EP1519634A1 - Datenkonverter für eine Beleuchtungsanlage und Verfahren zum Betreiben einer Beleuchtungsanlage - Google Patents
Datenkonverter für eine Beleuchtungsanlage und Verfahren zum Betreiben einer Beleuchtungsanlage Download PDFInfo
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- EP1519634A1 EP1519634A1 EP04019088A EP04019088A EP1519634A1 EP 1519634 A1 EP1519634 A1 EP 1519634A1 EP 04019088 A EP04019088 A EP 04019088A EP 04019088 A EP04019088 A EP 04019088A EP 1519634 A1 EP1519634 A1 EP 1519634A1
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- European Patent Office
- Prior art keywords
- data converter
- lamp
- control device
- central control
- data
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- 238000000034 method Methods 0.000 title claims abstract description 21
- 238000011156 evaluation Methods 0.000 claims abstract description 18
- 238000012544 monitoring process Methods 0.000 claims abstract description 10
- 238000004891 communication Methods 0.000 claims description 8
- 230000006870 function Effects 0.000 claims description 5
- 238000009434 installation Methods 0.000 abstract description 3
- 230000002950 deficient Effects 0.000 description 4
- 230000004044 response Effects 0.000 description 3
- 229910052736 halogen Inorganic materials 0.000 description 2
- 150000002367 halogens Chemical class 0.000 description 2
- 238000011017 operating method Methods 0.000 description 2
- 230000002457 bidirectional effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000001419 dependent effect Effects 0.000 description 1
- 230000007257 malfunction Effects 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/175—Controlling the light source by remote control
- H05B47/18—Controlling the light source by remote control via data-bus transmission
Definitions
- the invention relates to a data converter for a lighting system according to the Patent claim 1 and an operating method for a lighting system.
- the published patent application WO 02/41671 A2 describes a lighting installation a plurality of lamp resources and a central control device for the lamp resources, wherein the lamp resources via addressable interfaces communicate via the digital data with the central control device become. This communication takes place according to the standardized so-called DALI protocol.
- DALI stands for Digital Addressable Lighting Interface.
- a disadvantage of the lighting systems whose central control devices according to of the DALI protocol to communicate with the lamp resources is that you Address hold on sixty-four individual addresses and sixteen group addresses is limited.
- the maximum current carrying capacity is the Interface of the central control device only 250 mA. This will set the maximum Number of lamp resources that can be connected to the central control device limited accordingly.
- the device according to the invention which is referred to here as a data converter, has a data input for communication of the data converter with a central one Control device of the lighting system, a data output for communication of the data converter with lamp resources and an evaluation unit for the evaluation of the data received from the central control device and for Control and monitoring of the functions of the lamp resources.
- Lamp resources are, for example, electronic ballasts for low-pressure or high-pressure discharge lamps, transformers for operation low-voltage halogen lamps or driver circuits for light-emitting diodes.
- the term lamps is used in the following representative of all types of electric operated bulbs used.
- the data converter according to the invention of the central Control device controlled in the same manner as a lamp resource become.
- the evaluation unit of the data converter converts these Control signals of the central control device in commands for controlling the the data converter controlled lamp resources.
- the inventive Data converter behaves relative to the central control device in terms Addressing and control as a single lamp resource.
- the data output of the data converter according to the invention is designed such that via this data output to many lamp resources commands for Control and monitoring of their functions can be passed, where these commands from the evaluation unit of the data converter according to the invention generated in response to the control signals of the central control device become.
- the data converter is more advantageous Make a non-volatile storage medium.
- the data input of the data converter is preferably designed as a multifunctional input, both digital as well as analog control signals received by the evaluation unit of the data converter in commands for the lamp resources it controls be converted, as for example in the published patent application WO 01/52607 A1 has been described.
- the data converter according to the invention not only compatible with a central control device, which according to the standardized DALI protocol communicates, but it can be at the central Control device in the simplest case even act on a button.
