DE102009059269B3 - Bus subscriber for use as actuator in building installation system, has user controller connected to transceiver module by data line, where data is transmitted to controller or vice versa by connection contact using data line - Google Patents

Abstract

The subscriber (1) has a bus coupler (B) including a transceiver module with a transceiver (6), a control logic (7) and a user controller (4) connected to the module by a data line (3). The module is implemented as a transceiver-application specific integrated circuit (ASIC) (2). One of connection contacts (8) provided in connection with verification of the ASIC is installed as an input- or output- contact. A set of data is transmitted to the controller or vice versa by the connection contact using the data line provided between the ASIC and the controller. An independent claim is also included for a method for providing and using an interface for a user controller connected to a transceiver module by a data line.

Description

The Invention relates to a bus subscriber for connection to a bus, which bus subscriber comprises a bus coupler, comprising Transceiver module with a transceiver and with a control logic as well as an over a data line connected to the transceiver module user controller, suitable for driving an actuator and / or a sensor, wherein the transceiver module of the bus coupler is designed as an ASIC. Furthermore, the invention relates to a Busankoppler, comprising a Transceiver module with a control logic and a transceiver as well one over a data line connected to the transceiver module user controller and a method for providing and then using an interface for a transceiver module implemented as an ASIC by means of a data line connected user controller, wherein the transceiver module as an ASIC accomplished is.

bus systems, how they are used in connection with building installation systems, have numerous Bus subscribers of which the actual consumers (actuators), such as the lighting, heating or a window blind become. The one for this receives necessary control commands a such an actuator controlling bus subscriber on the Data bus. The same applies to the case that instead of an actuator, a sensor is provided. Such an actor designed as a bus participant includes, among others Assemble a bus coupler with a transceiver module and a User controller, which is typically designed as a microcontroller. The user controller in turn controls the actual one Circuit breaker of the actuator, which may for example be designed as a relay can. The circuit breakers switch the supply voltage of or the connected consumer. For the necessary communication Between the user controller and the bus, the bus coupler has a transceiver module with a transceiver and with a control logic.

To the Control of certain, for example, located in a room Consumers are, if this is not done manually, sensors used. These may be, for example, brightness sensors, whose output signals apply to the user controller. at such an automatic control is in the room at about falling below a given brightness value, the room light is automatically raised or too big Brightness the window blinds in a sufficiently darkened the requirements Positioned.

Around the user controller of such an actuator with the necessary Input signals for one to provide automatic control, as exemplified above indicated by a brightness sensor, the sensors are typically designed as a bus subscriber and therefore correspondingly expensive. Finally, they need this the for a communication with the bus necessary modules, in particular a bus coupler. Alternatively, it is possible to use the User controller with additional Equip interfaces, where such sensors or other aggregates connected can be. However, this means that these interfaces are customizable on the user controller must be provided.

From the patent DE 197 26 981 C2 is a device combination of a subscriber of a bus system of building system technology with a bus coupler to which an application module can be mounted known. When the application module is plugged in, an application interface is set as a microcontroller interface, whereby a data stream between the microcontroller of the application module and the bus coupler can be generated. To generate a disassembly message with the application module disassembled, an application program is provided in the bus coupling unit.

According to DE 10 2007 009 552 A1 For example, a modular home automation device includes a base module and a plurality of functional modules connected to the base module via a data line, a power line, and a ground line; Furthermore, the function modules have contacts for connecting external devices.

In the post-published patents DE 10 2009 010 964 B3 and DE 10 2009 010 966 B3 electrical / electronic installation devices for building system technology are proposed, which have a first interface for coupling to the bus system of a building and a second interface for an application module. The devices described have a wake-up detection or disassembly detection device.

outgoing from this discussed prior art, the invention therefore lies the task is based, a bus subscriber mentioned above as well to develop an aforementioned method, with the establishment at least one interface for a data input and / or output to and from the user controller of the bus participant with opposite The predicted prior art simplified means is possible.

This object is achieved according to the invention by a bus subscriber, in which at least one the connection contacts present in connection with a verification of the transceiver ASIC are set up as an input or output contact via which at least one connection contact data can be transmitted to the user controller or vice versa using the data line located between the transceiver ASIC and the control unit.

The procedural task is by an initially mentioned method solved, one for the extra Interface needed Number of in connection with a verification of the transceiver ASIC existing connection contacts as input and / or output contacts be set up and then when using the created interface depending on the device of the interface a data transfer from the interface over the transceiver ASIC and the data line to the user controller or vice versa, with such data transfer only enabled when on the transceiver ASIC with the user controller connecting data line does not take place in the same direction Communication between the bus and the user controller takes place.

at the claimed bus subscriber - the same applies to the claimed Method as well as the claimed Busankoppler - be the or the connection contacts of the ASIC (application specific integrated circuit) executed transceiver module to provide the desired interface used. Such a transceiver ASIC has several, typically four connection contacts for the intended use and operation of the transceiver ASIC are unused, if - as is usual - the communication between the transceiver ASIC and the user controller via a separate data line, typically a RxD / TxD line. In these unused in such a case connection contacts these are those conventionally used in verification of the ASIC, and therefore to review its operability be used. Subsequently these connection contacts are to be set against defined potential.

