROM, a RAM, an HDD, an SSD, and the like. Various programs executed by the control unit 23 are stored in the storage unit 22. Further, the storage unit 22 stores a communication address set by itself.

Further, the storage unit 22 stores the setting of the control channel mode. The control channel mode includes, for example, a "monochromatic 1ch mode" in which the mode of the light source is changed according to one control value included in the lighting control signal, and a mode of the light source is changed according to three control values included in the lighting control signal. "RGB (Red, Green, Blue) 3ch mode" and "RGBW (Intensity, Red, Green, Blue, White) 5ch mode" that changes the mode of the light source according to the five control values included in the lighting control signal, etc. Is included. The storage unit 22 stores which control channel mode the self is set to.

The control unit 23 is composed of, for example, a microcomputer including a CPU, a semiconductor memory, and the like. The control unit 23 changes the mode of its own light source 24 by executing various programs stored in the storage unit 22. Specifically, when the control unit 23 receives the lighting control signal from the communication unit 21, the light source 24 follows the control value included in the data area of the lighting control signal corresponding to the communication address stored in the storage unit 22. To change the aspect of.

Further, the control unit 23 changes the mode of the light source 24 according to the setting of the control channel mode. For example, when the storage unit 22 stores that its own control channel mode is set to the “RGB3ch mode”, the control unit 23 sets the light source 24 according to the three control values included in the illumination control signal. Change the aspect.

The light source 24 is composed of, for example, a halogen lamp, a fluorescent lamp, an LED, or the like. The light source 24 is composed of, for example, one having a red, green, and blue (Blue) light emitting element, and one having a red, green, blue, and white (White) light emitting element.

(About lighting control signal)
In the lighting system A, the control unit 13 of the controller 1 generates a lighting control signal according to the DMX-512 standard. In the DMX-512 standard, lighting control signals are generated in digital format, and one lighting control signal can include 512 data areas (channels). The illumination control signal includes one control value in each data area.

Here, the storage unit 12 stores the communication addresses of the lighting fixtures 2 and 3. This communication address indicates a data area in which the control values of the lighting fixtures 2 and 3 are included in the lighting control signal. For example, when the communication address of the luminaire 2A is set to "1", the control unit 13 generates a luminaire control signal including the control value of the luminaire 2A in the first data area. That is, the control unit 13 generates a lighting control signal according to the communication address stored in the storage unit 12.

Further, the lighting fixtures 2 and 3 have different control values required to change the mode of the light source 24 depending on the set control channel mode. Therefore, the control channel mode setting information is stored in the storage unit 12. The control channel mode setting information indicates the control channel mode set in each of the lighting fixtures 2 and 3. The communication address setting unit 16 sets the communication address according to the control channel mode setting information stored in the storage unit 12.

For example, when the luminaire 2A is set to the "monochromatic 1ch mode", the communication address setting unit 16 sets the communication address indicating one data area in the luminaire 2A. When the lighting fixture 2E is set to the "RGB3ch mode", the communication address setting unit 16 sets the communication address indicating the three data areas in the lighting fixture 2E.

(How to set the communication address)
FIG. 3 is a diagram showing an example of correspondence between the lighting fixture and the communication address. As shown in FIG. 3, the lighting fixtures 2A to 2L and 3 are set with a control channel mode, identification information, an automatic address setting function, and a communication address, respectively. The automatic address setting function will be described later.

In the present embodiment, the lighting fixtures 2 and 3 are classified according to the control channel mode set in the lighting fixtures 2 and 3. That is, the luminaires 2 and 3 set in the same control channel mode are luminaires of the same classification.

As shown in FIG. 3, the control channel modes of the luminaires 2A to 2D, the luminaires 2E to 2H, 3 and the luminaires 2I to 2L are set to "single color 1ch mode", "RGB3ch mode" and "IRGBW5ch mode", respectively. Has been done. That is, in the present embodiment, the luminaires 2A to 2D, the luminaires 2E to 2H, 3 and the luminaires 2I to 2L are each in the same category.