- the multiple lamp resources and a central control device for the lamp resources has at least some lamp resources by means of a data converter controlled and controlled by the central control device generated control signals receives, evaluates and depending on the result of the evaluation in commands for the control of the data converter controlled lamp resources converts.
- the data converter according to the invention are advantageously at least Two different modes of operation are provided in order to use it universally.
- those of the central Control device received control signals from the evaluation unit of the data converter into similar commands for all of the data converter controlled Converted lamp resources.
- this operating mode all from the data converter controlled lamp resources in the same way controlled, that is, the associated lamps simultaneously turned on and off and can be dimmed. As a result, the aforementioned lamp resources and their lamps are automatically grouped together.
- a button as a central control device can be used to control the data converter and control the lamp resources he controls, since the Data converter according to the invention preferably both digital and analog Control signals can receive and evaluate.
- the from the central control device emitted control signals via the data converter, according to a group membership of the controlled by the data converter Lamp resources received from these lamp resources and evaluated.
- the second operating mode allows the expansion of the group classification the lamp resource to a larger number of lamp resources could be operated only with the help of the central control device.
- the above-mentioned extension of grouping to those of To enable the data converter controlled lamp resources is advantageous Way during the commissioning phase of the lighting system initially a startup procedure of the data converter is started to that of the data converter provide controlled lamp resources with address codes, and then a startup procedure of the central control device is started, around the data converter and any, directly from the central control device to provide controlled lamp resources with address codes, wherein for grouping the lamp resources controlled by the data converter, the data converter is selected by the central control device so often to all the lamp resources controlled by the data converter in groups are divided, and wherein each selection of the data converter successively one of the data converter controlled lamp resources of a lamp resource group is assigned.
- the evaluation unit of the data converter preferably comprises a microcontroller to a programmatic evaluation of the one central control device received control signals and monitoring the lamp resource connected to the data output of the data converter to enable.
- the data converter leads advantageously an independent Status monitoring of the lamp resources connected to its data output by. This ensures that even those controlled by the data converter Lamp resources malfunctions can be detected, though the data converter from the central control device only the same control signals like any lamp resources directly connected to the central control device receives. Querying the central control device for the status of the Lamp resources are used for those connected to the data output of the data converter Lamp resource advantageously answered by the data converter, to ensure that the feedback to the central control device within the permissible time window provided for this purpose.
- the data converter cyclically, the above-mentioned status monitoring, in regular Time intervals through to the corresponding values in queries of the central Control device according to the status of the lamp resources for the feedback to have ready.
- the data converter according to the invention is preferably capable of the type of recognize its data output connected lamp resources.
- the data converter may query a central controller for the characteristics evaluate the lamp resource and for the ones it controls Answer lamp resources.
- queries are a central Control device according to the characteristics of the lamp resources for the at Data output of the data converter connected lamp resources of the Data converter with a default value specified for the respective queried Property of the lamp resources is answered when the data converter controlled lamp resources with regard to the respective queried Distinguish property.
- the default value is advantageously chosen that it is compatible with all types of lamp resources. This is ensures that the central control device does not come with an error message responded to their query due to a lack of feedback.
- the aforementioned queries are the central control device for the connected to the data output of the data converter Lamp resources from the data converter preferably with a Reference value for the respective queried property is answered, wherein the data converter as a reference value the value of the respective requested property of a from the data converter selected lamp resource to its data output connected lamp resources used.
- the data converter selects one of the lamp resources it controls as Reference device for one or more properties, such as the maximum Dimming area, and reports its value for this property or properties back to the central control device.
- the aforementioned Querying the central controller of the data converter for the correctly controlled by him controlled lamp resources are identical to the queried property.
- FIG. 1 shows schematically the functional blocks of the data converter.
- the data converter 10 has a voltage supply unit 11 which is connected to the Mains voltage is connectable and supplies the data converter with electrical energy.
- the data converter 10 has a data input 12, which with a Output connectable to a central control device of a lighting system is, and a data output 13, with a variety of lamp resources is connectable.
