WO2010071913A1 - Procédé de commande d'appareils de service - Google Patents

Procédé de commande d'appareils de service Download PDF

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Publication number
WO2010071913A1
WO2010071913A1 PCT/AT2009/000495 AT2009000495W WO2010071913A1 WO 2010071913 A1 WO2010071913 A1 WO 2010071913A1 AT 2009000495 W AT2009000495 W AT 2009000495W WO 2010071913 A1 WO2010071913 A1 WO 2010071913A1
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WO
WIPO (PCT)
Prior art keywords
operating device
interface
dimming
operating
signal
Prior art date
Application number
PCT/AT2009/000495
Other languages
German (de)
English (en)
Inventor
Reinhold Juen
Joachim Maier
Markus Sandholzer
Original Assignee
Tridonicatco Gmbh & Co Kg
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Tridonicatco Gmbh & Co Kg filed Critical Tridonicatco Gmbh & Co Kg
Priority to EP09802093.6A priority Critical patent/EP2380404B1/fr
Priority to ATA9465/2009A priority patent/AT518632B1/de
Publication of WO2010071913A1 publication Critical patent/WO2010071913A1/fr

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Classifications

    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • H05B47/175Controlling the light source by remote control
    • H05B47/18Controlling the light source by remote control via data-bus transmission

