DE102020117446A1 - Device with multifunctional connection for non-DALI control devices - Google Patents

Abstract

The present invention relates to a device for connecting components (2..4) of a lighting system to a data bus line (5), having a first connection (6a, 6b) for connecting the data bus line (5), a second connection (7a, 7b) for connecting one component (2) of a plurality of components (2..4) of the lighting system, different functions being assigned to the plurality of components (2..4), and a control device (8) for determining the at the second connection (7a, 7b) connected components (2) or their function by determining electrical properties of the component (2), by querying a default setting stored in the device and/or by determining the operating state of the device (1), the control device (8) is designed to convert, in at least one of the multiple components (2..4), a signal received from this component (2) at the second connection (7a, 7b) into a control command corresponding to d he implement specific function for a transmission via the data bus line (5).

Description

The present invention relates to a device and a method for connecting components of a lighting system to a data bus line and a light with such a device. The present invention relates in particular to a device for connecting a non-DALI control device to a DALI bus.

Lighting systems can have components such as sensors, lights, control gear, actuators, switches and dimmers that are connected to one another via a bus system. In the case of a lighting system in accordance with the DALI industry standard (Digital Addressable Lighting Interface), a random but then permanently assigned address for control in the bus system can be generated for each component or each bus participant.

For the integration of switches and sensors in such a bus system, it is necessary to convert the different signals of the buttons or sensors system-specifically into digital bus signals (control commands). Such an implementation takes place in a DALI control device ("DALI controller"), by means of which conventional switches, sensors and lights can also be connected to the DALI bus as operating devices ("DALI slaves").

the DE 10 2011 007 416 A1 discloses a lighting system with a ceiling lamp and a floor lamp, which can be operated both via switches and sensors connected to a DALI bus and via a radio link. The lights have a DALI control device to which a brightness sensor and a button can be connected and for the radio connection a WLAN or Bluetooth module, by means of which the lights can also be networked. The brightness sensor and the button are each connected to the DALI control device via a connection. Each connection of the DALI control device is assigned an individual conversion system for the signal supplied by the brightness sensor or button, so that the other device can not be operated at the respective connection, i.e. the brightness sensor at the button connection or vice versa .

The provision of a large number of connections for the connection of a large number of different operating or other devices is disadvantageous both with regard to the component size and with regard to the production costs, so that many control devices have only a small number or only one connection, which however, the possible usability of the control device is reduced.

The invention is based on the object of specifying devices and methods which reduce the problems described. The object is, in particular, to provide a device for connecting components of a lighting system to a data bus line, a lamp with such a device and a method which enable different components to be connected with small component sizes and which can be manufactured or carried out inexpensively.

This object is achieved according to the features of the independent claims. The invention is further developed by the features of the dependent claims.

According to the present invention, a device has a control device, a first connection for a data bus line of a lighting system and at least one second connection for a component of the lighting system, wherein one of several components provided for different functions can optionally be connected to the second connection. The functions can only relate to internal processes relating to the device or processes in one or more external devices that are connected to the data bus line.

In at least one of the multiple components, the control device is designed to convert a signal received from this component at the second connection into a control command by means of a protocol for transmission via the data bus line. It also determines which of the components is connected to the second connection or which function this component has by determining electrical properties of the connected component, by querying a preset stored in the device and / or by determining the operating state of the device.

According to the present invention, at least one connection of the device can be used for a plurality of different components, so that a separate connection is not necessary for each of the functions supported by the device. The component connected to the second connection or its function can be determined once during the installation of the lighting system or the manufacture of a device containing the device, such as a lamp. Alternatively, components can be changed after installation or during operation in order to adapt the lighting system or the device to changed environmental conditions / tasks.

The device can be a DALI control device, the protocol can be a DALI protocol and / or the data bus line can be a DALI bus, in particular a DALI-2 bus.

A radio module for wireless communication via an integrated or externally connected radio antenna can also be provided in the device, the radio module sending control commands received via the data bus line to another device of the lighting system or control commands to be sent via the data bus line from the other Device receives. The radio module can be an NFC, WLAN or Bluetooth module.

The default setting can be stored or changed by means of a switch, for example a dip switch, with different components or their functions being assigned to different positions of the switch, and the control device determines the position of the switch and the components or components connected to the second connection are assigned. whose function is determined on the basis of the determined position. It is also possible to store the presetting by means of a plug-in resistor or jumpers, the control device determining the inserted resistor or the combination of inserted jumpers in order to assign the resistor or the combination to a component.