- the data received at the data input 12 are from the evaluated downstream evaluation unit 14 of the data converter 10 and in Commands for the lamp resources connected to the data output 13 transformed.
- the evaluation unit 14 is a programmable microcontroller educated.
- the power supply unit 11 provides via the data output 13 the interface current for communication with the data output 13 connected Lamp resources ready. Both the communication of the data converter 10 with the central control device via the data input 12 as well its communication with the lamp resources connected to the data output 13 is bidirectional.
- Figure 2 shows a schematic representation of a lighting system with a central Control device 2, a data converter 1, first lamp resources 3.1 to 3.63 and second lamp resources 4.1 to 4.64.
- the control output 21 the central control device 2 is connected via lines with the first lamp operating means 3.1 to 3.63 and connected to the data converter 1.
- the first lamp resources 3.1 to 3.63 and the data converter 1 are connected in parallel.
- the second lamp resources 4.1 to 4.64 are connected to the data output 13 of the data converter 1 connected. They are also connected in parallel.
- the first lamp resources 3.1 to 3.63 are directly from the central control device controlled while the second lamp resources 4.1 to 4.64 of the Data converter 1 are controlled, in response to the control signals, the data converter 1 at its data input 12 from the central control device 1 receives.
- the central control device 2 communicates Control signals according to the standardized DALI protocol via their control output 21 with the sixty-three lamp resources connected to it 3.1 to 3.63 and the data converter 1.
- Each of the sixty-three lamp resources 3.1 to 3.63 and the data converter 1 has an address code from the sixty-four individual addresses containing addresses of the central Control device 2.
- the grouped together lamp resources or their lighting are switched on, off and dimmed simultaneously.
- the central communicates Control device 2 with the data converter 1 in the same manner as with the first lamp resources 3.1 to 3.63.
- Digital control signals the data converter 1 receives at its data input 13 from the central control device 2, are evaluated by the evaluation unit 14 of the data converter 1 and in converted digital commands, which are connected via the data output 13 to all connected sixty-four second lamp resources 4.1 to 4.64 communicates become. That is, all second lamp resources 4.1 to 4.64 receive the same Commands and their bulbs can therefore only be switched on and off simultaneously and be dimmed.
- the second lamp resources 4.1 to 4.64 are not individually, but only as a group responsive and controllable.
- the data converter 1 may request a status request from the central control device 2 for the lamp resources 4.1 to 4.64 answer only across groups.
- the data converter 1 is only the presence of a defect to the central Report control device 2, but without the number of defective lamps or lamp resources 4.1 to 4.64 and the defective lamps or Lamp resources 4.1 to 4.64 can locate.
- Individually approachable and only those directly connected to the central control device 2 are controllable first lamp resources 3.1 to 3.63.
- the advantage of the first operating mode is that no special commissioning of the Data converter and its downstream lamp resources 4.1 to 4.64 required and the data converter 1 is compatible with all central control devices with DALI interface is 21.
- the disadvantage is that this operating mode no Grouping of the lamp operating devices 4.1 to 4.64 allowed.
- the Central control device 2 communicates the Central control device 2 with the data converter 1 in the same manner as with the first lamp resources 3.1 to 3.63.
- Digital control signals that the Data converter 1 at its data input 13 from the central control device. 2 receives are evaluated by the evaluation unit 14 of the data converter 1 and converted into digital commands via the data output 13 but in the Usually not to all connected sixty-four second lamp resources 4.1 to 4.64, but selectively only to a few predetermined sixty-four second lamp resources 4.1 to 4.64 are communicated. That is, the second lamp resources 4.1 to 4.64, in contrast to the one described above first operating mode, according to their group membership of the central control device 2 and the data converter 1 controlled.
- a prerequisite for the division of the second lamp resources 4.1 to 4.64 in groups is that initially during a startup phase, the second lamp resources 4.1 to 4.64 are provided with an address code to make them distinguishable for the data converter 1 and the control device 2.
- the commissioning without external intervention by the data converter 1 is automatically started and carried out as soon as the data converter 1 detects lamp resources without an address, which are connected to its data output 13.
