DE3309549A1 - Method for line-connected periodic high-frequency transmission of enquiry data telegrams containing a subscriber address component and a data component - Google Patents

Abstract

A method is proposed which is used for the high-frequency transmission of data telegrams between a central unit (Z) and a plurality of subscriber modems (TM1). The central unit comprises a central computer (ZR) and a central modem (ZM) connected thereto which is connected via a high-frequency cable network (KN) to the individual subscriber modems. To set the required transmission power of a transmitting component (S2) of a newly installed subscriber modem (TM2), the central unit transmits to the subscriber modem a special enquiry data telegram by means of which, inter alia, the transmission power of the modem is increased by one step and a reply data telegram is transmitted to the central unit. With each further enquiry data telegram of the central unit, the step-by-step increase of the transmission power is continued until the central unit is able to evaluate the reply data telegram. The central unit then transmits a normal enquiry data telegram to the subscriber modem concerned, whereby the further increase of the transmission power is terminated. <IMAGE>

Description

Method for wired periodic

Containing high-frequency transmission of subscriber address part and data part Call data telegrams prior art The invention is based on a method according to the preamble of claim 1.

Such a method is already known in which the transmission power of transmission parts of newly installed subscriber modulators / demodulators, in the following Called subscriber modems, is set manually. To the by the various Distances between a bidirectional amplifier of the radio frequency cable network and to take into account the attenuation differences caused by the subscriber modems - on the The amplifier input on the subscriber side must appear to be the same when it is the known method necessary, based on a site plan, the line attenuation to calculate for the individual subscriber modem locations and based on these attenuation values to set the individual transmission powers.

Advantages of the invention The method according to the invention with the characterizing Features of claim 1 has the advantage that the setting of the transmission power is possible without attenuation calculations and that the technical effort is low The measures listed in the subclaims are advantageous Further developments and improvements of the method specified in claim 1 are possible. Particularly beneficial is a method according to the invention at the one in the control center if one or more response data telegrams are missing a subscriber modem triggered alarm signal is suppressed as long as the control center sends out special call data telegrams. This will last for the duration of the setting the transmission power of a transmission part of a subscriber modem ensures that no unnecessary alarm is given in the control center.

Drawing An embodiment of the invention is shown in the drawing based on a single figure showing a block diagram, shown and in the explained in more detail below.

Description of the invention In the block diagram, Z is a control center denotes the at least one central modem ZM with transmitting part S and receiving part E and an associated central computer ZR includes. The central modem ZM as well as possibly further central modems are available via lines L1, L2, L3 ... with a coupling device K in connection, at the output of which a high-frequency cable network KN is connected, this is preferably one that already exists and is used for cable television purposes Coaxial cable network. In the course of the cable network, bidirectional amplifiers are installed at certain intervals ZV switched, of which in the drawing only the last seen from the control center Bidirectional amplifier is shown. Close to the bidirectional amplifier via lines L10, and ... and several via coupling devices K10, K11, K12 Subscriber modems, of which only in the drawing for the sake of clarity two subscriber modems TM1, TM2 are shown. To each subscriber modem includes a transmitting part S1, S2 and a receiving part El, E2. Sending parts and receiving parts work in duplex mode A subscriber device is connected to each subscriber modem TG1, TG2 on.

The structure described above largely corresponds to known ones Cable television systems with data transmission in both directions, that is, from the Central to the subscriber modems and vice versa.

The function of the arrangement shown in the block diagram is as follows: Between the output of the transmitter part S1, S2 of the subscriber modems TM1, TM2 and the participant-side input of the bidirectional amplifier ZV lie, as in the drawing indicated by dimension lines, different cable lengths D1 and D2 those of the length have proportional damping. The transmission parts S1, S2 of the subscriber modems Tun1, TM2 must therefore, so that at the participant-side input of the bidirectional amplifier the same level can be set to different transmission powers. voices the specified input levels do not match, intermodulation interference occurs in the amplifier, which must be avoided at all costs.

