Address assignment and configuration of components of a lighting system using a transponder

专利摘要:
The invention relates to a control device for a component (1a... 1h) of a lighting system, comprising a transponder (5) that is designed to receive and receive data from a transmitter (2) at least when the control device (1) is switched off store, and a control device (6) which is designed to read out the data stored in the transponder (5) at least after switching on the control device (1) and for controlling the component (1a) to be controlled by the control device (1). . 1h) to use.
公开号:AT16637U1
申请号:TGM181/2016U
申请日:2016-07-18
公开日:2020-03-15
发明作者:Mayr Gregor；Klocker Bernhard
申请人:Zumtobel Lighting Gmbh；
IPC主号:

专利说明:

description
ADDRESS ASSIGNMENT AND CONFIGURATION OF COMPONENTS OF A LIGHTING SYSTEM BY MEANS OF TRANSPONDER The present invention relates to a control device for a component of a lighting system, a transmitter for address assignment and / or configuration of the control device and / or the component, a control device and a transmitter, and a lighting system Method for transmitting data to be used for the control or configuration of the component from a control device from a transmitter to the control device controlling the component.
[0002] Lighting systems can have components such as sensors, lamps or actuators, switches and dimmers. With the help of operating devices for lamps, such as gas discharge lamps, halogen lamps and in particular light-emitting diodes (LED), the function of the lamps can be monitored and the lamps can be started and / or dimmed. By means of sensors which e.g. Detect movements of objects and / or the ambient brightness, the illuminants can be switched on / off automatically when a person is present / absent, or the dimming of the illuminants can be automatically adapted to the ambient brightness.
In particular, control gear of lights with light-emitting diodes (LED) often contain control devices which can receive control data for setting operating parameters, such as the maximum output current to the light-emitting diodes or the color temperature, from the outside. In lighting systems in which the components for data exchange are networked, the components are each connected to a control device which, among other things, controls the data exchange during network operation and identifies the component in the network through its unique assignment.
[0004] US 2012/0306621 A1 discloses a control device for a component which can be networked in a lighting system and which can transmit and receive data wirelessly to a write and read device by means of a transponder. The transponder is an RFID (radio frequency identification) transponder that is connected to a control device and has a unique identifier (UID, user identification) that can be read out by a central control unit. This identifier is used to identify the components when the central control unit is started up or when the lighting system is switched on so that network addresses can be automatically assigned to them.
In the lighting system, however, there is the problem that the address assignment takes place only after switching on the lighting system and the installer / user of the lighting system in the automatic use of the RFID addresses has no influence on the assigned addresses if the identifier (UID ) the respective component or transponder is unknown. In addition, the installer cannot parameterize and configure the components before switching on or starting up for the first time.
The invention has for its object to provide a device and a method that reduce the problems described. In particular, the object is to provide a control device, a transmitter, a lighting system and a method with which the control devices can easily address and / or configure components of a lighting system prior to commissioning.
[0007] This object is achieved according to the features of the independent claims. The invention is developed by the features of the dependent claims.
According to the present invention, a control device for a component of a lighting system has a transponder which is designed to receive data from a transmitter, at least when the control device is switched off
1/13
AT 16 637 U1 2020-03-15 Austrian patent office and store, and a control device which is designed to read out the data stored in the transponder at least after switching on the control device and for the control or regulation of those to be controlled by the control device or to be used to regulate component. The term “control” is used uniformly for all statements in connection with the present invention. But this also includes all forms of regulation.
Thus, the control device and / or the component of the lighting system can already be configured by the fitter during their assembly in the still de-energized state, so that the component or the lighting system can immediately start regular operation with the first switch-on. For this purpose, the data can at least include information on the configuration of the control device itself and / or information on the configuration of the component to be controlled by the control device, wherein the control device can be designed to supply the control device and / or the component to be controlled by the control device in accordance with the information configure.
It is also possible that the fitter / user assigns to networked control devices of the lighting system desired network addresses when they are installed in the de-energized state, which result from an installation plan. For this purpose, the data can include at least addressing information which indicates a network address with which the control device in the lighting system is to be identified.
[0011] The control device can be designed to control the component to be controlled by the control device using the received control data.
The transponder can be designed to send identification information associated with at least the transponder to the transmitting device and to receive data associated with the identification information from the transmitting device, wherein the control device can be designed to receive the received data only after successful transmission Check the identification information associated with the received data.