- this startup can also be started via a button located on the data converter 1 or via a special command of the central control device.
- the data converter 1 assigns to each of the lamp operating means 4.1 to 4.64 an individual address code from its address supply which each lamp operating means 4.1 to 4.64 permanently stores.
- the second lamp operating means 4.1 to 4.64 can be distinguished for the data converter 1. Subsequently, the commissioning of the central control device 2 and connected to its control output 21 lamp resources 3.1 to 3.63 and the data converter 1 is started.
- the lamp resources 3.1 to 3.63 and the data converter 1 are divided into a maximum of sixteen groups, according to the available group address supply of the central control device 2, by each lamp resources 3.1 to 3.63 and the data converter 1 is assigned by the central control device 2 each at least one of the sixteen group addresses.
- the adoption of the respective group address codes by the lamp operating means 3.1 to 3.63 and 4.1 to 4.64 can be achieved, for example, by successively populating the lamp operating means 3.1 to 3.63 and 4.1 to 4.64 according to their group membership, as described for example in the published patent application EP 0 639 938 A1.
- Another, preferred way of group assignment is the group addresses the individual lamp resources 3.1. to 3.63 and assign the data converter 1 via the controls of the central control device 2.
- each lamp operating means 3.1 to 3.63 selected exactly once by the central control device 2 and assigned to him by means of the controls at least one group address.
- the data converter 1 is selected or called up sixty-four times by the central control device 2 during the group assignment, corresponding to the number of the lamp operating means 4.1 to 4.64 connected to its data output 13. Each time the data converter 1 is called by the central control device 2, at least one group address is successively assigned to one of the lamp operating means 4.1 to 4.64 connected to the data output 13 of the data converter 1. That is, at the first call of the data converter 1, at least one group address is assigned to the lamp resource 4.1 and at the second call of the data converter 1 the lamp resource 4.2 is assigned at least one group address and so on until all four sixty lamp resources 4.1 to 4.64 are provided with group addresses.
- the data converter 1 extends the group addresses assigned to it by the central control device 2 in accordance with the above rule to the second lamp operating means 4.1 to 4.64.
- the individual lamp resources 3.1 to 3.63 and 4.1 to 4.64 store the group addresses allocated to them in a non-volatile memory means, for example in an EEPROM.
- the lamp operating means 4.1 to 4.64 connected to the data output 13 of the data converter 1 can also be divided into groups. It is even possible to combine first lamp resources 3.1 to 3.63 and second lamp resources 4.1 to 4.64 in the same group.
- the first lamp operating group consists of the lamp operating means 3.1, 4.1 and 4.2
- a control command determined for this lamp operating group will be sent from the central control device 2 via the control output 21 to all first lamp operating means 3.1 to 3.63 and via the data converter 1 to all second lamp operating means 4.1 to 4.64 sent.
- the lamp operating means 3.1, 4.1 and 4.2 will execute this control command, since only the group address stored by these lamp operating means 3.1, 4.1 and 4.2 coincides with the group address indicated in the control command.
- the data converter 1 operates in this case as a slave, that is, it passes the control command to the connected to its data output 13 lamp operating 4.1 to 4.64 on.
- the data converter 1 operates like a master, that is, for example, Feedbacks of the second lamp resources 4.1 to 4.64 to their current Status to corresponding requests from the central control device 2 become evaluated by the data converter 1 and not by the central control device 2.
- the central control device 2 evaluates corresponding feedback of the first lamp resources 3.1 to 3.63 off.
- the data converter 1 performs independently by cyclically polling the downstream of him lamp resources 4.1 bis 4.64 a status monitoring of these lamp resources by. Based on this Status image, the data converter 1 queries the central control device 2 immediate, without time delay answer.
- the data converter 1 is preset to the first operating mode. To him in the second mode of operation, he must by pressing one on the housing of the Data converter 1 arranged switch or by means of a special command the central control device 2 are switched into these. Pressing this Switch or the aforementioned command initiates the startup procedure explained above.