Definitions

  • the invention relates to a method for controlling operating devices according to the preamble of claim 1.
  • the present invention relates to a lighting system for controlling at least two light sources according to the preamble of claim 2.
  • Control gear of modern design such as electronic ballasts for gas discharge lamps or operating devices for light-emitting diodes, usually have interfaces via which external control commands can be transmitted to the operating device.
  • a desired luminous intensity (dimming level) of the luminous means can be set by appropriate control signals.
  • the operating device has a digital interface via which digital control commands can be sent from a control unit to the operating unit and back.
  • the communication can be bidirectional, ie the operating device can not only be a receiver of signal commands, but also act as a transmitter of signals. For example, the operating device can actively report a status report to the control unit when an error occurs.
  • the DALI standard includes a comprehensive digital command set for
  • Switch generated signal is present, for example, disclosed in DE 297 24 657.
  • An application for the control of the operating device by means of push-button operation is given in presence-controlled lighting solutions, where the operating device is controlled by a motion detector.
  • Such operating devices which are connected to one or more motion detectors are, for example, in staircases, long corridors, underground garages, pedestrian underpasses or in subway stations in use. If a movement is detected by a motion detector, for example due to the presence of a person, the operating device ensures that the corresponding room area is illuminated by the illuminant with a desired brightness (operating setpoint). In the absence of movement (absence), the bulb is dimmed to a resting value.
  • Operating devices of the prior art have only one Diram scenario, the determination of the dimming scenario with the individual dimming parameters takes place during the manufacture of the operating device or during installation shortly before commissioning, for example by means of
  • a dimming scenario determines how to switch between the dimming levels. Instead of switching abruptly between the dimming steps, the operating device can be set so that the changeover between the dimming steps takes place during a certain period of time (fade-on or fade-off time).
  • the frequency with which motion detection occurs and the time between two consecutive motion detections can vary widely:
  • the motion detector in an underground garage responds very frequently in 1 rush hour when the underground car park is heavily frequented (for example in the morning at the start of work and in the evening at the end of work), while in quieter times a movement signal is relatively rarely triggered, for example in the low hours of the night.
  • Illuminants as short a time as possible and only if they are really necessary to be in operation. On the other hand, rapid successive switching on and off operations with a short switch-on and switch-off time are to be avoided, since this can have a life-shortening effect on the lighting means.
  • High-pressure gas discharge lamp can be operated very effectively at high brightness, while LEDs have a high efficiency even at very low levels of brightness. This consideration also includes the required drive. For example, when dimming
  • Fluorescent lamps require heating of the coils. Presentation of the invention
  • the object of the invention is to improve the control of operating devices.
  • the requirements of energy efficiency and conservation of the light source should be taken into account.
  • the invention relates to a method for controlling at least two light sources, wherein - two different light sources are operated by one operating unit, the operating unit has at least one interface,
  • the lighting means are driven differently from each other.
  • the invention also relates to an illumination system for controlling at least two light sources, which has the following features:
  • an operating device for operating the lamps wherein the operating device has at least one interface, - depending on a signal supplied via the interface, the lamps are controlled differently from each other.
  • a method is also proposed for driving at least two light sources, wherein two different light sources are operated by one operating device each, the operating devices are connected to one another via an interface, and at least one operating device has at least one further interface, wherein one of them depends on one Further interface of an operating device supplied signal the lamps are controlled differently from each other.
  • the invention also proposes a lighting system for controlling at least two light sources, comprising at least two different light sources, at least two operating devices for operating one light source each, wherein the operating devices each have at least one interface, which are connected to each other, and at least one operating device another interface wherein, depending on a signal supplied via a further interface, the lighting means are controlled differently from one another.
  • ECG electronic ballasts
  • Gas discharge lamps or operating devices (drivers) for organic or inorganic light emitting diodes can also be operated by a respective operating device, and a first operating device has at least one interface, wherein the operating devices are connected to each other via a further interface, and depending on a signal supplied via the interface of the first operating device the lamps are controlled differently from each other.
  • this method may comprise the following steps: In the operating device, at least two different dimming stages are defined, wherein a first dimming stage corresponds to a quiescent value and a second dimming stage corresponds to an operating setpoint of the lighting means. Furthermore, at least two different Dimmszenarien are fixed, wherein the Dimmszenarien be characterized by at least a dimming parameter and the different Dimmszenarien parameters differ by the values of dimming. 1
  • the dimming scenario describes the transition between the idle and the operating setpoints or between the setpoint and the idle value. According to the invention, one of the various dimming stages is selectively driven depending on one
  • Control signal which is supplied to the operating device.
  • a change in the dimming level caused by the control signal can take place according to one of the dimming scenarios.
  • the dimming scenario can also take into account the different behavior of the two lamps and therefore provide different dimming levels for the individual lamps.
  • the dimming scenarios can also provide a different control of the individual lamps.
  • the operating device upon detecting a movement in a defined spatial area, the operating device, starting from a quiescent value, is driven to a different operating setpoint from the quiescent value.
  • the control signal on the operating device can be generated by a motion detector which is connected to a control input of the operating device.
