Source: https://patents.google.com/patent/WO2007062716A1/en
Timestamp: 2018-12-15 00:58:19
Document Index: 114959408

Matched Legal Cases: ['art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20', 'art 20']

WO2007062716A1 - Control system for several separately arranged consumers, especially lamp operating devices, and start-up method - Google Patents
Control system for several separately arranged consumers, especially lamp operating devices, and start-up method Download PDF
WO2007062716A1
WO2007062716A1 PCT/EP2006/009879 EP2006009879W WO2007062716A1 WO 2007062716 A1 WO2007062716 A1 WO 2007062716A1 EP 2006009879 W EP2006009879 W EP 2006009879W WO 2007062716 A1 WO2007062716 A1 WO 2007062716A1
PCT/EP2006/009879
Karlheinz Fenkart
Bernhard Klocker
Disclosed is a control system (1) for several separately arranged consumers (10), especially lamp operating devices. Said control system comprises at least one control station (5), a control line (2) that connects the control station (5) to each consumer (10), and a transceiver unit (11) which is allocated to each consumer (10) and is used for communicating with the control station (5). A service address via which the consumer (10) can be contacted by the control station (5) is assigned to each consumer (10). According to the invention, a memory part (20) that is separated from the consumer (10) is associated with each consumer (10) in order to store the service address, said memory part (20) being connected to the associated consumer (10) via the control line (2).
Steuerungssvstem for several arranged distributed consumers, in particular for lamp operating devices, and methods for commissioning
The present invention relates to a control system for operating a plurality of arranged distributed consumers, in particular for the operation of distributed lamp-operating devices. Furthermore, the present invention relates to a method for starting up of such a control system.
Lighting systems of modern design, which are particularly intended for lighting large buildings or installations, usually offer the option of turning the arranged in different areas of lighting not only arranged in the respective areas switch or dimmer on or off or adjust their brightness , Instead, it is also possible to remotely control the lights from a central control device from. This results in a comfortable illumination control for illuminating large buildings or complexes is achieved. Such illumination systems therefore typically have one or more control devices that can access and run the decentralized arranged in different areas and connected to a power supply network operating devices via commands. Often, a communication from the lamp operating devices is provided for the commander down to, for example, report back. Failure modes. In this way, not only a comfortable lighting control but also a reliable monitoring of the condition of the lighting system is made possible.
The control of the individual lamp operating device via an them individually assigned address via which they can be addressed by the central control unit. thereby operating addresses are preferably the so-called lamp operating devices. allocated that take into account, among other things, the arrangement of the light sources in different areas of the building to be illuminated. Here, there is in addition also possible to combine arranged in the various rooms light sources into groups which can be addressed jointly by the central control unit. Control systems for operating devices, which allow individual control of the equipment, work nowadays often under the so-called. DALI (Digital Addressable Lighting Interface) standard. This is a developed by the lighting industry interface for transmission of digital control commands between a central control unit and arranged distributed consumers. up to 64 lights can then be connected to a control station via a so-called. DALI bus, which luminaires are individually addressable. Since the respective lamp operating devices currently have no address operation in their manufacture and installation in the lighting system, it must be presented during an initialization procedure, which is carried out as explained below according to the DALI standard.
After installation of all lamp operating devices without regard to their spatial arrangement the devices of the individual lights are first to the DALI bus, that connected the control line. The subsequent shift supply of the lamp operating devices effected with voltage, that each lamp operating device generates an individual random address for itself. the command is then issued to notify the lamp operating devices with their random address whereby when the command generator is a list of all devices is applied internally, which also contains the information about which random addresses, the devices are respectively contactable from the central command generator.
Since these random address not yet taken into account the spatial arrangement of the lamp operating device, is then assigned to each of the planned for later operation operating address in a subsequent step the devices. This takes place in that the central control station first calls a first random address, with the result that the corresponding light is identified, ie, for example. Lights. Now, a person must determine in which room this lamp is located. Once the position has been determined, an appropriate feedback to the headquarters. Another person then the place and the group which reporting lamp in the control unit, with the result that this light then a suitable operating address is assigned. Successively all the random addresses are handled in this way until all lights an operating address has been assigned. This is stored in a respective memory of the lamp operating device.
