FI97585B - Digital signal transmission system for internal wiring technology - Google Patents

Abstract

Digital signal transmission system for communicating devices for switching, controlling, measuring and/or monitoring, particularly for domestic application. The signal transmission system exhibits a basic installation in the form of an interconnected line network, for example in tree structure, each line end of which is terminated by a universal interface which is capable of generating and transmitting or, respectively, receiving and evaluating a signal message. The basic installation provides the possibility of orderly signal message traffic which can communicate with all other universal interfaces. The basic installation can be supplemented by modular device adaptors by means of which the device functions contained in the respective messages can be picked up. <IMAGE>

Description

97585

Digital signal transmission system for internal wiring technology

The invention relates to a digital signal transmission system for communication devices for connection, control, regulation, measurement and / or monitoring, for use in particular in internal wiring technology by means of device stations connected to each other via an interconnection network, e.g. a timber network, each of which the wire end is always separated by a single device station capable of producing and transmitting or receiving and interpreting a signal telegram.

DE-OS 28 32 942 discloses an internal wiring system for transmitting information and signals between an input station and at least 15 single device stations. In this known system, both the input station and each device station include an input / output section and a transmit / receive section for input / output as well as modulation / demodulation and telegram selection. The transmission of data and signals 20 takes place via the electrical power system of the house.

At first sight, it may seem that the inclusion of an already existing power system as a transmission route is an advantage, as it saves on the dual-use installation of the transmission network. However, on closer inspection, considerable changes are required in terms of operational and fault safety.

If we look at the known system as a unit, regardless of the technical details, then the respective Network plugs form system interfaces in the form of passive switching elements, via which the supply station and the device stations are connected to each other.

DE-OS 29 46 177 discloses an information transmission system for a home device which is provided for signal transmission by a separate wiring network, by means of which 35 several participant stations are connected to each other, whereby 2 97585 each participant station is provided with essentially identical construction, with a large integrated circuit to which individual desired function blocks, such as call buttons or status indicators, are connected. The desired functions can be programmed by means of electrical connection components 5, such as short-circuit bridges, diodes or coding switches.

Unlike the first example, this system does not have function-independent interfaces, but 10, despite its potential for variation in connection with participant stations within a predefined function, forms an overall function-dependent system in which each participant station forms a complete unit.

The object of the invention is to provide a signal transmission system assembled from structurally and functionally separate individual systems, comprising an infrastructure bus system for targeted (assigned) switching of different telegrams between any 20 points and a modular matching system which, according to a certain sequence diagram, the bus system can be expanded into an operation-dependent overall system by means of a matching system.

In the case of a signal transmission system, the task is solved according to the type definition of claim 1 by means of the measures given in the characteristics of the main claim. Further developed versions of the invention are described in the subclaims.

The advantage of the invention is that, firstly, the function-independent basic installation is still completely open to any application, i.e. only in the second expansion phase can it be determined which devices and which functions 35 (switching, control, regulation, measuring or monitoring functions) are required.

II

♦ 3 97585 not) the transmission system is used and from where to where the transfer is to take place.

The universal interface can be used to generate and transmit or to receive and interpret a signal telegram, respectively.

5 The interface contains an address field with a source and destination address. The universal connection thus confirms where the telegram sent must end up (destination) or from which place the telegram was sent (source). Address confirmation can take place via a controller located in front of the universal interface (claim 6).

The device adapter is adapted to the respective terminal type and processes the incoming switching, signaling or interrogation command or converts the analog value into a form which the general interface understands and which can form a corresponding telegram (claim 2).

Other device adapters are also able to retrieve the meaning of the received telegram and convert it into a signal that is understood by the terminal connected to them (claim 3).

The device adapter can further be formed so that a signal stream of the type described above flows in both directions (claim 4).

Thus, various device- and function-determining device adapters can be used, which are optionally connected to the universal connection only later, i.e. after the basic installation. To the extent that the device adapters do not themselves act as command commands (switch, key) or e.g. as display units - i.e. in a way as a terminal, the terminals according to claim 5 can be connected to the adapter via a plug connector.

To the extent that the peripheral device already has a power generation and assignment device, the infrastructure bus system can be fed directly via a side interface (claims 7 and 8).

4,97585

The universal connections do not function, as described, as passive switching elements between the bus conductor and the terminals. Rather, after a corresponding external initialization, they are able to generate and send telegrams or, in the opposite direction, to receive the bus telegram and convert these into instructions understandable to the connected device.

According to claim 9, the voltage required for this is obtained from a central electric power system.

An embodiment of the invention will now be described in more detail with reference to the drawing.

Fig. 1 is a wiring diagram of the basic installation. Fig. 2 is a universal connection under scratch. Fig. 3 is a universal interface address controller according to Fig. 2. Fig. 4 is a general connection operation diagram. Fig. 5 is a universal connection with a device adapter. An in-depth examination of the "application, control, regulation, measurement", "safety", and "power supply" applications of the major application areas shows that the transmission of the corresponding control, signaling or status signals is very often "on / off switching signals" or "analog values (e.g. ° C, 1, kg, etc.)" which are exchanged between the two locations via the bus system, i.e. in concrete terms, are transferred from one device to another.

In addition, the transfer process often takes place as follows: A 0 - »0 BA sends an on / off switch-off command, which B executes C 0 ♦ - ODD informs C of the executed switch-on command or C queries D for the current switching state E 0 - ♦ 0 FE sends a command, F must increase the light by 500 lux, lower the room temperature by 3 ° C, etc. 5 97585 GO * - OHH informs G, possibly only after interrogating G, e.g. how how many liters are still in the tank, how many kWh have been consumed, etc.