  • the dimming levels for example, quiescent value, operating setpoint
  • the dimming parameters are adjustable.
  • the quiescent value can be set to a value of more than 0% light output.
  • control signals are statistically evaluated and, depending thereon, the dimming scenarios (i.e., the value of the dimming parameters) and / or the dim levels are adjusted.
  • the frequency of the control signals and / or the duration between the control signals can be evaluated.
  • the dimming scenarios and / or dimming levels are adjusted.
  • the time duration for the changeover between the dimming stages is prolonged when control signals accumulate during a certain period of time. If control signals are seldom applied to the operating device within a certain period of time, then the time interval for the changeover between the dimming steps can be shortened.
  • the method can also be carried out the other way round, ie if there are accumulations of signals, the time duration for the changeover between the dimming stages can be shortened and, in the other case, extended.
  • the dimming scenario (the dimming parameters) can additionally / alternatively be adapted to the time of day.
  • a determination of the time of day can be made on the basis of the detection of the control signals.
  • the evaluation of the control signals is implemented by software.
  • the invention also relates to a control device for lighting means, which is designed for carrying out such a method.
  • Another aspect of the invention relates to a control gear having a control input.
  • the operating device at least two different dimming levels and at least two different dimming scenarios are stored and depending on a control signal applied to the control input, one of the dimming stages is selectively controlled, wherein the change of the dimming level takes place according to one of the dimming scenarios.
  • the frequency of the control signals and / or the duration between the control signals can be evaluated in the operating device and, depending on this, the dimming scenarios and / or the dimming steps can be adapted.
  • the control signal can be generated by a motion detector.
  • the invention also relates to a lighting system for controlling electronically controlled operating devices, wherein the lighting system has at least one operating device and at least one motion detector. At least two different dimming stages and at least two different dimming scenarios are stored in the operating device. Depending on a control signal applied to the control input of the operating device, one of the dimming stages can be selectively activated, wherein the change of the dimming stage takes place according to one of the dimming scenarios. According to the invention, it can be evaluated how often and at what distance motion messages are detected and, depending on this, the dimming scenarios and / or the dimming stages can be adapted. Further advantages, features and characteristics of the present invention will now be explained with reference to the two appended drawings.
  • Figure 1 shows an arrangement of a control gear 2 with a motion detector.
  • FIGS. 2 a and 2 b show the time profile of the signal applied to the operating device 2 and the activation of the operating device 2.
  • FIG. 1 shows a schematic representation of a lighting system 10 comprising a known motion detector 1, an (electronic) operating device 2, and a light source 4 connected to an output 3.
  • the illuminant 4 can in principle be any illuminant, for example gas discharge lamps or organic or inorganic light-emitting diodes.
  • the illuminant 6 may be any illuminant, such as organic or inorganic
  • the two light sources 4 and 6 are not of the same type or of the same light source group (ie, for example, a combination
  • the illustrated operating device 2 has the three terminals PE, L, N, which can be contacted with the ground, the phase conductor and the neutral conductor and form the power supply 5.
  • the operating device 2 also has an interface with the terminals Dl and D2.
  • These connections D1 and D2 can be designed so that digital commands, for example, can be transmitted to the operating device via these connections in accordance with the DALI standard protocol or the operating device can send digital signals.
  • the two terminals Dl and D2 may be formed so that signals are transmitted by the supply voltage such as the mains voltage or push button signals.
  • the two terminals Dl and D2 can also be designed so that analog signals such as 1-lOV signals are transmitted.
  • the terminal Dl is connected to the neutral N of the power supply 5.
  • a commercially available motion detector 1 is connected between the other terminal D2 of the operating device 2 and the phase conductor L of the power supply 5, a commercially available motion detector 1 is connected.
  • two different signals can now be present at the control input D2, namely one for the detection of a movement by the motion detector 1 and a signal different therefrom in the event that no movement is detected on the motion detector 1.
  • the following definition is present: If the motion detector 1 detects a movement, it closes the connection between the phase conductor L and the connection D2 briefly so that the signal level of the phase conductor L is present at the control input D2.
  • the operating device 2 can also have a further interface with the terminals D3 and D4. To this interface (D3, D4), for example, a
  • Brightness sensor or other sensor or even a signal from another operating device or control unit can be received. It may also be possible that signals can be sent via this further interface (D3, D4). The respective use or usage of this additional interface can be programmable.
  • a method for controlling at least two light-emitting means (4, 6) is thus made possible, wherein two different light-emitting means (4, 6) are operated by an operating device (2)
  • Operating device (2) has at least one interface (Dl, D2), and wherein depending on the via the interface (Dl, D2) of the operating device (2) supplied signal, the lighting means (4, 6) are driven differently from each other.
  • the illumination system (10) for controlling at least two light sources (4, 6) may have the following features: at least two different light sources (4, 6), an operating device (2) for operating the light sources (4, 6), wherein the operating device (2) at least one interface (Dl, D2), wherein depending on a via the interface (Dl, D2) supplied signal, the lighting means (4, 6) are driven differently from each other.
  • the signal supplied via the interface (D1, D2) may be a signal from a motion detector (1) or a relay. Via the interface (Dl, D2) of the operating device (2), a communication by means of digital signals may be possible. Push-button signals can be received via the interface (Dl, D2) of the operating device (2).
  • the further light source (6) can be controlled via a further interface (D3, D4) of the operating device (2) via which data can alternatively be transmitted. This further interface (D3, D4) can be provided for the connection of a sensor.
