DE102005019570A1 - Personal computer for determining power consumption, has detecting unit for detecting information of bus coupling units, and processing unit for evaluating power consumption in dependence of detected information - Google Patents

Abstract

The computer has a detecting unit for detecting information (12, 13) of or about bus coupling units (7, 9), and a memory device. A processing unit device evaluates power consumption in dependence of the detected information. An input device is provided for inputting a type of the bus coupling unit as the information by a user, where information about the power consumption of one type of the coupling unit is read from the memory device. Independent claims are also included for the following: (1) a power supply device comprising a device for determination of a power consumption (2) an installation device comprising a device for determination of a power consumption (3) a method of determining a power consumption.

Description

The The present invention relates to a detection device for detection a power consumption or a power consumption of at least one Bus coupling device or at least one bus coupling device including of a connected device. The presented detection device can be used for a power supply device or for use an installation device. In addition, a procedure for Determining a power consumption or a power consumption at least a bus coupling device or at least one bus coupling device including of a connected device presented. additionally The present invention is concerned with a bus coupling device with a memory device for storing a power consumption.

In a device bus system become the individual devices of the device bus system via a power supply device powered. This may be several power supplies needed per line. It is important that the of the power supply device Provided power of the required by the device bus system total power equivalent. If the provided power is too low, is As a sub-sizing of the power supply before, it can Malfunctions occur in the individual devices of the device bus system, which through the overload arise. Particularly difficult to diagnose are the malfunctions that caused by peak loads. That means that the system is normal works and overloaded, for example, only when switching from many relay outputs becomes. On the other hand, if the supplied power is chosen too high, it is So an oversizing before, so unnecessary costs for the user.

at the determination of the total power consumption of a device bus system with a conventional one Installation tool, such as an ETS (European Installation Bus Tools Software), there are problems when the device bus system at least one device comprising a bus coupling device such as a BCU (Bus Coupling Unit) has. One often speaks of modular devices. In this case, only one module coupled to the bus coupler becomes in the installation tool and not the bus coupling device itself configured in the installation tool. Even when using a other fieldbus systems such as LON (Local Operating Network) can this for the example of an EIB system (European Installation Bus) described Problem occur. For this reason, an installation tool can only the power consumption of the coupled to the bus coupling device Module, but not the power consumption of the bus coupling device determine. As the power consumption of each type of bus coupling devices varies greatly with each other, lets the power consumption of a single bus coupling device also not approximate by an average value. Thus can be synonymous no exact information regarding of the total power consumption of a device bus system with at least a device with a bus coupling device via a conventional Enter installation tool.

The The object of the present invention is a detection device to find, with which a power consumption for a device bus system with at least a device can be determined with a bus coupling device.

According to the invention this Task solved by a determination device for determining a power consumption or a power consumption of at least one bus coupling device or at least one bus coupling device including a connected device, where a detection device for acquiring information from or about the at least one bus coupling device and a computing device to calculate power consumption or power consumption in dependence the detected information from the determining device.

Furthermore is provided according to the invention a method of determining power consumption or power consumption at least one bus coupling device or at least one bus coupling device including of a connected device by detecting information from or via the at least one bus coupling device and calculating the power consumption or power consumption in dependence the information collected.

In order to is it possible over the Investigative device or via the process the total power consumption or the total power consumption of a device bus system with at least one bus coupling device to calculate. Thereby can also be problems during commissioning or during operation of the device bus system recognize with at least one bus coupling device in advance.

According to the invention, the determining device may comprise an input device, in wel a type of at least one bus coupling device by a user as the information about the power consumption of the bus coupler is input. The detection device is then designed such that it detects the input of the user at the input device. In this way, detection of the information about which power consumption or power consumption can be calculated by the detection means can be easily realized. Alternatively, however, it is also appropriate that the detection device is designed such that it detects the type of the at least one bus coupling device of a device bus system directly on the at least one bus coupling device.

advantageously, the determination device comprises a memory device which is the power consumption for at least one type of at least one Buskopplungseinrich device is queryable. It does not matter if the type queried the at least one bus coupling device from a user via a Input device was entered into the detection device, or whether the determining device is the type of at least one Bus coupling device directly to the at least one bus coupling device has recorded. The latter is especially advantageous because so It can be avoided that it is not necessary to enter a wrong one Type in which at least one bus coupling device comes

Preferably For example, the determination device may include a maximum power consumption detection device for detecting and fail-safe storage of a maximum Include power consumption. The maximum power consumption detecting means is, for example, designed so that they continuously the Total power consumption of the device bus system detected with at least one bus coupling device and with a stored maximum power consumption value compares. Is that recorded value over the stored maximum power consumption value, it is called newly determined maximum power consumption value stored. On this way a user can over determine the maximum power consumption detecting device which maximum power consumption was previously required by the device bus system.