[0013] The transponder can be an RFID transponder or an NFC transponder.
The control device can be designed to determine currently used control data, information about currently set configurations of the control device and / or the component to be controlled by the control device, a current network address of the control device and / or functional errors of the control device and / or the component and to store it in a memory of the transponder, the transponder being able to transmit the stored control data, information and / or the stored network address to the transmitting device. This enables configuration, maintenance or troubleshooting of the component or the control device after commissioning on site.
Alternatively or additionally, preset control data, preset configurations of the control device and / or the component to be controlled by the control device and / or a preset network address of the control device in the memory of the transponder e.g. stored by the manufacturer so that they can be read out, documented, checked and, if necessary, changed before commissioning. It is also possible to save spare part numbers in the transponder.
According to the present invention, a transmitter for sending data to the control device described above has a device for determining the data to be sent and a transmitter for sending the specific data to the transponder of the control device.
The transmitting device can have a display for displaying at least part of the determined data and / or a device for entering or selecting data by a user. The determination device is then designed to determine the data in accordance with the data entered or selected by the user.
2/13
AT 16 637 U1 2020-03-15 Austrian Patent Office [0018] Alternatively or additionally, the transmitting device can have an interface for receiving data to be transmitted to the transponder of the control device, the determination device then preferably being designed to receive the data received from the interface to be determined as data to be sent.
Alternatively or additionally, the transmitting device may have means for receiving data with a communication protocol incompatible for data transmission to the transponder of the control device and a gateway for converting the incompatible communication protocol into a communication protocol compatible for data transmission to the transponder of the control device, the Determination device can be designed to determine the data converted by the gateway as data to be sent. This makes it possible to transmit data from devices working with different communication protocols (PC or mobile phone) via the transmitting device to the transponder or the control device. It can then be operated conveniently on a PC, smartphone or tablet PC.
The data to be sent to the transponder of the control device can include at least one addressing information which indicates a network address with which the control device is to be identified in the lighting system, wherein the determination device can be designed to send addressing information after successful transmission automatically generate a new addressing information with a new network address for a transmission of the new addressing information to the transponder of another control device. Successful transmission can be announced to the transmitter by the transponder.
[0021] In addition, the transmitter can be designed to control data currently set by the transponder for controlling the component, information about currently set configurations of the control device and / or about currently set configurations of the component to be controlled by the control device, a current network address and / or receive or query malfunctions of the control device or the component.
The determination device can be designed to carry out a data copying operation in which at least the control data and / or information received or queried by the transponder are determined by the determination device as data to be sent to the transponder of another control device. This makes it possible to easily and quickly configure a new control device which is to replace an old, defective control device.
The transmitter can have means for determining its position and thus ultimately the position of the component to be controlled by the control device and for linking the data sent to the transponder of the control device with the determined position. Alternatively or additionally, the determined position can be sent to the transponder of the control device and stored by the control device for further processing.
[0024] According to the present invention, a lighting system has at least one of the control devices described above and one of the transmission devices described above.
[0025] According to the present invention, a method for transmitting data to be used for a control and / or configuration of a component of a lighting system from a control device from a transmitter to the control device controlling the component has at least the following steps:
Receiving and storing the data sent by the transmitting device by means of a transponder of the control device while the control device is switched off; and
- Reading out the data stored in the transponder after switching on the control device.
The invention is explained in more detail with reference to the accompanying drawings. Show it:
3/13
AT 16 637 U1 2020-03-15 Austrian Patent Office [0027] FIG. 1 shows a first exemplary embodiment of a lighting system with a control device and a transmitting device of the first embodiment according to the present invention, [0028] FIG. 2 shows a second exemplary embodiment of a lighting system according to the present invention , and Fig. 3 shows an embodiment of a further transmission device according to the present invention.
Components with the same functions are identified in the figures with the same reference symbols.
Fig. 1 shows a simplified schematic representation of a lighting system with a control device 1 and a mobile transmitter 2 in particular for assigning network addresses according to the present invention. The control device 1 is in particular an operating device for operating a lamp 4.