  • the operating device (2) can control the connected lighting means (4, 6) as a function of the signal supplied via a further interface (D3, D4) (if this is used for the transmission of data, for example by a sensor).
  • the activation of the lighting means (4, 6) may differ in the (temporal) sequence or direction of the brightness changes.
  • the light sources (4, 6) can differ in terms of their light spectrum and / or their properties in terms of dynamics or lifetime.
  • a light source (4) may be a gas discharge lamp (fluorescent lamp, high-pressure gas discharge lamp) and the other light source (6) may be an organic or inorganic light-emitting diode (LED).
  • a gas discharge lamp fluorescent lamp, high-pressure gas discharge lamp
  • the other light source (6) may be an organic or inorganic light-emitting diode (LED).
  • the two light sources (4, 6) can be arranged inside a luminaire.
  • a possible time profile of the signal applied to the operating device 2 is shown in the lower part of Figure 2a.
  • This signal can be generated for example by a motion detector 1. If a movement is detected, the full mains supply voltage is present in this example, but the motion detector 1 detects no movement, so there is no voltage at the control input (D1, D2) of the operating device 2.
  • the motion detector 1 can be designed so that after elimination of a movement, the voltage at the control input (Dl, D2) of the operating device 2 does not drop immediately, but still a certain period of time
  • Delay time the mains supply voltage is maintained at the control input of the operating device 2. This time period (delay time) can be adjusted if necessary and is marked in the figure (shown in dark).
  • FIG. 2a The upper part of Figure 2a shows the activation of the operating device 2 and serves to explain a dimming scenario.
  • the operating device 2 stores at least two dimming stages, the idle value DS_OFF and the operating setpoint DS_ON.
  • the quiescent value DS_OFF can be a lower dimming level compared to the operating signal DS_ON, for example 0% light power, but of course also be set to a value with more than 0% light power.
  • the quiescent value DS_OFF is typically triggered when no voltage is applied to the input signal (D1, D2) of the operating device 2. If the mains supply voltage now lies at the interface (D1, D2) of the operating device 2 (ie a movement is detected), the operating device 2 controls a different operating setpoint DS_ON from the idle value DS_OFF, wherein the operating setpoint DS_ON in an advantageous embodiment is one compared to Resting value DS_OFF indicates increased light output of the connected illuminant (4, 6). But it is also possible that the operating setpoint DS_ON has a lower light output than the idle value DS_OFF.
  • a change in the signal is present at time A and time B.
  • a dimming scenario is characterized by at least one dimming parameter, for example by the time duration during which the changeover takes place between the dimming stages.
  • this time period for switching between DS_OFF and DS_ON is referred to as fade-on time, and the time period for switching between DS_ON and DS_OFF is marked as fade-off time. Switching between DS_OFF and DS_ON is very fast in the example shown in Figure 2a (the fade-on time is very small), but the fade-on time can of course be longer.
  • the dimming scenario according to FIG. 2 a can be used, for example, in such a way that, when the operating setpoint DS_ON is operating, the lighting means 4 is operated with high brightness.
  • the lighting means 6 can additionally be switched on, while the lighting means 4 is either switched off directly or switched off slowly, for example, by a shutdown of the brightness.
  • the light-emitting means 6 can also be permanently activated, for example, with the higher brightness of the light-emitting means 4 (in the case of the operating setpoint DS_ON) this light-emitting means 4 providing the perceived brightness.
  • the light source 6 may also be a light source, which should not be switched often or changed in its brightness.
  • the change of the brightness which is desired, for example, by detecting a movement, can be achieved by changing the control of the illuminant 4.
  • an additive total brightness for the operating setpoint DS_ON can result from operating both light sources 4 and 6.
  • Dimming levels DS_1, ..., DS_N have dimming values between the idle value DS_OFF and the operating setpoint DS_ON.
  • Figure 2b An example of such a dimming scenario is shown in Figure 2b, where first a medium dimming level DS_1 is driven (during the time period t1). The operating device 2 lingers for a certain time t2 at the level DS_1, before then the resting value DS_OFF is reached.
  • Figure 2b shows a dimming scenario with a medium dimming level DS_1 for switching between DS_ON and DS_OFF.
  • DS_1 medium dimming level
  • DS_N intermediate dimming levels
  • a dimming scenario is characterized by the values of the at least one dimming parameter.
  • Dimming parameters are all parameters that describe the change between DS_OFF and DS_ON, such as the individual time periods for the change over time between the dimming levels (for example, fade-on time, fade-off time, etc .) And the dimming and number of intermediate dimming DS_1, ..., DS_N.
  • the dimming scenario according to FIG. 2b can be used, for example, such that for the change between the dimming stages one illuminant (for example illuminant 6) gradually changes its brightness, while the second light means (for example illuminant 4) is complete from a certain moment switched off or switched on.
  • one illuminant for example illuminant 6
  • the second light means for example illuminant 4
  • the dimming scenario is adapted to the switching behavior of the motion detector 1.
  • the signal applied to the control input (D1, D2) of the operating device 2 can be statistically evaluated. In a preferred embodiment, it is detected and / or evaluated how often and at which time intervals a control signal is present. If the control signal is supplied by a motion detector 1, this means that it is statistically evaluated how often and / or at which time intervals movements are detected.
  • This information can now be used to dynamically adapt the values of the dimming parameters and / or the dimming levels DS_OFF and DS_ON to the respective situation.
  • Various dimming scenarios can be stored in the operating device 2 and the evaluation of the movement messages can be used to select a specific dimming scenario.
  • the time required to switch between DS_ON and DS_OFF can be extended. Additionally or alternatively, the resting value DS_OFF and / or the operating setpoint DS_ON can also be changed (increased).
  • Dimmszenarien done that is, for example, that the operating device 2 no longer directly controls in one step from the operating setpoint DS_ON to the DS_OFF resting value, but additionally in the meantime on one or more intermediate dimming levels DS_1, ..., DS_N lingers.
  • the middle dimming levels DS_1, ..., DS_N can be selected close to the operating setpoint DS_ON.