- the data converter 1 is configured to both at its data input 12 digital and analog control signals can receive and evaluate.
- the data input 12 of the Data converter 1 supplied with digital control commands can also be a with control commands operating central, for example, a Button 5 are used according to the schematic representation in Figure 3.
- the data input 12 of the data converter 1 is via the button 5 with the AC line voltage N, L connected.
- To the data output 13 of the data converter 1 are a total of sixty-four parallel-connected lamp resources 6.1 to 6.64 connected.
- the evaluation unit 14 generated in response to the operation of the button 5, the duration of the button operation and the current operating state of the lamp operating means 6.1 to 6.64 Control commands for the lamp resources connected to the data output 13 6.1 to 6.64.
- WO 01/52607 A1 describes also how different between analog and digital control signals becomes.
- the data converter 1 differentiates between digital and analog control signals its data input 12 in the same way as in the above-cited published patent application.
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- Circuit Arrangement For Electric Light Sources In General (AREA)
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Abstract
Description
- Figur 1
- Eine schematische Darstellung der Funktionsblöcke des erfindungsgemäßen Datenkonverters
- Figur 2
- Eine schematische Darstellung einer Beleuchtungsanlage mit dem erfindungsgemäßen Datenkonverter und einer zentralen Steuervorrichtung
- Figur 3
- Eine schematische Darstellung einer Beleuchtungsanlage mit dem erfindungsgemäßen Datenkonverter und einen Taster als zentrale Steuervorrichtung
Besteht beispielsweise die erste Lampenbetriebsmittelgruppe aus den Lampenbetriebsmitteln 3.1, 4.1 und 4.2, so wird ein für diese Lampenbetriebsmittelgruppe bestimmter Steuerbefehl, von der zentralen Steuervorrichtung 2 über den Steuerausgang 21 an alle erste Lampenbetriebsmittel 3.1 bis 3.63 und über den Datenkonverter 1 an alle zweite Lampenbetriebsmittel 4.1 bis 4.64 gesandt. Allerdings werden nur die Lampenbetriebsmittel 3.1, 4.1 und 4.2 diesen Steuerbefehl ausführen, da nur die von diesen Lampenbetriebsmitteln 3.1, 4.1 und 4.2 gespeicherte Gruppenadresse mit der im Steuerbefehl angegebenen Gruppenadresse übereinstimmt. Der Datenkonverter 1 arbeitet in diesem Fall wie ein Slave, das heißt, er gibt den Steuerbefehl an die an seinem Datenausgang 13 angeschlossenen Lampenbetriebsmittel 4.1 bis 4.64 weiter.
Claims (15)
- Datenkonverter für eine Beleuchtungsanlage mit einem Dateneingang (12) zur Kommunikation des Datenkonverters (1) mit einer zentralen Steuervorrichtung (2) der Beleuchtungsanlage, einem Datenausgang (13) zur Kommunikation des Datenkonverters (1) mit Lampenbetriebsmitteln (4.1 - 4.64) und einer Auswertungseinheit (14) zur Auswertung der von der zentralen Steuervorrichtung (2) empfangenen Daten und zur Steuerung sowie Überwachung der Funktionen der Lampenbetriebsmittel (4.1 - 4.64).
- Datenkonverter nach Anspruch 1, dadurch gekennzeichnet, dass der Datenkonverter ein nicht-flüchtiges Speichermittel zur Speicherung eines von der zentralen Steuervorrichtung zugewiesenen Adresscodes aufweist.
- Datenkonverter nach Anspruch 1, dadurch gekennzeichnet, dass der Datenkonverter (1) umschaltbar zwischen mindestens zwei unterschiedlichen Betriebsmodi des Datenkonverters (1) ist.