Alternatively or additionally, a removable or non-removable data memory can be provided for storing / changing the default setting by the manufacturer or user, the stored default setting indicating the component to be connected to the second connection or its function and the control device indicating the component connected to the second connection or their function is determined on the basis of the preset stored in the data memory.

The device can have a user interface for entering the preset.

Alternatively or additionally, the radio module can be designed to receive the presetting to be stored in the data memory.

One component of the multiple components can be a switch or button for switching and / or dimming at least one lamp of the lighting system, the control device being designed to convert a signal received from the switch or button into a corresponding control command for the at least one lamp according to to implement the protocol corresponding to the function of the connected component and to send the control command to the luminaire or its control device via the data bus line.

Another component can be a sensor that generates a signal for at least one control device of the lighting system, the control device being designed to convert the signal generated by the sensor into a control command for the at least one control device in accordance with the protocol and the control command via the data bus line to send to the at least one control unit. The sensor can be a brightness sensor, a presence sensor, a presence detector or a motion detector.

If the components have different electrical properties, this can be used to differentiate the components. For this purpose, the control device can determine the terminal behavior of the connected component (size of the internal resistance and / or type: resistive, inductive or capacitive) and compare it with the terminal behavior assigned to the respective component. Alternatively or additionally, the course of the signal generated by the component at the second connection can be analyzed for a differentiation, for example to distinguish a button with its typical short signal pulses from a sensor with a slowly changing signal or a long pulse with a signal. For this purpose, the control device can be designed to detect at least one specific time profile of a switching signal output by the component connected to the second connection when determining the electrical properties, the at least one specific time profile being assigned to a specific component or function.

As described, a function or the signal generated by a component can only trigger an internal process in the device, which may not involve any transmission via the data bus line. Such a function can be a reset function which resets the device to a defined initial state and which is assigned to an operating state in which the device was connected to the power supply and a certain time has not yet expired after being connected to the power supply.

When determining the operating state, the control device is designed to determine whether the time has already expired or not and to reset the device to the defined initial state if a switching signal was received from the component connected to the second connection before the time has expired is. In this way one can at the two connected component to which a certain function, such as switching light on / off, is assigned during normal operation, a different function, in this example a reset function, can be assigned by briefly interrupting the power supply.

According to the present invention, a luminaire has the device described and at least one operating device for lighting means connected to the data bus line.

• - Bestimmen einer an einem Anschluss angeschlossenen Komponente bzw. deren Funktion durch Bestimmen von elektrischen Eigenschaften der Komponente, durch eine Abfrage einer in der Vorrichtung hinterlegten Voreinstellung und/oder durch Bestimmen des Betriebszustands der Vorrichtung, wobei mehreren, an den Anschluss anschließbaren Komponenten unterschiedliche Funktionen zugeordnet sind, und
• - Umsetzen, bei zumindest einer der mehreren Komponenten, ein an dem Anschluss von dieser Komponente empfangenes Signal in einen Steuerbefehl entsprechend einem Protokoll und der bestimmten Funktion für eine Übertragung über eine Datenbusleitung.

According to the present invention, a method comprises the following steps:

• - Determination of a component connected to a connection or its function by determining electrical properties of the component, by querying a preset stored in the device and / or by determining the operating state of the device, with several components that can be connected to the connection being assigned different functions are and
• - In at least one of the several components, converting a signal received at the connection from this component into a control command in accordance with a protocol and the specific function for a transmission via a data bus line.

• 1 die Vorrichtung zum Anschluss von Komponenten eines Beleuchtungssystems an eine Datenbusleitung nach einem ersten Ausführungsbeispiel gemäß der vorliegenden Erfindung,
• 2 die Vorrichtung zum Anschluss von Komponenten eines Beleuchtungssystems an eine Datenbusleitung nach einem zweiten Ausführungsbeispiel gemäß der vorliegenden Erfindung, und
• 3 ein vereinfachtes Diagramm zur Darstellung des Verfahrens.

The invention is explained in more detail below with reference to the accompanying drawings. Show it:

• 1 the device for connecting components of a lighting system to a data bus line according to a first embodiment according to the present invention,
• 2 the device for connecting components of a lighting system to a data bus line according to a second embodiment according to the present invention, and
• 3 a simplified diagram illustrating the process.