The illuminant 4 can comprise a light emitting diode (LED) or a plurality of LEDs. The LEDs can be inorganic or organic LEDs. The multiple LEDs can be connected in series or in parallel. The plurality of LEDs can also be connected in more complex arrangements, for example in several series connections connected in parallel with one another.
The control device 1, in the example shown the operating device, can be a constant current converter, e.g. be an LED converter that generates a current necessary for the operation of the LEDs from a mains voltage (not shown) when it is connected to the mains.
The control device 1 has a transponder 5 and a control device 6. The transponder 5 can be an RFID transponder, in particular an NFC transponder based on RFID technology, which uses a special coupling method that is standardized to separate frequency ranges and communication over a short distance. The transponder 5 can be a passive transponder, which is supplied with energy from the transmitter 2 for communication. In the transponder 5, data can be stored in a non-volatile, rewritable memory which can only be read via the connection 11 (R / O) and data which can both be read and overwritten / changed via the connection 11 (R / W).
[0035] The control device 6 may with the transponder 5 via a serial data bus I ² C (Inter-Integrated Circuit) to be connected and may be a semiconductor integrated circuit or comprise an integrated semiconductor circuit. The control device 6 can be designed as a processor, a microprocessor, a controller, a microcontroller or an application-specific special circuit (ASIC) or a combination of the units mentioned.
The transmitter 2 is used to configure / parameterize the control device 1 contactlessly and to read out values (control data). The transmitting device 2 has a transmitting and receiving unit 7 for transmitting and receiving data to / from the transponder 5, a display unit 8 for displaying the data to be transmitted and / or received, an input unit 9 for entering, changing and / or selecting the data and a control unit 10 connected to the transmitting and receiving unit 7, the display unit 8 and the input unit 9. The input unit 9 can be integrated in the display unit 8 (touch-sensitive screen). The transmitter 2 is equipped with an internal battery (not shown) for mobile use. This also supplies the energy for the transponder 5, so that reading and writing processes can also be carried out when the control device 1 is not supplied with a mains voltage and also does not have its own current source itself.
The transmission and reception unit 7 establishes a wireless connection 11 to the transponder 5. The transmitting and receiving unit 7 generates such a coupling / connection
4/13
AT 16 637 U1 2020-03-15 Austrian patent office magnetic alternating fields with short range or high-frequency radio waves, whereby the (passive) transponder 5 is supplied with energy. The control unit 10 is a processor on which a software (micro program or application software, app) can be executed, which controls the reading and writing process but also the selection of the data to be transmitted.
Via the wireless connection 11, the transmitting device 2 transmits data for the parameterization / configuration of the operating device, which are stored in a memory (not shown) of the transponder 5. The data transmission can take place in the currentless state of the control device 1. If the control device 1 is supplied with power, for example during commissioning, the control device 6 reads out the stored data from the memory of the transponder 5 and parameterizes / configures the operating device in accordance with the read data.
The control device 1 and the illuminant 4 can be integrated in a device, for example an emergency light having a battery. Emergency lights are usually operated in permanent mode (when mains operation is ON) or in standby mode (when mains operation is OFF, only in the event of a power failure ON). The emergency lights are often preset for permanent switching.
In order to change from the standard permanent circuit to the standby circuit, a wire bridge in the emergency light must normally be removed, particularly in the case of non-network-compatible lights or those which are in any case not operated in a network, which is very time-consuming and prone to errors. According to the present invention, the user can select / configure permanent switching or standby switching by means of the input unit 9 of the transmitting device 2, the corresponding data being generated by the control unit 10 and being sent to the transponder 5 by the transmitting and receiving unit 7. Such a configuration can be carried out quickly with the transmitter 2 even with a large number of emergency lights. Since data transmission is also possible when the emergency light is in a de-energized or uncharged state, the configuration can be carried out at a location different from the intended installation location of the emergency light, for example in a warehouse, using a stationary transmitter device 2.
After start-up or during operation, the control device 6 of the control device 1 can store the currently set control data (operating parameters) in the memory of the transponder 5. The transmitting and receiving unit 7 can, if necessary, read out the stored control data even when the control device 6 is switched off and, if necessary, change it. For this purpose, the control unit 10 displays the control data received on the display unit 8 and, if necessary, carries out changes to the displayed control data in accordance with the inputs received by the user via the input unit 9. The changed or newly set control data are transmitted via the established connection 11 to the transponder 5 and stored therein. The control device 6 queries the new control data from the transponder and uses it.
In order to increase security, in particular so that no unauthorized persons can send or query data to the control device 1, mutual authentication can be carried out before the data transmission.
[0043] It is also possible to encrypt at least some of the data to be transmitted or to encrypt it with different keys. These must then be decrypted by the control device 1 or the transmitter 2.
