JP7419851B2 - lighting control system - Google Patents

Description

The present disclosure relates to lighting control systems.

Patent Document 1 discloses a lighting control system that controls lighting equipment from a controller via a transmission line. The controller includes an input section into which firmware update information related to updating the firmware of the lighting equipment is input, a data generation section that generates firmware update data based on the firmware update information, and a communication section that sends the firmware update data to a transmission line. Equipped with. The lighting equipment also includes a receiving section communicably connected to the transmission line, a data extraction section that extracts firmware update data from the received data, and a firmware update section that updates the firmware according to the extracted firmware update data. Be prepared.

Japanese Patent Application Publication No. 2015-99692

The firmware versions of the terminals that make up the lighting control system may differ depending on the time of production. Therefore, when constructing a lighting system, terminals with various firmware versions may coexist. Depending on the firmware version, bugs may be fixed or functions may be added. Therefore, the lighting control system may not operate correctly due to an unintended combination of versions.

The present disclosure has been made to solve the above-mentioned problems, and aims to provide a lighting control system that can update firmware appropriately.

A lighting control system according to the present disclosure holds a plurality of firmwares for a plurality of types of terminals including at least a lighting control terminal and a terminal other than the lighting control terminal, and updates the version of the updated firmware among the plurality of firmwares. a lighting controller that transmits version information indicating the type of terminal to which the updated firmware is applied, and terminal information indicating the type of terminal to which the updated firmware is applied; and a terminal that transmits a mismatch response to the lighting controller when the version of its own firmware differs from the version of the updated firmware, and the lighting controller, upon receiving the mismatch response, transmits a mismatch response to the terminal. The terminal that has sent the updated firmware to and sent the mismatch response updates its own firmware to the updated firmware.

A lighting control system according to the present disclosure holds a plurality of firmwares for a plurality of types of terminals including a terminal, at least a lighting control terminal, and a terminal other than the lighting control terminal, and stores the plurality of firmwares in the terminal. The terminal includes a lighting controller that transmits the updated firmware , version information indicating the version of the updated firmware, and terminal information indicating the type of terminal to which the updated firmware is applied; When the version information is received, if the type of the terminal is the same as the type of the own terminal, and the version of the own firmware is different from the version of the updated firmware, the own firmware is updated to the updated firmware. do.
A lighting control system according to the present disclosure provides a lighting control system for multiple types of terminals including a terminal that stores its own firmware as well as version information indicating the own firmware, at least a lighting control terminal, and a terminal other than the lighting control terminal. a storage unit that holds a plurality of firmwares and stores version information indicating the version of the updated firmware together with the updated firmware among the plurality of firmwares, and the terminal is configured such that the type of terminal to which the updated firmware is applied is If the type of the own terminal is the same and the version of the own firmware and the version of the updated firmware are different, the own firmware is updated to the updated firmware.

In the lighting control system according to the present disclosure, the terminal transmits a mismatch response when the version of its own firmware and the version of the updated firmware are different, according to version information. The lighting controller sends updated firmware to the terminal in response to the mismatch response. Therefore, firmware can be updated appropriately.
In the lighting control system according to the present disclosure, when the terminal's own firmware version and the update firmware version are different, the terminal updates the firmware to the update firmware. Therefore, firmware can be updated appropriately.

1 is a block diagram illustrating the configuration of a lighting control system according to Embodiment 1. FIG. 1 is a block diagram illustrating the configuration of a lighting controller according to Embodiment 1. FIG. 1 is a block diagram illustrating the configuration of a terminal according to Embodiment 1. FIG. FIG. 3 is a sequence diagram showing a firmware update procedure according to the first embodiment.

A lighting control system according to an embodiment will be described with reference to the drawings. Identical or corresponding components may be given the same reference numerals and repeated descriptions may be omitted.

Embodiment 1.
FIG. 1 is a block diagram illustrating the configuration of a lighting control system 1 according to the first embodiment. The lighting control system 1 includes a lighting controller 2 and a plurality of terminals 10. The multiple terminals 10 include, for example, multiple relay control terminals 3, multiple lighting control terminals 4, multiple sensors 5, and multiple wall switches 6.

The lighting controller 2 controls the terminal 10 according to signals from the controller 7. The operating device 7 is, for example, a personal computer. Relay control terminal 3 switches other terminals 10 on and off. A lighting device for lighting a light source is connected to the lighting control terminal 4. The lighting control terminal 4 controls the lighting state of the light source according to the signal from the lighting controller 2.