- Verfahren zum Betreiben einer Beleuchtungsanlage, die mehrere Lampenbetriebsmittel (3.1 - 3.63, 4.1 - 4.64) und eine zentrale Steuervorrichtung (2) für die Lampenbetriebsmittel (3.1 - 3.63, 4.1 - 4.64) aufweist, wobei wenigstens einige Lampenbetriebsmittel (4.1 - 4.64) mittels eines Datenkonverters (1) kontrolliert und gesteuert werden, indem die von der zentralen Steuervorrichtung (2) generierten Steuersignale von dem Datenkonverter (1) empfangen, ausgewertet und in Abhängigkeit von dem Ergebnis der Auswertung in Kommandos zur Steuerung der von dem Datenkonverter (1) kontrollierten Lampenbetriebsmittel (4.1 - 4.64) umgewandelt werden.
- Verfahren nach Anspruch 4, dadurch gekennzeichnet, dass mindestens zwei unterschiedliche Betriebsmodi des Datenkonverters (1) vorgesehen sind.
- Verfahren nach Anspruch 5, dadurch gekennzeichnet, dass gemäß eines ersten Betriebsmodus der Datenkonverter (1) die von der zentralen Steuervorrichtung (2) empfangenen Steuersignale in gleichartige Kommandos für alle von dem Datenkonverter (1) kontrollierten Lampenbetriebsmittel (4.1 - 4.64) umwandelt.
- Verfahren nach Anspruch 6, dadurch gekennzeichnet, dass der Datenkonverter (1) sowohl digitale Daten als auch analoge Steuersignale der zentralen Steuervorrichtung (2) auswertet und in gleichartige Kommandos für die von dem Datenkonverter kontrollierten Lampenbetriebsmittel (4.1 - 4.64) umwandelt.
- Verfahren nach Anspruch 5, dadurch gekennzeichnet, dass gemäß eines zweiten Betriebsmodus des Datenkonverters (1) die von der zentralen Steuervorrichtung (2) ausgesandten Steuersignale über den Datenkonverter (1), entsprechend einer Gruppenzugehörigkeit der von dem Datenkonverter ( 1 ) kontrollierten Lampenbetriebsmittel (4.1 - 4.64) von diesen Lampenbetriebsmitteln (4.1 - 4.64) empfangen und ausgewertet werden.
- Verfahren nach Anspruch 8, dadurch gekennzeichnet, dass die Gruppenzugehörigkeit der Lampenbetriebsmittel (4.1 - 4.64) während einer Inbetriebnahmephase der Beleuchtungsanlage festgelegt wird.
- Verfahren nach Anspruch 9, dadurch gekennzeichnet, dass während der Inbetriebnahmephase zunächst ein Inbetriebnahmeverfahren des Datenkonverters (1) gestartet wird, um die von dem Datenkonverter (1) kontrollierten Lampenbetriebsmittel (4.1 - 4.64) mit Adresscodes zu versehen, und anschließend ein Inbetriebnahmeverfahren der zentralen Steuervorrichtung (2) gestartet wird, um den Datenkonverter (1) und etwaige, unmittelbar von der zentralen Steuervorrichtung (2) kontrollierte Lampenbetriebsmittel (3.1 - 3.63) mit Adresscodes zu versehen, wobei zur Gruppeneinteilung der von dem Datenkonverter ( 1 ) kontrollierten Lampenbetriebsmittel (4.1 - 4.64), der Datenkonverter (1) von der zentralen Steuervorrichtung (2) so oft selektiert wird bis alle von dem Datenkonverter (1) kontrollierten Lampenbetriebsmittel (4.1 - 4.64) in Gruppen eingeteilt sind, und wobei bei jeder Selektion des Datenkonverters (1) sukzessiv ein von dem Datenkonverter (1) kontrolliertes Lampenbetriebsmittel (4.1 - 4.64) einer Lampenbetriebsmittelgruppe zugeordnet wird.
- Verfahren nach Anspruch 4, dadurch gekennzeichnet, dass der Datenkonverter (1) selbständig eine Status-Überwachung der an seinen Datenausgang (13) angeschlossenen Lampenbetriebsmittel (4.1 bis 4.64) durchführt.
- Verfahren nach Anspruch 11, dadurch gekennzeichnet, dass die Status-Überwachung der Lampenbetriebsmittel (4.1 bis 4.64) zyklisch, in regelmäßigen zeitlichen Abständen durchgeführt wird.
