EP4156869A1 - Swarm controlled lighting system with configurable transmission power - Google Patents

Abstract

The present invention relates to a control device (1) for at least one component (2) of a lighting system. The control device (1) has a transmission device (8) for wireless transmission of a control signal to the at least one component (2), a switch (18) and/or a sensor (12), a data bus (4) on which the transmission device ( 8) and the switch (18) or the sensor (12) are connected, and a control device (5) which is designed to control the data traffic on the data bus (4), wherein the transmitting device (8) to is designed to change at least one parameter that influences the range of the control signal in response to a signal transmitted by the switch (18) or the sensor (12) via the data bus (4).

Description

The present invention relates to a device for wirelessly controlling components of a lighting system and a method for configuring the transmission power of such a control device.

The EP 3 843 507 A1 discloses a lighting system in which control signals are transmitted from one light fixture to another light fixture to switch the lights independently. Such a lighting system can be used for swarm control, in which a light switched on by a person or by their detected presence sends a switch-on signal to neighboring lights in order to also switch them on with a lower dimming level. This creates a pleasant "cloud of light" that may move with the person, with the luminaire detecting the presence and the luminaires receiving the switch-on signal being automatically configured to form a swarm without individual addressing.

The lights can have a repeater function and transmit the received switch-on signal to lights that are outside the transmission range of the light that has detected the presence of the person or is closest to the person. The number of lights to be switched on or the size of the "cloud of light" can be set by limiting the number of forwardings, with the switch-on signal containing a counter value that is increased or decreased with each forwarding and the switch-on signal is not forwarded when the count value reaches a certain value.

The switch-on signal is often transmitted as an infrared signal. Alternatively, the signal can be transmitted by radio (e.g. Bluetooth or WLAN industry standard), visible light, ultrasound or structure-borne noise. The device transmitting the signal (e.g. the infrared transmitter) is designed in such a way that the transmission range or the range of the signal transmitted by a lamp covers a large number of applications, with a typical distance between the lamps in an open-plan office and a often encountered ceiling height is assumed.

In previous systems, the parameters that affect the range of the signal sent by a lamp are fixed by the manufacturer so that they cannot be changed by the user. However, a change is desirable in order to expand the transmission range or to adapt the range to atypical conditions, such as ceiling materials that dampen the signal, very high ceilings and/or large distances between the lights, or to adjust the size of the "cloud of light" via the range.

The invention is based on the object of specifying a device and a method which reduce the problems described. In particular, the task is to provide a control device and a method with which the transmission range or the range can be easily adapted to the respective circumstances.

This object is solved with the features of the independent claims. The invention is further developed by the features of the dependent claims.

According to the present invention, a control device for at least one component of a lighting system has a transmission device for wireless transmission of a control signal to the at least one component, a switch and/or a sensor, a data bus to which the transmission device and the switch or the sensor are connected and a control device controlling the data traffic on the data bus. The transmission device is designed to change at least one parameter, which influences the range of the control signal, in response to a signal transmitted by the switch or the sensor via the data bus.

The switch or the sensor can be used exclusively for setting/configuring the range or can also be used for at least one other function, for example for controlling the at least one component, with the functions being able to be differentiated by means of different switching events or sensor messages. A switching event reported by the switch via the data bus or a message sent by the sensor via the data bus can be translated by the transmitting device into a command to change the previous parameter or to set a specific parameter or a specific group of parameters. Alternatively, the translation/assignment can be performed by the control device, which sends the corresponding command to the transmission device via the data bus.

In this way, no new or possibly additional operating elements are required for changing or configuring the range. Only the transmission device has to be adapted for changing the at least one parameter and for detecting and interpreting the switching events or sensor messages indicating a change.

As described, the control signal sent by the transmitting device can be an infrared, radio, light or sound signal. The range to be set corresponds to a distance of the at least one component from the control device at which the at least one component can still receive the control signal in a quality that is sufficient to determine the information contained in the control signal. It depends, for example, on the signal strength of the control signal sent by the transmitting device, the modulation method used in the transmission, the (error) coding and/or a directional transmission. Accordingly, the transmission direction can change a parameter that influences the signal strength, the modeling, the coding or the transmission direction of the control signal transmitted by the transmission device in response to a signal transmitted by the switch or the sensor via the data bus in order to increase the range or to decrease.