The setting of the transmission power is set out as follows a subscriber modem, for example TM2, newly installed or after a repair be readjusted again, this will be reported to the head office in some form or other Mention of your own participant address communicated. The participant address is in the central computer ZR of the center Z is stored.

As with the known transmission systems, the cable network Call data telegrams one after the other at regular or irregular intervals specifically transmitted to the individual subscriber modems and there by means of the subscriber devices TGl1 TG2 displayed. The call data telegrams are sent by the individual subscriber modems by response data telegrams containing the subscriber address of the subscriber modem concerned and contain certain information requested by the headquarters. The new subscriber modem TM2f to be set has its receiving section E2 always switched on is, the central unit is called with a special call data telegram next to the address of the subscriber modem concerned contains data of certain content. The subscriber modem TM2 forms a switching pulse from the specific data, the triggers the following processes one after the other, directly or indirectly. First is the broadcast part S2 switched on, secondly the transmission power of the transmission part from the transmission power Zero automatically increased by one level or increased manually by a certain amount, thirdly, a response data telegram is sent to the control center and fourthly that Sends part S2 switched off again after sending the response telegram. There the response data telegram is initially sent out with a transmission power that is too low it cannot yet be evaluated in the control center. In the known data transmission systems is in the case of a response data telegram that is expected but cannot be evaluated by the control center a subscriber modem in the control center triggered an alarm signal. With this one However, such an alarm signal is suppressed as long as the control center is operating sends out special call data telegrams. Is now after each with the subscriber modem TM2 incoming special call data telegram the transmission power of the transmitter part S2 increased by one step, the transmission power will ultimately be so high that that the response data telegram of the subscriber modem TM2 from the Central computer ZR of the headquarters can be evaluated. If this happens, so the central computer of the control center ensures that instead of the special call data telegram a normal call data telegram is sent to the TM2 subscriber modem. This causes the following in the subscriber exmodem. First is the broadcast part Secondly, the automatic increase in the transmission power of the transmission part is switched on S2 ends or, in the case of a manual power setting, gives the user a specific one Given a signal that indicates that the required transmission power has been reached, thirdly, a response data telegram is sent to the control center and fourthly the transmitting part S2 switched off. So the transmission power is on the right, the Line length D2 depends on the value set.

If the TM2 subscriber modem is finally ready after a while, to participate in a data exchange, it then communicates its wish to the control center. As a result, the subscriber modem receives TM2 just like the other subscriber modems, for example TM1, all call data telegrams and recognizes them with its address provided call data telegrams.

In the case of larger transmission systems, the control center can, if necessary several central modems connected to the coupling device K via the lines L2, L3 each modem of a group or a circle of subscriber modems assigned.

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Claims (3)

Claims Method for wired periodic radio frequency transmission of the subscriber address part and the data part containing call data telegrams from a control center that has at least one central modem connected to a computer, subscriber modems assigned to the control center, which send a call data telegram intended for them answer by a response data telegram sent to the center, thereby characterized in that for setting the transmission power of the transmission part (S2) of a subscriber modem (TM2) a special call data telegram with the address from the control center (Z) the relevant subscriber modem and a data part sent out certain content becomes that in the subscriber modem with each received special call data telegram one after the other, firstly, the transmitter is switched on, secondly, the transmission power of the transmitting part is increased by a certain amount; thirdly, a response data telegram is sent to the center and fourthly, the transmitter is switched off and that a correctly evaluated response data telegram is a request data telegram in the control center triggers; which in the subscriber modem first turns on the transmitter one after the other, secondly, the increase in the transmission power is ended; thirdly, a response data telegram triggers to the control center and fourthly turns off the transmitter 2. Procedure according to Claim 1, characterized in that the transmitting part (S) and the receiving part (E) the center (Z) as well as the transmitting parts (S1, S2) and the receiving parts (El, E2) of the Subscriber modems (TM1, TM2) work in duplex mode. 3. The method according to claim 1 or 2, characterized in that in the control center (Z) on if one or more response data telegrams are missing a subscriber modem (TM2) triggered alarm signal is suppressed as long as the Central special call data telegrams to the relevant subscriber modem sends.