DE102011083156B4 - A method of operating a plurality of components installed in a building - Google Patents

Abstract

The invention relates to a method for operating a plurality of components (12) installed in a building, each of the components (12) having a communication unit (14), and the communication units (14) for exchanging telegrams via an installation bus (16) of the Building are interconnected and operated in an active mode, each of the communication units (14) having a processor for processing the telegrams, characterized by transferring at least one of the communication units (14) in a sleep mode by switching off the processor of the at least one communication unit (14) and returning the communication unit (14) to active mode by activating the processor if a telegram is sent to the communication unit (14), at least one of the communication units (14) being associated with a line coupler (20) and switching it off the processor sends a signal to him assigned, at least one communication unit (14) is sent, and wherein from the line coupler (20) for activating the processor, the detected telegram is sent to the communication unit (14) and is sent again after activation.

Description

The present invention relates to a method of operating a plurality of components installed in a building. Moreover, the present invention relates to a component for installation in a building. Finally, the present invention relates to an arrangement of a plurality of components installed in a building.

In order to enable a simple and comfortable operation of the various components in modern buildings or houses, these can be controlled via an installation bus. Such an installation bus is, for example, the European installation bus (EIB), which is described in the KNX standard. The components contain the individual installation devices of the building or the house, which are usually connected to a corresponding actuator. By the respective actuator, the installation devices can be controlled or operated. The operation can be done, for example, in response to a control signal as a result of an operator input or automatically in response to the signal of a sensor. Thus, z. As lighting systems, shading systems, the heating, air conditioning, ventilation, alarm systems, information systems or the like can be controlled. To trigger a corresponding telegram is transmitted to the respective component via the installation bus.

In order to receive the respective telegrams, the components are usually in operation 24 hours a day. To reduce the power consumption of the system, the circuits are already running in a low-power design today. As energy costs increase and energy consumption in the buildings or houses is reduced, it is necessary that the energy consumption of the individual components is further reduced. Since every participant in a KNX system can communicate spontaneously, all components must always be ready to receive. However, this limits the technical possibilities for electricity savings.

The DE 10 2009 010 964 B3 describes an electrical / electronic installation device for building system technology, which has a first interface for coupling to the bus system of a building and a second interface for an application module, wherein a receiving unit having a transceiver is provided. In this case, the transceiver is assigned a wake-up detection device, which generates a wake-up signal in response to at least one coming from the bus system, the wake-up detection device is in terms of data with the provided for the application module second interface in addition, the wake-up detection device is equipped with a reference message memory.

In addition, the describes US 2005/0131555 A1 a method for reactivating a deactivated device. The deactivated device is connected to an activated device via a communication network. In addition, a network element is provided in the communication network, which is always activated.

From the US 5,915,119 A For example, a network system with a plurality of network segments is known. In this case, each of the network elements has a plurality of user terminals, which can be switched into a sleep mode. With a proxy terminal, the user terminals can be activated, for example with an error signal.

Finally, that describes DE 100 30 743 B4 the control of the consumption of an autonomous device when it is connected to another device via a cable connection. In this case, when the autonomous device detects a communication start, it sets in motion the device capable of assuming the beginning of communication without loss of an octet. For this purpose, the device consists of a circuit whose excitation takes place very quickly. This device allows the main circuits of the autonomous device to be energized and then to take control of the communication. The apparatus essentially comprises a fast setting oscillator and a special circuit.

Therefore, it is an object of the present invention, the individual components that are installed in a building or installable to operate more energy efficient.

This object is achieved by a method according to claim 1. In the same way, this object is achieved by a component according to claim 7 and an arrangement according to claim 8. Advantageous developments of the present invention are specified in the subclaims.

The method according to the invention for operating a plurality of components installed in a building, wherein each of the components has a communication unit, and the communication units for exchanging messages are interconnected via an installation bus of the building and are operated in an active mode, wherein each of the communication units is a processor for processing the telegrams comprises transferring at least one of the communication units into one Sleep mode by switching off the processor of the at least one communication unit, and returning the communication unit in the active mode by activating the processor, if at least a part of a message is sent to the communication unit, wherein at least one of the communication units is assigned to a line coupler, and that from this Switching off the processor, a signal is sent to its associated, at least one communication unit, and being sent from the line coupler for activating the processor, the detected message to the communication unit and is sent again after activation.