The sensor 5 is, for example, a human sensor, an illuminance sensor, or a temperature sensor. The sensor 5 transmits detection information to the lighting controller 2. The lighting controller 2 may control the lighting control terminal 4 based on the detection information of the sensor 5. The wall switch 6 switches the light source on and off. The wall switch 6 may change the dimming rate of the light source.

The configuration of the lighting control system 1 shown in FIG. 1 is an example. Some of the plurality of terminals 10 may not be provided depending on the purpose. Furthermore, the lighting control system 1 may include other types of terminals 10. The lighting control system 1 only needs to include one or more terminals 10.

The lighting controller 2 is connected to the operating device 7 by a communication line 11. The lighting controller 2 and each terminal 10 are connected by a communication line 12. The communication method using the communication lines 11 and 12 may be a standardized communication method or an original communication method. The standardized communication method is, for example, RS485 or ETHERNET (registered trademark). Furthermore, communication via the communication lines 11 and 12 may be capable of transmitting power at the same time as the communication.

The lighting controller 2 performs two-way communication with the terminal 10 via the communication line 12. Bidirectional communication is performed using, for example, digital signals. In the two-way communication, for example, an on/off signal for the terminal 10, a dimming signal for the light source, and setting information for the terminal 10 are transmitted and received.

The operating device 7 performs two-way communication with the lighting controller 2 via the communication line 11. Bidirectional communication is performed using, for example, digital signals. In the two-way communication, for example, an on/off signal for the terminal 10, a dimming signal for the light source, and setting information for the terminal 10 are transmitted and received.

The terminal 10 receives on/off signals, dimming signals, setting information, etc. from the lighting controller 2. The terminal 10 performs on/off control of the terminal 10, dimming control, or setting of the terminal 10 according to the signal received from the lighting controller 2.

FIG. 2 is a block diagram illustrating the configuration of the lighting controller 2 according to the first embodiment. The lighting controller 2 includes a communication section 21, a control section 22, and a storage section 23. The communication section 21, the control section 22, and the storage section 23 are interconnected.

The communication unit 21 has a part that communicates with the controller 7 and a part that communicates with the terminal 10. A control signal is input from the operating device 7 to the portion that communicates with the operating device 7. The portion that communicates with the terminal 10 outputs a control signal to the terminal 10. The control signal includes an on/off signal for the terminal 10, a dimming signal for the light source, or setting information for the terminal 10.

The storage unit 23 stores various data used for controlling the lighting control system 1. The storage unit 23 is, for example, a nonvolatile memory. The storage unit 23 stores firmware 232 of the lighting controller 2 and firmware 230 of the plurality of terminals 10. The firmware 230 of the plurality of terminals 10 includes firmware 233 of the relay control terminal 3, firmware 234 of the lighting control terminal 4, firmware 235 of the sensor 5, and firmware 236 of the wall switch 6. Each firmware includes firmware version information.

The lighting controller 2 reads the firmware 232 of the lighting controller 2 stored in the storage unit 23 at startup. Lighting controller 2 operates according to firmware 232. The firmware 232 is stored in the storage unit 23 when the lighting controller 2 is produced. The lighting controller 2 is shipped with the firmware 232 saved therein.

The firmware 232 stored in the storage unit 23 can be updated from the controller 7 via the communication line 11. Further, the firmware 230 of the terminal 10 stored in the storage unit 23 can also be updated from the controller 7 via the communication line 11. The lighting controller 2 can transmit the firmware 230 of the terminal 10 to each terminal 10 via the communication line 12.

FIG. 3 is a block diagram illustrating the configuration of the terminal 10 according to the first embodiment. The terminal 10 includes a communication section 101, a control section 102, and a storage section 103. The communication section 101, the control section 102, and the storage section 103 are interconnected.

The storage unit 103 stores various data used to control the terminal 10. The storage unit 103 is, for example, a nonvolatile memory. The storage unit 103 stores the firmware 230a of the own terminal 10. The terminal 10 reads the firmware 230a stored in the storage unit 103 at startup. The terminal 10 operates according to the firmware 230a.

Assume that the lighting controller 2 transmits the firmware 230 to the terminal 10. Hereinafter, the firmware 230 sent from the lighting controller 2 to the terminal 10 will be referred to as update firmware. The updated firmware is, for example, the latest firmware. The terminal 10 updates the firmware 230a to the updated firmware when the version of the firmware 230a stored in the storage unit 103 and the version of the updated firmware are different. That is, the terminal 10 rewrites the firmware 230a stored in the storage unit 103 with updated firmware.