Comparable procedures for assigning operating addresses for operating devices in larger illumination systems are known from EP 0766881 Al and EP 0433527 Al known. All these known methods are based on the principle that the lamp operating devices, first the position is not taken into account origin or random address to be called for identifying a reference, wherein a new operating address is assigned upon detection of this light of the actual position of the light then.
Although these known method for initializing larger illumination systems are problematic in finding a just identifying light can sometimes be very complicated, but these methods still are today used. However, they have, in addition also has the disadvantage that the regular operating address that was distributed as part of the initialization of the central command, is stored in each case in the relevant lamp operating device itself. Now, when an exchange of the corresponding light with the lamp operating device is required or the lamp operating device is to be replaced alone, the information on the actual operating address is lost. This is not a problem with a single exchanged lamp operating device, as it identifies from the control center in a relatively simple manner and with a new - can be powered operating address - namely the old regular. However, should more operating devices to be replaced at the same time, what may well be the case during maintenance work in larger lighting systems, there is an uncertainty. It is then no longer be determined from the control center, which the replaced lamp operating device which can have regular operating address. In this case, the entire system must be reprogrammed as a rule to assign all devices again suitable operating addresses.
The present invention is now based on the object to counteract the disadvantages described above. In particular, a control system for a plurality of intended arranged distributed consumers are provided in which the allocation and storage of the operational addresses occurs in particular after maintenance in an optimized manner.
The object is achieved by the specified in the independent claims invention. Advantageous developments of the invention are subject of the subclaims.
A first aspect of the present invention is based on the idea to assign a separate storage part to each consumer, which is provided for storing the corresponding operational address of the consumer and connected to the respective consumer via the control line of the control system. According to the first aspect of the present invention a control system for several distributed disposed consumers proposed in particular for lamp operating devices, the control system being assigned at least one control station, a control line which connects the command generator to the consumers, as well as with each consumer and to communicate with the having command generator provided for transmitting and receiving unit, and wherein each consumer an operating address is assigned, via which the consumer is contactable by the command transmitter. According to the invention it is provided that each consumer a separate part of the consumer memory is allocated to store the operational address, wherein the storage part is connected to the respective consumer via the control line.
The advantage of the inventive solution is that in the event that a consumer or a lamp operating device has to be changed, that it remains separate memory part in place in the system. This is connected to the control system after the change of the load, the storage part occurs automatically with the consumer in contact and supplies it with the correct operating address. Even after the change of several consumers no reinstallation of the control system more is therefore required as the proper operation addresses consumers are assigned automatically. In this way any maintenance work on the control system can be significantly simplified, since, after a change of the individual devices no centralized reallocation of operating addresses is required.
The address assignment for the initial commissioning of the system can take place in the system according to the present invention in a known manner as previously characterized, that the individual consumer is initially identified on the basis of provisional origin or random addresses and then in the context of an initialization process, as described at the outset are provided with regular operating directory. The function of the separate storage member of the invention, then, is to save the assigned consumers operational addresses in addition to provide the originally intended operating address in the event of a later change of the consumer to the new device.
According to a preferred embodiment of the present invention, however, the memory part, in addition to input devices for manually inputting an allocated to the consumer the operating address. In this case, the complex initialization procedure for initially placing the operating addresses is no longer necessary. Instead, a consumer can easily be assigned an operating address characterized in that it is manually entered into the memory part, and then the memory element transmits a corresponding information to the consumer. In this case it is no longer necessary to seek to identify by their provisional original or random address light. Instead, it is only necessary to connect the corresponding programmed memory parts of the bus line and the control line to put these into contact with the respective consumers.