[0044] Diversified keys can be used for encryption. A private key is linked to a unique ID (e.g. the serial number of the transponder) and a diversified private key is generated. This has the advantage that when the diversified key is cracked, only the code for one device is exposed.
Alternatively or additionally, different data can be assigned different permissions for a change, so that only certain people or certain sending devices 2 can change or set certain configurations / addressings. For this purpose, at least some of the data are divided into different authorization classes and
5/13
AT 16 637 U1 2020-03-15 Austrian patent office transmits an authorization information indicating an authorization for certain authorization classes from the transmitter 2 to the transponder 5. The control device 6 determines the class or classes of the received control data and checks the authorization for the specific class or classes by means of the received authorization information, wherein only the control data are used which correspond to an authorization class for which there is authorization according to the authorization information. Alternatively, the control data can be encrypted by the control device 6 and / or the control unit 10 in accordance with their respective authorization class.
The present invention can be particularly advantageous when assigning an address to a component to be networked, e.g. a luminaire with control gear of a lighting system can be used. In order for the components of a lighting system to be able to transmit data to one another and / or to a central control unit during initialization and / or operation, each component requires a network address. According to the present invention, this address can be assigned in a simple manner before the respective components are started up.
Fig. 2 shows a detail of a second embodiment of a lighting system according to the present invention. The lighting system shown in FIG. 2 contains two transmitters 2a, 2b and a large number of components 1a .. 1h, which can be sensors, lights or actuators, switches and / or dimmers and can be connected to one another via a bus system 12.
Each component 1a .. 1h has a transponder 5a..5h that can exchange data with the transmitters 2a and 2b and a control device 1 (not shown) for controlling the respective component 1a .. 1h. It is also possible for a common control device 1 to control several components 1a., 1h.
The transmitters 2a and 2b are used in the example shown to assign the components 1a., 1h their addresses so that they can be addressed via the bus system 12, the components 1a .. 1h also being configured with the transmitter 2a / can be parameterized. For this purpose, the transmitters 2a and 2b are assigned different powers. Both transmitters 2a, 2b are authorized to transmit data with information for addressing a control device 1 / component 1a., 1h, while e.g. only the transmitter 2a is authorized to transmit data for the configuration of a control device 1 / component 1a., 1h.
The addressing information specifies a network address with which the component 1a., 1h to be controlled by the control device 1 can be identified with respect to other components 1a., 1h of the lighting system and / or a device for configuring the lighting system (not shown) is.
The addressing information can be entered by the fitter / electrician in the transmitters 2a, 2b or already stored in it and selected by the electrician. The addressing information can display or contain information about the location / position and / or the function of the respective component 1a .. 1h or can be linked to such position information, for example: switch 1 in room 2 (= S1 / R2) or Luminaire in room 5, front right (= L / R5 / VR), so that the component 1a .. 1h later can be more easily identified by the electrician via a central control unit for the configuration of which switch has to switch which luminaire.
If the entered or selected addressing information has been transmitted to the transponder 5a. 5h, this addressing information can be deleted in the transmitting device 2a, 2b or blocked for further transmission in order to prevent the address from being assigned twice. For this purpose, the transmitting device 2a, 2b transmitting the addressing information could indicate to the other transmitting device 2a, 2b via a radio link which addressing information has already been assigned by it.
Alternatively, the addressing information to be assigned can be stored in a computer network (cloud) or server which can be accessed by at least one transmitting device 2a, 2b
6/13
AT 16 637 U1 2020-03-15 Austrian patent office. This transmitter 2a, 2b could also be designed as a smartphone. A corresponding application then runs there and the smartphone is equipped with a transmission device 7 compatible with the transponder 5.
For larger lighting systems, the fitter / electrician must document in a building plan which luminaire he has assigned to which address. This step is necessary so that the user can find the lamp that he would like to operate or set up when configuring the lighting rhythm. This also means that the operator needs the building plan in addition to the control system. The building plan can be displayed on the transmitters 2a, 2b or created with the aid of these. It is also possible for the floor plan with a corresponding user interface to be transmitted from the computer network (cloud) or from the server to the transmitting device 2a, 2b (smartphone).
By appropriately tapping the building / room plan shown on the display unit 8 (touch-sensitive screen), the electrician can mark the position at which the component 1a .. 1h (light, switch or motion detector), which is currently being assigned a network address , is located. After the addressing information has been transmitted to the transponder 5a. 5h, the addressing information is linked to the position entered by tapping and stored. In this way, a graphic system image is automatically reached in an existing building plan.