The identification information is given to the lighting fixtures 2A to 2L and 3 by the identification information giving unit 15. The identification information includes an identification number composed of a three-digit number at the beginning. The first and second digits of this identification number correspond to the first data part, and the third digit from the top corresponds to the second data part.

Here, the luminaires 2A to 2L have been installed in the luminaire system A from the beginning of the installation of the luminaire system A, and the luminaire 3 has been added to the luminaire system A after the installation of the luminaire system A. Suppose that

In this case, when the identification information giving unit 15 sorts the lighting fixtures 2A to 2L installed in the lighting system A into the first data section using the first data section as a key, the identification information is the lighting fixture. The data is set so as to be lined up for each classification, and the identification information in which the predetermined data is set is added to the second data unit. Further, the identification information adding unit 15 adds a lighting fixture 3 added after the installation of the lighting system A to the first data unit with a lighting fixture of the same classification as the lighting fixture 3 (a lighting fixture 3 among the lighting fixtures 2A to 2L). The same data as the first data unit of the identification information given to the lighting fixtures of the same classification is set, and the identification information in which the data different from the predetermined data is set is given to the second data unit.

Specifically, the lighting fixtures 2A to 2D are set to the same control channel mode, and are installed in the lighting system A from the beginning. Therefore, the lighting fixtures 2A to 2D are assigned identification numbers ("010" to "040") in which the first data unit is continuous and the second data unit is predetermined data (here, "0"). Will be done. Further, since the luminaires 2E to 2H and the luminaires 2I to 2L are set to the same control channel mode and are installed in the luminaire system A from the beginning, they are similarly assigned identification numbers ( Identification numbers "050" to "080" are assigned to the lighting fixtures 2E to 2H, respectively, and identification numbers "090" to "120" are assigned to the lighting fixtures 2E to 2H, respectively).

Further, the lighting fixture 3 is set to the same control channel mode as the lighting fixtures 2E to 2H initially installed in the lighting system A, and is added to the lighting system A after the lighting system A is installed. .. Therefore, in the luminaire 3, the first data unit is the same data as any of the luminaires 2E to 2H (here, the same data as the luminaire 2H "08"), and the second data unit is the predetermined data. Identification number "085", which is different data (here, "5"), is assigned.

The communication address setting unit 16 sorts the identification information given to the lighting fixtures 2A to 2L and 3 using the first data section as a key, and the lighting fixtures 2A to 2L so that the address order is the sort result order. , Set the communication address of 3.

Specifically, the communication address setting unit 16 sets the communication addresses of the lighting fixtures 2A to 2L and 3 in ascending order of identification numbers (in ascending order of numbers included in the first data unit). In FIG. 3, the first data part of the identification number of the luminaire 3 is “08”, and the first data part of the identification number of the luminaire 2H set to the same control channel mode as the luminaire 3 is “08”. Is. Therefore, continuous communication addresses are set for the lighting fixtures 2E to 2H and 3 set to the same control channel mode.

(Operation of lighting system)
The operation of the lighting system will be described with reference to FIGS. 1 to 4. 4 (a) and 4 (b) are flowcharts showing the operation of the lighting system A. Specifically, FIG. 4A shows the operation of the lighting system at the initial stage of installation, and FIG. 4B shows the operation of the lighting system when a lighting fixture is added.

First, the operation of the lighting system A at the time of installation will be described.

As shown in FIG. 4A, the controller 1 and the lighting fixtures 2A to 2L are installed in the lighting system A (step S11). For example, in the lighting system A, the controller 1 and the lighting fixtures 2A to 2L are connected to the network 4 and can communicate with each other.

In step S12, the identification information giving unit 15 of the controller 1 gives the identification information to the lighting fixtures 2A to 2L, respectively. As shown in FIG. 3, the luminaires 2A to 2D, 2E to 2H, and 2I to 2L are each set to the same control channel mode. Therefore, in the identification information giving unit 15, the first data unit is continuous with the lighting fixtures 2A to 2D, 2E to 2H, and 2I to 2L, and the second data unit becomes predetermined data (here, "0"). Identification information including identification numbers (“010” to “040”, “050” to “080”, “090” to “120”) is assigned to each of them. The identification information given by the identification information giving unit 15 is associated with each of the lighting fixtures 2A to 2L and stored in the storage unit 12 of the controller 1.