The thought to make the operation address assignment by means of a memory part, in which the desired operating address is first manually programmed and that is subsequently connected to the load can be carried out in other regardless of whether the memory element is connected via the control line to the consumer or directly to the latter is connected.
According to a second aspect of the present invention, a control system for a plurality accordingly arranged distributed consumers, proposed in particular for lamp operating devices, which mapped at least one control station, a control line which connects the command generator to each consumer, as well as with each consumer and provided for communication with the command generator having transmitting and receiving unit, each consumer is assigned an operating address via which the consumer is contactable by the command generator, and wherein according to the invention is assigned to store the operational address the consumer a separate or separable from the load storing part which memory portion input elements for the manual input has an assigned to the consumer the operating address.
wherein an operating address is assigned in the process of each consumer, via which the consumer is contactable by the command generator of this aspect of the present invention further also relates to a method for starting a control system for several distributed consumers arranged, in particular lamp operating devices, and wherein the This results in address assignment, that the operational addresses of consumers to be entered manually in each memory parts which are connected to the respective consumer.
concerning Advantageous developments of the inventive concept described above, in particular the configuration of the storage part. It is preferably provided that in case that the memory element, the memory part is supplied during operation via the control line of the control system with energy is connected to the respective consumer via the control line. So the storage unit operates largely without power and takes significantly less power compared to the actual consumers of the control system. This has the consequence that the storage part of a lower load is exposed and, accordingly, has an extremely high durability. The memory part can thus easily "survive" more exchanged consumers.
However, since during the manual input of the operational address increased energy consumption is present, it is preferably provided that the memory element comprises a connection to the external energy supply for the programming operation. This connection can, for example, by at least one terminal of the storage portion to the control line (s) of the system are formed, and then connected during programming of this connection to an external power supply source. Alternatively, a separate connection may be provided on the preferably, the energy supply during the manual input of the operating address inductive.
Preferably, the storage portion further includes a display or a display for representing the programmed or stored operating address, it can be provided that the display and the display is activated only during the manual input of the operational address. In this way the energy consumption during the subsequent operation is significantly reduced.
Overall, therefore, a control system for several arranged distributed load is created which is much easier to maintain due to the use of memory parts according to the invention. In particular, it is no longer necessary after a change of several consumers, assign this as part of a complex allocation method new operating addresses. In the event that the memory element has input elements for manually entering an operating address, even a particularly simple initialization of the entire system is made possible.
The invention with reference to the accompanying drawings is to be explained in more detail. Show it:
FIG. 1 shows the basic structure of a control system according to the invention for a plurality of arranged distributed consumers; Fig. 2 shows a detail of the control system shown in Fig. 1 and
FIGS. 3a and 3b are views of a memory element according to the invention.
The invention will be explained below using the example of a larger illumination system. It should be noted, however, that the use of memory parts according to the invention is not limited to control systems for lamp operating devices and lamps. Instead, corresponding memory parts can be used whenever consumers are individually contacted via an operating address in larger control systems from a central location and is intended to ensure that a consumer of the same automatically under the correct address is located even after a replacement. For example, memory parts according to the invention may generally be used in home control systems which are provided for remote control of various devices. Under the term consumer therefore fall, for example, next to the lamp and control gear. Also blinds, heating or air conditioning units or monitoring devices.
The illumination system shown in Fig. 1 and generally designated by the reference numeral 1 is based on a provided with the reference numeral 2
Bus system comprising a central command generator 5 with individual
connects consumers. Consumers will in the present case
Lamps formed comprising on the one hand a lamp operating device 10 and the other part connected to said lamp operating device 10 lamp LA. All operating devices 10 are connected to the bus line 2 and have for this purpose a transmitting and receiving unit described later in greater detail. Through which a
Data exchange is possible with the central command generator. 5 Preferably, in the lamp operating devices 10 to electronic ballasts
(EBs) which operate them downstream gas discharge lamps LA, in particular fluorescent tubes.