The transmitting device 2a, 2b can simultaneously serve as a mobile operating device. For this purpose, the user can access the system image stored in the computer network (cloud) or in the server via a corresponding login and control the lighting directly. With such a functionality, it is advantageous if the transmitting device is designed as a smartphone or is operated via one, as will be explained below with reference to FIG. 3.
If the user taps a component 1a .. 1h shown there in a plan, such as a lamp, in a graphical user interface, e.g. a slider is displayed with which brightness or color temperature can be set. After entering / changing the brightness or color temperature, the transmitter 2a, 2b wirelessly sends the control command with the associated address (addressing information) either via a router to a controller (wired light management system) or directly to the light (wireless system).
For a determination of the positions of the components 1a., 1h for an assignment of the addressing information, the transmitters 2a, 2b can have GPS receivers.
In addition, since GPS signals are usually not available in the building, sensors in the transmitters 2a, 2b for determining a position of the device in buildings (indoor positioning), such as acceleration sensors and gyroscopes on a microsystem basis (micro- electro-mechanical systems, MEMS) can be used. The last available GPS signal can be linked as a starting position with the data of the microelectronic sensors during the movement in order to determine exact position data. The sensors required for this are usually already increasingly contained in mobile phones (smartphones).
The transmitter 2a, 2b equipped with the position sensor described above continuously detects the position of the electrician or the device carried by him in the building and sends the addressing information together with the determined transmitter / component position to the transponder 5a..5h . The data stored in the transponder 5a..5h can then be read out to a central control unit of the lighting system during commissioning. Appropriate software can then automatically create a graphic system image from this data, in which each component 1a .. 1h is arranged in the correct position in a building / room.
As an alternative or in addition, the graphic system image can be created and displayed by the transmitting device 2a, 2b.
7/13
AT 16 637 U1 2020-03-15 Austrian Patent Office [0062] FIG. 3 shows a further exemplary embodiment of a transmitting device 2 according to the present invention. The transmitting device 2 in turn has the display unit 8, which can be an inexpensive two-line LCD display with a 2x7 segment display, and the input unit 9 with two buttons. With the input unit 9, a desired address or configuration can be set or selected, which is to be transmitted to the transponder 5. The transmission is triggered simply by bringing the transmitting device 2 into the receiving range of the transponder 5. The transmitter 2 is thus very compact and could be integrated into another device, such as a small flashlight. The reverse is also the integration of an LED e.g. possible, so that the transmitter is expanded by a flashlight function.
With an interface (e.g. micro USB or lightning interface), the transmitter 2 can be connected via a cable connection 13 to a writing and reading device 14, which can be a smartphone or tablet. Via this connection, the transmitting device 2 can receive data to be transmitted to a transponder 5 and send data read out from a transponder 5 to the writing and reading device 14. The data transmission between the writing and reading device 14 and the transmitting device 2 could also take place via a radio connection (e.g. Bluetooth).
The transmitting device 2 serves in this case as a gateway, which enables data transmission between the transponder 5 and the writing and reading device 14, which itself cannot send or receive data to the transponder 5. The transmitting device 2 can have means for converting a large number of incompatible communication protocols into a communication protocol compatible for the data transmission to the transponder 5, so that different writing and reading devices 14 can be connected to the transponder 5 by means of the transmitting device 2.
The write and read device 14 has a larger display and can generate and display the system image described above. When using the configuration shown in FIG. 3, the complete operation can take place in particular via the writing and reading device 14. For this purpose, it is equipped with appropriate software.
The transmitting device 2 or the writing and reading device 14 can be designed to query information about functional errors of the components 1 a .. 1 h, which have been recorded by the control device 6 and stored in the transponder 5. Spare part numbers can also be stored in the transponder 5.
Often in the components 1a .. 1h of a lighting system, errors and the information as to which component is defective are only displayed via a flashing pattern of the status LED, so that the type of error or the component can only be deciphered via a data sheet that but is usually not available on site. The appropriate spare part number must also be looked up or requested from the responsible sales representative.
If the above-mentioned information is stored in the transponder 5, the transmitting device 2 or the writing and reading device 14 can also read them out in the event of a defect / power failure and determine the correct spare part. Via a further connection, the data sheet of the spare part can be determined and / or sales contact can be made to order.
If a defective component 1a., 1h is replaced, the address and other settings, such as circuit type, dimming level, start of the function tests, etc., must be transferred to the new component 1a. 1h. According to one exemplary embodiment of the present invention, at least some of the data to be transmitted are stored in the transponder 5 and the transmitter 2 has a data copying function with which the stored data can be transmitted to the new component 1a... 1h or its transponder 5 .
The described configurations, such as encryption or authentication, are not limited to the respective exemplary embodiment and can also be applied to other of the described exemplary embodiments.