The parameter or a group of parameters can change to the next parameter or the next group of a predetermined sequence of parameters/groups each time the signal is transmitted from the switch or the sensor via the data bus, with the last parameter or .from the last group of the sequence to the first parameter or the first group of the sequence. This enables simple "switching through" through different ranges, which may be graded. Alternatively, each parameter or each group can be assigned an individual actuation pattern of the switch (switching operations in a specific time sequence), with the transmitting device being designed to detect a large number of different patterns of actuation of the switch and at least one specific pattern for each detected pattern assign parameters.

Alternatively, several buttons can be used, with each button setting a parameter to a specific value, for example, or 2 buttons incrementing/decrementing a specific parameter.

Alternatively or additionally, the sensor can detect different events and report them via the data bus, with each event caused by a person for configuration being assigned at least one specific parameter. The sensor can be a color sensor or a microphone and the event can be a specific color detected by the sensor or a specific noise detected by the sensor.

According to another embodiment, the sensor is an infrared sensor which is designed to receive the signal sent by an infrared remote control, to determine a command contained in the received signal and a message that reports an event associated with the determined command, to be transmitted via the data bus, with each of a plurality of commands that can be determined by the sensor being assigned an event and the transmitting device assigning a specific parameter to each event reported by the sensor. This enables easy configuration by pressing a button on the remote control, with each button of a large number of buttons on the remote control being assigned a specific range.

In particular when "switching through" the ranges, it is advantageous to give the person making the setting feedback about the currently selected/switched range. For this purpose, the control device can have an output device that emits a signal that acoustically or visually indicates to the person the parameter set by the transmitting device or the currently selected range. The signal is output at least when the parameter is changed.

The at least one component can be controlled by actuating a switch of the control device and/or based on the event detected by a sensor of the control device (e.g. the presence of one or more people). For this purpose, the control device can have a further switch and/or a further sensor, the transmission device being designed to send the control signal to the at least one component in response to a signal transmitted from the further switch/sensor via the data bus. Alternatively or additionally, the control device can be designed to assign a specific command to an event that is indicated by the further switch or the signal transmitted by the sensor, and to assign the specific command via the data bus to the transmitting device for transmission in the control signal to the component or to send to another bus subscriber.

The control device can be a lamp and have an operating device for lighting means connected to the data bus, with the control device sending the specific command via the data bus to the operating device, the other bus user. The command can be a dimming, switching on or switching off command.

The at least one component can be a lamp that dims, switches on or off at least one of its lamps as a result of the received control signal/command and/or can also be a control device according to the present invention. According to one embodiment, the swarm control described takes place with the control signal in a lighting system that has a large number of lights. At least one of the lights can be a floor, ceiling or wall light and/or the control device.

The data bus can be a bus according to the DALI industry standard (Digital Addressable Lighting Interface), in particular DALI-2, and the control device can be a DALI "Application Controller" controlling the bus.

• Senden eines Signals von dem Schalter oder dem Sensor über den Datenbus durch Betätigen des Schalters bzw. Durchführen einer Aktion, auf die der Sensor anspricht, und
• Setzen des die Reichweite des Steuersignals beeinflussenden Parameters auf der Grundlage des gesendeten Signals auf.

According to the present invention, a method for configuring the control device described has the steps:

• sending a signal from the switch or the sensor over the data bus by actuating the switch or performing an action responsive to the sensor, and
• Set the parameter affecting the range of the control signal based on the transmitted signal.

• Fig. 1 in einer schematischen Darstellung ein erstes Ausführungsbeispiel eines Beleuchtungssystems mit einer Steuervorrichtung gemäß der vorliegenden Erfindung,
• Fig. 2 die Sendeeinrichtung der in Fig. 1 gezeigten Steuervorrichtung,
• Fig. 3 ein zweites Ausführungsbeispiel eines Beleuchtungssystems mit einer Steuervorrichtung gemäß der vorliegenden Erfindung,
• Fig. 4 ein drittes Ausführungsbeispiel eines Beleuchtungssystems mit einer Steuervorrichtung gemäß der vorliegenden Erfindung, und
• Fig. 5 ein vereinfachtes Ablaufdiagramm zur Darstellung des Verfahrens gemäß der vorliegenden Erfindung.

