EP0950935A1 - Control device for multiple lamps - Google Patents

Abstract

The arrangement (10) includes at least one input device (11) for an entry of lighting information, which is connected over a common signal transmission arrangement (12) with several signal processing- and memory modules (13). The modules control several separate circuits (14, 15) connected to respective lighting elements (17, 18, 19), whereby each input device can receive lighting information for each lighting element. The arrangement (10) includes at least one input device (11) for an entry of lighting information, which is connected over a common signal transmission arrangement (12) with several signal processing- and memory modules (13) which store the transferred signals, at least partially as lighting information. The modules control several separate circuits (14, 15) connected to respective lighting elements (17, 18, 19), whereby each input device can receive lighting information for each lighting element. The respective input device sends the lighting information as signals over the signal transmission arrangement, along with a signal address to all signal processing- and memory modules. Each module examines autonomously, through comparison of its respectively own address with the signal address, whether a lighting element connected to it is affected, and stores this signal as lighting information at a positive result.

Description

The invention relates to a device for Control of a plurality of lighting elements, especially for controlling light scenes, with at least one input device for the input of Illumination information via a signal transmission device with multiple signal processing and Memory modules connected to which the transferred Signals at least partially as lighting information available, save to the Signal processing and memory modules several separate, leading to the lighting elements Circuits are connected which can be controlled by the signal processing and storage modules.

Such a device by the applicant is known as EOS, but in print not verifiable. Here is just one Input device provided that is designed to be mobile and by the user in the room concerned transported and operated there. Thereby is programming a large number of lighting elements, for example in different Clear relatively complicated.

Another comparable device for Control of a plurality of lighting elements is in the DE-Z "The master electrician and German Elektrohandwerk ", 1995, No. 24, page 2212 to page 2216. The one with an Instabus EIB as Signal transmission device operating device includes a REG bus coupler, which centrally Saves light scenes. Programming the light scenes is only through a central input device possible. Here there is a large number of connected Lighting elements the problem that particular in large halls at the desired simultaneous Switch on all lighting elements sets undesirable "running effect" of the light, because the individual lighting elements temporally be addressed one after the other. It is fundamental already known, several REG bus couplers to be provided (column 1, p. 2214, 6th full paragraph, loc. cit.). On the causal relationship of these REG bus couplers however, the bus system is not considered.

It is an object of the invention, starting from the above-mentioned literature a device for Control of a plurality of lighting elements to create according to the preamble of claim 1, the connection and control of a variety of Lighting elements allows flexible handling and prevents malfunctions.

The invention solves this problem with the features of claim 1, in particular those of the characterizing part and is accordingly characterized by that multiple input devices to the common Signal transmission device are connected that lighting information on each input device can be entered for each lighting element that the respective input device the lighting information as signals via the signal transmission device together with a signal address to everyone Sends signal processing and memory modules, each signal processing and storage module each by comparing his own address with the signal address automatically checks whether one is connected to this Signal processing and memory module connected Lighting element is affected, and where only after a positive test the signal processing and storage module this signal as lighting information available stores.

The principle of the invention is essentially therein, a device that can be organized decentrally to make available, on the one hand from all input devices all lighting elements are responsive and on the other hand those for Control of these lighting elements necessary Information decentrally on a particularly skillful Only be stored in the signal processing and memory modules concerned. The Programming of light scenes is therefore everyone Input device possible. That way you can input devices in several rooms be installed so that a convenient input each is possible in the room or area for which a light scene is provided. The decentralized storage has the advantage that none are superfluous Information is saved and lots of storage space for a large amount of lighting information is available.

For calling up the lighting information stored in the respective signal processing and storage modules only need small amounts of information, namely only identification information about the Signal transmission device are transported, because the lighting information required for a light scene is already in the associated signal processing and storage module. The respective signal processing and memory modules check whether their address matches the signal address and can then directly and quickly Switch affected, connected circuits and the corresponding lighting elements head for.

Multiple signal processing and storage modules can very much to call up a light scene fast, namely in parallel and thus simultaneously Check the address and then the switch the connected circuits so that even with a very large number of lighting elements no time delay of a signal flow and thus no running effect occurs.

At the same time by the invention Solution the effort for cabling was kept low, because the lighting elements are spatially close to them Signal processing and memory modules connected be able to work on a single, common signal transmission device connected are. Because via the signal transmission device only signals can be transmitted, this can be used operate at a very low voltage, whereby the assembly effort is reduced.

