EP3182800B1 - Operating device for an illumination system - Google Patents

Description

The present invention relates to an operating device for operating devices in a lighting system. The invention also relates to a lamp having this operating device.

The lighting system is designed as a bus system with addressable operating devices and can be constructed, for example, in accordance with the DALI (Digital Addressable Lighting Interface) standard for controlling operating devices.

In a DALI system, control devices such as switches, dimmers, scene and group controllers are connected to operating devices for actuators and lamps via a bus system. The operating devices receive control signals addressed to them from the control devices via the bus system and control the actuators and lamps according to the control signals. DALI differentiates, for example, between operating devices for fluorescent lamps (device type 0), emergency lighting with self-contained batteries (device type 1), discharge lamps (device type 2), low-voltage halogen lamps (device type 3), supply voltage regulators for incandescent lamps (device type 4), conversion of the digital signal into a DC voltage (device type 5), LED modules (device type 6), switching function (device type 7), color control (device type 8) and sequencer (device type 9).

During commissioning, each operating device is assigned an address and the respective operating device type Registration of the operating device queried in the bus system in order to determine the functionality of the operating device and thus also the control signals to be used for this operating device. According to the specific functionality, such as dimmable or color controllable, certain functions, such as dimming or simulating the course of daylight with adjustment of the color temperature, can be configured for an operating device. The functionality of the control gear is evolving, as is the number of types of control gear.

A problem now is that in older installed systems there can be control devices that are only compatible with certain types of control gear, i.e. can only transmit control signals that correspond to the specification of these specific types of control gear and which consequently require a control gear of a new type, e.g. with the functionality a color control, cannot be controlled. It is therefore necessary to keep and produce different types of operating devices, which is complex and expensive.

The pamphlet U.S. 2008/0276154 A1 discloses a digital lighting control network protocol for controlling luminaires.

The pamphlet DE 10 2006 054 785 A1 discloses a system for operating an electric lighting device.

The pamphlet WO 2005/117503 A1 discloses a building management system for controlling a plurality of distributed actuators, consisting of a central Control unit and at least one actuator controlled by the central control unit.

The pamphlet DE 10 2015 207331 A1 discloses a method for addressing lamp operating devices.

The pamphlet WO 2015/168719 A2 discloses an operating device for an LED module with at least one light-emitting diode, which includes an evaluation circuit set up to automatically detect a type of LED module.

The invention is therefore based on the object of creating an operating device that reduces the problems described. In particular, the task is to provide an operating device and a lamp for operating at least one device connected to the operating device, with which the risk of incompatibility of the operating device with a lighting system can be reduced.

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

The invention is described in the appended set of claims.

According to the present invention, the operating device for operating at least one device in a lighting system has a control device for controlling the operating device at least according to a first type of operating device and means for converting a received control signal for controlling a second type of operating device into a control signal for controlling the first type of operating device. Thus, the operating device, which can be operated at least according to a first type of operating device, ie by a control signal provided for such operating devices, can also be controlled by control devices that are compatible with the second or both types of operating device.

The operating device can contain an electronic ballast for gas discharge lamps or fluorescent lamps and/or a converter for organic or inorganic light-emitting diodes (LED, OLED).

According to an example not covered by the subject matter of the claim, the control device can also be designed to control the operating device optionally also according to the second type of operating device, with the means for converting a control signal being additionally designed to convert a received control signal for controlling the first type of operating device into a control signal for Implement control of the second type of operating device. Such an operating device can be operated selectively as a first or second type of operating device.

The control gear can have at least a first connection and a second connection for coupling to the lighting system, wherein the control gear when connected to the system via the first (or second) connection as a control gear of the first type of control gear and via the second (or first) connection as an operating device of the second Operating device type is identified. Thus, the type of control gear to be revealed to the lighting system can be determined by a simple selection of the connections. If the operating device can also convert or process control signals from other types of operating device, further connections for identifying the type of operating device with respect to the lighting system can of course also be provided in addition to the first and second connection.

According to an example not covered by the subject-matter of the claim, if the first connection and the second connection are connected to the lighting system, the control gear can identify itself to the lighting system as two control gears of the second type via the two connections connected to the lighting system.

It is also possible for the operating device to identify itself to the lighting system at least as a first or second type in accordance with a received setting signal. According to an example not covered by the subject matter of the claim, the setting signal can be generated by a switch located on the operating device and can trigger the software-side adjustment.

According to an example not covered by the subject matter of the claim, the operating device can have at least a first channel, i.e. the first output connection for connecting one or more lamps and a second channel, i.e. the second output connection for connecting one or more lamps and be designed to to operate the lamps connected to the first and second output connection separately from one another.

