DE1162427B - Automatic testing device for telecommunication lines, especially in telephone exchanges, for the detection of the same electrical quantities occurring on a large number of lines - Google Patents

Description

Automatic testing device for telecommunication lines, in particular in telephone exchanges, for the detection of a large number of lines occurring similar electrical quantities The invention relates to an automatic Test equipment for telecommunication lines, especially in telephone exchanges, for the detection of similar types occurring on a large number of lines electrical quantities such as voltages, currents, resistances, capacitances, etc. one by means of a starting device started scanning device step by step successively connects all lines with a central testing and measuring device.

There are devices known to compare the on a large Number of switching elements lying on lines (e.g. resistors, stages of radio receivers etc.) with a fixed standard, taking into account a certain tolerance range to serve the normal value. Your application depends on the exact knowledge of the Setpoint value of the variables to be tested, a condition that is particularly important in telecommunications Institutions not easy to meet is because the identification of the various Normal values of all trunk groups and their corresponding labeling one would represent too high a financial expense. Should z. B. be determined whether the capacity load of a cable section is within the permissible limits holds, the setpoint must be determined according to type (distance between conductors, type of dielectric) and length of the cable must be taken, and also the seasonal fluctuations, to which the capacitance value is known to be subject. Flawlessly comparable results are only possible through time-consuming measurements to achieve. On the other hand, it is a plausible and experience-based fact that the measured values of lines of a bundle tested under the same conditions not very different from one another, but rather in one from experience known tolerance range.

It is also known to set up calculating machines so that they to Once solved tasks save the result and before starting the solution a check new task whether this solution already exists ("learning" calculators). However, these calculating machines are not suitable for the task presented here, because the number of logical links to be managed in the present case is in contrast to the conditions in "learning" calculators - slight and always the same is. The effort of well-known calculating machines would, since it is one for the one presented here Task is used in an unsuitable position, not through a corresponding work result be justified. The invention describes another way that is posed To solve the problem, and avoids all the disadvantages inherent in the known devices. It is characterized in that a) the lines in the test device with central Measured value converters are connectable, the means for reversible unambiguous conversion of the detected variables contained in storable signals and their outputs with the Inputs of comparison value memories and the input of a measured value memory connected are that b) additional switching means are provided in the scanning device, with the aid of which the signals assigned to the respective first measured values are used as comparison values into the comparison value memory and one after the other into the measured value memory and the signals corresponding to all further measured values one after the other for a time which is smaller than a sampling step, only get into the measured value memory, and that c) the outputs of the comparison value memories, possibly via others in the scanning device Contained switching elements, and the outputs of the measured value memory with a comparison arrangement are connected, which is the difference of the (the at the outputs of a comparison value memory and the measured value and comparison value corresponding to signals taken from the measured value memory on Compliance with a predeterminable with the help of a switchable tolerance allowance device Checks tolerance and their output with a known manner in compliance with tolerance the scanning device advances, if the tolerance is not maintained, an alarm signal dispensing display device is connected.

In order to not only have an electrical quantity during a sampling period, but several or all of them are different and for the trunk group to be tested To be able to measure characteristic electrical quantities is an expedient embodiment the invention provides that each electrical variable to be tested has a transducer and a comparison value memory is assigned to each, which is associated with the from the scanning device signals emitted when scanning the first line of a bundle to be tested of lines can be switched on one after the other.

The arrangement according to the invention works particularly economically, if they only have one signal assigned for different types of measured variables and values Measured value memory required. In addition and around all sizes to be checked with a defined In order to be able to process accuracy, it is expedient to make these quantities more uniform in signals Transform shape. For this reason, in one embodiment of the invention Measurement converters are used, the output devices of which are designed for digital signals are.

To determine whether the difference between the input signals of the comparison arrangement assigned comparison and measured values are within a specified tolerance, digital arithmetic circuits of a known type could be used per se. This one however, they usually require considerable effort, on the other hand extreme accuracy At this point the overall arrangement is not required, looks expedient Formation of the subject matter of the invention provides that the signals of the comparison value memory and the measured value memory for checking compliance with the predefinable tolerance consists of an analog computing circuit.