In step S13, the communication address setting unit 16 of the controller 1 sets the communication addresses of the lighting fixtures 2A to 2L. The communication address setting unit 16 sets the communication addresses of the lighting fixtures 2A to 2L in ascending order of the first data unit of the identification number included in the identification information. That is, the communication address setting unit 16 sets continuous communication addresses for the lighting fixtures 2A to 2L for each set control channel mode. The communication addresses set in the luminaires 2A to 2L by the communication address setting unit 16 are associated with the luminaires 2A to 2L and stored in the storage unit 12 of the controller 1.

After step S13, the communication address set by the communication address setting unit 16 is notified to the lighting fixtures 2A to 2L by the notification means (not shown).

Next, the operation of the lighting system when the lighting fixture 3 is added will be described.

As shown in FIG. 4B, the lighting fixture 3 is added to the lighting system A (step S21). For example, the luminaire 3 is connected to the network 4 and can communicate with the controller 1.

In step S22, the identification information giving unit 15 gives the identification information to the luminaire 3. The identification information giving unit 15 has the same data as the first data unit of the identification information given to the lighting fixture 2H among the lighting fixtures 2E to 2H set in the same control channel mode as the lighting fixture 3 (here, the identification information giving unit 15). "08") is included in the first data unit, and identification information including data different from the predetermined data (here, "5") in the second data unit is given to the lighting fixture 3. The identification information given to the luminaire 3 by the identification information giving unit 15 is associated with the luminaire 3 and stored in the storage unit 12.

In step S23, the communication addresses of the lighting fixtures 2A to 2L and 3 are reset. Similar to step S13, the communication address setting unit 16 sets the communication addresses of the lighting fixtures 2A to 2L, 3 in ascending order of the first data unit of the identification number included in the identification information. That is, the communication address of the luminaire 3 is set to be continuous with the communication address of the luminaire 2H set in the same control channel mode. Along with this, the communication addresses of the lighting fixtures 2I to 2L are reset.

After step S23, the communication address set by the communication address setting unit 16 is notified to the lighting fixtures 2A to 2L, 3 by the notification means (not shown).

With the above configuration, in the present lighting system A, the controller 1 is provided by the identification information imparting unit 15 for imparting identification information to the lighting fixtures 2 (2A to 2L) and 3 to be installed, and the identification information imparting unit 15. A communication address setting unit 16 for setting the communication addresses of the lighting fixtures 2A to 2L and 3 according to the assigned identification information is provided. The identification information includes a first data unit located in the first and second digits from the top of the identification number and a second data unit located in the third digit from the top of the identification number. The identification information giving unit 15 is a control channel mode in which identification information is set in the first data unit for the lighting fixtures 2A to 2L installed in the lighting system A from the beginning when the first data unit is used as a key. The data is set so as to be lined up for each lighting fixture classification), and the identification information in which the predetermined data (here, "0") is set is added to the second data unit. Further, the identification information adding unit 15 applies the lighting equipment 3 added to the lighting system A to the lighting equipment 2H (lighting equipment of the same classification) set to the same control channel mode as the lighting equipment in the first data unit. Identification information in which the same data (here, "08") as the first data part of the given identification information is set and data different from the predetermined data (here, "5") is set in the second data part is set. Give. The communication address setting unit 16 sorts the identification information given to each of the lighting fixtures 2A to 2L, 3 using the first data unit as a key, and the address order is the sort result order (the first data unit of the identification number is small). The communication addresses of the lighting fixtures 2A to 2L and 3 are set so as to be in order). Therefore, for the luminaires added to the luminaire after the installation of the luminaire, among the luminaires originally installed in the luminaire, the luminaires set to the same control channel mode as the added luminaires. A communication address linked to the communication address of is set. As a result, when a luminaire is added to the lighting system, the added luminaire is set to the same control channel mode, that is, the communication address is set so as to be connected to the luminaire of the same classification. It will be easier to control and manage lighting equipment.

