DE102008035785A1 - Actuators e.g. emergency light, addressing method for room of e.g. house, involves identifying selected actuator based on measured line distance regarding position in assembly plan, and transmitting operating address to actuator - Google Patents

Abstract

The method involves selecting an actuator (14) by a central control unit (1) using source address of the actuator. A line distance is determined up to the actuator by a propagation time measurement of a measuring signal transmitted to the actuator. The selected actuator is identified based on the measured line distance regarding a position in an assembly plan. An operating address is transmitted to the actuators. Actuators (18-22) are connected with the central control unit by a control line and provided with a source address. An independent claim is also included for a control system for actuators installed according to an assembly plan, comprising a central control unit.

Description

For Houses or larger buildings it is necessary that in several rooms arranged actuators not just about those in the respective rooms arranged Switch and / or dimmer on and off or controlled can, but there is a need, this To perform functions from a central control unit, the with the actuators via a control line, preferably a bus system connected.

Under Actuators should all controllable or switchable electrical components be understood, for example, lights, emergency lights, electric motors for blinds, door opening and closing mechanisms or heaters.

Around to be able to control the actuators individually or in groups, For example, it is necessary to assign an address to each actuator, which is the central control unit is known. For such addressing it is necessary to first create a mounting plan, in which the location and type of the actuator are recorded. The addressing itself can then be done on site as part of the installation, for example by that provided on the actuator address setting of the Fitter be set. A tax system of this kind is under the name "Timac X-10" known. Everybody points out this system Actuator on two adjusting wheels, of which the first setting wheel 16 Numbers and the second wheel with letters from A to P is designated. With the second wheel is for the Address a house code (A-P) set, with the first The setting wheel is the device number (1 ... 16) for the address is set. The combinations form the operating address for the respective actor. In this way, after installation or Attachment of the actuator a unique address for each actor will be set up locally, resulting from the said composed of two components.

The Operating addresses are then also in the central control unit entered so that this individual actuators under their operating address or in groups can select.

It However, it has been found that such addressing Time consuming and expensive on site. This is because the fitter usually mounted the addressing of the actuator Must state, which means with lights that this on the ceiling and the fitter hang the work on a ladder must make standing. On top of that, such an addressing can only be performed by specialized personnel, thereby the assembly continues to be more expensive.

you has therefore gone over to the actuators before assembly provided with a source address and according to the assembly plan assign a specific position in advance. Also this possibility However, it is expensive and expensive because of the fitter Always make sure that he is the one for a certain assembly station has predetermined actuator to hand. Also by it incurred time losses and sources of error.

In the EP 0433 527 B1 was therefore proposed to provide the actuators with a source address prior to assembly, but to make the assembly even without regard to the original address. In this case, it is necessary to assign the actuators after installation an operating address under which they can be selected individually or in groups from the central control unit. The actuators are selected one after the other from the central control unit at their source address, and you are given the command to identify themselves. This can be achieved in a lamp, for example, by the fact that the lamp is issued the command to shine with 100% luminosity. On site, there must then be a control person who registers the location and type of the respectively identifying actor, the registered data is then communicated to the central control unit. In this way, the originating addresses are successively replaced by the operating addresses.

If the actuators are distributed over long distances, However, the control person has to travel long distances, from one identifying actor to the next to get.

To counter this disadvantage, was in the EP 0766881 B1 proposed, from a central control unit to successively call all actuators at their source address. Each called actuator then emits an externally perceptible identification signal. A supervisor then selects an actor on site and directs a mobile light sensor on it. When the light sensor registers the delivery of an identification signal from the monitored actuator, it reports this to the central control unit together with the position of the actuator. The central control unit then assigns a corresponding operating address to this actuator. The supervisor then directs the mobile light sensor to another actuator. This process is repeated until all actuators are provided with an operating address. In this variant, therefore, it is no longer accidental that determines the path of the person being monitored, but the person supervising determines in turn who the next actuator to be monitored should be.