The intended use of the invention must in the case that a The size occurring on a line exceeds the permissible tolerance by a Alarm signal an operator can be made aware of this faulty line. One form of the invention is therefore designed so that the alarm signal of the display device Means influencing by an operator, preferably optical or acoustic Means that is formed.

In some applications it is desirable that the operator does not have to be constantly present to respond to an alarm signal that may occur; to wait, but that it can find out which one by querying a memory Line has triggered an alarm signal. To this end, see an appropriate training of the subject matter of the invention that the alarm signal from the display device as well as identification signals triggered by this from the scanning device are fed to an output memory.

The test device according to the invention is in the following on the basis of a Example and its representation in FIG. 1 and 2 explained in more detail. It shows F i g. 1 the basic structure of the test facility for measuring similar types electrical quantities, F i g. 2 the corresponding structure of the test facility for Measurement of various electrical quantities within one sampling period, d. H. at one-time connection of the test facility with each line of the test facility electrical quantities leading bundle of communication lines.

Various electrical quantities of the same type occur on a large number of lines, of which in the arrangement according to FIG. 1 only one is to be tested at a time, symbolized by a resistance per line, of which in the arrangement according to FIG. 2 three different tests are to be carried out, each represented by a resistor, a capacitor and a relay coil per line. . By a starting device 11 in FIG. 1 or 111 in FIG. 2, the scanning device 12 or 112 is set in motion and connects the output of the first line in FIG. 1 with a central measured value converter 13. A selector or an electronic multiple switch or the like in conjunction with a control circuit is suitable, for example, as the scanning device. In the measured value converter 13, the measured value of the first variable obtained in the test device is converted in a reversible and unambiguous manner into signals which can be stored and which are sent to a comparison value memory 14 and to the measured value memory 15. The scanner 112 in FIG. 2 contrast, connects the output of the connected in a known manner in the test apparatus to the first conduit for measuring resistance, capacitance and inductance in succession with the Meßwertumsetzern 113 a, 113 b and 113c. For this purpose, the scanning device 112 additionally contains switching means, not shown, e.g. B. a second selector or electronic multiple switch. Each of these three transducers converts the measured value of the variable assigned to it, determined in a known manner, into storable signals and enters these separately into the comparison value memories 114 a, 114 b, 114 c and one after the other into the measured value memory 115. Comes as comparison and measured value memories Memory of known type in question, such as magnetic core, tape or plate memory, bistable multivibrators, relay or capacitor memory or the like. The output of the measured value memory 15 or 115 is with a comparison arrangement 16 Ibrw. 116 connected to which the output of the comparison value memory 14 also leads, while the outputs of the comparison value memories 114 a, 114 b, 114 c in FIG. 2 are connected to the comparison device 116 via further switching elements contained in the scanning device 112. In the comparison arrangement 16 or 116, the signals taken from the outputs of a comparison value memory and the measured value memory, or the measured values and comparison values corresponding to them, are compared with one another. In the arrangement according to FIG. l only a single comparison takes place, in the arrangement according to FIG. 2, the three signal sequences entering the measured value memory 115 one after the other are also compared one after the other with those contained in the three comparison value memories 114a, 114b and 114e.

The comparison arrangement can be made by means of a tolerance-adding device 17 or 117 16 or 116 pre-set by an operator to the permissible tolerances, the invention including the possibility of a different tolerance for each size to choose. This tolerance is used when comparing between comparison value and measured value taken into account. The comparison arrangement 16 or 116 can, for. B. as an analog computing circuit be constructed.

When checking the first line, the comparison value and the measured value are exact equal, and the display device connected to the output of the comparison arrangement 18 or 118 then emits a signal that is transmitted via the connection 19 or 119 the Scanning device 12 or 112 advances one step to the second Line on which the electrical quantity to be tested occurs. The one on the second line The size (or sizes) obtained is converted back into storable signals in the transducer converted, which are only in the measured value memory 15 or one after the other in the measured value memory 115 are given. In the comparison arrangement 16 these are the measured value of the second Line associated signals with those contained in the comparison value memory 14, the Measured value of the previously tested first line corresponding signals compared and checked for compliance with the specified tolerance. In the comparison arrangement 116 the same happens one after the other with the three quantities of the second line and the three stored comparison values, possibly taking into account various Tolerances per measured variable.