These in such a transceiver ASIC for other purposes existing Terminal contacts are or are set up in the subject matter of the invention, so that they are used as input contact and / or output contact can. Such a device can, for example, by so-called pollen the contacts are made, over the control logic of the transceiver ASIC, in turn, for this purpose is addressed by the user controller. That way is an interface, for example designed as an I / O interface created, without for this purpose a hardware modification or addition of a existing configuration would be necessary. As I / O interface is in the context of these statements not necessarily meant an interface that has an input and having an output contact. Rather, this term includes also the or -link, so that under this term alone an input contact or read an output contact.

A data transfer from this interface to the user controller or vice versa then takes place using the Busankopplersintern and thus from the user controller for a Bus communication protocol used over the already existing Data line between the transceiver ASIC and the user controller. For a data transfer from this interface to the user controller or vice versa is exploited that the control logic of the transceiver ASIC for communication between the user controller and the bus. Thus, the control logic of the transceiver ASIC at those time intervals, in which no bus communication takes place, this transmission path for one data transfer from the created I / O interface to the user controller and / or reverse release. In this conception is thus the bus communication between the user controller and the bus to a data transfer from the established I / O interface to the user controller or vice versa. It goes without saying that if the User controller receives data from the to, the user controller Send data to the interface of the transceiver ASIC. same for Conversely, if data is transmitted to the bus by the user controller, can from this an appropriately furnished interface of the Transceiver ASIC are read out. This is basically a unidirectional data transmission between the user controller and an interface of the transceiver ASIC possible, if communication between the user controller and the Bus takes place unidirectionally in the opposite direction.

Such a terminal contact of the transceiver ASIC is configured as an input or output interface, depending on whether this data input, for example, or the output signals of a brightness sensor to be read or whether data, such as displaying the state of a consumer to an advertisement should be output. About such an interface and the actual actuators or be controlled by the user controller. Because such a transceiver ASIC typically has four otherwise unused connectors that are used exclusively as part of its verification can be configured according to the desired purpose. For example, two I / O interfaces can be formed in this way. In the event that more than two bidirectional I / O interfaces are desired, it is advisable to connect to such an additional I / O interface, a port extension, such as a shift register to which in turn the desired units connected or connectable are. The connection contacts can also all be set up as input contacts or all as output contacts or in any combination with each other. Moreover, it is possible, by appropriate control of the user controller, that the connection contacts can be set up differently when the intended use thereof is changed.

Further advantages and embodiments of the invention will become apparent from the following description of an embodiment with reference to the accompanying 1 , 1 shows a part 1 an otherwise not shown bus participant. The bus participant 1 can be implemented as an actuator of a building installation system with which one or more consumers switched and / or sensors or other input variables are queried. The illustrated part 1 of the bus subscriber comprises a bus coupler B. The bus coupler B comprises a transceiver ASIC 2 and one to this via a data line 3 connected user controller 4 which is designed as a microcontroller in the illustrated embodiment. In the data line 3 an interface, designed, for example, as an optocoupler or as a plug connector, can be switched on.

In the data line 3 it is in the illustrated embodiment is an RxD line 3.1 and a TxD line 3.2 ,

The transceiver ASIC 2 is used for communication between a bus 5 and the user controller 4 , The transceiver ASIC 2 includes a transceiver 6 as well as a control logic 7 , The transceiver ASIC 2 may have other elements which are not essential to the description of the invention. The transceiver ASIC 2 has four connection contacts 8th , These connection contacts 8th are used to connect the transceiver ASIC 2 needed for a verification of its functionality (verification). This will be these contacts 8th conventionally typically used only by the manufacturer of the ASIC for the said purposes. Basically, the four connection contacts 8th also serve for communication with a user controller. However, the effort involved is greater, compared to the effort to be made for communication between the user controller 4 and the transceiver ASIC 2 over the data line 3 , Therefore, for communication with the user controller 4 regularly the RxD and TxD ports of the transceiver ASIC 2 used.

In the bus coupler B serve the connection contacts 8th while using the transceiver ASIC 2 for providing two I / O interfaces, each I / O interface having two connection contacts each 8th each of which is set up as an input contact and the other as an output contact. The connection contacts are addressed 8th through the user controller 4 about the control logic 7 of the transceiver ASIC 2 , For this purpose, the user controller can 4 the control logic 7 to configure the connection points 8th be driven from their original use to the desired use. Receives the control logic 7 such a command will be single or all ports 8th with regard to the desired function.