According to an advantageous embodiment of the Invention is a light scene identifier for the signal assigned that the respective signal processing and Memory module together with the lighting information available stores. This will make it special simple way of assigning certain Illumination information for a light scene created, and easily with the lighting information stored in the associated signal processing and storage module.

According to a further advantageous embodiment the invention is for retrieving a stored Light scene a scene signal on each input device can be entered, the input device via the Signal transmission device sends to all signal processing and storage modules, and each Signal processing and memory module separately that Scene signal with the saved light scene identifiers compares and, if they match, the corresponding ones connected lighting elements via the Control circuits. This enables a special easy retrieval of every light scene from all input devices from, to the recall of a light scene only the scene signals, and therefore low Amounts of information about the signal transmission device must be sent.

According to a further advantageous embodiment the invention is used as a signal transmission device a conventional bus such as LON (Local Operating Network) bus used, with the signal address part is the signal variable itself. The usage of a conventional bus allows use already developed, commercially available and thus cheaper components. Typical for a LON Addressing the number of possible addressees is principally limited and circuits are not individually can be controlled, becomes an address component integrated into the transmission variable itself.

According to a further advantageous embodiment of the invention are to the signal transmission device Extensions connected, at least Scene signals can be entered. As extensions are Devices with very little construction are provided, with which light scenes can be called up. Because the construction is significantly less complicated than one Input device, in the simplest case, can only one or more switches may be provided which are operated manually and via one or, if necessary multiple light scenes are available. It is especially thought of in large halls for example an input device for programming the light scene and several, preferably in the Provide extensions located near each entrance to the hall.

Fig. 1 in schematischer Darstellung einen beispielhaften Aufbau für eine erfindungsgemäße Vorrichtung zur Steuerung einer Mehrzahl von Beleuchtungselementen mit zwei Eingabevorrichtungen, drei Nebenstellen und zwei Signalverarbeitungs- und -Speichermodulen,

Fig. 2 in schematischer Darstellung nach Art eines Blockdiagramms ein Signalverarbeitungs- und -Speichermodul, und

Fig. 3 schematisch die Anschlüsse eines Signalverarbeitungs- und -Speichermoduls gemäß Fig. 2.

Further advantages result from the additional subclaims and from the following description of an embodiment shown in the drawings. The drawings show:

1 shows a schematic illustration of an exemplary structure for a device according to the invention for controlling a plurality of lighting elements with two input devices, three extensions and two signal processing and storage modules,

Fig. 2 shows a schematic representation in the manner of a block diagram of a signal processing and memory module, and

3 schematically shows the connections of a signal processing and memory module according to FIG. 2.

1 in its entirety with 10 designated device includes according to the example illustrated embodiment two input devices 11, via a common signal transmission device 12 are interconnected. The signal transmission device 12 can in the simplest case a two-wire electrical Act line. According to the invention there is provided a to use a four-wire cable with two Wires the power supply is supplied and where the other two wires of signal transmission to serve.

Also to the signal transmission device According to FIG. 1, 12 are connected two signal processing and memory modules 13. Not shown is a to the common signal transmission device 12 connectable interface for a computer, for example a V24 interface.

Each signal processing and storage module 13 has a limited number of analog outputs 14 and switching outputs 15. The analog outputs 14 are circuits for connecting, for example external dimming modules 16 for dimmable lights 19, electronic ballasts 17 or the like Devices. The switching outputs 15, however, serve electrical connection of power relay 20 for the Control of non-dimmable lights 18, blackouts or canvases.

From the two input devices 11, the for example arranged in two different rooms can be all lighting elements 17, 18, 19 can be controlled individually. Over a menu driven keyboard 21 can be a variety of Lighting information such as brightness values, Fading times and other special information, for example for the control of blackouts can be entered. This information is provided by the Input device 11 to the common signal transmission device 12 emitted and there as signals to all signal processing and storage modules 13 Posted. The program for menu-driven programming is stored in the input device 11. When entering the lighting information in the Input device 11 is the information by means of an electronic circuit immediately one Assigned signal address, which is an assignment of the Information about a specific circuit, so a specific analog output 14 or switching output 15 allows.