The control signal according to a first specification for controlling the first type of operating device can have information for setting an overall intensity and a relative intensity of the two channels to one another, with the control device being designed to use the voltage and/or the to control the current output according to this information.

The means for converting a control signal is designed to convert a received control signal according to a second specification, which has information for controlling the light intensity for a channel for driving the second operating device type, into a control signal which has the information for controlling the overall intensity and the relative intensities , to implement the control of the first type of operating device, wherein the control device controls the respectively output voltage and/or the output current from the first output connection and the second output connection accordingly.

According to an example not covered by the subject matter of the claim, the control device can also be designed to, upon receipt of a corresponding control command, operate the operating device with respect to the lighting system as a first operating device of the second operating device type and at the same time as a second operating device of the second To identify the type of operating device and to control the voltage and/or the current delivered by the first output terminal according to the intensity specified by a received control signal assigned to the first operating device and the voltage and/or the voltage delivered by the second output terminal to control the current emitted according to the intensity predetermined by a received control signal assigned to the second operating device. With this configuration, the operating device can be used by the lighting system like an operating device of the first type by means of a light mixture connected to the first and second output connection of differently colored illuminants or can be controlled as two independent operating devices of the second type for direct and indirect lighting.

Additionally or alternatively, the operating device can have means for detecting at least the temperature of a light source connected to the first output connection and the temperature of a light source connected to the second output connection, with the control device being designed to detect the light source connected to the first output connection and that to the second Output terminal to control connected bulbs according to the respective detected temperature. In this way, for example, lamps can be protected from overheating or changes/deviations in the emitted light output or color temperature from their target value can be compensated for for each channel caused by temperature changes of the respective lamp.

Alternatively or additionally, the operating device can have means for directly or indirectly detecting the current output at the first output connection and for outputting a signal reflecting this current, and means for directly or indirectly detecting the current output at the second output connection and for outputting a signal reflecting this current . With a determination of the actual to the Output terminals delivered current can be determined for each output terminal, a deviation between the predetermined output current value and the actual output current value and reduced by calibration.

According to the present invention, a luminaire has one of the operating devices described above.

• Fig. 1 in einer schematischen Darstellung eine Leuchte mit einem Betriebsgerät gemäß einem ersten Ausführungsbeispiel der vorliegenden Erfindung,
• Fig. 2 eine Leuchte mit einem Betriebsgerät gemäß einem zweiten Ausführungsbeispiel der vorliegenden Erfindung,
• Fig. 3 eine Leuchte mit einem Betriebsgerät gemäß einem dritten Ausführungsbeispiel der vorliegenden Erfindung,
• Fig. 4 eine Leuchte mit einem Betriebsgerät gemäß einem vierten Ausführungsbeispiel der vorliegenden Erfindung, und
• Fig. 5 ein Betriebsgerät gemäß einem Ausführungsbeispiel der vorliegenden Erfindung.

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

• 1 in a schematic representation of a lamp with an operating device according to a first embodiment of the present invention,
• 2 a lamp with an operating device according to a second embodiment of the present invention,
• 3 a lamp with an operating device according to a third embodiment of the present invention,
• 4 a lamp with an operating device according to a fourth exemplary embodiment of the present invention, and
• figure 5 an operating device according to an embodiment of the present invention.

Components with the same functions are identified in the figures with the same reference symbols.

1 shows a simplified circuit of a lamp 1 according to a first embodiment according to FIG present invention, which comprises an operating device 2 and two lamps 3, 4 connected to the operating device 2. The light sources 3, 4 have, for example, a different color temperature (when emitting in the white spectrum) or light color during operation and can each comprise a light-emitting diode (LED) or a plurality of LEDs. The LEDs can be inorganic or organic LEDs. The multiple LEDs can be connected in series or in parallel. The plurality of LEDs can also be connected up in more complex arrangements, for example in a plurality of series circuits connected in parallel with one another.

The operating device 2 has an input circuit 5 for converting control signals received from a bus line and a control device 6 for separate operation, in particular dimming operation, of the lighting means 3, 4. A supply voltage can be supplied to the control device 6 via the feed terminals 7a, 7b, which voltage can be an AC voltage or DC voltage depending on the design of the operating device 2 .

The input circuit 5 is connected via a first connection 8a, 8b and a second connection 9a, 9b to signal lines (bus lines) of a lighting system (bus system) for receiving control signals for controlling the operating device 2, starting from a control device (e.g. DALI master), and can be connected to a control device of the lighting system (not shown) for the transmission of control commands, address, device type and/or status information of the operating device 2 .