Furthermore, the lighting controller 2 transmits the updated firmware as well as terminal information indicating the type of terminal 10 to which the updated firmware is applied. When the terminal 10 receives the terminal information and the updated firmware, if the type of the terminal 10 is the same as the terminal 10 and the version of the firmware 230a of the terminal 10 is different from the version of the updated firmware, the terminal 10 updates the firmware 230a of the terminal 10 with the updated firmware. Update to.

In other words, if the updated firmware is addressed to the same type of terminal as the terminal 10 and the firmware versions do not match, the terminal 10 updates the updated firmware. Otherwise, the terminal 10 discards the received updated firmware.

Furthermore, the terminal 10 stores the firmware 230a in duplicate. Even while the firmware 230a is being updated, one of the dually saved firmware 230a is being saved normally. Therefore, even if the terminal 10 is powered off while the firmware 230a is being updated, the firmware 230a can be maintained.

FIG. 4 is a sequence diagram showing a firmware update procedure according to the first embodiment. Here, as an example, a procedure for updating the firmware of a plurality of lighting control terminals 4 will be described. The plurality of lighting control terminals 4 include lighting control terminals 4a, 4b, and 4c.

First, the lighting controller 2 receives a firmware update instruction from the controller 7. The lighting controller 2 checks the firmware versions of the lighting control terminals 4a, 4b, and 4c in response to the update instruction. In the version confirmation, the lighting controller 2 transmits version information of the updated firmware stored in the storage unit 23 to the lighting control terminals 4a, 4b, and 4c. The version information is information indicating the version of the updated firmware. The version information is simultaneously broadcast to the lighting control terminals 4a, 4b, and 4c.

Here, as an example, it is assumed that the updated firmware version is 2. Further, it is assumed that the version of the firmware stored in the lighting control terminals 4a and 4c is 2, and the version of the firmware stored in the lighting control terminal 4c is 1.

Furthermore, the lighting controller 2 transmits terminal information indicating the type of terminal 10 to which the updated firmware is applied, along with version information.

Each of the lighting control terminals 4a, 4b, and 4c receives terminal information and version information. Each of the lighting control terminals 4a, 4b, and 4c responds with a mismatch response when the type of the terminal 10 to which the updated firmware is applied is the same, and the version of the firmware stored by the terminal is different from the version of the updated firmware. Send.

At this time, the lighting control terminals 4a and 4c do not transmit a mismatch response to the lighting controller 2 because the version of the firmware that they store matches the version of the updated firmware. In contrast, the lighting control terminal 4b transmits a mismatch response to the lighting controller 2 because the updated firmware is addressed to the same type of terminal as the lighting control terminal 4b and the firmware versions do not match.

Note that in version confirmation, the lighting controller 2 may also transmit version information to terminals 10 other than the lighting control terminal 4 shown in FIG. 1. The terminals 10 other than the lighting control terminal 4 do not transmit the mismatch response because the type of the terminal 10 to which the updated firmware is applied is different from the terminal 10 itself.

When the lighting controller 2 receives a mismatch response from any of the plurality of terminals 10, the lighting controller 2 transmits the updated firmware to the plurality of terminals 10. Here, the lighting controller 2 receives a mismatch response from the lighting control terminal 4b. Therefore, updated firmware for the lighting control terminal 4 is sent to the lighting control terminals 4a to 4c. In addition, the lighting controller 2 transmits the updated firmware as well as terminal information indicating the type of terminal to which the updated firmware is applied.

Each of the lighting control terminals 4a to 4c receives terminal information and updated firmware. Each of the lighting control terminals 4a to 4c updates its own firmware with the updated firmware when the type of the terminal 10 to which the updated firmware is applied is the same as that of the terminal 10, and the version of its own firmware is different from the version of the updated firmware. Update to. In other words, the terminal that sent the mismatch response updates its own firmware to the updated firmware.

At this time, the lighting control terminals 4a and 4c do not update their firmware because the version of their own firmware matches the version of the updated firmware. On the other hand, the lighting control terminal 4b updates the firmware because the type of the terminal 10 to which the updated firmware is applied is the same, and the version of its own firmware is different from the version of the updated firmware. As a result, the firmware version of the lighting control terminal 4b becomes 2.

Note that the lighting controller 2 may also transmit the firmware to terminals 10 other than the lighting control terminal 4 shown in FIG. 1. At this time, the terminals 10 other than the lighting control terminal 4 do not update their firmware even if they receive the update firmware because the type of terminal 10 to which the update firmware is applied is different from the terminal 10 itself.