  • the time period for switching from DS_ON to DS_OFF can be chosen to be approximately the same as the average time between two motion messages.
  • the dimming scenario can be adjusted in such a way that the idle value DS_OFF is reached more quickly, that is to say that the time span for the transition between DS_ON and DS_OFF is shortened.
  • the dimming scenario can also be adapted.
  • the dimming scenario (the dimming parameters) can be adapted to the time of day (day period).
  • various dimming scenarios can be stored in the operating device 2, and depending on the time of day, a different dimming scenario can be used and / or selected.
  • a determination of the time of day can be made on the basis of the detection of the control signals. It can be provided that the operating device 2 identifies patterns or properties on the basis of the statistical evaluation of the motion messages, which repeat themselves in a daily rhythm and thus allow conclusions to be drawn about the time of day (daily period). This detection of the time of day can also be supplemented by measuring the brightness, for example with the aid of a light sensor.
  • the two bulbs 4 and 6 are controlled differently.
  • the light source 6 (which can be switched quickly) is preferably operated and controlled, while the light-emitting means 4 can be activated when the switching frequency is low.
  • a light source can be activated or deactivated permanently or at least for a longer period. This can be the case, for example, for the provision of a basic brightness for the resting value DS_OFF or for switching off a luminous means during exclusive operation of the other luminous means, for example in an operating phase (day period) with low operating setpoint DS_ON (for example night operation) and / or very frequently detected movement ,
  • the control of the operating devices 2 can also be via a relay of a central control or, for example, in
  • the setting of the dimming values (idle value DS_OFF, operating setpoint DS_ON) and the parameter of the dimming scenario (DS_1, ..., DS_N, fade-on time, fade-off time, ...) can be set, for example, via an interface (D3 , D4).
  • This programming can be done during operation, during installation, during production etc.
  • the interface for programming can also be designed wirelessly.
  • Illuminants (4, 6) take place in accordance with various dimming scenarios and the selection of a dimming scenario can be effected as a function of a control signal which is supplied to the interface (D1, D2) of the first operating device (2).
  • the lighting system (10) can also be constructed according to the invention such that the control of at least two different light sources (4, 6) by at least two operating devices (2, 2 '), each of which a lighting means (4, 6) operate ,
  • the operating devices (2, 2 ') can each have at least one interface (D3, D4) which are connected to one another, and at least one first operating device (2) can have a further interface (D1, D2). Via the interconnected interfaces (D3, D4) a unidirectional or bidirectional communication between the operating devices (2, 2 ') can be made possible.
  • the first operating device (2) can, for example, operate the first lighting means (4) and the second operating device (2 ') can, for example, operate the further lighting means (6).
  • a further interface (Dl, D2) supplied signal the
  • Illuminants (4, 6) thus by the two operating devices (2, 2 ') are controlled differently from each other.
  • the signal supplied via a further interface may be a signal from a motion detector (1) or a relay.
  • a first operating device (2) can, upon receipt of a signal supplied via a further interface (D1, D2), carry out a communication with the second operating device (2 ').
  • the second operating device (2 ') can, upon receipt of a signal supplied via a further interface (D1, D2), respond to a communication (via which the interconnected interfaces D3, D4) with the first operating device (2).
  • the first operating device (2) can control the connected lighting means (4) as a function of the signal supplied via a further interface (D1, D2).
  • the first operating device (2) can control the connected lighting means (4) depending on the communication with the second operating device (2 ').
  • the control of the connected lighting means (4) is dependent on the transmitted via the interconnected interfaces (D3, D4) information, if necessary, the first operating device in a bidirectional communication to signals of the second Operating device (2 ') respond.
  • the second operating device (2 ') can control the connected lighting means (6) as a function of the signal supplied via the interface (E> 3, D4).
  • control of the lighting means may differ in the (temporal) sequence or direction of the brightness changes.
  • a method for controlling at least two lighting means (4, 6) is made possible, wherein two different light sources are each operated by a control gear (2, 2 '), and- the operating devices (2, 2') via one interface ( D3, D4) are interconnected, and at least one
  • Operating device (2) has a further interface (Dl, D2), wherein depending on a via a further interface (Dl, D2) of an operating device (2) signal supplied to the lighting means (4, 6) are driven differently from each other.
  • the two lighting means (4, 6) are thus operated by a respective operating device (2, 2 '), and a first operating device (2) has at least one interface (D1, D2), wherein the
  • Operating devices (2, 2 ') via a further interface (D3, D4) are interconnected, and wherein depending on a via the interface (Dl, D2) of the first operating device (2) signal supplied, the lighting means (4, 6) from each other be controlled.
  • the illumination system (10) for controlling at least two light sources (4, 6) can have at least two different light sources (4, 6), at least two control devices (2, 2 ') for operating "one light source (4, 6) each. available.
  • At least one operating device (2) has an interface (Dl, D2).
  • the operating devices (2, 2 ') can each have at least one interface (D3, D4) which are connected to one another.
  • the lighting means (4, 6) can be controlled differently from each other.
  • Operating devices (2, 2 ') via an interface (D3, D4) are interconnected and each one operating device (2, 2') each a lighting means (4,6) controls, operating devices are used, each designed only for driving a light source are.
  • only one operating device (2) must have a (further) interface (Dl, D2) which can receive and evaluate signals from, for example , a motion detector (1), provided both operating devices (2, 2 ') have a Interface (D3, D4) are interconnected.
  • This interface (D3, D4), via which the two operating devices (2, 2 ') are connected to each other can be designed to be less robust compared to the further interface (D1, D2), since no different control devices (for example motion detectors, also different Manufacturer) must be connected.
  • the invention discloses an improved control of two different lighting means (4, 6) by at least one operating device 2, which is characterized in that it can adapt flexibly and dynamically to different situations.