5 A transmission system with these straightforward features identifies the basic structure and operation of information, control and monitoring systems designed for economies.

The fixed installation system according to Figure 1 forms a signal transmission system which can be exploited in many ways, first of all without a function. It consists of a tree-structured (e.g. twisted pair) interconnector BLV, each conductor end of which is closed by a universal interface UI, which ensures intelligible signal traffic for all participating devices. The equipment is made up devices in which the user closes the side of the support plate 1 (Figure 2). They are the basic installation that makes up the house’s internal wiring technology infrastructure. This basic installation is still fully open to any application (devices, 20 functions).

The universal interface UI is able to generate and transmit or receive and interpret a signal telegram, respectively. The interface contains an address field with a source and destination address. Thus, in the general interface UI, it is confirmed-25 where the telegram sent should end (destination) or from which place the telegram was sent (source). Addresses are confirmed via controls 2,3 located in the support plate area (Figure 3).

The universal interface UI further includes a side interface 4, 30 through which externally (e.g. by means of a terminal) telegrams (including an indication) can be fed directly into the bus system. On the other hand, bus telegrams can be received via this interface, which will not be modified or interpreted in the future by the general interface UI, but by a terminal (Fig. 4).

6 97585 By this definition, the universal interface UI is not a mere passive switching element between the bus media and the terminal; it must also be able, after a corresponding external initialization, to generate and send 5 telegrams or, in the opposite direction, to receive bus telegrams and convert them into instructions understandable to the peripheral device. The electronics needed for this need voltage to be supplied from the mains. The main cable is thus part of the basic installation and supplies all the general connections 10 UI (A-F; Fig. 1). If necessary, the maximum number of universal interfaces UI to be connected must be specified. The overall system would thus consist of several separately entered areas, which, however, functionally form a single entity.

15 The tree structure of a bus system requires branch points. For this purpose, the system is provided with suitable cable junction boxes AD according to Fig. 1.

Although the basic installation described so far makes it possible to switch different telegrams in a targeted manner (indicated) between any two points, it is not immediately possible to deduce from each telegram which device function it contains. Therefore, according to a sequence diagram valid only for the overall system, it has to be determined whether it is (telegram reception) or will be (telegram transmission) e.g. switching command, status message, analog value message, emergency call or alarm message, etc. This determination is performed by the device adapter GA.

The device adapter is adapted to the type of terminal in question, processes the incoming switching, signaling or interrogation command or converts the analog value into a form which the general interface UI understands and from which it can form a corresponding telegram. Other device adapters 35 can also retrieve the meaning of the received telegram and convert it into a signal understood by the connected terminal.

li 7 97585

A third group of device adapters allows a corresponding signal current in both directions.

Thus, various device- and function-determining adapters can be used, which, depending on the choice, only supplement the general connections UI after 5 minutes, i.e. after the basic installation has taken place (Fig. 5). The device adapters GA have mechanical and electrical connecting elements by means of which they are connected to the universal interface UI on the support plate 1. Insofar as the device adapters are not themselves commanders (switches, keys-10) or e.g. display units, i.e. in a way terminals, they have a plug contact 5 to which an external terminal can be connected by means of a cable.

If the terminal has adapter functions, the device adapter consists only of a connecting plate containing a plug-15 chain through which the original bus telegram can be fed directly into or out of the transmission system.

If a universal connection is temporarily not required, the form-fitted blind guard may form a temporary terminal 20.

Claims (9)

1. Digital signal transmission system for communicating apparatus for coupling, controlling, controlling, measuring and / or monitoring, especially for use in indoor conduction technology by means of apparatus stations connected to each other by means of a wiring network and whose wiring diagrams are identical, to which individual desired function units are connected for generating and transmitting or receiving and interpreting a signal telegram, for processing or converting arriving switching, signaling or interrogation instructions to an analog or digital value, characterized in that the signal transmission system 15 is designed as a function independent base the universal interface (UI) and always connected to the wiring ends (BLV), which enable a signal telegram traffic adapted to all other universal interfaces, ie. understandable for all participating devices, and the basic installation can be supplemented with various function-defining device adapters (GA) which can be optionally connected to the universal interfaces (UI) and with which one can find out the device functions that each telegram contains. 2. Signal transmission system according to claim 1, characterized in that the device adapters (GA) are arranged in each terminal (switching device, control device, control device, measuring device, monitoring device) and converting arriving switching, control,. 30 control or measurement signals to such a form as the interfaces (UI) amplify. Signal transmission system according to claim 1 or 2, characterized in that the device adapter (GA) interprets the codes for arriving telegrams so that the terminal in question is currently amplifying it. Il 11 97585 4. Signal transmission system according to any of claims 1-3, characterized in that the device adapter (GA) comprises a converter which converts arriving signals into such a form as the universal interface amplifies, and a further second converter which interprets the codes for arriving telegrams so that the terminal in question reinforces it. Signal transmission system according to any one of claims 1 to 4, characterized in that the apparatus adapter (GA) comprises a plug (5) for the terminal. Signal transmission system according to any one of claims 1 to 5, characterized in that the universal interface (UI) comprises an addressing field 15 (2,3) for controlling the output and input addresses. Signal transmission system according to any of claims 1 to 6, characterized in that the universal interface (UI) comprises a side connection (4), by means of which external, e.g. of the terminal, 20 telegrams were produced directly to the wiring network. Signal transmission system according to any of claims 1-7, characterized in that telegrams are transmitted via the side connection (4), the terminal interpreting or producing the telegrams directly. Signal transmission system according to any of claims 1 to 8, characterized in that the basic installation comprises a central electrical system (ZSV).