The illuminant 3 can (when emitting in the white spectrum) have a color temperature of, for example, approx. 3000 Kelvin and that Lamp 4 can have a color temperature of, for example, about 6000 Kelvin, so that a color temperature between 3000 and 6000 Kelvin can be set by targeted dimming of the individual lamps 3, 4 or a change in the luminous flux can be achieved with a constant color temperature in a specific range. The color temperature or color location is determined by specifying the relative intensities for the two channels. By specifying the total intensity, however, the brightness.

With the first connection (having two terminals) 8a, 8b, a control signal that specifies a dimming level and a correlated color temperature CCT (Correlated Color Temperature) for controlling the operating device 2 can be received according to DT8 in a DALI system and via the second connection (likewise having two terminals) 9a, 9b, a control signal that only specifies a dimming level can be received according to a DT6 in a DALI system. The operating device 2 or the input circuit 5 identifies itself to the lighting system (in particular the central control unit) via the first connection 8a, 8b as a first type of operating device, which can set both the dimming level (light intensity) and the color temperature, and via the second connection 9a, 9b to the lighting system as a second type of control gear that can only adjust the dimming level.

Both device types mentioned refer to devices with different functionality, both of which are provided in a protocol of the same standard. According to this exemplary embodiment, the selection of how the operating device behaves in relation to the bus system is made by selecting the connection.

If the luminaire 1 is connected to the lighting system via the first connection 8a, 8b and identified as the first operating device type (DT8), the input circuit 5 outputs the control signal received at the first connection 8a, 8b to the control device 6 without conversion. The control device 6 determines a voltage and/or current according to the constellation of color temperature and dimming level indicated by the control signal for each light source 3, 4, i.e. each of the two channels, and controls them with it.

If, on the other hand, the luminaire 1 is connected to the lighting system via the second connection 9a, 9b and identified as the second type of operating device (DT6), the input circuit 5 converts the control signal received at the second connection 9a, 9b, which only indicates a dimming level, into a control signal for actuating the first type of operating device, with the input circuit 5 converting the received control signal into a new control signal that indicates a specific constellation of color temperature and dimming level. In this case, the dimming level corresponds, for example, to the dimming level specified by the received signal. The color temperature, that is to say the relative intensities, can be stored in the operating device 2 and can be constant over part or the entire dimming range, or can be set as a function of the time of day. Alternatively, a sensor or an input for sensor signals with which the color temperature can be regulated as a function of the ambient/daylight and/or an input device with which the manufacturer or user can set the color temperature can be fitted to the luminaire 1. The Corresponding assignments are stored in a table in the input circuit 5.

The control device 6 receives the control signal converted by the input circuit 5 (now corresponds to a DT8 signal) and controls the lighting means 3, 4 as described above.

It is thus possible to operate or register the operating device 2 or the lamp 1 as a first type of operating device using the first connection 8a, 8b and to operate or register as a second type of operating device using the second connection 9a, 9b.

According to an example not covered by the subject-matter of the claim, the input circuit 5 can, alternatively or triggered by a control signal, if the operating device 2 is connected to the lighting system with the first connection 8a, 8b and the second connection 9a, 9b, the operating device 2 opposite the Identify the lighting system as a first operating device of the second type of operating device and also as a second operating device of the second type of operating device, each with its own address. From the two items of dimming level information contained in the control signals received for the two addresses, the input circuit 5 generates a control signal of the first operating device type, the color temperature resulting from the ratio of the dimming levels displayed in the received control signals and thus the relative intensities for both channels. The light intensity resulting from the two light sources 3 and 4 can vary with a change in color temperature or can be kept constant at a predetermined value.

If the luminaire 1 is only connected to the lighting system with the first connection 8a, 8b or only with the second connection 9a, 9b, the input circuit 5 identifies the operating device 2 to the lighting system as a first type of operating device or as a second type of operating device. As described above, the control signals received via the connection 8a, 8b or 9a, 9b used are output to the control device 6 without signal conversion (first type of operating device) or with conversion (second type of operating device).

At the in 2 Luminaire 1 shown according to an example not covered by the subject matter of the claim is only provided with a connection 10a, 10b for connection to the lighting system, via which both the control signal indicating a dimming level and a color temperature for the first type of operating device and the control signal specifying only a dimming level for the second type of operating device can be received. In addition, a switch 11 or alternatively only a connection for the switch 11 is attached to the lamp 1, by means of which the input circuit 5 can be signaled whether the input circuit 5 is connected to the lighting system via the connection 10a, 10b as a first operating device type or as a second type of operating device should be identified and whether a control signal of the first type of operating device addressed to luminaire 1 should be sent to the control device 6 without conversion or whether a control signal of the second type of operating device addressed to luminaire 1 should be converted into a control signal of the first type of operating device.