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Abstract

L'invention concerne un système d'éclairage permettant de commander au moins deux moyens d'éclairage, lequel comprend - au moins deux moyens d'éclairage différents - un appareil de service pour faire fonctionner les moyens d'éclairage, l'appareil de service comportant au moins une interface; - les moyens d'éclairage étant commandés différemment l'un de l'autre en fonction d'un signal transmis par l'intermédiaire de l'interface. Pour ce qui est du signal transmis par l'intermédiaire de l'interface, il peut s'agir d'un signal d'un indicateur de mouvement ou d'un relais.
PCT/AT2009/000495 2008-12-22 2009-12-22 Procédé de commande d'appareils de service WO2010071913A1 (fr)

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Application Number Priority Date Filing Date Title
EP09802093.6A EP2380404B1 (fr) 2008-12-22 2009-12-22 Procédé de commande d'appareils de service
ATA9465/2009A AT518632B1 (de) 2008-12-22 2009-12-22 Verfahren zur ansteuerung von betriebsgeräten

Applications Claiming Priority (4)

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ATGM744/2008 2008-12-22
ATGM39/2009 2009-01-22
AT392009 2009-01-22

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EP2991452A3 (fr) * 2014-08-26 2016-04-13 Tridonic GmbH & Co KG Systeme de commande d'eclairage a resolution spatiale
ES2567227A1 (es) * 2015-03-27 2016-04-20 Universidad De La Rioja Dispositivo telerruptor perfeccionado y procedimiento inmótico de alumbrado
EP3119166A1 (fr) * 2015-07-16 2017-01-18 Tridonic GmbH & Co KG Systeme et appareil de commande d'actionneur
WO2020002481A1 (fr) * 2018-06-28 2020-01-02 Tridonic Gmbh & Co Kg Détecteur de présence et système d'éclairage doté d'un détecteur de présence
DE102014117901B4 (de) 2013-12-18 2022-12-08 International Business Machines Corporation Bewegungserkennungseinheit und -System, Verfahren zum Betreiben einer Bewegungserkennungseinheit und entsprechendes Computerprogramm

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