The The above-described detection device can also be used for a power supply device for a device bus system use. As is about the inventive determination device of Total power consumption of a device bus system comparatively lets determine exactly it makes sense to design a power supply device so that they are connected to the device bus system provides a power which the determined value for the total power consumption equivalent. For example, this can be used for an installation device Avoid too high costs due to excessive total electricity consumption.

Of Further, the above object of the present invention also solved by a bus coupling device with a memory device for storing power consumption or power consumption the bus coupling device or the bus coupling device including the connected device. In this case, the power consumption of the bus coupling device, for example be deposited by the manufacturer in the storage device. As alternative but it also makes sense to design the bus coupling device so that it records its own electricity consumption. In addition, can then the bus coupling device and the power consumption of they are connected device capture and in addition deposit on the storage device for their own power consumption.

The The present invention will now be described in detail with reference to the accompanying drawings, in which: show:

1 a device bus system with a detection device according to the invention; and

2 a memory device of a detection device according to the invention.

The below described embodiments represent preferred embodiments of the present invention.

The device bus system off 1 includes the devices 1 to 3 and a PC 4 , Via an EIB 5 (European Installation Bus) are the devices 1 to 3 with the PC 4 connected. An EIB interface device 6 is the devices 1 to 3 and the PC 4 interposed.

As an alternative to the in 1 marked EIB 5 but also, for example, a LON (Local Operating Network) conceivable. The present invention is by no means tied to the use of EIB.

In the example off 1 is the device 1 a watermelder. Here is the device 1 as a compact unit with the EIB 5 connected. In contrast, the device includes 2 a BCU 7 (Bus Coupling Unit) and an application module 8th , The application module 8th is in this case a motion detector, which via the BCU 7 with the EIB 5 connected is. This ensures that one of the application module 8th recorded movement also to the PC 4 when Control and readout unit of the device bus system is forwarded. Likewise, the device 3 from a BCU 9 and an application module 10 built up. As an application module 10 serves a quadruple switch with four LEDs. About the PC 4 can be issued to this a control command. About the EIB 5 and the BCU 9 This control command is then sent to the application module 10 forwarded.

To ensure trouble-free operation of the device 1 , as well as the BCUs 7 and 9 and the application modules 8th and 10 To ensure it is necessary to provide sufficient power to the individual components of the device bus system. In addition, the power supplied should not exceed the total power consumption of the device bus system, otherwise unnecessary costs for the user of the device bus system arise. For this reason, the pc points 4 an ETS (EIB Tools Software) extended by a detection device 11 on. About the ETS 11 can be the power consumption of the devices 1 to 3 determine.

The device 1 and the application modules 8th and 10 be directly in the ETS 11 configured. This is the ETS 11 possible, the power consumption of the device 1 and the application modules 8th and 10 to be determined directly. The BCU 7 and 9 will not be directly in the ETS 11 configured. This requires the ETS 11 another method for determining the power consumption of the BCUs 7 and 9 apply.

This is in the BCU 7 an information 12 regarding the maximum power consumption of the BCU 7 deposited. The ETS 11 can this information 12 read and then into the power consumption of the BCU 7 translate. Likewise, in the BCU 9 an information 13 regarding the maximum power consumption of the BCU 9 deposited. Also this information 13 is from the ETS 11 queried and in the power consumption for the BCU 9 implemented.

For the example 1 were the information 12 and 13 chosen so that they reduce the power consumption of the BCU 7 respectively. 9 directly included. As an alternative, but also offers, the respective type of BCU 7 or 9 in the information 12 respectively. 13 to deposit. In this case, the ETS 11 additionally a memory device in which the power consumption for the known types of BCUs is stored. Also in this case can then be over the information 12 and 13 the power consumption of the BCUs 7 and 9 determine.

Another alternative is to use the BCUs 7 and or 9 be interpreted so that they themselves their own power consumption and possibly even the power consumption of the application modules 8th and 10 can capture. The BCU 7 respectively. 9 then adds their own power consumption to the power consumption of the application module 8th respectively. 10 and provides appropriate information for the ETS 11 ready. In this case, a BCU can also be designed so that it detects the variation of a power consumption as a function of a parameter. This is particularly advantageous when the power consumption of an application module such as the application module 10 out 1 varies greatly. The application module 10 is a quad switch with four LEDs. Depending on the switching state, the power consumption varies greatly. It is therefore very beneficial when the BCU 9 detect this variation and provide a corresponding signal.