Components with the same functions are identified by the same reference symbols in the figures.

1 shows a device 1 for connecting a component 2 of several components 2..4 of a lighting system to a data bus line 5 according to a first embodiment according to the present invention.

The device 1 has a first connection 6a, 6b for connecting the device 1 to the data bus line 5, a second connection 7a, 7b for connecting the component 2 to the device 1, a control device 8 and two manually operated switches connected to the control device 8 9, 10 on.

The component 2 connected to the second connection 7a, 7b is a button and the components 3 and 4, which can alternatively be connected to the second connection 7a, 7b, are a brightness sensor or a motion detector. The button or component 2 is used for switching and / or dimming a lamp (not shown) connected to the data bus line 5, a short button pulse switching the lamp on or off and a long button pulse dimming the lamp.

The light can be switched on by means of the brightness sensor when the ambient brightness detected by the brightness sensor falls below a predetermined threshold value and by means of the motion detector when the presence of a person has been detected.

Which of the three components 2..4 is connected to the second connection 7a, 7b is indicated to the control device 8 via the position of the switches 9 and 10, a combination of an open switch 9 and a closed switch 10 indicating that the component 2 is connected, a combination of a closed switch 9 and an open switch 10 indicates that the component 3 is connected and a combination of a closed switch 9 and a closed switch 10 indicates that the component 4 is connected. Instead of the switches 9, 10, buttons can also be used, an actuation of the button being detected by the control device 8 and the combination being saved. The number of possible combinations determines the number of connectable components 2..4 or the number of possible functions.

The control device 8, which can be configured as a processor, a microprocessor, a controller, a microcontroller or an application-specific special circuit (ASIC) or a combination of the named units, uses conversion information to generate a control command according to the received signal from the connected component 2 .. 4, and the existing bus system and sends the control command via the data bus line 5 to the luminaire. The conversion information is stored in the control device 8 for each of the components 2.

Alternatively, at least one of the components 2..4 from the control device 8 via an analysis of the input at the second connection 7a, 7b caught signal are identified, so that only one or no switch 9, 10 is necessary. For example, the signal curve can be used to determine that component 2, the button, is connected with a short signal pulse with a duration of a few seconds (between 0.1s and 10s) and that component 3 or 4 is connected. The differentiation of the components 3 and 4 can then take place by means of only one switch 9, 10.

2 shows a device 1 according to a second exemplary embodiment according to the present invention, in which the presetting of which of the components 2..4 is or will be connected to the second connection 7a, 7b takes place via a radio link. For this purpose, the device 1 has a radio module 11 connected to the control device 8 for wireless communication via a radio antenna. The radio module 11 can be an NFC, WLAN or Bluetooth module and receives from a mobile configuration and / or operating device or a stationary control device at least one piece of information which the component 2 .. connected to the second connection 7a, 7b. 4 or their conversion information, so that practically any number of different components 2..4 can be used.

For the input of the information, the control device 8 can provide a user interface, for example in HTML format, via the radio module 11, which can be accessed with any commercially available WLAN terminal, for example a smartphone, a netbook or a portable PC (notebook). can be accessed. The radio module 11 can also be designed to receive control commands for switching the lamp on / off or dimming the lamp.

In particular, the radio module 11 or the device 1 can be designed to connect other devices of the lighting system to the data bus line 5, wherein control commands or messages received via the data bus line 5 are sent from the radio module 11 to at least one other device and / or control commands or messages received by the radio module 11 from the device are output to the data bus line 5.

In the 1 or 2 The device 1 shown can be integrated in a lamp, in particular a floor lamp, with components 2, 3 or 4 optionally being permanently installed or exchangeable on this lamp and at least one operating device for a lamp being connected to the data bus line 5. At the in 1 and 2 The device 1 shown is only one connection 7a, 7b for the components 2..4. However, more connections can be provided for the components 2..4, with the switches 9, 10 and / or the transferred presetting indicating which component 2..4 is connected to which connection 7a, 7b.

Alternatively or additionally, at least one connected component 2..4 can be assigned a different function or the specified function can be changed at certain times or events. For example, a connected motion detector can trigger an alarm message at certain times instead of or in addition to the switching command. Instead of the light switch-on command, a connected button can be assigned a function for a certain period of time after the power supply has been restored, which resets the device 1 to its factory setting or another default setting or which puts the device 1 into a test / test mode.