The signal passes through the signal transmission device 12 to each signal processing and Memory module 13, which has its own, for that respective signal processing and storage module 13 has a special address. When receiving a signal checked every signal processing and Memory module 13 by comparing its own Address with the signal address associated with the signal automatically and independently, whether a circuit associated with this signal processing and storage module 13 14, 15 of the lighting information received as a signal is affected. If not If so, the signal processing and unfolds - Memory module 13 no further activity and returns back to its idle state to receive waiting for a new signal.

If the addresses are checked, that an analog output 14 or a switching output 15 this signal processing and storage module 13 is affected, this signal is used as lighting information in the signal processing and Memory module 13 stored.

One can be saved as a light scene in principle a very large amount of lighting information for different lighting elements 17, 18, 19. For calling up a light scene, for example via the keyboard 21 of an input device 11 a scene signal can be entered, which via the signal transmission device 12 from all signal processing and storage modules 13 Will be received. As with the lighting information in the respective signal processing and Memory module 13 stores a light scene identifier is, any signal processing and Memory module 13 for the received scene signal with the saved light scene identifiers to compare. If they do not match, take the relevant signal processing and Memory module 13 no further activities before and returns to an idle state in which the Waiting for further signals.

Is the received light scene signal correct with the stored light scene identifier match, so the corresponding connected lighting elements 17, 18, 19 via the analog outputs 14 and Switching outputs 15 controlled.

1 in the embodiment three extensions 22 are also provided, the fewer are designed as complex as the input devices 11. They do not include a display, show however also a keyboard 23 with which on simple way, e.g. manually saved light scenes can be accessed.

An advantage of the control device according to the invention 10 also consists in that the input devices 11 can be arranged spatially separate from the signal processing and storage modules 13 can. This increases the wiring effort reduced because of the connection of the individual lighting elements 17, 18, 19 the respective signal processing and storage module 13 on one of the lighting elements 17, 18, 19 near place and the input device 11 at one convenient for the user accessible, different place in a building can be. For the connection between the input devices 11 and the signal processing and - Memory module 13 is only the four-wire line relocate. In this way, the invention Light control device modular with one small number of building blocks.

The structure of a signal processing and storage module 13 according to the invention is exemplified in FIG Fig. 2 shown. The heart of the signal processing and storage module 13 is the microprocessor module 24, the LON chip 3150, commercially in Trade is available. With the block 24 is a Bus coupling unit 25 connected as an FTT10A module is also commercially available. Of the Bus coupler 25 is directly connected to the signal transmission device 12 connected. Reference information You can use these two building blocks, for example can be obtained from Echelon GmbH, 58598 Baldham. In principle, other bus couplers 25 and other microprocessors 24 are used.

Within the signal processing and Memory module 13 is a special second bus 26 provided that in the embodiment according to Art a MUX protocol works. Information about this Protocol or alternative protocols for example the one published by Echelon "Neuron Chip Databook", Feb. 1995, taken become. On this second bus 26 are an address decoder 27, galvanic isolating elements 28, digital / analog converter 29, a memory unit 30 for address storage and an address switch 31 connected.

Within the signal processing and storage module 13 is also an internal power supply 33 provided.

A switching stage 42 shown with the switching output 15 and an amplifier module 43 with the analog Output 14 are only examples of one Variety of possible circuits and related Elements 42, 43 shown.

Special galvanic isolating elements 28 are only between the second bus 26 and the switching outputs 15 necessary. For the area between that Digital / analog converter 29 and the analog connecting line 14 no electrical isolation is required, because here the electrical isolation of the power supply, or the bus coupling unit 25 can be.

Storage of lighting information in the signal processing and storage module 13 takes place in the storage unit 30. Here is a special battery storage 32 is provided, the one permanent storage of lighting information, especially if the central power supply fails 44 guaranteed. The assignment of lighting information to the individual analog outputs 14 and switching outputs 15 take place in the address decoder 27. In addition, an address switch 31 is provided the setting of device or group address enables.

Within the signal processing and Memory module 13 is also in the microprocessor 24 software saved that immediately all functions like changing brightness that Control of canvases or blackouts, etc. executes when using the input devices 11 is asked to do so. So it's not just one Storage of lighting information in the Signal processing and storage module 13 possible, but also a direct response of the individual analog outputs 14 and switching outputs 15.