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

• 1 in a schematic representation a first exemplary embodiment of a lighting system with a control device according to the present invention,
• 2 the transmitting device of the in 1 shown control device,
• 3 a second embodiment of a lighting system with a control device according to the present invention,
• 4 a third embodiment of a lighting system with a control device according to the present invention, and
• figure 5 Figure 12 is a simplified flowchart showing the method of the present invention.

Components with the same functions are identified in the figures with the same reference symbols. To avoid unnecessary repetition, a repetitive description is dispensed with where this appears unnecessary.

1 shows a simplified schematic representation of a lighting system according to the present invention, which has as components a configurable control device 1, a controllable by the control device 1 lamp 2 and a remote control 3 for the configuration. The control device 1 is in particular a further lamp of the lighting system and has a DALI-2 bus 4, a control device 5 controlling the data traffic on the DALI-2 bus 4, a first switch 6 connected directly to the control device 5, a sensor 7, a transmission device 8 for wireless transmission of a control signal to the lamp 2 and optionally a light source 9 and an operating device 10 for the light source 9 . The control device 5, the sensor 7, the Transmission device 8 and the operating device 10 are connected to the DALI-2 bus 4 and can send and receive signals via the DALI-2 bus 4 in a known manner, with the control device 5 receiving and receiving messages from the sensor 7 as an "application controller". sends commands at least to the operating device 10 according to a received message or a switching signal from the first switch 6 .

The first switch 6 is a button by means of which the light source 9 can be dimmed and switched on or off. The sensor 7 includes a motion detector 11 for detecting the presence of a person in the vicinity of the control device 1 or the approach of a person to the control device 1 and an infrared receiver 12 for the infrared signals transmitted by the remote control 3 . The motion detector 11 reports the event of a detected presence in a message sent via the DALI-2 bus 4 , whereupon the control device 5 transmits a switch-on command to the operating device 10 and the transmitting device 8 . The transmitting device 8 converts the switch-on command received into the control signal and sends the control signal to the lamp 2 via a wireless connection 13 so that the latter is also switched on. Alternatively, the transmission device 8 itself can convert the message into a switch-on command and send the corresponding control signal to the lamp 2 so that the control device 5 does not have to transmit the switch-on command to the transmission device 8 .

2 shows a simplified schematic representation of the transmission device 8 with an interface 17 for connecting the transmission device 8 to the DALI-2 bus 4, a control unit 15, a non-volatile data memory 16 and a transmission and reception unit 14, which can transmit and receive infrared signals . The interface 17 receives the switch-on command sent via the DALI-2 bus 4 and outputs it to the control unit 15, which converts the switch-on command into the control signal according to a conversion specification stored in the data memory 16 and to the transmitting and receiving unit 14 for transmission transmitted to lamp 2. The transmitting and receiving unit 14 has at least one infrared LED for transmitting the control signal.

According to the present invention, the range of the control signal transmitted by the transmitting and receiving unit 14 can be adjusted in order to be able to adapt the range to the distance from the lamp 2 and/or the environment. Since the transmitting and receiving unit 14 emits the infrared signal upwards in the direction of the ceiling, the range depends not only on the distance but also on the ceiling height and the reflectivity of the ceiling with regard to the infrared signal. The range of the control signal transmitted by the transmitting and receiving unit 14 is controlled by controlling the transmission energy can be changed by the control unit 15, the intensity of the light emitted by the infrared LED being adjustable. Alternatively or additionally, the intensity can be varied by changing the number of infrared LEDs emitting the signal. It is also possible to achieve a directional effect by means of adjustable optics for the light emitted by the infrared LED and/or to arrange infrared LEDs in such a way that they have a different emission direction and the emission direction can be changed by selecting the infrared signals to be used for the transmission. adjust LEDs. The range or the transmission energy can also be changed by modifying the signal modulation, in particular the duty cycle (duty cycle of the base frequency) and/or the bit length.