In 3 a greatly simplified flowchart is shown which shows the individual steps in carrying out the method described in detail above.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102011007416 A1 [0004]

Claims (14)

Device having a first connection (6a, 6b) for connecting a data bus line (5) of a lighting system, a second connection (7a, 7b) for connecting one of several components (2..4) of the lighting system, the several components (2..4) being assigned different functions, and a control device (8) for determining the component (2) connected to the second connection (7a, 7b) or its function by determining electrical properties of the component (2), by detecting a preset stored in the device and / or by Determining the operating state of the device (1), wherein the control device (8) is designed to convert a signal received at the second connection (7a, 7b) from this component (2) into a control command corresponding to the determined function for a transmission in at least one of the multiple components (2..4) to be implemented via the data bus line (5). Device according to Claim 1 , wherein the device (1) is a DALI control device and / or the data bus line is a DALI bus. Device according to one of the preceding claims, additionally having a radio module (11) for wireless communication via an integrated or externally connected radio antenna, the radio module (11) being designed to send control commands received via the data bus line (5) to another To send the device of the lighting system and / or to receive control commands to be sent from the other device via the data bus line (5). Device according to one of the preceding claims, additionally having at least one switch (9, 10) for storing the presetting, different components (2..4) or their functions being assigned to different positions of the switch (9, 10) and the control device ( 8) is designed to determine the position of the switch (9, 10) and to determine the component (2) connected to the second connection (7a, 7b) or its function on the basis of the determined position. Device according to one of the preceding claims, additionally having an ingestible or non-ingestible data memory for storing the preset, wherein the stored presetting indicate the component or its function connected to the second connection (7a, 7b) and the control device (8) is designed to display the component (2) connected to the second connection (7a, 7b) or its function to determine the basis of the preset stored in the data memory. Device according to one of the preceding claims, additionally having a user interface for entering the presetting. Device according to Claim 4 and 5 or 6th , wherein the radio module (11) is designed to receive the preset to be stored in the data memory. Device according to one of the preceding claims, wherein one component (2) of the plurality of components is a switch or a button for switching and / or dimming at least one lamp of the lighting system, and the control device (8) is designed to convert a signal received from the switch or button into a control command for the at least one lamp in accordance with a protocol corresponding to the switch or button and the control command via the data bus line (59 to the lamp or its control unit to send. Device according to one of the preceding claims, wherein one component (3, 4) of the plurality of components (2..4) is a sensor that generates a signal for at least one control device of the lighting system, and the control device (8) is designed to convert the signal generated by the sensor (3, 4) into a control command for the at least one control device according to a specific protocol and to send the control command to the at least one control device via the data bus line (5). Device according to one of the preceding claims, wherein the control device (8) is designed to detect at least one specific time profile of a switching signal output by the component (2) connected to the second connection when determining the electrical properties, the at least one specific temporal course of a certain component or function is assigned. Device according to one of the preceding claims, wherein one function is a reset function which resets the device (1) to an initial state and which is assigned to an operating state in which the device (1) is connected to a power supply supply has been connected and a certain time after connection to the power supply has not yet expired, and the control device (8) is designed to determine when determining the operating state whether the time has already expired or not and the device (1) reset to the initial state if a switching signal is received from the component (2) connected to the second connection before the time has expired. Device according to one of the preceding claims, additionally having a third connection for connecting one of the several components (2..4), wherein the control device (8) is designed to control the component (2) connected to the third connection or its function by determining electrical properties of the component (2), by detecting a preset stored in the device and / or by determining the operating state of the To determine the device (1) and, in the case of at least one of the several components (2..4), to convert a signal received at the third connection from this component (2) into a control command according to the protocol for transmission via the data bus line (5) . Luminaire having a device (1) according to one of the preceding claims, and at least one operating device for lighting means connected to the data bus line (5). Method for connecting components of a lighting system to a data bus line by means of a connection device (1), comprising the steps: Determining a component (2) connected to a connection (7a, 7b) or its function by determining electrical properties of the component (2), by querying a preset stored in the connection device (1) and / or by determining the Operating state of the connection device (1), with several components (2..4) that can be connected to the connection (7a, 7b) being assigned different functions, and In at least one of the several components, converting a signal received at the connection from this component (2) into a control command corresponding to the specific function for a transmission via a data bus line (5).

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