As can be gathered from the illustration in Fig. 1, the different operating devices 10 are arranged in different rooms. In each case two lamp operating devices are combined into a group so that they can be controlled uniformly by the central command generator 5, if necessary. However, addition should also be empowered to control each individual lamp operating device 10 individually. The central command generator 5 therefore should have the possibility to realize light turned on and off or adjust their brightness. The transmission of control commands from the central command generator 5 to the individual lamps is preferably carried out according to the so-called. DALI standard. This is a specially developed by the luminaire industry interface for transmission of digital control commands, which opens the possibility of single individual lights on and off as well as to transmit dimming value in order to regulate the brightness of almost infinitely. This DALI standard has become increasingly widespread in recent times, since a more comfortable remote-controlled lighting control can be realized. It should be noted, however, that the present invention can in principle be used with any type of digital command transmission.
An individual activation of the individual lamps of the control system 1 is thereby allowing each lamp operating device 10 an operating address has been assigned. When DALI standard consists, for example, the ability to connect up to 64 lamp operating devices on the bus 2 to a central command generator 5. Each lamp operating device 10 in this case has its own operating address which forms a part of the information provided by the command generator 5 commands. Accordingly, each lamp operating device can automatically detect whether it is affected by a given on the bus line 2 command and to execute this or not 10th Furthermore, there is still the DALI standard in addition to the possibility of the individual lamp operating devices after they have been assigned an individual operating address to assign group addresses.
Since the lamp operating devices 10 do not yet have operational address in the initial assembly of the illumination system 1, such an initialization procedure must be assigned to them initially in the frame. When DALI standard into account the following procedure is provided:
a) After starting up the system initially generate all lamp operating devices to a corresponding request by the command generator towards a random address. This random addresses are sent to all of lamp operating devices to the central command generator 5, which first determines therefrom the lowest random address and under this random address the corresponding lamp operating device prompts to identify itself.
b) identifying the lamp operating device is effected by the associated lamp is driven in a suitable manner, so compared to the other lamps either on or off or modulated in their brightness. After the position of the lamp operating device has been determined in this manner, a corresponding operating address can be manually entered into the command generator 5, which then transmits this instruction address to the lamp operating device, which writes that address in a corresponding memory.
c) The following can be contacted also all other operating devices in this way and provided to their respective identification with an operating address. The control unit 5 sets this internally to a table 6 with the assigned operating addresses. Further, then the lamp operating devices also - if desired - an additional group address are transmitted.
This procedure for initialization and initial allocation of operating addresses for the lamp operating devices has proved to be effective, however, in spite of everything expensive, there's no telling which lamp operating device to the next is identified. So it may well be a case that one after all the rooms must be searched until the lamp is identified was determined. This elaborate procedure as still justified at a first use of the system 1, at later times, however, it should be ensured that the lamps permanently retain their assigned operational addresses.
Here, however, the problem arises that the operating devices 10 need to be replaced from time to time, as they have exceeded its service life or any defects have occurred. If now a lamp operating device 10 replaced, it is replaced by a like new, which still has of course no operation address. In the event that only a single device has been replaced, this can be assigned to relatively fast, a new operating address. However, should turn more than two devices to be replaced at the same time, there is the problem that they have to be consuming located and identified only initially.
To work around this problem, is now invention proposes to allocate the lamp operating devices 10 are each a memory part 20, which is used for additional storage of the allocated address. As explained below, this way it can be ensured that even when replacing the associated lamp operating device that automatically receives the correct operating address. First, a segment of the control system 1 of FIG. 1 will be explained with reference to FIG. 2. Shown here is the connection from the central command generator 5 via the bus line 2 to the lamp operating device 10, which is formed by an electronic ballast. As already explained, the lamp operating device to a transmitting and receiving unit 11, via which the device is connected to the bus line 2 and which is responsible for data exchange with the central control device. The signals received by the transmitting and receiving unit 11 control commands are supplied to a - forwarded control unit of the ballast 10, which controls the gas discharge lamp in accordance with these commands 11 - not shown. A prerequisite here is that the respective control command is addressed to the lamp operating unit 10 due to the attached operating or group address. For this purpose, the lamp operating device 10 has an internal memory 12, which are stored in the assigned operating and group addresses.