- Verfahren nach Anspruch 11, dadurch gekennzeichnet, dass Abfragen der zentralen Steuervorrichtung (2) nach dem Status der Lampenbetriebsmittel (3.1 bis 3.63, 4.1 bis 4.64) für die an den Datenausgang (13) angeschlossenen Lampenbetriebsmittel (4.1 bis 4.64) von dem Datenkonverter (1) beantwortet werden.
- Verfahren nach Anspruch 13, dadurch gekennzeichnet, dass Abfragen der zentralen Steuervorrichtung (2) nach den Eigenschaften der Lampenbetriebsmittel (3.1 bis 3.63, 4.1 bis 4.64) für die an den Datenausgang (13) angeschlossenen Lampenbetriebsmittel (4.1 bis 4.64) von dem Datenkonverter (1) mit einem vorgegebenen Standardwert für die jeweilige abgefragte Eigenschaft der Lampenbetriebsmittel (4.1 bis 4.64) beantwortet werden, wenn sich die Lampenbetriebsmittel (4.1 bis 4.64) bezüglich der jeweiligen abgefragten Eigenschaft unterscheiden.
- Verfahren nach Anspruch 13, dadurch gekennzeichnet, dass Abfragen der zentralen Steuervorrichtung (2) nach den Eigenschaften der Lampenbetriebsmittel (3.1 bis 3.63, 4.1 bis 4.64) für die an den Datenausgang (13) angeschlossenen Lampenbetriebsmittel (4.1 bis 4.64) von dem Datenkonverter (1) mit einem Referenzwert für die jeweilige abgefragte Eigenschaft beantwortet werden, wenn die Lampenbetriebsmittel (4.1 bis 4.64) bezüglich der jeweiligen abgefragten Eigenschaft identisch sind, wobei der Datenkonverter (1) als Referenzwert den Wert der jeweiligen abgefragten Eigenschaft eines von dem Datenkonverter (1) ausgewählten Lampenbetriebsmittels der an den Datenausgang (13) angeschlossenen Lampenbetriebsmittel (4.1 bis 4.64) verwendet.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE10345611 | 2003-09-29 | ||
DE10345611A DE10345611A1 (de) | 2003-09-29 | 2003-09-29 | Datenkonverter für eine Beleuchtungsanlage und Verfahren zum Betreiben einer Beleuchtungsanlage |
Publications (2)
Publication Number | Publication Date |
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EP1519634A1 true EP1519634A1 (de) | 2005-03-30 |
EP1519634B1 EP1519634B1 (de) | 2009-07-29 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP04019088A Active EP1519634B1 (de) | 2003-09-29 | 2004-08-11 | Datenkonverter für eine Beleuchtungsanlage und Verfahren zum Betreiben einer Beleuchtungsanlage |
Country Status (5)
Country | Link |
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US (1) | US7259528B2 (de) |
EP (1) | EP1519634B1 (de) |
AT (1) | ATE438284T1 (de) |
CA (1) | CA2482373A1 (de) |
DE (2) | DE10345611A1 (de) |
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DE10329876B4 (de) * | 2003-07-02 | 2016-06-02 | Tridonic Gmbh & Co Kg | Schnittstelle für ein Lampenbetriebsgerät mit niedrigen Standby-Verlusten und Verfahren zur Ansteuerung eines Lampenbetriebsgeräts über eine derartige Schnittstelle |
CA2559153C (en) * | 2005-09-12 | 2018-10-02 | Acuity Brands, Inc. | Light management system having networked intelligent luminaire managers |
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ATE438284T1 (de) | 2009-08-15 |
US7259528B2 (en) | 2007-08-21 |
DE10345611A1 (de) | 2005-04-21 |
US20050067982A1 (en) | 2005-03-31 |
EP1519634B1 (de) | 2009-07-29 |
DE502004009811D1 (de) | 2009-09-10 |
CA2482373A1 (en) | 2005-03-29 |
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