Such a component, which is installed in a building or in a house or can be installed, usually includes a corresponding actuator with which an installation device of the building or the house can be controlled. With such an actuator, for example, the lighting can be turned on or a heating system can be controlled. In addition, such a component may include a corresponding sensor with which, for example, the illuminance or the temperature is detected. The actuators can be controlled either as a function of the signals from the sensors or by a control command of a control unit. The components also include a communication unit, through which corresponding telegrams can be transmitted to the other communication units via the installation bus. These telegrams allow the actuators to be controlled accordingly or sensor signals to be transmitted.

In order to bring the communication units into a sleep mode or power-saving mode, the processors of the respective communication units are turned off. This can for example be done automatically after a predetermined time. It is also conceivable that the processors are switched off in response to a control signal. When a telegram is sent to the communication unit, it is returned to active mode by activating the processor. To activate, it may also be sufficient if only a part of a telegram - that is, one or more bytes of the telegram - is sent to the communication unit. Such a telegram can be sent, for example, from a communication unit that is not currently in idle mode. This may for example be associated with a sensor. Likewise, the message can be sent from a higher-level control unit, for example as a result of an operator input. By switching off the processors of the communication units, a particularly efficient power-saving mode can be enabled and thus the energy consumption of the individual components and thus of the building as a whole can be reduced.

At least one of the communication units is assigned to a line coupler, a signal being sent to the communication unit assigned to it for switching off the processor. The arranged on a line coupler components are switched by a corresponding signal or command in the power saving mode. The line coupler itself, however, remains ready to receive. Thus, the components associated with the line coupler can be operated in a particularly simple manner with low energy consumption.

From the line coupler, the recognized telegram is sent to the communication unit to activate the processor and sent again after activation. If the line coupler receives a telegram intended for the communication units assigned to it, it can send this telegram to all communication units assigned to it. Likewise, he can only send the telegram to that communication unit for which the telegram is intended. By receiving the telegram, the respective communication units are transferred to the active mode. After the at least one communication unit has been activated, the line coupler transmits the telegram a second time. Thus, it can be ensured that the re-activated communication units receive the telegram.

In a preferred embodiment, a communication module assigned to the at least one communication unit has a memory element on which at least part of the telegram sent to the communication unit is stored. Such a communication module can be, for example, the communication IC TPUART, which is connected between the communication unit and the installation bus. This communication block can be extended in such a way that it can buffer several bytes during reception. Preferably, it can cache the telegram that is intended for the communication unit with which it is coupled. In order to be able to buffer the message, a corresponding memory of the communication module can be used or an additional memory, for example in the form of a RAM memory, can be arranged on the communication module. Since in the idle mode of the communication units no telegrams can be received, they are cached in the communication module or its memory element. Thus it can be ensured that during sleep mode the Communication units transmitted telegrams are not lost.

The memory element previously described in connection with the communication module, on which the telegrams or a part of the telegrams can be temporarily stored, can also be coupled at an arbitrary position with the installation bus. In this way it can be ensured that transmitted via the installation bus telegrams that are directed to a component or its communication unit that is currently in sleep mode, not lost.

In a preferred embodiment, a signal is sent to the communication unit to activate the processor of the communication module and after activation, at least the stored on the memory element part of the message is sent from the communication module to the communication unit. The communication module is designed to recognize a telegram intended for the component with which it is coupled and to store this. If the communication module has received such a telegram, it sends a corresponding signal, for example a level interrupt signal, to the communication unit, which causes the processor of the communication unit to be reactivated or switched on. If the processor of the communication unit is activated, the communication module sends the message to the communication unit. In this way, the individual communication units can be operated in a corresponding idle mode or power-saving mode, and it can also be ensured that the telegrams intended for the communication unit are received.

In a further embodiment, the line coupler detects a telegram intended for the communication unit assigned to it, and the processor of the communication unit assigned to it is activated as a function of the detected telegram. The line coupler detects, for example with a routing table, whether a telegram for its subline, d. H. the components assigned to it, is determined. If the line coupler detects such a telegram, then it activates-for example by means of a corresponding signal-that communication unit for which the telegram is intended. Likewise, after receiving a telegram destined for one of its communication units, the line coupler can activate all the communication units associated with it. Thus, it can be ensured that no messages assigned to the communication units are lost or not received during idle operation.