In the case of the multi-channel operating devices 2 described, the light intensity and color temperature of the controlled lamps 3, 4, particularly if they are light-emitting diodes, can change with a change in temperature, with the lamps 3, 4 changing due to different control/load or heat differently in different installation locations/environments. This leads to an inaccuracy/an error, particularly in the color temperature of the total light emitted by the lighting means 3, 4.

3 shows a lamp 1 with an operating device 2 according to a further exemplary embodiment of the present invention, in which a temperature sensor 12, 13 is integrated in each light source 3, 4. The temperature sensors 12, 13 can be NTC resistors. The signals emitted by the temperature sensors 12, 13 are fed to the control device 6. On the basis of the supplied temperature signals, the control device 6 at least partially compensates for the deviation in the color temperature caused by heat by a corresponding increase or decrease in the voltage or the current at at least one output.

The increase/decrease at the respective output can be proportional to the temperature increase/decrease in the respective illuminant 3, 4. Alternatively, a function or table for both or each of the lamps 3, 4 can be stored in the operating device 2, which assigns a correction value to a detected temperature in conjunction with a luminous flux to be set.

If the priority is not on a color temperature that is as accurate as possible, but on an exact or constant brightness, the power of the hotter illuminants 3, 4 can be lowered to protect or to increase the service life and the luminous flux reduced by the reduction can be compensated for by a corresponding increase in the power of the colder lamps 3, 4 are compensated. The priority could be determined by a switch on the operating device 2 or by an external signal.

Alternatively or additionally, each of the lamps 3, 4 can be monitored with the recorded temperatures, with the lamp 3, 4 in question being switched off or only the power (luminous flux) of the lamp 3, 4 in question being reduced if a threshold value is exceeded.

The detection of the temperature of each of the lamps 3, 4, which can be operated separately from one another by the operating device 2 via separate channels, and the temperature-dependent control is not limited to the operating devices 2 or lights 1 described above with the signal conversion and can rather be carried out with all known two or more channel operating devices 2 are used. Monitoring the temperature of each of the lamps 3, 4 operated by the operating device 2 is particularly advantageous if the lamps 3, 4 are located at different locations and/or have different outputs, as is the case, for example, with lamps with an independent controllable direct and indirect lighting.

At the in 4 Luminaire 1 shown according to an example not falling under the subject matter of the claim, the control device 6 is designed to control the control gear 2 alternatively as the second type of control gear. Another switch 14 can be used to signal to the control device 6 whether the operating device 2 is to be controlled according to the first type of operating device or the second type of operating device, and to the input circuit 5 that a control signal of the first type of operating device addressed to the luminaire 1 is converted into a control signal of the second type of operating device implemented or a control signal of the second operating device type is to be transmitted to the control device 6 without conversion.

If a control signal of the first type of operating device addressed to the luminaire 1 is to be converted into a control signal of the second type of operating device, the input circuit 5 generates a control signal of the first type of operating device from the constellation of color temperature and dimming level indicated in the control signals received, which signal only indicates the dimming level. The control device 6 controls/dimms the connected lamps 3, 4 synchronously. With the use of the operating device as the second type of operating device, the light output can be increased by using the two light sources 12 and 13 .

According to an example not covered by the subject matter of the claim, a control signal of the first type of control gear addressed to the luminaire 1 can be converted into a control signal of the second type of control gear for the light source 3 and a control signal of the second type of control gear for the light source 4, The ratio of the dimming level of the two lamps 3 and 4 results from the displayed color temperature or the ratio between warm white and cold white.

In the 4 The lamp 1 shown also has a temperature monitor for each lamp 3, 4, with the temperature sensors 12, 13 not being integrated into the lamps 3, 4, but being arranged outside the lamps 3, 4.

figure 5 shows an operating device 2 according to a further exemplary embodiment of the present invention, in which a measuring resistor 15, 16 is provided for each output of the operating device 2. The measuring resistors 15 and 16 are each arranged between the control device 6 and an output connection 17a, 17b or 18a, 18b, to which lamps 3, 4 can be connected, and during operation the current flowing through the respective lamp 3, 4 flows through them . The voltage dropping across the measuring resistors 15 and 16 can be externally recorded at the measuring terminals 19a, 19b and 20a, 20b.