Further, the communication address setting unit 16 resets the communication addresses of the lighting fixtures 2 and 3 when the lighting fixture 3 is added to the lighting system A. As a result, when the lighting fixture 3 is added to the lighting system A, the communication address is automatically set.

The communication address setting unit 16 may set the communication addresses of the lighting fixtures 2 and 3 in descending order of the identification numbers of the lighting fixtures 2 and 3.

(Other embodiments)
As described above, embodiments have been described as an example of the techniques disclosed in this application. However, the technique in the present disclosure is not limited to this, and can be applied to embodiments in which changes, replacements, additions, omissions, etc. are appropriately made. It is also possible to combine the components described in the above-described embodiment to form a new embodiment.

The above embodiment may have the following configuration. Unless otherwise specified, the lighting system A shall be configured in the same manner as in FIGS. 1 and 2.

FIG. 5 is a diagram showing another example of the correspondence between the lighting fixture and the communication address in FIG. In FIG. 5, unlike FIG. 2, the lighting fixture 2J has the automatic address setting function set to “OFF”. When the automatic address setting function is set to "OFF", even if the lighting fixture 3 is added to the lighting system A, the communication address set in the lighting fixture is not changed. That is, the communication address set in the luminaire 2J is not changed. Therefore, when a lighting fixture is added to the lighting system A, the controller 1 is configured to be able to set whether or not to reset the communication address for each of the lighting fixtures 2 and 3. This makes it possible to deal with the case where there is a lighting fixture whose communication address is desired to be fixed, such as a permanent lighting fixture.

When the communication address setting unit 16 sets a communication address for each of the lighting fixtures 2 and 3, the controller 1 is set by the communication address setting unit 16 according to a communication protocol according to the DMX standard or the RDM (Remote Device Management) standard. A dedicated signal including the provided communication address may be generated, and the dedicated signal may be transmitted to the lighting fixtures 2 and 3 via the network 4.

Further, in the above embodiment, the identification information has the first and second digits of the identification number as the first data part and the third digit of the identification number as the second data part, but is not limited to this. For example, any position of the identification information may be the first data unit, and the first data unit may be one digit or three or more digits. Further, any position of the identification information may be the second data unit, and the second data unit may be two or more digits.

Further, in the above embodiment, the identification information is composed of a combination of numbers and alphabets, but the present invention is not limited to this. The identification information may be composed of two or more numbers, letters, symbols, alphabets, or a combination thereof. For example, the identification information may be composed of two alphabets, the first alphabet may be the first data part, and the second alphabet may be the second data part. In this case, the communication address setting unit 16 may sort the first data unit of the identification information in alphabetical order and set the communication address in each of the lighting fixtures 2 and 3. Further, the identification information may be composed of two characters or symbols, the first character or symbol may be the first data part, and the second character or symbol may be the second data part. In this case, the communication address setting unit 16 sorts the first data unit of the identification information in the dictionary order or the character code (ASCII code, JIS code, etc.) order, and sets the communication address in each of the lighting fixtures 2 and 3. You may.

Further, in the above embodiment, the identification information giving unit 15 classifies the lighting fixtures 2 and 3 according to the control channel mode set in the lighting fixtures 2 and 3, and gives the identification information to the lighting fixtures 2 and 3. Not limited. For example, the identification information giving unit 15 may classify the lighting fixtures 2 and 3 according to the model or installation location of the lighting fixtures 2 and 3 and give the identification information. Further, the identification information giving unit 15 may give identification information by classifying each of the lighting fixtures 2 and 3 that perform the same control.

Further, in the above embodiment, the identification information adding unit 15 assigns the identification information so that the first data unit is continuous for each classification of the lighting fixture 2 (in this embodiment, the set operation channel mode). However, it is not limited to this. The identification information giving unit 15 may assign the first data unit at least so that the lighting fixtures 2 of the same classification do not include the lighting fixtures 2 of different classifications, and the identification information giving unit 15 may not necessarily assign the first data unit for each classification of the lighting fixtures 2. The first data unit does not have to be continuous.