After sending the updated firmware, the lighting controller 2 waits for a predetermined period of time. The predetermined time is a time for updating firmware. After that, the lighting controller 2 performs version confirmation again. That is, the lighting controller 2 broadcasts version information of the updated firmware to the plurality of terminals 10.

The lighting control terminals 4a, 4b, and 4c do not transmit a mismatch response to the lighting controller 2 because the version of their own firmware matches the version of the updated firmware. Furthermore, the terminals 10 other than the lighting control terminals 4a, 4b, and 4c do not transmit a mismatch response because the type of the terminal 10 to which the updated firmware is applied is different from the terminal 10 itself.

Since there is no mismatch response, the lighting controller 2 determines that the version update of the lighting control terminal 4 has been completed. Therefore, the lighting controller 2 does not send updated firmware. Further, if there is a terminal 10 other than the lighting control terminal 4, the firmware of each type of terminal 10 is updated in the same way. When the update of all terminals 10 is completed, the lighting controller 2 notifies the controller 7 of the completion of the update.

In general, lighting controllers and terminals may have different firmware versions depending on when they were manufactured. Therefore, when building a lighting system, lighting controllers and terminals to which various versions of firmware are applied may coexist. At this time, problems may occur due to an inappropriate combination of versions.

In particular, when updating firmware, data exchanged between the lighting controller and the terminal may be added in order to address a problem or add functionality. At this time, if the firmware of either the lighting controller or the terminal has not been updated and is not compatible with the added data, problems such as inability to communicate will occur.

Furthermore, when updating firmware, data that is commonly used by multiple types of terminals may be added. In this case, it is necessary to consider a combination of firmware versions of multiple types of terminals.

In a lighting control system, it is conceivable that an operator inputs firmware from a personal computer or the like to update the firmware. In this case, input is required for each type of terminal, which may increase the burden on the operator. Furthermore, if an operator manually updates the firmware for each type of lighting controller and terminal, there is a possibility that the firmware may be incorrectly updated. Also, you may forget to update. This may cause problems due to an inappropriate combination of versions.

In contrast, in this embodiment, the lighting controller 2 stores the firmware of each terminal 10. Thereby, when the operator issues an update instruction from the controller 7, the lighting controller 2 automatically updates the firmware of the terminal 10. In particular, when the lighting control system 1 includes a plurality of types of terminals 10, the lighting controller 2 automatically updates the firmware of all types of terminals 10 for each type of terminal 10. This can reduce the burden on the worker. Furthermore, it is possible to prevent the terminal 10 from operating with an unintended version of firmware due to a work error or the like.

Further, in the present embodiment, by checking the version of the lighting controller 2 and responding to the mismatch from the terminal 10, it is possible to reliably apply an appropriate version of firmware to all the terminals 10. Therefore, the firmware can be updated appropriately, and problems caused by inappropriate combinations of firmware versions can be prevented.

Further, when each terminal 10 receives the updated firmware, it determines whether the version of its own firmware and the version of the updated firmware are different, and if they are different, updates to the updated firmware. This makes it possible to reliably apply an appropriate version of firmware to each terminal 10.

In this embodiment, the lighting controller 2 transmits terminal information indicating the type of terminal to which the updated firmware is applied together with version information. As a modification of this example, the lighting controller 2 does not need to transmit the terminal information. For example, if there is only one type of terminal 10, there is no need to send terminal information. Further, in the version confirmation shown in FIG. 4, the lighting controller 2 may transmit version information only to the type of terminal 10 to be updated. For example, the lighting controller 2 may transmit version information only to a plurality of lighting control terminals 4 among the terminals 10. In this case as well, there is no need to send terminal information.

In this case, the terminal 10 does not need to confirm whether the type of the terminal 10 to which the updated firmware is applied is the same as the terminal 10, depending on the version confirmation. That is, upon receiving the version information, the terminal 10 may transmit a mismatch response to the lighting controller 2 if the firmware version and the updated firmware version are different.

Furthermore, the lighting controller 2 of this embodiment transmits the updated firmware as well as terminal information indicating the type of terminal to which the updated firmware is applied. As a modification of this example, the lighting controller 2 may not transmit the terminal information together with the updated firmware. For example, if there is only one type of terminal 10, the lighting controller 2 does not need to send terminal information. Further, when transmitting the updated firmware shown in FIG. 4, the lighting controller 2 may transmit the updated firmware only to the type of terminal 10 to which the updated firmware is applied. Further, the lighting controller 2 may transmit the updated firmware only to the type of terminal 10 that received the mismatch response. For example, the lighting controller 2 may send updated firmware only to a plurality of lighting control terminals 4 among the terminals 10. Also in this case, the lighting controller 2 does not need to transmit terminal information.

