DE4400765C2 - Device for data transmission over the power supply network - Google Patents

Description

The invention relates to a device for data transmission supply via the power supply network, with at least one Central with transmitters and / or receivers, also with one or more extensions designed as repeaters len with transmitters and receivers, and with the electricity Coupling / decoupling devices connected to the supply network for the central office and the branches, whereby between individual extensions with each other and / or the head office a respective overlap area of the transmission and / or Reception areas are provided so that each extension is at least indirectly connected to the headquarters.

Such a generic device is the subject of U.S. Patent 4,638,298. In addition, there are others Devices for data transmission via the power supply network in various designs tion form known, the most used Type of transmission using a carrier frequency in fre frequency range around 100 kHz. The modulation is AM (amplitude modulation) or FSK (frequencies cy shift keying). Since that serving as a data channel Power grid and its design and a direction primarily to the transmission of a 50 Hz sine signals and not for data transmission at higher Frequencies are set up, it is extremely difficult To transmit information at higher frequencies. In particular, the signal attenuation with these Fre sequences through the network topology and through the closed loads determined. The damping changes by the type and number of connected Ver need and by the operating state of this ver needs continuously and is unpredictable. In addition, all connected consumers briefly - e.g. B. for switching on and off - or permanent, a glitch pattern that is in the Power supply network spreads, generate. there depends on the strength and range of the glitches like therefore of the damping for the associated Fre frequency range.  

Since the switch-on and operating status of all ver Not letting users predict is a foresight end design of the power supply network in relation not possible for a data transfer. To anyway a flawless data transmission over the stream To ensure supply network, it is from DE-OS 42 36 310 known among other things, data telegrams in to transmit more than one frequency range. there it is sufficient for the evaluation in the head office if only one frequency pair is received without errors. In each In this case there will be disruptions in the electricity supplier network, even through manipulation on.

The well-known facility has proven itself, however comes across in terms of the range of the extension len like the central to physical limits, esp special due to the signal attenuation at high fre quences.

In a device for data transmission of the input described structure, as described by US Pat. No. 4,638,298 has become known, the respective transmission path for messages between the head office and the branches in Established within a procedure which is the shortest select possible route. However, this includes delays with remote extensions.

The same applies to those in the context of EP 0 062 870 described device for data transmission over the Power supply network. Because here is from a head office always addressed a specific terminal (LMT) via one from the head office or from an associated one Computer predetermined route through the relevant electricity supplier supply network. If the terminal is not within the range repeater are provided.

The invention is based on the technical problem Device for data transmission via the power supply network according to the structure described above so white ter form that especially when used in alarm the extensions immediately and without delay can be addressed.

The invention helps to solve this problem a generic device for data transmission over the power supply network that the head office all Liche extension has a directly reaching transmitter, so that messages from some extension to the Head office there immediately in a direct, all extensions without intervening repeaters or extensions be implemented.

These measures of the invention are first of all achieved that now a data transmission via the Stromver supply network in addition to the direct that is still possible Path between the headquarters and the branches still over an indirect way can take place.

Because by the fact that Extensions are each designed as repeaters, be there is the possibility of these extensions as relay sta deployments. For example, a night directed from an extension to at least one headquarters addressed and sent. Everyone listens to the broadcast richly located other extensions the broadcast with and forward to avoid collisions the listened message according to a defined procedure in turn again. In this way, the head office receives the Original broadcast of an extension is now ideal fall several times, on the one hand directly from the original originally sending extension, on the other hand on direct route through shipments from other extensions. This means that a direct connection between the original sending extension and the receiving center is no longer absolutely necessary  is. Because one from the original extension sent data telegram can now on indirect way, without a direct connection to the head office the headquarters are transmitted. Anyway is on this Way the range between originally sending Extension and receiving center considerably ver enlarges. Add to that the repetitions the broadcast in the intermediate branches disturbed transmissions recognized as such and under can be pressed.

Other essential features are listed below.

It is intended that the secondary provide preferably as a repeater with associated Sen sensors and / or actuators are formed. In this To the extensions can therefore be connected on the one hand be designed as a repeater, so take over only the function of relay stations. incoming Programs of data telegrams are received and according to a predetermined avoidance procedure sent out again by collisions. Furthermore on the other hand, there is a possibility that the secondary provide associated sensors and / or actuators sen, in turn, therefore, originally produce programs can. In the case of Alarmsy come as sensors for example, motion detectors, smoke sensors ren, vibration detector, glass break detector, acousti cal sensors, proximity sensors, touch sensors or the like. Among actuators are in Frame of the invention actuators for closing for example ventilation flaps, electrically operated bare valves for gas or air supply or the like to understand. It is also provided that the transmission and reception areas of the extensions under each other and the broadcast area of at least one subordinate place at least one Zen with the reception area overlap trale so that between each individual Ne no overlap-free work rich exists. This ensures that each extension with the head office either on direk connected directly or indirectly. This must be taken into account, however, that the respective Sending and receiving areas depending on the Can change signal attenuation in the power supply network NEN. An interpretation of the transmission and reception performance So the branches like the central must be in the Way that even at maximum signal attenuation no overlap-free area between everyone  individual extension and the at least one centra le exists. In addition, it is intended that the Sen De and reception areas of the extensions each un one another and the reception area at least one Extension with the transmission area at least one Headquarters overlap so that between each one Extension and the head office no overlap-free Area exists. In this way, for example Shipments from the at least one headquarters also to a remote extension with which no there is direct contact. It be so there is the possibility, for example Akto to activate a remote extension, without a direct connection between headquarters and corresponding extension exists. Is finally provided that the transmission and reception areas of the extensions in turn with each other and the reception and / or transmission area at least one Extension with the transmission and / or reception area overlap at least one center so that between each individual extension and the head office no over lapping-free area is present.