In 2 a further example of a detection device according to the invention is shown. The determining device comprises a memory device 14 , The on the storage device 14 stored data are partially pretend by the manufacturer of the investigative device, they were partially from an in 2 not shown sensor device detected, or by a user of the associated Gerätebussys system via a in 2 also not shown input device entered.

The Table of BCUs was from the manufacturer of the investigator specified. There are different types of BCUs in this table entered in the first column from the left, which below BCU ID. The names of the associated BCUs and those of the required for each BCU Power supply are in the second and third column from the left specified.

The table of application modules includes all application modules that the determination of the device 2 belonging to the device bus system. For clarity, a drawing of the device bus system was omitted. In the example off 2 this device bus system has a button, a motion detector and a Temperaturreguliereinrichtung on how the second column from the left of the table for application modules can be removed. For detecting the individual devices ensures a sensor device. In addition, a value for the associated power supply was detected by this sensor device for each of these application modules. The recorded values were then stored in the third column from the left. Each of the acquired application modules has also been assigned an application module ID AM-ID in the table of the application modules, as can be seen from the first column from the left.

In the table of devices of the device bus system, the application module IDs AM-ID are listed again in the second column from the left. In the first column from the left, the application module IDs AM-ID are assigned new total IDs ID. After detecting an application module by the sensor device, the user is then requested to enter the type of the associated BCU via an input device for each of the detected application modules. The BCU IDs detected by a detection device on the input device are then stored in the third column from the left of the table of the devices of the device bus system. In addition, the user also has the option of entering a name in the name column for each device built from an application module and a BCU.

Finally, a calculates in 2 not shown calculating device for each device from the table of the devices of the device bus system the total power consumption. To do this, the calculator adds the value for the power supply for an AM ID to the value for the power supply for a BCU ID of a column. For the device run under the name "Lichttaster WoZi", these are 10mA for the AM-ID1 and 10mA for the BCU-ID1. For the "Bewz WoZi detector" the total power supply is 45mA and for the "Temp. Reg. WoZi "this is 50mA.

The Discovery device can then be designed so that they calculated total power supply values subsequent to a power supply device outputs. additionally can by the determining device a comparison between the calculated total power supply value and the provided Power supply performed become.

Claims (10)

Discovery device ( 4 ) for determining a power consumption or a power consumption of at least one bus coupling device ( 7 . 9 ) or at least one bus coupling device ( 7 . 9 ) including a connected device ( 2 . 3 ) characterized by - a detection device for acquiring information ( 12 . 13 ) from or via the at least one bus coupling device ( 7 . 9 ) and - a calculating device for calculating the power consumption or the power consumption as a function of the acquired information ( 12 . 13 ). Discovery device ( 4 ) according to claim 1, wherein the determining device ( 4 ) comprises an input device into which a type of the at least one bus coupling device ( 7 . 9 ) is input by a user as the information. Discovery device ( 4 ) according to claim 1 or 2, wherein the determining device ( 4 ) comprises a memory device from which the power consumption for at least one type of the at least one bus coupling device ( 7 . 9 ) is queriable. Discovery device ( 4 ) according to one of claims 1 to 3, wherein the determining device ( 4 ) comprises a maximum power consumption detecting means for detecting and power failure safe storage of a maximum power consumption. Power supply device comprising a detection device ( 4 ) according to one of claims 1 to 4. Installation device comprising a detection device ( 4 ) according to one of claims 1 to 4. Bus coupling device ( 7 . 9 ) with a memory device for storing a power consumption or a power consumption of the bus coupling device ( 7 . 9 ) or the bus coupling device ( 7 . 9 ) including the connected device ( 2 . 3 ). Method for determining a power consumption or a power consumption of at least one bus coupling device ( 7 . 9 ) or at least one bus coupling device ( 7 . 9 ) including a connected device ( 2 . 3 ) characterized by - detecting information from or via the at least one bus coupling device ( 7 . 9 ) and - calculating the power consumption or the power consumption as a function of the acquired information ( 12 . 13 ). Method according to claim 8, wherein a type of the at least one bus coupling device ( 7 . 9 ) is input by a user as the information. Method according to claim 8 or 9, wherein the power consumption for at least one type of the at least one bus coupling device ( 7 . 9 ) is queried by a storage device.