权利要求:
Claims (10)
[1]
Expectations
1. Control device for a component (1a .. 1h) of a lighting system, the control device (1) comprising:
a transponder (5) which is designed to receive and store data from a transmitting device (2) at least when the control device (1) is switched off; and a control device (6) which is designed to read out the data stored in the transponder (5) at least after the control device (1) is switched on and for controlling the component (1a., 1h.) to be controlled by the control device (1) ) to use.
[2]
2. Control device according to claim 1, characterized in that the data contain at least information on the configuration of the control device (1) itself and / or information on the configuration of the component (1a .. 1h) to be controlled by the control device (1); and the control device (6) is designed to configure the control device (1) and / or the component (1a., 1h) to be controlled by the control device (1) in accordance with the information.
[3]
3. Control device according to claim 1 or 2, characterized in that the data at least one addressing information, which indicates a network address with which the component to be controlled by the control device (1) (1a., 1h) compared to control devices of other components (1a ., 1h) of the lighting system and / or a device for configuring the lighting system.
[4]
4. Control device according to claim 3, characterized in that the control device (6) is designed to control the component (1a .. 1h) to be controlled by the control device (1) using the received control data.
[5]
5. Control device according to one of claims 1 to 4, characterized in that the transponder (5) is designed to transmit at least one of the transponder (5) associated identification information to the transmitter (2) and linked to the identification information Receive data from the transmitter (2); and the control device (6) is designed to use the received data only after successful verification of the identification information linked to the received data.
[6]
6. Control device according to one of claims 1 to 5, characterized in that the transponder (5) is an RFID transponder or an NFC transponder.
[7]
7. Control device according to one of claims 1 to 6, wherein the control device (6) is designed to control data currently used, information about currently set configurations of the control device (1) and / or the component (1a) to be controlled by the control device (1) ., 1h) and / or malfunctions of the control device (1) and / or the component (1a., 1h) to be determined and stored in a memory of the transponder (5); and the transponder (5) is designed to transmit the stored control data, information and / or functional errors to the transmitting device (2).
9/13
AT 16 637 U1 2020-03-15 Austrian patent office
[8]
8. Sending device for sending data to a control device according to one of claims 1 to 7, characterized in that a device (10) for determining the data to be sent; and a transmitter (7) for transmitting the determined data to the transponder (5) of the control device are included.
[9]
9. Lighting system with at least one control device (1) according to one of claims 1 to 7 and a transmitter (2) according to claim 8.
[10]
10. Method for transmitting data to be used for a control or configuration of a component (1a., 1h) of a lighting system from a control device (1) from a transmitter (2) to the control device (1.) That controls the component (1a., 1h) ) with the steps:
Receiving and storing the data (2) sent by the transmitter (2) by means of a transponder (5) of the control device (1) while the control device (1) is switched off; and
Reading out the data stored in the transponder (5) by a control device (6)
Control device (1) after switching on the control device (1).