If the tolerance is observed, the comparison arrangement gives 16 or 116 a signal to the display device 18 or 118, which is transmitted via a line 19 or 119 the further switching of the scanning device causes etc. If the Tolerance, however, the comparison arrangement emits a signal that the display device 18 or 118 causes an alarm signal to be emitted. This signal can be used if necessary are displayed optically or acoustically to the operator. In the representation according to FIG. 1 and 2, however, the alarm signal from the display device 18 or 118 is fed to an output memory 20 or 120, which is simultaneously from the scanning device 12 or 112 via a line 21 or 121 receives an additional signal that for the current position of the scanning device is characteristic and thus indicates how many lines it is. By means of a lamp or the like, the operator It is made clear which line has not complied with the specified tolerance.

Different electrical quantities can be identified with the automatic Test device according to a further development of the invention also check that, instead of to take all sizes one after the other on each line, the testing device several Scanning runs and with each scanning run only one variable at all Checks lines. In this case there is a converter for each measured variable, for all Sizes but only a common comparison value memory is provided for each The scanning path stores the comparison value corresponding to the measured variable to be tested.

Claims (6)

Claims: 1. Automatic test device for telecommunication lines, in particular in Ferusprechvermittlungsanlagen, for the detection of the same electrical quantities occurring on a large number of lines, in which a scanning device set in motion by means of a starting device connects all lines one after the other with a central test and measuring device, characterized in that a) the lines in the test device can be connected to central measured value converters (13; 113 a, 113 b, 113c), which contain means for reversibly unambiguous conversion of the recorded variables into signals that can be stored, and their outputs with the inputs of comparison value memories (14 ; 114 a, 114 b, 114 c) and the input of a measured value memory (15; 115) are connected, that b) additional switching means are provided in the scanning device (12, 112), with the aid of which the signals assigned to the respective first measured values are used as comparison values in the comparison value memory and nache one after the other into the measured value memory and the signals corresponding to all further measured values pass one after the other for a time which is less than one scanning step only into the measured value memory, and that c) the outputs of the comparison value memories, possibly via others in the scanning device (12; 112) contained switching elements, and the outputs of the measured value memory are connected to a comparison arrangement (16; 116) which determines the difference between the measured value and the comparison value (corresponding to the signals taken at the outputs of a comparison value memory and the measured value memory) to ensure compliance with a switchable Tolerance addition device (17; 117) checks predefinable tolerance and the output of which is connected to a display device (18; 118) which advances the scanning device (12; 112) in a known manner if the tolerance is not observed and which emits an alarm signal if the tolerance is not observed. 2. Arrangement according to claim 1, characterized in that each electrical variable to be tested has a respective transducer (13; 113 a, 113 b, 113 c) and - depending on the type of scanning - either a comparison value memory (14; 114a, 114b, 114c) or electrical comparison value memories, which can be switched on one after the other with signals emitted by the scanning device (12; 112) when scanning the first line of a bundle of lines to be tested. 3. Arrangement according to claim 1, characterized in that the measured value converter (13; 113a, 113b, 113c) can be used with an output device for digital signals. 4. Arrangement according to claim 1, characterized in that the signals of the comparison value memories (14; 114a, 114b, 114c) and the measured value memory (15; 115) for compliance with the prescribable Tolerance-checking comparison arrangement (16; 116) from an analog computing circuit consists. 5. Arrangement according to claim 1, characterized in that the alarm signal the display device (18; 118) by an operator influencing, preferably optical or acoustic means is formed. 6. Arrangement according to claim 1, characterized in that the alarm signal from the display device (18; 118) and identification signals triggered by this from the scanning device (12; 112) are fed to an output memory (20; 120). Publications considered: German Patent No. 970 570.