Each channel of the operating device 2 or the LED converter can be calibrated with the voltage recorded for a specific power specification, in which the recorded voltage or the recorded current is compared with the power or current specification and a fine adjustment corresponding to the determined deviation and a tolerance specification takes place.

The calibration can be done once, in particular during manufacture by adapting or adding a corresponding calibration value in the current control of the control software or by hardware calibration by using calibration resistors in the measuring path for the output current.

A channel/output of the operating device can be calibrated by adding a corresponding calibration value to the software in the current control, or by calibrating the hardware by using calibration resistors, for example, in the measurement path for the output current.

dem in figure 5 The operating device 2 shown can, via the connection 21a, 21b and the connection 22a, 22b, receive a signal which indicates the temperature of the lamp connected to the output connection 17a, 17b or a signal which indicates the temperature of the lamp connected to the output connection 18a, 18b 18a, 18b.

The lighting system works according to the DALI protocol and the operating device 2 can be a device of type 8 (DT8: "Device Type 8") with color control.

An operating device 2 of type 8 is controlled in the DALI system with just one address, for example to change the color temperature or the color location in a color space while the specified brightness remains the same, or to dim the brightness at a constant color temperature.

According to an example not falling under the claimed subject matter, the lighting system according to the Digital Multiplex (DMX) control protocol, which is preferably used in stage and event technology to control spotlights and effect devices.

Both the number of signal types (operating device types) that can be converted by the operating device 2 and the number of output channels of the operating device 2 or the number of actuators or lamps that can be operated by the operating device 2 is not limited to two and can be arbitrary. For example, three channels can be used to control lamps 3, 4 with the colors red, green and blue.

Claims (5)

1. Operating device (2) for operating at least two lighting means (3, 4) in a bus-based DALI lighting system,

   wherein different operating device types are provided in the bus-based DALI lighting system,

   wherein the different operating device types relate to operating devices (2) having a different functionality, provided in the DALI protocol,

   wherein the operating device (2) is a two-channel or multi-channel operating device for separately operating two or more lighting means (3, 4) of the at least two lighting means (3, 4) on the respective channels;

   wherein the operating device (2) has a controller (6) for controlling the operating device (2) as a first operating device type,

   wherein the controller (6) is configured to process a received control signal of a first specification of the DALI protocol;

   characterized in that

   the operating device (2) is designed, as a second operating device type, to process a received control signal of a second specification of the DALI protocol,

   wherein the first operating device type and the second operating device type are operating device types of the same standard,

   wherein the received control signal of the first specification contains information regarding a color temperature and a dimming level,

   wherein the received control signal of the second specification only contains information regarding a dimming level,

   wherein the operating device (2) has an input circuit (5),

   wherein the operating device has a first connection (8a, 8b) and a second connection (9a, 9b) in each case for connecting the operating device (2) to the bus-based DALI lighting system,

   wherein the input circuit (5) is designed to selectively identify when the operating device (2) is connected to the bus-based DALI lighting system by means of the first connection (8a, 8b) as the first operating device type,

   wherein the controller (6) is designed to control the voltage and/or current output in each case in the first channel and the second channel according to the received control signal of the first specification;
   or

   when the operating device is connected to the bus-based DALI lighting system by means of the second connection (9a, 9b) as the second operating device type,

   wherein the input circuit (5) is designed to convert the received control signal of the second specification into a new control signal with information regarding color temperature and dimming level based on the information regarding the dimming level of the received control signal of the second specification, and

   wherein the controller (6) is designed to control the voltage and/or current output in each case in the first channel and the second channel according to the new control signal.
2. Operating device according to claim 1,
   wherein the first operating device type corresponds to an operating device according to the DT8 specification of the DALI standard and the second operating device type corresponds to an operating device according to the DT6 specification of the DALI standard.
3. Operating device according to any of claims 1 or 2, comprising

   means (15; 19a, 19b) for directly or indirectly detecting the current output in the first channel and for outputting a signal representing this current; and

   means (16; 20a, 20b) for directly or indirectly detecting the current output in the second channel and for outputting a signal representing this current.
4. Luminaire comprising an operating device according to any of claims 1 to 3 and at least two lighting means (3, 4).
5. Luminaire according to claim 4, comprising:

   means (12, 13) for detecting at least the temperature of a lighting means (3) connected to the first channel and the temperature of a lighting means (4) connected to the second channel, wherein

   the controller (6) is designed to control the lighting means (3) connected to the first channel and the lighting means (4) connected to the second channel, taking into account the relevant detected temperature.

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