Further, the communication address setting unit 16 sets continuous communication addresses to the lighting fixtures 2 and 3 in the order of sorting using the first data unit as a key, but the present invention is not limited to this. The communication address setting unit 16 does not have to make the communication addresses set in the lighting fixtures 2 and 3 continuous.

A Lighting system 1 Controller 2, 3 Lighting equipment 15 Identification information addition unit 16 Communication address setting unit

Claims (7)

A controller for a lighting system with multiple luminaires
An identification information assigning unit that assigns identification information to each lighting fixture to be installed,
A communication address setting unit for setting a communication address of each luminaire according to the identification information is provided.
The identification information includes a first data unit at a predetermined digit position and a second data unit at a predetermined digit position.
The identification information giving unit
For a plurality of luminaires to be initially installed, data is set in the first data unit so that the identification information is arranged for each luminaire classification when the first data unit is used as a key, and the second data unit is used. The identification information for which predetermined data is set is added to each of the above.
Regarding the lighting equipment to be added, the same data as the first data unit of the identification information given to the lighting equipment of the same classification as the lighting equipment is set in the first data unit, and the second data unit is used. The identification information in which data different from the predetermined data is set is given, and the identification information is given.
The communication address setting unit is
A lighting system characterized in that the identification information given to each luminaire is sorted using the first data unit as a key, and the communication address of each luminaire is set so that the address order is the sort result order. Controller. In the controller of the lighting system according to claim 1.
The communication address setting unit is a controller of a lighting system, characterized in that when a lighting fixture is added to the lighting system, the communication address of each lighting fixture is reset. In the controller of the lighting system according to claim 2.
The controller is a controller for a lighting system, which is configured so that it can be set whether or not to reset the communication address for each lighting fixture. In the controller of the lighting system according to any one of claims 1 to 3.
A controller for a lighting system, wherein the identification information is composed of two or more numbers, letters, symbols, or alphabets, or a combination thereof. In the controller of the lighting system according to any one of claims 1 to 4.
A controller for a lighting system, wherein the luminaire classification includes any one of a control channel mode setting, a luminaire model, or a luminaire installation location. A lighting system including a plurality of luminaires and a controller that transmits a luminaire control signal to each luminaire to control the plurality of luminaires.
The controller
An identification information assigning unit that assigns identification information to each lighting fixture installed in the lighting system,
A communication address setting unit for setting a communication address of each luminaire according to the identification information is provided.
The identification information includes a first data unit at a predetermined digit position and a second data unit at a predetermined digit position.
The identification information giving unit
For a plurality of luminaires to be initially installed, data is set in the first data unit so that the identification information is arranged for each luminaire classification when the first data unit is used as a key, and the second data unit is used. The identification information for which predetermined data is set is added to each of the above.
Regarding the lighting equipment to be added, the same data as the first data unit of the identification information given to the lighting equipment of the same classification as the lighting equipment is set in the first data unit, and the second data unit is used. The identification information in which data different from the predetermined data is set is given, and the identification information is given.
The communication address setting unit is
A lighting system characterized in that the identification information given to each luminaire is sorted using the first data unit as a key, and the communication address of each luminaire is set so that the address order is the sort result order. .. In a lighting system equipped with a plurality of lighting fixtures, it is a method of setting a communication address for each lighting fixture.
Using the identification information including the first data part at the predetermined digit position and the second data part at the predetermined digit position,
For a plurality of luminaires to be initially installed, data is set in the first data unit so that the identification information is arranged for each luminaire classification when the first data unit is used as a key, and the second data unit is used. In the first step of assigning the identification information for which predetermined data is set to
Regarding the lighting equipment to be added, the same data as the first data unit of the identification information given to the lighting equipment of the same classification as the lighting equipment is set in the first data unit, and the second data unit is set to the same data. The second step of giving the identification information in which data different from the predetermined data is set, and
The identification information given to each luminaire is sorted by using the first data unit as a key, and a third step of setting a communication address of each luminaire so that the address order is the sort result order is provided. A communication address setting method for a lighting system characterized by.

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