Also the last described system becomes However, because of the monitoring activity of a control person on the ground still be considered to be in need of improvement.

Of the The invention is therefore based on the object, a method for Addressing of actuators installed according to a mounting plan must be specified the delivery of identification signals on site and their monitoring by a control person is no longer necessary.

• a) Jeder Aktor wird von der zentralen Steuereinheit unter seiner Ursprungsadresse angewählt, und es wird die Leitungsentfernung bis zu diesem Aktor durch Laufzeitmessung eines an den Aktor übermittelten Messsignals und/oder dessen Rückantwort ermittelt,
• b) der jeweils angewählte Aktor wird aufgrund der gemessenen Leitungsentfernung hinsichtlich seiner Position in dem Montageplan, seines Typs usw. identifiziert, und
• c) es wird an den jeweils identifizierten Aktor eine Betriebsadresse übermittelt.

The object is achieved by the following in claim 1 steps:

• a) Each actuator is selected by the central control unit at its source address, and the line distance to this actuator is determined by measuring the transit time of a measurement signal transmitted to the actuator and / or its response,
• b) the selected actuator is identified on the basis of the measured line distance in terms of its position in the mounting plan, its type, etc., and
• c) an operating address is transmitted to the respective identified actuator.

The inventive method assumes that it is possible due to the mounting plan, the line spacing between the central control unit and the respectively selected one Actuator to determine and register. The in the installation plan for each line distance to be determined is therefore a clear one Characteristic for the position of the relevant actuator in the installation plan and naturally also in the realized version. The after selection of an actuator at its original address then actually measured line distance allows it therefore by comparison with the registered line distances from the site plan the position and type of the selected actuator clearly identifiable. After identification can be from the central control unit to a previously generated operating address be transmitted to the selected actuator. If the central control unit controls the actuator under its operating address She knows where she chooses Actuator is and of what type he is. The central control unit can therefore selectively transmit control signals to the actuator and thus achieve the desired effects on site. That was not so far with a choice of the actor under its source address possible.

The Measurement of the line distance between the central control unit and the currently selected actuator is based on procedures the common prior art. After the network theory If you imagine a two-wire line as a juxtaposition of Four poles with longitudinal inductances and cross capacitances which define a line impedance. If at the end of the line a consumer forms a termination impedance that is exactly the same the line impedance is generated at the input of the line fed pulse signal no pulse echo, because the pulse signal completely absorbed by the consumer. If against the consumer a deviating from the line impedance termination impedance forms, one receives at the entrance of the line with temporal Distance after the injection of the pulse signal, a pulse signal echo which is distorted relative to the transmit pulse. the period between the supply of the transmission pulse and the reception of the pulse echo hangs essentially from the cable length. The deformation The pulse echo also depends on the cable length but above all the degree to which the consumer formed terminating impedance of the line impedance is different.

The above findings have hitherto been exploited, for example, to locate fault locations on a communication line. It is pointed out in this connection to the DE 3638147 A1 , the WO 02/091677 A1 , the article "High Accuracy Location of Faults on Electrical Lines Using Digital Signal Processing" by Biesen, Renneboog, and Barel in IEEE Transactions on Instrumentation and Measurement, Vol. 39, No. 1, February 1990, pages 175-179 ,

One Embodiment of the invention will be described below the drawing will be described. Show it:

1 a stylized assembly plan with a central control unit and multiple actuators; and

2 a diagram illustrating the addressing process.

At the in 1 The individual actuators are shown on two levels, on the ground floor (ground floor) and on the first floor (1st floor). On the 1st floor are the central control unit 1 and the actors 14 . 18 and 19 , On the ground floor are the actuators 20 . 21 and 22 ,

The central control unit 1 contains a transmission part 2 , a reception part 3 , a calculator 4 , a control input 5 , an address memory 6 , a line distance measuring part 7 , an identification part 8th and a control unit with a display 9 , From the central control unit 10 go a bus 10 out to a bus coupler 11 running. The bus coupler 11 forms a switch, from which another bus section 12 out.