类似技术:

---

公开号 | 公开日 | 专利标题

---

EP3469859B1|2021-11-03|Address assignment and configuration of components of a lighting system by means of transponders

---

EP2181567B1|2011-04-27|Method for the start-up of a lighting system

---

DE60314102T2|2008-01-24|INITIALIZATION OF A WIRELESSLY CONTROLLED LIGHTING SYSTEM

---

DE102012220740B4|2018-01-11|Lighting device with an audio device and method for its control

---

EP3293588B1|2020-02-05|Method for provisioning room automation components of a building automation system

---

DE102015218243A1|2017-03-23|Mobile device and method for configuring and / or picking a lighting system and lighting system device

---

EP3175679A1|2017-06-07|Control installation for a lighting system and method for configuring and putting into service said control installation

---

DE102018102922A1|2018-08-16|Remote control, lighting system and luminaire

---

EP3106002B1|2018-11-28|Lighting system and method for operating a lighting system having an integrated safety concept

---

DE102017102597A1|2017-08-10|Management system for electrical devices

---

EP3391713B1|2020-08-12|Decentralized logging of operating state of technical building components

---

DE102014202720A1|2015-08-20|lighting system

---

EP2907366B1|2019-07-24|Control system for loads with a distributed arrangement, more particularly for lamp-operating devices and method for putting the system into operation

---

EP3456005B1|2022-03-02|Mobile communication device having a user interface depiction on the basis of a parameter captured on an interface

---

DE102014117117B3|2015-11-19|Method for controlling at least one actuator with a portable control unit

---

DE102019106735A1|2020-09-24|Address assignment and configuration of components of a lighting system using light signals

---

DE102018129687A1|2020-05-28|Control unit for home automation

---

EP3391354B1|2021-04-07|Wireless datatransmission using a transponder in a lighting system

---

DE102013108927A1|2015-02-19|Device and method for controlling lights

---

DE102019217771A1|2021-05-20|Remote activation of the wireless service interface of a control unit via a radio interface

---

DE102018129690A1|2020-05-28|Control module for wireless control of an actuator integrated in a building installation radio network, as well as a method for setting up the same and arrangement

---

EP3657286A1|2020-05-27|Method for configuring an actuator device in a building automation system

---

EP2768287A1|2014-08-20|Method for configuring a lighting system

---

AT518226A2|2017-08-15|Control system and procedures

---

EP3559923A1|2019-10-30|Controlling at least one controllable device arranged in a region predefined by a lighting device

同族专利:

---

公开号 | 公开日

---

DE102016210414A1|2017-12-14|

---

EP3469859A1|2019-04-17|

---

EP3469859B1|2021-11-03|

---

WO2017215955A1|2017-12-21|

---

DE102016210414B4|2021-09-23|

---

EP3958178A1|2022-02-23|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

EP1782140B1|2004-08-10|2017-10-25|Tac AB|Field device management|

---

EP2704365A1|2012-08-31|2014-03-05|Nxp B.V.|Method for establishing control relationships, configuration device, networked device and computer program product|

---

DE102013205896A1|2013-04-03|2014-10-09|Lenze Drives Gmbh|Electric control unit and RFID read / write device|

---

US20160165702A1|2013-08-19|2016-06-09|Koninklijke Philips N.V.|Programmable lighting device and method and system for programming lighting device|

---

US5307295A|1991-01-14|1994-04-26|Vari-Lite, Inc.|Creating and controlling lighting designs|

---

CN101513127B|2006-09-06|2014-04-09|皇家飞利浦电子股份有限公司|Lighting control|

---

DE102007036835A1|2007-08-02|2009-02-05|Siemens Ag|Electrical device e.g. circuit-breaker and electric meter, for power supply network, has operating data memory selectable in current less condition of device by radio signals, and transponder chips connected with memory|

---

JP5466995B2|2010-05-24|2014-04-09|パナソニック株式会社|Remote control system for lighting|

---

US20120306621A1|2011-06-03|2012-12-06|Leviton Manufacturing Co., Inc.|Lighting control network configuration with rfid devices|

---

WO2014037888A1|2012-09-07|2014-03-13|Koninklijke Philips N.V.|User feedback for near field communications|

---

FR3001857B1|2013-02-07|2017-12-29|Inesocompany Ltd|LIGHTING CONTROL SYSTEM|DE102018111711A1|2018-05-16|2019-11-21|Tridonic Gmbh & Co Kg|Luminaire with transponder for parameterization and addressing|

---

DE102019106735A1|2019-03-18|2020-09-24|Tridonic Gmbh & Co Kg|Address assignment and configuration of components of a lighting system using light signals|

---

DE102019114475A1|2019-05-29|2020-12-03|Vossloh-Schwabe Deutschland Gmbh|Method for configuring an electronic device|

---

DE102020114825A1|2020-06-04|2021-12-09|Zumtobel Lighting Gmbh|System with structure-borne sound signal transmission|

法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

DE102016210414.4A|DE102016210414B4|2016-06-13|2016-06-13|Address assignment and configuration of components of a lighting system using transponders|

---