Fig. 3 shows an overview of various Signal processing and connections - Memory module 13. A service button is shown schematically 34 shown with an LED display 34a, the Informs users about the status of the LON chip. There is also a battery monitoring display 35 provided, as well as a reset button 36. The reset button 36 causes the software to restart when actuated and a return to the last lighting state. The in the signal processing and storage module 13 saved lighting information remains receive. 3 in the embodiment two switches 37, 38 for selectable setting of the Addressing type provided. In the upper with respect to FIG. 3 Field of signal processing and Memory module 13 are the voltage connections 39, the bus connections 40 and the output terminals 41 for Control of the external relay 20 indicated.

The detailed structure of an input device 11 is not shown in the drawings. It deals itself like the signal processing and Memory module 13 to a separate device in which a Circuit board with several electronic components added is. The direct application to the Signal transmission device 12 is carried out as in the Signal processing and storage module 13 via a FTT10A bus coupler and a LON 3150 chip this circuit arrangement is however a additional microcontroller SAB 80535 from the company Siemens. With this microcontroller are a clock module, several I / O interface modules (input / output devices) and a display, preferably a LCD display connected. In addition, with the Microcontroller three memory modules, an EPROM for permanent storage of the software, another EPROM for storing the menu and a separate RAM module connected for storing data. Especially the signal addresses are saved here that the input device when calling up a desired light scene 11 automatically the corresponding Signals via the signal transmission device 12 sends all signal processing and memory modules 13.

In addition, in every input device an infrared receiver module, for example a programmed PIC 16C58, connected to the microcontroller, to receive from an infrared remote control emitted infrared waves. To this Way, a user can use appropriate infrared remote controls saved in a very flexible way Call up light scenes.

Claims (8)

Device (10) for controlling a plurality of lighting elements (17, 18, 19), in particular for controlling light scenes, with at least one input device (11) for entering lighting information, which is transmitted via a signal transmission device (12) with a plurality of signal processing and storage modules (13), which at least partially store the transmitted signals as lighting information, with several separate circuits (14, 15) leading to the lighting elements (17, 18, 19) connected to the signal processing and storage modules (13) which can be controlled by the signal processing and storage modules (13), characterized in that a plurality of input devices (11) are connected to the common signal transmission device (12), that lighting information for each lighting element (17, 18 , 19) can be entered that the respective input device (11) sends the lighting information as signals via the signal transmission device (12) together with a signal address to all signal processing and storage modules (13), each signal processing and storage module (13) automatically checking by comparing its own address with the signal address whether a lighting element (17, 18, 19) connected to this signal processing and storage module (13) is affected, and the signal processing and storage module (13) stores this signal as lighting information only after a positive test. Device according to claim 1, characterized in that the signal has a light scene identifier is assigned, which the respective signal processing and storage module (13) together with the Stores lighting information in a retrievable manner. Device according to claim 1 or 2, characterized characterized in that to retrieve a stored Light scene on each input device (11) a scene signal can be entered, the input device (11) via the signal transmission device (12) all signal processing and storage modules (13) sends, and that each signal processing and - Storage module (13) separately with the scene signal saved light scene identifiers and compares Match the corresponding connected Lighting elements (17, 18, 19) via the circuits (14, 15) controls. Device according to one of the preceding Claims, characterized in that as a signal transmission device (12) a conventional bus, how LON bus is used, the signal address Is part of the signal variable itself. Device according to claim 3, characterized in that to the signal transmission device (12) extensions (22) are connected to which at least scene signals can be entered. Device according to one of the preceding Claims, characterized in that several Signal processing and memory modules (13) into one Group can be summarized and their lighting elements (17, 18, 19) programmable and addressable as a group are that for setting a group address on Signal processing and memory modules (13) for example manually operated address switch (31, 37, 38) is provided that the signal addresses a group address is assigned to this, and that at in the group addressing position Address switches (31, 37, 38) of each signal processing and storage module (13) with testing of Signal address the group address with a set one Device group address compares and only if they match, the signals as lighting information saves. Device according to one of the preceding Claims, characterized in that each signal processing and storage module (13) has a microprocessor (24), such as LON chip 3150, includes the one with the signal transmission device (12) a bus coupler (25), such as FTT10A component and on the other hand via a second bus (26) at least with digital / analog converters (29) and / or galvanic isolating elements (28) is to which each of the circuits (14, 15) connect the lighting elements (17, 18, 19). Device according to claim 7, characterized in that between the second bus (26) and Switching stages (20) for switching circuits (15) galvanic Separating elements (28) are arranged.

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