At the actor 13 it is an emergency lighting unit with a receiver 14 , an emergency light 15 with operating device, an address memory 16 and a bus coupler 17 , The bus 10 runs in the bus coupler 17 in and out of these again. The actor 18 is a luminaire with operating device, which otherwise has the same components as the actuator 13 contains. The same applies to the actor 19 , This is also a lamp.

The Luminaires can be used as lamps, for example gas discharge lamps, High-pressure lamps, LEDs, OLEDs and / or halogen lamps have.

In the case of the actuator located in the EC 20 again it is a lamp. The actor 21 is a light sensor and actuator 22 is again an emergency light.

It should be noted that in the installation plan to each of the actuators, the line distance from the central control unit 1 is registered. So have the actors 13 and 18 to 22 the distances 50 . 80 . 120 . 130 . 160 and 200m , The cable lengths are known by the length of the laid cables.

Furthermore, each actuator includes an originating address and an operating address. The source addresses are distributed arbitrarily and were stored in the production of the actuators. So have the actors 13 and 18 to 22 the following source addresses: U322, U16, U197, U156, U76 and U113. The source addresses are in the actuator 13 in the address memory 16 stored. The same applies to the other actuators. In contrast to the source addresses, the operating addresses have been assigned sequentially to the line distances. So has the actor 14 the operating address B1, and the actuators 16 to 22 have the operating addresses B2 to B6. The operating addresses are also in the address memory 16 stored the individual actuators.

The operating addresses and the source addresses are also in the address memory 6 the central control unit 1 stored. This can therefore be the actuators 13 first select under the source address. When selecting via the source address, although an actuator is addressed in each case, but is the central control unit 1 whose position and type are unknown. Only after the assignment of the operating addresses can the central control unit 1 the actors 13 select specifically and knows their position and their type.

The addressing process will now be based on 2 in the individual steps A to G will be explained.

According to step A should first create a mounting plan and based on the Assembly plan (scale representation or the like) to each actuator, the line distance to the central control unit be determined and registered.

According to step B is to generate a source address for each actor and be enrolled in the actor. This step is independent of Step A, d. H. it can also be in time before step A.

According to step C is intended for every actor listed in the assembly plan is to be generated an operating address. This step is done definitely later than step B, and he can even take place after step E.

According to step D is the assembly plan now realized, d. H. the actors in installed without regard to the building to the source addresses.

Now should from the central control unit according to step E each actuator is selected under its source address, and it should be the running time of the distance from the central control unit to be measured to the actuator. With the selection of the actuator under his Source address changes this its input impedance of a complete adaptation to the line impedance of the Control line in a mismatch. Because of one of the central Control unit emitted measurement signal then follows the distance measurement of the selected actuator from the central control unit. In this way you can by measuring the duration of the broadcast of the measurement signal until the response to the Close the distance from the central control unit to the actuator. The technology is known; and there were at the beginning appropriate References cited.

Of the The next step is now that of the assembly plan determined duration and the measured duration for each Comparing actor with each other. The comparison result is in Step F is used to select the selected actuator with respect to its Identify position in assembly plan. With the position is also known the type of the actuator. Now the below step C generated operating address and the position of the actuator in the mounting plan associated with each other and according to step G is the Operating address transmitted to the selected actuator. This saves it and is from now on under the operating address reachable.

When the correspondence between the central control unit and the actuator selected at its source address ends, the actuator changes its input impedance again, that it coincides with the line impedance as much as possible.

This Operation is repeated until all actuators assigned an operating address has been.

Furthermore, a further embodiment is conceivable in which the actuator to be addressed is preceded in each case for addressing by another bus coupling unit (a type of addressing device) which can change the input impedance of the actuator or of the bus coupling unit. This actor can also send the response for identification. In addition, it is possible that this additional actuator has a direct connection to the actuator to be addressed and can assign an address to this actuator to be addressed via this connection. The connection can be made via the existing bus ( 10 or 12 ) with the bus coupler of the actuator to be addressed or via another wireless or wired control line.