In another embodiment, an error signal is sent by the line coupler to activate the processor. If one of the communication units assigned to the line coupler sends a telegram while the remaining communication units of the line coupler are in idle mode, the line coupler sends a corresponding error signal, for example negative acknowledgment (NAK). As a result of this error signal, the communication unit sends the message again. Thus it can be ensured that the telegram is received by the communication units.

In a further embodiment, an oscillator of the processor is turned off to turn off the processor. The oscillator of the processor usually requires a lot of electrical energy. In this way, energy-efficient operation of the components installed in the building can be achieved in the sleep mode.

The component according to the invention for installation in a building comprises a communication unit which can be connected to an installation bus of the building for the exchange of telegrams and is operable in an active mode, wherein the communication unit has a processor for processing the telegrams, wherein the communication unit is switched off in a sleep mode the processor of the communication unit can be transferred and the communication unit in the active mode by activating the processor in response to a telegram sent to the communication unit is traceable and the communication unit is assigned to a line coupler, from this for switching off the processor, a signal can be received, the from the line coupler for activating the processor to the communication unit sent telegram after activation is again received by the communication unit.

Finally, the invention provides an arrangement of a plurality of components installed in a building, wherein each of the components is associated with a respective communication unit and the communication units are connected to exchange telegrams via an installation bus of the building and are operated in an active mode, each of the communication units one Processor for processing the telegrams, wherein a control device is adapted to transfer at least one communication unit in a sleep mode by switching off the processor of the at least one communication unit and the at least one communication unit in the active mode by activating the processor depending on one of the at least one Communication unit sent back telegram. The control device can be arranged, for example, centrally in the installation bus. It is also conceivable that each of the components is assigned a corresponding control device.

In this case, at least one communication unit is assigned to a line coupler, which comprises the control device. In addition, the line coupler is designed to send the recognized telegram to the communication unit for activating the processor and to send it again after activation. Thus, the communication units associated with the line coupler can be controlled particularly easily.

The developments described herein in connection with the method according to the invention can also be transferred in the same way to the component according to the invention and the arrangement according to the invention.

The present invention will now be explained in more detail with reference to the accompanying drawings. The single FIGURE shows a schematic representation of an arrangement of a plurality of components installed in a building.

The embodiments described in more detail below represent preferred embodiments of the present invention.

The figure shows a whole with 10 designated arrangement of a plurality of components 12 , These components 12 are installed or installable in a building or a house. The components 12 are associated installation equipment of the building or the house. The components 12 For example, include a corresponding actuator with which the installation equipment of the building can be operated. Likewise, the components can 12 comprise a corresponding sensor, wherein the actuators can be controlled in dependence of the sensor signals.

In addition, the components have 12 one communication unit each 14 on. The communication units 14 the respective components 12 are for exchanging telegrams via an installation bus 16 connected with each other. For exchanging the telegrams via the installation bus 16 become the communication units 14 operated in an active mode.

The component 12 may be associated with a lighting system, a shading system, a heating system, an air conditioner, a ventilation system, an alarm system, an information system or the like of the building. The individual components 12 For example, with the help of a higher-level control device 18 be controlled. Likewise, the individual components 12 be designed to, via a corresponding telegram another of the components 14 head for.

To the power consumption or energy consumption of the components 12 To reduce these, they are transferred to a sleep mode or power-saving mode. For this purpose, the processors of the communication units 14 off. If a telegram to at least one of the communication units 14 is sent, the communication unit 14 returned to active mode by reactivating its processor.

Between the communication unit 14 and the installation bus 16 can be arranged a communication module, not shown here, which has a memory element. This communication block is designed to be a telegram, that of the communication unit 14 which he is assigned to recognize and store when the communication unit 14 is in sleep mode. In addition, the communication module is designed to activate the processor, a corresponding signal to the communication unit 14 to send. After activating the communication unit 14 the communication module sends the message stored on its memory element to the communication unit 14 , The memory element described in connection with the communication module can in the same way at any other point of the installation bus 16 be arranged.