In the illustrated embodiment is exemplified at two terminals 8th of the transceiver ASIC 2 an I / O functionality 9 connected. Symbolic is the I / O functionality 9 the input function by a button 10 and the output function through an LED 11 shown. It is understood that these functions (input 10 as well as output 11 ) on the user controller 4 Respectively. Corresponding are the connection 8th to which the input functionality 10 is connected as input contact and connection 8th to which the output functionality is connected, set up as an output contact.

In the event that the configuration of the connection contacts 8th after a first configuration thereof due to a desired other functionality of the ports 8th to be changed, this can be done by appropriate control of the control logic 7 through the user controller 4 be made without further ado.

After the first commissioning of the connections 8th and connecting the exemplified I / O functionality 9 For example, where the input may be, for example, the output of a brightness sensor, that will be at the input contact 8th applied signal at intervals from the user controller 4 queried. The times of interrogating the to the input contact 8th applied signal occurs depending on whether between the bus 5 and the user controller 4 about the control logic 7 a communication takes place. This communication is opposite to a query at the input contact 8th applied signal and / or an output via the output contact 8th priority. Consequently, a data transmission between one or both of the aforementioned An takes place circuit contacts 8th and the user controller 4 then, if there is no communication between the bus 5 and the user controller 4 or vice versa. The control logic 7 of the transceiver ASIC 2 comes the function of enabling the possibility of data transmission to the connection contacts 8th to. A data transfer from the port or contacts to the user controller 4 or back via the data line 3 and the data protocol used for this purpose. A query of the input contact (s) 8th can be cyclical under the conditions that bus communication takes precedence.

The Description of the invention makes it clear that in a simple way be assigned to a Busankopper one or more interfaces can, namely using existing connection contacts anyway a transceiver ASIC or other similar device, without that extra Components needed become. Such an interface may be an additional one Act interface, in addition to one or more existing on the user controller Interfaces. Possible It is also the case that the user controller does not have any actuator / sensor interfaces has and set up the transceiver ASIC interfaces for this purpose become.

LIST OF REFERENCE NUMBERS

1

bus station

2

Transceiver ASIC

3

data line

4

users controller

5

bus

6

transceiver

7

control logic

8th

connection

9

I / O functionality

10

button (Input functionality)

11

LED (Output functionality)

B

Bus coupler

Claims (8)

Bus subscriber for connection to a bus ( 5 ), which bus subscriber comprises a bus coupling unit (B), comprising a transceiver module ( 2 ) with a transceiver ( 6 ) and with a control logic ( 7 ) and one via a data line ( 3 ) to the transceiver module ( 2 ) connected user controller ( 4 ), suitable for driving an actuator and / or a sensor, wherein the transceiver module ( 2 ) of the bus coupler (B) is designed as an ASIC, characterized in that at least one of the in connection with a verification of the transceiver ASIC ( 2 ) existing connection contacts ( 8th ) is set up as an input or output contact via which at least one connection contact ( 8th ) Data using the between the transceiver ASIC ( 2 ) and the user controller ( 4 ) data line ( 3 ) to the user controller ( 4 ) or vice versa. Bus subscriber according to claim 1, characterized in that several or all of the data associated with a verification of the transceiver ASIC ( 2 ) existing connection contacts ( 8th ) are set up as input or output contacts. Bus subscriber according to claim 2, characterized in that a connection contact ( 8th ) as input contact and another connection contact ( 8th ) are set up as an output contact and a port extension is connected to these connection contacts. Bus coupler comprising a transceiver module ( 2 ) with a control logic ( 7 ) and a transceiver ( 6 ) and one via a data line ( 3 ) to the transceiver module ( 2 ) connected user controller ( 4 ), wherein the transceiver module ( 2 ) is implemented as an ASIC, characterized in that at least one of the in connection with a verification of the transceiver ASIC ( 2 ) used connection contacts ( 8th ) is set up as an input and / or output interface. Bus coupler according to claim 4, characterized in that several or all of the in connection with a verification of the transceiver ASIC ( 2 ) existing connection contacts ( 8th ) are set up as input or output contacts. Bus coupling unit according to claim 5, characterized in that a connection contact ( 8th ) as input contact and another connection contact ( 8th ) are established as output contacts and to these contacts ( 8th ) a port extension is connected. Method for providing and then using an interface for one by means of a data line ( 3 ) to a transceiver module embodied as an ASIC ( 2 ) connected user controller ( 4 ), characterized in that a number required for the additional interface in connection with a verification of the transceiver ASIC ( 2 ) existing connection contacts ( 8th ) are set up as input and / or output contacts and then, when using the created interface, depending on the device of the interface, a data transmission from the interface via the transceiver ASIC ( 2 ) and the data line ( 3 ) to the user controller ( 4 ) or vice versa, such data transmission being enabled only when the transceiver ASIC ( 2 ) with the user controller ( 4 ) connecting data management ( 3 ) no communication in the same direction between the bus ( 5 ) and the user controller ( 4 ) he follows. Method according to claim 7, characterized in that a transceiver ASIC ( 2 ) associated control logic ( 7 ) is responsible for releasing a data transfer from or to the created interface.

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