DE3723115C1 - Test and measuring device for digital signals - Google Patents

Abstract

During the conversion from analog to digital transmission technology on subscriber line circuits, the latter must be checked for their transmission characteristics with respect to digital signals. A suitable test and measuring device is constructed in such a manner that these digital interface units, as they are operated on a subscriber line at the exchange end and at the subscriber end, are used for test and measuring purposes in that one end (A) of the line to be measured is connected to a digital interface unit which sends out bit patterns generated by a random number generator, which patterns are received by a digital interface unit connected to the other end (E) of the subscriber line (TAL) and acting as reflector, temporarily stored and sent back again. The test and measuring device can be used for examining installed lines for their capability of transmitting digital signals. <IMAGE>

Description

The invention relates to a testing and measuring device for Digital signals with a bit pattern generating, by a clock controlled transmitter, a bit pattern recognizing receiving device and with a display device tung.

In DE-OS 30 37 148 a test facility for digital signals, in particular PCM signals processing telephone companies averaging devices described, which serves to error liable functions or incorrectly executed functional processes half of the telephone exchange with regard to their errors cause without much time and long shutdowns to localize. The tests can also be carried out in the operating state of the telephone exchange. For this constant bit patterns are generated and by a transmitting device tion fed into the telephone exchange and on the other end of the connection path from one of the bit patterns knowing receiving device added. The bit pattern can can be changed manually using appropriate switches.

When analogue switching systems are replaced by digital ones Switching systems now faces the problem of whether the existing those installed lines, especially those in large numbers existing subscriber lines, which so far for the over transmission of analog signals were used, also for transmission digital signals are suitable. By avoiding  a new installation of suitable lines can be done at Switching to digital technology can save big costs, though the previous subscriber lines are still used can be.

The object of the invention is now a test and measurement to specify the installed subscriber line lines on their transmission capability of digital signals can be checked.  

This object is achieved in that the testing and measuring device each has a transmitting and receiving device, which together are connected to the two end points of a line that to Bit patterns are fed in at one end of the line, which are at the other Received and sent again at the end of the line and at the end of the line of the original feed are received and evaluated, whereby both an analog and digital evaluation of the received bits pattern occurs that as the transmitting and receiving devices Facilities of a telecommunications exchange are used, the Exchange and subscriber side of a subscriber connecting line and that at one end a supply to the line that is used to power the other End connected device serves.

While at one end of the line to be tested, the actual test and measuring device is connected, is at the other end of the line only one transmitting and receiving device connected, in which "mirrors" the incoming signals on the line. By using those facilities of a telecommunication ver switching system, the exchange and subscriber side will not be connected to a subscriber line only an economical structure of the testing and measuring device but also a replica of the real situation achieved.

It is already known to carry out a through test as part of a continuity test through a switching system established connection path check by generating sound frequency signals from a transmitter and via a time rail of the switching system for subscriber connection cable sent and from there on another connection path  be sent back to a frequency receiver. In the DE-OS 27 35 341 is an arrangement for continuity testing in Telecommunications systems described in which a four-wire connection is checked for continuity, whereby in the four-wire / two wire fork the signal present on the incoming four-wire branch attenuated to the cable transition loss on the outgoing branch of the Four-wire connection is transmitted and thus comes back to the receiver. With such a continuity test is the measurement and testing the transmission properties of a line not possible Lich.

Furthermore, data signals from one station to one are already known to send to another station, ensuring an error-free Transmission these data words sent back to the sending location will. In DE-OS 36 39 609 a device for checking of data transmission errors, especially in the case of electronic re registers, in which a data error check towards a sending electronic cash register and one Receiving electronic cash register that contains each other are looped in series. When operating the elec Serial cash registers use serial data transfer from the sending electronic cash register to the receiving one electronic cash register and data at the same time transfer from the receiving electronic cash register to sending electronic cash register. The from the sending electronic cash register with the data transferred Data compared by the sending electronic cash register received by the receiving electronic cash register. A measurement of the transfer properties of the cash registers connecting lines does not take place.  

Further advantages result from the subclaims.

The invention will be explained in more detail using an exemplary embodiment refines, which is shown in the drawing.

The actual testing and measuring device P is connected to one end A of the subscriber line TAL , while the other end E of this line is connected to the device S which returns the bit pattern arriving on the subscriber line TAL in unchanged form to the subscriber line TAL sends back to the testing and measuring device. A full duplex traffic is possible on the subscriber line TAL , for example using the time separation method.

The devices DAE 1 , DAE 2 , and SW also present on the exchange and subscriber side in an ISDN switching system are used and operated in almost unchanged form in the present invention. The digital connection unit DAE contains, for example, a transmitter, a receiver, a phase-locked loop (PLL) circuit, etc. The construction of a digital connection unit DAE is described, for example, in the publication "TN-Nachrichten", 1986, Issue 89 pages 32-34, so that it will not be discussed further in the context of this description.