Compared to conventional lighting systems, now, the inventive system differs in that the lamp operating device 10, a storage part 20 is assigned, which also has a memory 21st The main task of the storage part 20 is also to save the associated lamp operating device 10 assigned operating address. This storage part 20 includes, so to speak as a backup address information, which are stored in the memory 12 of the lamp operating device 10th For the regular operation of the system will be affected not directly, since still communication between the command generator 5 and the transmitting and receiving unit 11 of the lamp operating device 10, whereby the memory element 20 preferably has no influence on the data exchange. The bus line 2 extends, accordingly, by the storage part 20. Alternatively, however, the memory part could forward 20 and active data received.
Now, if the lamp operating device 10 replaced due to maintenance, no costly reallocation of an operating address more is now needed. Instead, the memory element 20 occurs with the new operating device 10 in contact and this transmitted assigned to the previous device operating address. The new device can therefore directly assume the function of the previous device.
It should be noted that in this first embodiment, the memory part 20 is not physically connected to the lamp operating device 10, but only via the bus line 2. Thus, the communication between the two units is again exclusively via this bus line 2. In order for the memory part 20 the replaced now with the lamp operating device 10 and communicate this can transmit the stored operating address, it is first necessary again that the memory part 20, the new Vorlampenbetriebsgerät 10 can contact a temporary address. Here, the circumstance is used that lamp operating devices that operate in accordance with the DALI standard generate, after initial connection to a larger lighting system or to the power supply automatically a provisional original or random address which now recognized by the the lamp operating device 10 upstream storage part 20 becomes. The memory part 20 stores these temporary address and uses it to contact and the previously stored regular operating address notified in the subsequent step the lamp operating device 10th The advantage of this approach is that the exchange of information and ultimately the transmission of actually operating address without the intervention of maintenance personnel takes place. Also, a larger number of lamp operating devices can thus be replaced within the illumination system 1 easily, and is then accessible under the usual operating address.
Another essential characteristic of the memory element 20 is that it operates with little power and exclusively via the bus line 2 of the
The illumination system 1 is supplied with energy. Unlike the
Lamp operating device, which takes up considerably more power and developing to a separate - not shown - connected current verso approximate network, operates the
Memory part 20 largely without power or little power, with the result that damage to the memory part 20 occur over time much less frequently.
This ensures that the storage part 20 also has a longer
Period saves the operating address for the associated lamp operating device, and this is again available even with a repeated exchange of the operating device. An advantage of this is that the memory element is required only during a communication with the associated lamp ballast energy, however, remains passive during further operation.
In the embodiment which has been described with reference to FIGS. 1 and 2, the original initialization of the lighting system was carried out in a conventional manner. That is, all lamp operating devices 10 assigned to their corresponding identification from the control center an operating address. An alternative solution is shown now in FIGS. 3a and 3b, which, however, in turn is based on the idea of ​​using an additional storage part. The peculiarity of the in Figs. 3a and 3b, the memory element 20 shown is that this provides the possibility of entering an operating address for the associated lamp operating device manually. For this purpose, in Figs. 3a and 3b illustrated memory section 20 input elements 26 and 27 in the form of pushbuttons on which permit a gradual adjustment of the operating address shown in a display 25. Using this measure, it is no longer necessary to perform the initialization and start-up of the lighting system in the manner described above. Instead, the assignment of the operational addresses to the entire operating devices can now be done in a simple manner in that in each case a corresponding storage part is manually provided with the desired address operation and then the storage part is connected to the bus line 2 twentieth The effort here is much lower than with the classic initialization procedure, since it is no longer necessary to seek the just identifying light. Instead, each lamp operating device can be assigned a position in the relevant area to be illuminated building operating address in a systematic way, with the resulting complexity for this is significantly lower. Of course, the possibility would exist that saved 20 first be connected to the bus 2 and then program the operating address.