It It is understood that different variations of each step possible are. For example, the operating address not be awarded according to the line distance, but it can also be generated by a random generator, such as this in the usual DALI standard for lighting systems is proposed.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• EP 0433527 B1 [0007]
• EP 0766881 B1 [0009]
• - DE 3638147 A1 [0015]
• WO 02/091677 A1 [0015]

Cited non-patent literature

• - "High Accuracy Location of Faults on Electrical Lines Using Digital Signal Processing" by Biesen, Renneboog and Barel in IEEE Transactions on Instrumentation and Measurement, VOL. 39, NO.1, February 1990, pages 175-179 [0015]

Claims (12)

Method of addressing according to a mounting plan installed actuators that communicate with a central control unit connected to a control line and provided with an originating address are, characterized by the following steps: a) everyone Actuator is from the central control unit under its source address selected, and it will be the line distance up to this Actuator by measuring the transit time of a transmitted to the actuator Measurement signal and / or its response is determined b) the selected actuator is determined by the measured Cable distance with regard to its position in the mounting plan of his type, etc. identified, c) and it will be sent to each identified actuator transmitted an operating address. Method according to claim 1, characterized in that that the actuators are not selected in the source address State one of the line impedance of the control line as possible have close input impedance, and that the input impedance of each actuator when dialed at its source address for the transit time measurement is changed so that they differ from the line impedance of the control line is different, such that by the mismatch echoes the measurement signal to the central control unit is returned. Method according to claim 1 or 2, characterized that at least a part of the actuators lights, especially emergency lights inside an emergency lighting system. The method of claim 3, wherein the lights as Bulbs Gas discharge lamps, high pressure lamps, LEDs, OLEDs and / or Have halogen lamps. Method according to one of claims 1 to 4, characterized in that the operating addresses on the basis of the installation plan according to the line distance of the actuators be forgiven. Method according to one of the preceding claims, with the addressing actuator in each case for addressing another Busankoppler is preceded as addressing, the the input impedance of the actuator or the bus coupler changed. The method of claim 6, wherein the actuator further can also send the response to identify. Control system for several actuators to be installed according to a mounting plan ( 14 . 18 - 22 ), with a central control unit ( 1 ), with a control line ( 10 . 12 ) for connecting each actuator ( 14 . 18 - 22 ) with the central control unit, the central control unit ( 1 ) a transmitting part ( 2 ), a receiving part ( 3 ) and an address memory ( 6 ) and each actuator ( 13 . 18 - 22 ) at least one receiving part ( 14 ) and an address memory ( 16 ), characterized by the central control unit ( 1 ) means for measuring ( 7 ) the line distance to a selected actuator by transit time measurement of a transmitted to the actuator measurement signal and / or its response, means ( 8th ) for identifying an actuator whose line distance has been measured with respect to its position in the mounting plan and / or its type. Control system according to claim 8, characterized in that each actuator ( 13 . 18 - 22 ) Has means to ensure that the actor ( 13 . 18 - 22 ) in the state not selected under an origin address (U322, U16, U197, U156, U76, U113) one of the line impedance of the control line ( 10 . 12 ) has as close as possible input impedance, and that the input impedance of each actuator ( 13 . 18 - 22 ) is changed when selecting sos that they differ from the line impedance of the control line ( 10 . 12 ), such that the mismatch results in an echo of the measurement signal to the central control unit ( 1 ) is returned. Control system according to Claim 8 or 9, characterized in that the control line ( 10 . 12 ) is formed by a bus system. Control system according to one of claims 8 to 10, characterized in that at least a part of the actuators lights, especially emergency lights ( 13 . 22 ), and that the bus system for the identification of the operating devices Bus Coupler ( 11 . 17 ) contains. Control system according to one of Claims 8 to 11, characterized by further comprising means for generating an operating address on the basis of the mounting plan corresponding to the line distance of the actuators ( 13 . 18 - 22 ) from the central control unit ( 1 ).