As a data source, a random number generator ZG 1 is connected to the digital connection unit DAE , which generates bit patterns that are sent from the clock generator TG through the digital connection unit DAE 1 to the subscriber line TAL and received by the digital connection unit DAE 2, temporarily stored and then be sent back to the digital connection unit DAE 1 via the subscriber line TAL . The received bit pattern is fed to an evaluation device AW , which has already received the bit pattern generated by the random number generator ZG 1 directly before the transmission and has been stored for comparison.

The device S , which is connected to the other end E of the subscriber line TAL , is also fed via the subscriber line TAL , a DC voltage converter SW ensuring the generation of the supply voltage required by the digital connection unit DAE 2 . The Stromver supply of the testing and measuring device can be done for example from the lighting network by a power supply device SV .

In addition to the random number generator ZG 1 controlled by the clock generator TG, there is a further random generator ZG 2 which generates different bit patterns from the former, which are fed via a jamming transmitter SR onto a further line L located in the vicinity of the subscriber connection line TAL, which line is connected to the line the other end is provided with a line termination AL . As a result, crosstalk can be generated, which u. U. affects the transmission properties of the subscriber line to be tested TAL .

The bit patterns arriving in the evaluation device AW are evaluated digitally, the cable runtime and the bit error rate being able to be ascertained by the comparison already mentioned. The time interval between the two can be measured by comparing the transmitted bit pattern with the received bit pattern in order to determine the cable running time. Furthermore, the correspondence between the transmitted and the received bit pattern can be determined by comparing the individual bit positions of a bit pattern with one another. The bit error rate can be determined by counting the errors occurring within a certain period of time.

However, the transmission properties of a line include not only the cable runtime, which can be determined digitally like the bit error rate, but also analog values which allow conclusions to be drawn about the transmission properties of the subscriber line. This includes, for example, the damping of the center of gravity frequency, the frequency dependency of the damping and the line resistance (feed range). The first two factors can be derived from the control and regulating voltages generated in the digital connection unit DAE 1 , for example the gain controller and equalizer. These values are also fed to the evaluation device AW . The line resistance can be determined by known measures.

Furthermore, asymmetrical interference couplings are often a factor limiting the range in connection with the limited symmetry of the connection circuits. Given the symmetry of the testing and measuring device, this can be determined by increasing the asymmetrical input impedance. For this purpose, a current-compensated choke D is provided in the feed coupling of the feed device SP , which can be looped into the feed line by opening the switches S 1 and S 2 . The switches S 1 and S 2 can be actuated either manually or as a function of certain values determined by the evaluation device AW . An evaluation device AW is connected a display device AZ, indicating the values determined by the evaluation device AW optically.

Claims (10)

1. Test and measuring device for digital signals with a bit pattern generating, controlled by a clock transmitter, a bit pattern recognizing receiving device and with a display device, characterized in that the testing and measuring device each have a transmitting and receiving device (DAE) has, which are connected to the two end points of a line (TAL) , that at one end (A) of the line bit patterns are fed, which are received at the other end (E) of the line and sent again and received at the line end of the original A and are evaluated, with both an analog and digital evaluation of the received bit patterns, that those devices of a telecommunication switching system are used as transmitting and receiving devices (DAE) , the switching centers on the subscriber side and on the subscriber side are connected and that at one end (A ) a feed to the Line (TAL) is created, which serves to supply power to the device (S) connected to the other end (E) . 2. Testing and measuring device according to claim 1, characterized in that the bit patterns are generated by a random number generator (ZG) . 3. Testing and measuring device according to one of claims 1 or 2, characterized in that the transit time of the signals is measured by an evaluation device (AW) connected to the transmitting and receiving device ( DAE 1 ) connected to the other end (A) of the line becomes. 4. Testing and measuring device according to one of claims 1 to 3, characterized in that the bit error rate is measured by a transmitting and receiving device ( DAE 1 ) connected to the other end (A) of the line. 5. Testing and measuring device according to one of claims 1 to 4, characterized in that it is generated by a further random generator (ZG 2 ) from the first random number generator (ZG 1 ) different bit patterns, which by a jammer (SR) on a further in the vicinity of the first line (TAL) line (L) are fed, the other end of which is provided with a line termination (AL) . 6. Testing and measuring device according to one of claims 1 to 5, characterized in that the attenuation of the center of gravity frequency is measured by a transmitting and receiving device ( DAE 1 ) connected to the one end (A) of the line (DAE 1 ) . 7. Testing and measuring device according to one of claims 1 to 6, characterized in that the frequency dependence of the attenuation is measured by a transmitting and receiving device ( DAE 1 ) connected to the one end (A) of the line (DAE 1 ) . 8. Testing and measuring device according to one of claims 3 or 4, characterized in that the control and / or regulating voltages derived from the relevant signals by the transmitting and receiving device (DAE 1 ) are evaluated. 9. Testing and Measuring device according to one of claims 1 to 8, characterized in that a display device of the evaluation device (AW) (AZ) is connected to the display of the determined by the evaluation device (AW) values. 10. Testing and measuring device according to one of claims 1 to 9, characterized in that a current-compensated choke (D) can be ground into the feed connection at one end (A) of the line.