The idea of ​​the address assignment for the lamp operating devices through manual programming of a memory element is independent of whether the memory element 20 is connected directly to the lamp operating device 16 or connected to it only via the bus line in the other. Appropriate programming would for example. Also makes sense if the saliva part is previously or subsequently physically, that is directly connected to the lamp operating device.
Once, however, is still desired that the storage part operates largely without power, additional measures are now provided to power the from the bus system 2 or the lamp operating device 10 decoupled storage part 20 during the programming of the operating address of energy. In the in Figs. 3a and 3b the embodiment shown an easy-to-use power supply element in the form of a battery powered supply pin 40 is provided for this purpose, which can be connected with its tip to a corresponding terminal 28 of the memory part 20. Once the pin has been inserted into the corresponding recess of the terminal 28 40 is inductive energy transfer to the storage part 20, which is sufficient to perform the programming. continue to save energy, it can be provided that the display 25 is only active during the programming process.
As an alternative to the specific terminal 28 for supplying power to the terminals of the storage portion 20 might also for connection to the bus line 2 for the
Power supply is used. Within the storage portion 20 is then preferably still a small energy storage circuit arranged in the form of a capacitor, which in the case of a turned off bus system ensures a sufficient supply voltage for storing the operating address at least for a predetermined period of time. It is essential, however, that the
Memory part is not a power supply for the nachgestaltete lamp operating device.
Total will accordingly be noted that the present invention provides a novel way to address assignment or address storage in a larger lighting system is provided. Here, first to ensure that it is ensured even after a change of the corresponding load that it automatically obtains its associated regular operating address.
Using the additional option of manual programming of the storage part a completely new and elegant way for the award of operating addresses is even created.
1. Control system (1) for a plurality of arranged distributed load (10), in particular lamp operating devices, with • at least one control station (5),
• a control line (2) which connects the command generator (5) to each consumer (10), and
• a each consumer (10) associated with and for communication with the control station (5) provided for send and receiving unit (11), wherein to each consumer (10) is assigned an operating address via which the
Consumer (10) by the command transmitter (5) is contactable, characterized in that each consumer (10) separately one from the consumer (10) memory part
(20) is assigned to store the operational address, wherein the storage portion (20) with the corresponding consumer (10) via the control line (2).
2. Control system according to claim 1, characterized in that the energy supply of the storage part (10) takes place during the operation of the control system (1) via the control line (2).
includes 3. Control system according to claim 1 or 2, characterized in that the memory element (20), input elements (26, 27) for manually inputting the associated load (10) assigned operating address.
4. Control system (1) for a plurality of arranged distributed load (10), in particular lamp operating devices, with
• at least one control station (5), • a control line (2) which connects the command generator (5) to each consumer (10), and
• a each consumer (10) associated with and to communicate with the control devices provided (5) send and receive unit (11), wherein to each consumer (10) is assigned an operating address via which the load (10) by the command transmitter (5) is contactable, characterized in that each consumer (10) is one of the consumer (10) separate or separable storage part (20) allocated to store the operational address, wherein the storage part (20) input members (26, 27) for manually inputting the having associated loads (10) assigned operating address.
has 5. Control system according to claim 3 or 4, characterized in that the memory element (20) has a connection (28) for external power supply during the manual input of the operational address.
6. Control system according to claim 5, characterized in that the connection to the external power supply by at least one terminal of the storage part (20) to the control line (2) of the control system (1) is formed.
7. Control system according to claim 5, characterized in that the energy supply during the manual input operation of the address takes place inductively.
8. Control system of any preceding claim, characterized in that the memory element (20) comprises a display or a display (25) for displaying the stored operating address.
9. Control system according to one of claims 3 to 7 and claim 8, characterized in that the display or display (25) only during the manual input of the operational address is selected.
