Electricity: measuring and testing – Fault detecting in electric circuits and of electric components – For fault location
Reexamination Certificate
2000-09-29
2003-01-14
Le, N. (Department: 2858)
Electricity: measuring and testing
Fault detecting in electric circuits and of electric components
For fault location
C370S286000, C324S534000
Reexamination Certificate
active
06507199
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention is directed to a method for measuring the operating properties of a subscriber line module for high-bit-rate data transmission and to a system for the implementation of this method.
2. Description of the Related Art
A simple and cost-efficient method for measuring such operating properties without using a separate test and with which the functionability of line cards can also be checked efficiently during ongoing operation was developed for currently employed modules or line cards that control the voice transmission between a public switching center and a standard telephone connection (POTS, plain old telephone service). In this method, a suitable test signal is introduced into a line with a signal processor and the voltages or, respectively, currents that result are detected. The measured data then allows conclusions to be drawn regarding the functionability of the line card.
Line cards of a more recent developmental stage that offer the possibility of high bit rate data transmission, however, will be more and more frequently employed in the immediate future. Such line cards are suited, for example, for ADSL (asymmetric bit rate digital subscriber line) or UDSL (universal digital subscriber line). ADSL represents a transmission method that offers the possibility of simultaneously transmitting the signals of a normal standard connection (POTS) or of an ISDN terminal (integrated services digital network) in the base band as well as, additionally, a high bit rate digital signal in a downstream direction to the subscriber terminal and a medium bit rate digital signal in an upstream direction (and potentially also in the downstream direction as well) in the frequency range lying thereabove over a single copper double lead.
The various frequency ranges are subdivided again into a plurality of sub-channels having a bandwidth of 4.3125 kHz. At the end of the common transmission path, the separation of the analog telephone signals from the digital signals then takes place with filter circuits (what are referred to as POTS or, respectively, ISDN splitters), and the signals are then supplied to the respective terminal device, for example, a telephone and a modem.
The fundamental structure of the frequency band for ADSL given echo compensation shown in
FIG. 4
is very similar to the structure in FIG.
3
. The further subdivision into sub-channels is already shown in FIG.
4
. The base channel is again employed for the transmission of the signals of the standard telephone terminal (POTS). The next twenty-five sub-channels lying above this are again available for the transmission of digital signals in the upstream direction US. However, these twenty-five channels for this method can likewise be employed for the transmission of digital signals in the downstream direction together with the remaining sub-channels, so that a total of up to 249 sub-channels are available for the transmission in the downstream direction. This is possible since, due to the echo compensation, the echo of the signal output by the line card back to the line card is compensated, which nearly prevents a disturbing influence of this echo.
It is also desirable for this high bit rate data transmission method to be able to measure the properties of the subscriber line module during the production and during ongoing operation in a simple and fast way. The measuring methods developed for the currently employed POTS line cards, however cannot be applied given the new x DSL line cards.
One possibility of testing a subscriber line module for a high bit rate data transmission in production and in the field is to connect these in a testing manner to a second modem and then exchange data between this modem and the line card. This method offers the possibility of checking the properties of the subscriber line module in a very comprehensive and exhaustive way. For example, a complete measurement of the signal-to-noise ratio as well as a bit error measurement can thus be implemented. On the other hand, the method is very involved and requires a comparatively long time since, for example, for ADSL, a complete initialization phase taking approximately 10 seconds must first be run.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to specify a simple and fast method for measuring the operating properties of a subscriber line module for high bit rate data transmission, which requires no active test system at the subscriber side.
This object is achieved by a method in which, inventively, a subscriber line module initially generates a test signal that is supplied into a test line connected to the subscriber line module. The properties of the test line are known. An echo signal arising in the line due to the test signal is then in turn received in the subscriber line module or, respectively, the voltages and currents occurring in the line due to the test signal are measured and interpreted for evaluating the properties of the subscriber line module.
The method of the invention thereby utilizes a typical behavior pattern of a line. When, namely, the line is not correctly terminated at the opposite end, an echo arises as a result of the mismatch, which is dependent on the transmission signal and on the line characteristics, so that conclusions about the test signal and, thus, about the functionability of the subscriber line module can be drawn in the interpretation of the echo signal.
Since no initialization phase has to be run for the inventive method, and devices for receiving, interpreting and sending further test signals are not needed at the opposite end of the test line, the method can be implemented in a simple and fast manner. When, for example, a subscriber line module is to be checked in the field, then the test line can be briefly connected to the subscriber line module via a relay.
The object of the invention is also achieved with a system for measuring operating properties of a subscriber line module comprising a test line with known properties that is connectable to the subscriber line module; a signal generator for generating a test signal; a transmitter for feeding the test signal into the test line; a receiver for receiving a signal incoming from the test line or voltages and currents occurring in the test line due to the test signal; and an evaluator for acquiring and evaluating an echo signal or measured voltages and currents arising in the test line. The system may further comprise a relay at an output of the subscriber line module for a connection to the test line.
Developments of the invention include the method which also comprises the step of generating new frequency parts not contained in the test signal in the echo signal by employing a line termination having a non-linear characteristic at an end of the test line. The test signal may be a square-wave signal, a sine-wave signal, a voltage or current ramp, or a constant voltage or current. A plurality of these signals may be superimposed to form the test signal. In order to interpret the signal, time sampling may be utilized, and interpreting the signal may involve averaging, peak value detection, determining a running time of the echo signal, use of a correlation measurement, use of a threshold measurement, or the determination of a time duration until a steady state ensues. The method may further be implemented in a plurality of sections, the method further comprising the step of carrying out a check between the sections to determine whether a setup of a connection is to ensue from or to a subscriber terminal at an end of a telecommunications line connected to the subscriber line module, the method being suspended for a duration of the connection.
The inventive method may be utilized according to an xDSL method, further comprising the steps of generating the test signal in a frequency range in which the subscriber line module is in a position to send signals; and distorting the test signal such that the echo signal comprises frequency parts that can be received b
Ahrndt Thomas
Neumayer Johann
He Amy
Le N.
Shaw Pittman LLP
Siemens Aktiengesellschaft
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