In this case, the terminal 10 that has received the updated firmware does not need to confirm whether the type of the terminal 10 to which the updated firmware is applied is the same as the terminal 10 that has received the updated firmware. That is, each of the plurality of terminals 10 may update its own firmware to the updated firmware if the version of its own firmware and the version of the updated firmware are different from each other when receiving the updated firmware.

Further, version confirmation or transmission of updated firmware from the lighting controller 2 to the terminal 10 may be performed by unicast instead of broadcast. That is, the lighting controller 2 may transmit version information of the updated firmware to a specific terminal 10 by unicast. In this case, the terminal 10 does not need to confirm whether the type of terminal to which the updated firmware is applied is the same as the terminal itself in response to version confirmation. Furthermore, upon receiving a mismatch response from one terminal 10, the lighting controller 2 may transmit the updated firmware to the address of that terminal 10 by unicast. In this case, the terminal 10 that has received the updated firmware may update the firmware without determining the type of terminal 10 to which the updated firmware is applied and the version of the updated firmware.

Further, version confirmation and transmission of a mismatch response may be omitted. In this case, the lighting controller 2 transmits the updated firmware to the terminal 10 without checking the version. The terminal 10 updates the firmware to the updated firmware when the version of its own firmware and the version of the updated firmware are different. In this case as well, the updated firmware can be reliably applied to the terminal 10 that requires updating.

Note that the technical features described in this embodiment may be used in combination as appropriate.

1 lighting control system, 2 lighting controller, 3 relay control terminal, 4, 4a, 4b, 4c lighting control terminal, 5 sensor, 6 wall switch, 7 operating device, 10 terminal, 11, 12 communication line, 21 communication section, 22 Control unit, 23 Storage unit, 101 Communication unit, 102 Control unit, 103 Storage unit, 230, 230a, 232, 233, 234, 235, 236 Firmware

Claims (6)

Holds a plurality of firmwares of a plurality of types of terminals including at least a lighting control terminal and a terminal other than the lighting control terminal, and includes version information indicating a version of the updated firmware among the plurality of firmwares, and a version information indicating the version of the updated firmware among the plurality of firmwares. a lighting controller that transmits terminal information indicating the type of terminal to which the application is applied ;
When the terminal information and the version information are received, if the type of the terminal is the same as the type of the own terminal, and the version of the own firmware is different from the version of the updated firmware, a mismatch is detected in the lighting controller. a terminal that sends a response;
Equipped with
the lighting controller transmits the updated firmware to the terminal upon receiving the mismatch response;
A lighting control system characterized in that the terminal that sent the mismatch response updates its own firmware to the updated firmware . comprising a plurality of the terminals,
The lighting control system according to claim 1 , wherein the lighting controller transmits the updated firmware to the plurality of terminals upon receiving the mismatch response from any one of the plurality of terminals. Each of the plurality of terminals, upon receiving the updated firmware, updates its own firmware to the updated firmware if the version of its own firmware is different from the version of the updated firmware. Item 2. The lighting control system according to item 2 . Upon receiving the terminal information and the updated firmware, each of the plurality of terminals determines that the type of the terminal is the same as that of its own terminal, and that the version of its own firmware and the version of the updated firmware are the same. 4. The lighting control system according to claim 2 , wherein the lighting control system updates the own firmware to the updated firmware if the firmware is different. A terminal and
Holds a plurality of firmwares for a plurality of types of terminals including at least a lighting control terminal and a terminal other than the lighting control terminal, and indicates to the terminal an updated firmware among the plurality of firmwares and a version of the updated firmware. a lighting controller that transmits version information and terminal information indicating the type of terminal to which the updated firmware is applied ;
Equipped with
When the terminal receives the terminal information and the version information, if the type of the terminal is the same as the type of its own terminal, and the version of its own firmware is different from the version of the updated firmware, the terminal A lighting control system that updates its own firmware to the updated firmware. a terminal that stores version information indicating the own firmware together with its own firmware;
A plurality of firmwares of a plurality of types of terminals including at least a lighting control terminal and a terminal other than the lighting control terminal are held, and version information indicating a version of the update firmware is stored together with an updated firmware among the plurality of firmwares. a storage section to be
Equipped with
The terminal applies the updated firmware to the terminal when the type of the terminal to which the updated firmware is applied is the same as the terminal's own type, and the version of the own firmware and the updated firmware are different. A lighting control system characterized by updating to updated firmware.

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