10. Control system according to one of the preceding claims, characterized in that the data transmission takes place in accordance with the DALI-standard.
11. Memory part (20) for use in a control system (1) for a plurality of arranged distributed load (10), in particular lamp operating devices to which operation addresses are assigned, via which it (by a command transmitter (5) of the control system (1) via a bus line 2) are contactable, wherein the storage part (20 having) connecting means for connection to a load (10) of the control system (1) and a memory (21) for storing the respective operational address, and wherein the connecting means to a terminal of the memory section (2) allow the bus line (2).
comprises 12 storage portion according to claim 11, characterized in that the memory element (20), input elements (26, 27) for manually inputting the associated load (10) assigned operating address.
13, the storage part (20) for use in a control system (1) for a plurality of arranged distributed load (10), in particular lamp operating devices, which
are assigned to operating addresses through which they are contactable by a command transmitter (5) of the control system (1), wherein the storage portion (20) comprising:
• connection means for connecting to a load (10) of the control system (1),
• a memory (21) for storing the respective operational address and
• input elements (26, 27) for manually inputting the associated load (10) assigned operating address.
(28) 14 storage portion according to claim 12 or 13, characterized in that the memory element (20) has a connection to the external power supply during the manual input of the operational address.
15, storage part according to claim 14, characterized in that the connection to the external power supply by at least one terminal of the storage part (20) to a control line (2) of the control system (1) is formed.
16, storage part according to claim 14, characterized in that the energy supply during the manual input operation of the address takes place inductively.
17, storage part to one of claims 11 to 16, characterized in that the memory element (20) comprises a display or a display (25) for displaying the stored operating address.
18, storage part according to any one of claims 12 to 16 and claim 17, characterized in that the display or display (25) only during the manual input of the operational address is selected.
19. A method for starting a control system (1) for a plurality of arranged distributed load (10), in particular lamp operating devices, with each consumer in the process (10) is assigned an operating address via which the load (10) by the command transmitter (5 ) is contactable, characterized in that for allocation of the operating addresses these are manually programmed in each memory parts (20) which are connected (with the corresponding consumer 10) or are connected to the input of the operating addresses.
20. The method according to claim 19, characterized in that the storage members (20) to the respective consumer (10) connected respectively in an all consumers (10) control line system (2) are connected upstream.
PCT/EP2006/009879 2005-11-30 2006-10-12 Control system for several separately arranged consumers, especially lamp operating devices, and start-up method WO2007062716A1 (en)
DE102005057068.2 2005-11-30
DE200510057068 DE102005057068A1 (en) 2005-11-30 2005-11-30 Control system for several distributed consumers arranged, in particular lamp operating devices, and methods for commissioning
EP20060806234 EP1955578B1 (en) 2005-11-30 2006-10-12 Control system for several separately arranged consumers, especially lamp operating devices, and start-up method
US12095443 US8326441B2 (en) 2005-11-30 2006-10-12 Control system for a plurality of consumers arranged in a distributed manner, in particular for lamp operating devices, and methods for putting into operation
CN 200680045083 CN101322442B (en) 2005-11-30 2006-10-12 Control system for several separately arranged electric equipments, especially lamp operating devices, and start-up method
WO2007062716A1 true true WO2007062716A1 (en) 2007-06-07
ID=37606885
PCT/EP2006/009879 WO2007062716A1 (en) 2005-11-30 2006-10-12 Control system for several separately arranged consumers, especially lamp operating devices, and start-up method
US (1) US8326441B2 (en)
EP (2) EP2312913B1 (en)
CN (1) CN101322442B (en)
DE (1) DE102005057068A1 (en)
WO (1) WO2007062716A1 (en)
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EP2312913A2 (en) 2011-04-20 application
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DE102005057068A1 (en) 2007-06-06 application
US8326441B2 (en) 2012-12-04 grant
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US20080288119A1 (en) 2008-11-20 application
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