So it is within the scope of the invention itself of course the possibility that the at least one Zen trale has a strong transmitter, which all Ne directly reached, while the branches each because they only have a small transmission power. To this You can also use remote extensions Actuators can be addressed directly from the control center, while Sendesi broadcast from the extensions gnale only indirectly to the headquarters Such an approach is available, for example instruct if a trained as a smoke detector Sensor in a remote room smoke detec and all from the head office simultaneously with Akto connected ventilation flaps of an air conditioning system should be closed.

In the following the invention is based on a single Lich an exemplary embodiment drawing explained in more detail; show it:

Fig. 1 is a block diagram of the device according to the invention and

Fig. 2 shows the transmission and reception areas of a center with three extensions.

In the figures, there is a device for data transmission via the power supply network 1 , with a central 2 with a transmitting and receiving device, with three sub-locations 3 , 3 'and 3 "with transmitting and receiving devices, and with the power supply network 1 being connected Coupling / decoupling devices 4 for the control center 2 and the extension 3 are shown. The control center 2 has an input / output device 5 , for example a computer with a connected monitor, for monitoring the extensions 3 , 3 'and 3 ". In addition to the extension 3 shown in FIG. 1, two further extensions 3 'and 3 "with coupling / decoupling devices 4 connected to the power supply network 1 are provided. In the exemplary embodiment according to FIG. 2, a total of three extensions 3 , 3 ' and 3 "represents. All extensions 3 , 3 'and 3 "are each designed as transmitting and receiving devices. The extensions 3 , 3 ' and 3 " can be designed as repeaters or as repeaters with associated sensors 6 and / or actuators 7 . The auxiliary position 3 shown in FIG. 1 is designed as a repeater with an associated sensor 6 and an actuator 7 . From the results shown in FIG. 2, extension 3, 3 'and 3 "is the branch 3 as a repeater with an associated sensor 6 and actuator 7 is formed, while the extension 3' and Re Peater with sensor 6, and the extension 3" merely as Repeater is trained. The control center 2 is designed as a transmitting and receiving device, the transmitting and receiving areas of the extensions 3 , 3 'and 3 "being in each case one another and the receiving and transmitting area of at least one extension - in the embodiment example of the extensions 3 ' and 3 " - Overlap with the transmission and reception area of the control center 2 so that there is no overlap-free area between each individual extension 3 , 3 'and 3 "and the control center 2. This is shown in particular in FIG. 2, where the overlap areas 8 are hatched It follows from this that, for example, the extension 3 has no direct connection to the control center 2 , but is indirectly connected to the control center 2 via the extension 3 "which is interposed as a relay station.

In addition, it is indicated in Fig. 2 that the center 2 can have a very strong transmitter (dashed transmission range), which reaches all extensions 3 , 3 'and 3 "directly. In this case, the sub-branches 3 , 3 ' and 3 "small transmission powers, while the control center 2, for example, reaches the extension 3 and thus the actuator 7 directly. In this way, the extension 3 can be addressed without the extension 3 "being interposed as a relay station. This is useful, for example, in the event that the extension 3 'detects smoke with the sensor 6 designed as a smoke detector and sends it to the central 2 reports, which then immediately connected to the actuator 7 Lüf tung flap of an air conditioner on the extension 3 closes. all this therefore takes place without at the extension 3 smoke has been already detected.

Claims (5)

1. Device for data transmission via the power supply network ( 1 ), with
at least one control center with transmitting and / or receiving devices, furthermore with
one or more, designed as a repeater, extensions ( 3 , 3 ', 3 ") with transmitting and receiving devices, and with
Coupling / decoupling devices ( 4 ) connected to the power supply network ( 1 ) for the control center ( 2 ) and the extensions ( 3 , 3 ', 3 "),
A respective overlap area ( 8 ) of the transmission and / or reception areas is provided between individual extensions ( 3 , 3 ', 3 ") with one another and / or with the control center ( 2 ), so that each extension ( 3 , 3 ' , 3 ") is at least indirectly connected to the control center ( 2 ),
characterized in that the center ( 2 ) has a transmitter which reaches all the extensions ( 3 , 3 ', 3 ") directly, so that messages from any extension ( 3 , 3 ', 3 ") to the control center ( 2 ) there immediately are converted into a direct address which includes all extensions ( 3 , 3 ', 3 ") without the intermediary of repeaters or extensions ( 3 , 3 ', 3 "). 2. Device according to claim 1, characterized in that the extensions designed as repeaters ( 3 , 3 ', 3 ") have sensors ( 6 ) and / or actuators ( 7 ). 3. Device according to claim 2, characterized in that the sensors ( 6 ) are motion detectors, smoke sensors, vibration detectors, glass break detectors, acoustic sensors, proximity detectors, touch detectors or similar devices. 4. Device according to claim 2 or 3, characterized in that as actuators ( 7 ) servomotors for closing, for example, ventilation flaps, electrically operable Ven tile for gas or air supply or the like are used. 5. Device according to one of claims 1 to 4, characterized in that the extensions configured as repeaters ( 3 , 3 ', 3 ") repeat a generated message, if necessary several times, and transmit it to the central station ( 2 ) in different ways.