Parameters for controlling the intensity are stored in the data memory 16, by means of which the intensity can be adjusted for different ceiling heights, with each adjustable ceiling height (e.g., 2.50 m, 3.00 m and 3.50 m) having at least one parameter, which shows the intensity (or number of LEDs) to be set.

The remote control 3 has a button for at least some of the adjustable ceiling heights and sends a corresponding command when one of the buttons is pressed. If the infrared receiver 12 of the sensor 7 receives such a command, the sensor 7 reports this event via the DALI-2 bus 4 to the control device 5, which transmits a command associated with the reported event to the transmitting device 8 via the DALI-2 bus 4 sends. The control unit 15 assigns the corresponding ceiling height or the corresponding parameter to the command on the basis of the information stored in the data memory 16 and sets the intensity according to the determined parameter. Alternatively, the transmitting device 8 itself can detect the event reported by the sensor 7 via the DALI-2 bus 4 and assign the corresponding ceiling height or the corresponding parameter to the reported event.

With the remote control 3, a simple configuration of the range is possible, for example by the electrician during commissioning, with unauthorized configuration being made more difficult by limited access to the remote control 3.

Alternatively or additionally, the emission direction and/or the signal modulation can be set or changed using the remote control 3, with each key or key combination being assigned at least one parameter.

3 12 shows a second exemplary embodiment of the lighting system, in which the range can be configured alternatively or additionally by means of a second switch 18. The second switch 18 is like the first switch 6 and a button directly to the Control device 5 connected. The control device 5 sends a command assigned to the actuation via the DALI-2 bus 4. The interface 17 receives the command and outputs it to the control unit 15, which interprets the command as a parameter change command and replaces the currently set parameter with another one of the saved parameters. For example, a currently set parameter for one of the ceiling heights 2.50 m, 3.00 m and 3.50 m is replaced by the parameter for the next higher ceiling height, whereby with a currently set ceiling height of 3.50 m, ceiling height 2, 50 m is changed.

The newly set ceiling height can be indicated to the electrician by a light signal (flashing pattern) emitted via the light source 9 . For this purpose, the transmission device 8 reports to the control device 5 via the DALI-2 bus 4 an event that causes the control device 5 to send a switch-on or switch-off command to the operating device 10 and an event that causes the control device 5 to send a switch-on or switch-on command to send to the operating device 10. Using the number and/or length of the light pulses that can be generated in this way, the newly set ceiling height can be coded or displayed (e.g. 1× flashing for 2.50 m; 2× flashing for 3.00 m and 3× flashing for 3.50 m, or 2× long, 1× short for 2.50 m; 3× long for 3.00 m and 3× long, 1× short for 3.50 m). Alternatively or additionally, the flashing signal can be output by a control lamp of the transmitter 8 or the set ceiling height can be displayed on the transmitter 8 by means of a light bar made up of LEDs or a display.

The second switch 18 can be protected against unintentional actuation with a removable cover or can be actuated only by means of a pin, as is usual with reset switches.

4 shows a third exemplary embodiment of the lighting system, in which the first switch 6 and the second switch 18 are connected to the DALI-2 bus 4 via a bus coupler 19 . The bus coupler 19 detects the actuation of each switch connected to it and reports the respective event via the DALI-2 bus 4 to the control device 5, which outputs a corresponding command in the manner described. It is also possible for the transmitting and receiving unit 17 to receive a signal sent by the lamp 2 via the wireless connection 13 and for the control unit 15 to convert the commands or messages contained in the signal into DALI-compliant events or messages and to transmit these via the DALI -2 bus 4 to the control device 5 sends.

in the in 3 and 4 described examples, the configuration is done using a button, the second switch 18, and possibly also using the remote control 3 (not shown). Alternatively the configuration can be done with several switches, with each switch or switch combination (e.g. DIP switch) being assigned a ceiling height, for example.

The lighting system can include more than two lights, the control signal being used for the described swarm control and causing adjacent lights to be switched on in a known manner. Alternatively or additionally, at least the lamp 2 can have a structure according to the present invention, with not only the switch-on command caused by the motion detector 11 being transmitted to the lamp 2 via the wireless connection 13, but also that of the sensor 7 and/or the second Switch 18 evoked command. In this way, both the control device 1 and the lamp 2 can be configured in one operation.