In the embodiment shown in the figure, four components each 12 a line coupler 20 of the installation bus 16 assigned. Shall the components 12 or their communication units 14 be transferred to the sleep mode or power-saving mode, the line coupler sends 20 a corresponding signal to the communication units 14 , While the communication units 14 that the line coupler 20 are in idle mode, it remains ready to receive.

The line coupler 20 For example, with the aid of a corresponding routing table, it is possible to detect whether a telegram is being sent via the installation bus 16 is transmitted for one of its associated components 12 or communication units 14 is determined. Is from the line coupler 20 If such a telegram is detected, it activates at least one of the communication units 14 the components assigned to it 12 , This can be done, for example, that the line coupler 20 the telegram to at least one of the components 12 or their communication unit 14 sends. As a result of the received telegram, the at least one communication unit 14 activated. After activating the at least one communication unit 12 the line coupler sends 20 the telegram again. Thus, it can be ensured in a particularly simple manner that the telegrams from the communication units 14 be received. Thus, the components can 12 that in the installation bus 16 interconnected, are operated particularly energy efficient.

Claims (8)

Method for operating a plurality of components installed in a building ( 12 ), each of the components ( 12 ) a communication unit ( 14 ), and the communication units ( 14 ) for exchanging telegrams via an installation bus ( 16 ) of the building and are operated in an active mode, each of the communication units ( 14 ) has a processor for processing the telegrams, by - transferring at least one of the communication units ( 14 ) in a sleep mode by switching off the processor of the at least one communication unit ( 14 ), and - returning the communication unit ( 14 ) in the active mode by activating the processor if at least a part of a telegram to the communication unit ( 14 ), wherein - at least one of the communication units ( 14 ) a line coupler ( 20 ), and from which, for switching off the processor, a signal is sent to the at least one communication unit ( 14 ), characterized in that - by the line coupler ( 20 ) for activating the processor the recognized telegram to the communication unit ( 14 ) is sent and sent again after activation. Method according to claim 1, characterized in that one of the at least one communication unit ( 14 ) associated communication module has a memory element on which at least a part of the communication unit ( 14 ) transmitted telegram is stored. A method according to claim 2, characterized in that for activating the processor of the communication module, a signal to the communication unit ( 14 ) is sent and after activating the at least on the memory element stored part of the telegram from the communication module to the communication unit ( 14 ) is sent. Method according to one of the preceding claims, characterized in that of the line coupler ( 20 ) for the communication unit assigned to it ( 14 ) is detected and depending on the detected telegram, the processor of the associated communication unit ( 14 ) is activated. Method according to one of the preceding claims, characterized in that of the line coupler ( 20 ) to activate the processor, an error signal is sent. Method according to one of the preceding claims, characterized in that for switching off the processor, an oscillator of the processor is turned off. Component ( 12 ) for installation in a building, with - a communication unit ( 14 ), which are used to exchange telegrams with an installation bus ( 16 ) of the building is connectable and operable in an active mode, wherein - the communication unit ( 14 ) has a processor for processing the telegrams, - the communication unit ( 14 ) in a sleep mode by switching off the processor of the communication unit ( 14 ) and the communication unit ( 14 ) in the active mode by activating the processor in dependence on a to the communication unit ( 14 ) transmitted telegram is traceable, and - the communication unit ( 14 ) a line coupler ( 20 ), wherein a signal can be received by the latter for switching off the processor, characterized in that - that of the line coupler ( 20 ) for activating the processor to the communication unit ( 14 ) sent telegram after activation again from the communication unit ( 14 ) is receivable. Arrangement ( 10 ) a plurality of components installed in a building ( 12 ), wherein - each of the components ( 12 ) each have a communication unit ( 14 ), and - the communication units ( 14 ) for exchanging telegrams via an installation bus ( 16 ) of the building and are operated in an active mode, each of the communication units ( 14 ) has a processor for processing the telegrams, - a control device ( 18 ), which is adapted to at least one communication unit ( 14 ) in a sleep mode by switching off the processor of the at least one communication unit ( 14 ) and - a control device ( 18 ), which is designed to return transmitted telegrams, At least one line coupler ( 2 ), one of the communication units ( 14 ) a line coupler ( 20 ), and wherein the line coupler ( 20 ) the control device ( 18 ), characterized in that - the line coupler ( 20 ) is configured to activate the processor, the recognized message to the communication unit ( 14 ) and send again after activation.

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