In the examples described, the communication between the control device 1 and the lamp 2 takes place by means of the transmission of infrared signals. Alternatively, the communication can take place, for example, by means of structure-borne noise, with the transmission device 8 generating modulated vibrations with the information to be transmitted, which are transmitted to the luminaire 2 via the common floor (in particular in the case of floor lamps), the ceiling (in particular in the case of ceiling lamps) or the common mounting rail .

The integration of the infrared receiver 12 and the motion detector 11 in the sensor 7 as described above is not mandatory. Alternatively, the sensor 7 can only have the infrared receiver 12 , with another sensor that is also connected to the DALI-2 bus 4 possibly having the motion detector 11 . The control device 5 and/or the control unit 15 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.

In figure 5 Illustrated is a highly simplified flow chart showing the individual steps involved in performing the method detailed above. In step S1 the actuation of the second switch 18 or a specific button on the remote control 3 is detected and in step S2 a corresponding message about the detected event is sent to the control device 5 via the DALI-2 bus 4 . In step S3, the control device 5 determines a command associated with the actuation and sends the command to the transmitting device 8, which sets a parameter on the basis of the command in step S4. In the example described, the control unit 15 selects the parameters on the basis of the commands received from the controller 5 . Alternatively, the control unit 15 can transmit the information from the sensor 7 and/or from the switch 18 via the DALI-2 bus 4 record reported events and assign the respective parameter to a recorded event.

Claims (10)

Control device for at least one component of a lighting system, the control device (1) having: a transmission device (8) for wireless transmission of a control signal to the at least one component (2), a switch (18) and/or a sensor (12), a data bus (4) to which the transmitting device (8) and the switch (18) or the sensor (12) are connected, and a control device (5) which is designed to control the data traffic on the data bus (4),
characterized in that the transmitting device (8) is designed to change at least one parameter that influences the range of the control signal in response to a signal transmitted by the switch (18) or the sensor (12) via the data bus (4). Control device according to claim 1,
characterized in that
the at least one parameter relates to the signal strength, the modelling, the coding or the transmission direction of the control signal transmitted by the transmission device. Control device according to claim 1 or 2,
characterized in that
the transmitting device (8) is designed to detect a multiplicity of different patterns of actuation of the switch (18) and to assign a specific parameter to each pattern detected. Control device according to one of claims 1 to 3,
characterized in that the sensor (12) is an infrared sensor which is designed to receive the signal sent by an infrared remote control (3), to determine a command contained in the received signal and a message containing an event associated with the determined command reports to be transmitted via the data bus (4), with each of a large number of commands that can be determined by the sensor being assigned an event, and the transmission device (8) is designed to assign a specific parameter to each event reported by the sensor (12). Control device according to one of claims 1 to 4,
characterized in that
the control device (1) has an output device for outputting a signal which indicates the parameter set by the transmitting device (8) acoustically or visually. Control device according to one of claims 1 to 5,
characterized in that
the control device (1) has a further switch (6) and/or a further sensor (11), and the transmitting device (8) is designed to respond to a signal from the further switch (6) or the sensor (11) to send the control signal to the at least one component (2) via the data bus (4). Control device according to claim 6,
characterized in that
the transmitting device (8) is designed to assign a specific command to an event that is indicated by the signal transmitted by the additional switch (6) or the additional sensor (11) and to transmit the specific command in the control signal to the at least one To send component (2). Control device according to claim 6 or 7,
characterized in that
Control device (1) is designed to assign a specific command to an event that is indicated by the signal transmitted by the further switch (6) or the sensor (11) and to send the specific command via the data bus (4). Control device according to claim 8,
characterized in that the control device (1) has an operating device (10) for lighting means (9) which is connected to the data bus (4), and the control device (5) is designed to send the specific command to the operating device (10) via the data bus (4). Method for configuring a control device according to one of claims 1 to 9, comprising the steps: Sending (S1, S2) a signal from the switch (18) or the sensor (12) via the data bus (4) by actuating the switch (18) or performing an action to which the sensor (12) is responsive, and Setting (S4) the parameter influencing the range of the control signal based on the transmitted signal.

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