WO2002076139A1

WO2002076139A1 - Electronic central office and test unit for inspecting an electronic central office

Info

Publication number: WO2002076139A1
Application number: PCT/DE2002/000356
Authority: WO
Inventors: Thomas Ahrndt
Original assignee: Siemens Aktiengesellschaft
Priority date: 2001-03-16
Filing date: 2002-02-01
Publication date: 2002-09-26
Also published as: DE10112809A1

Abstract

The invention relates to a hardware sensor for detecting an inquiry signal for establishing a data link. The provision of said hardware sensor allows for a simple and inexpensive design of the detection function. The invention also relates to a test unit that is provided with a signal generator that is capable of generating inquiry signals for establishing a data link. The provision of the test unit allows for a simple inspection of the hardware sensor.

Description

description

Electronic interrogation center and test unit for checking an electronic interrogation center

The invention relates to an electronic exchange according to the preamble of claim 1 and a test unit for checking an electronic exchange according to the preamble of claim 5.

Electronic switching centers are used, for example, to switch data connections between data terminals, in particular to switch data connections between two modems. If a modem requests the establishment of a data connection, the modem sends a setup signal to the electronic switching center. The electronic switching center detects the set-up signal, evaluates the set-up signal based on which subscriber a data connection is to be set up and then establishes a data connection with this subscriber.

When a data connection is established between a modem and the electronic switching center, the data are exchanged using predefined data protocols. For example, the data protocol ITU G.994.1 or the data protocol ANSI Tl.413 is used. The recognition of the request signal represents an important function for the functionality of the electronic exchange.

An object of the invention is to provide an electronic switching center with which a request signal is reliably recognized. Furthermore, the object of the invention is to provide a test unit for checking the functionality of the electronic exchange. The object of the invention is achieved by the features of claim 1 and by the features of claim 5.

An advantage of the invention is that a hardware sensor is provided for recognizing the request signal. The hardware sensor is connected to an input line of the electronic switching center and checks the input line for whether an inquiry signal is received.

The use of the hardware sensor ensures reliable detection of the request signal. Furthermore, since the hardware sensor represents a closed sensor, it can be checked for correct functionality with simple measures. Furthermore, in the event of a hardware sensor failure, the electronic switching center can be repaired in a simple manner by replacing the entire hardware sensor.

Further advantageous embodiments of the invention are specified in the dependent claims.

In a preferred embodiment of the invention, the hardware sensor is integrated in an integrated circuit with a circuit for data processing and / or for speech processing. This embodiment offers the advantage that the function of the hardware sensor and the function of data processing and / or speech processing are implemented in a semiconductor module. This enables cost-effective implementation of the various functions.

The hardware sensor is preferably designed in such a way that it detects a request signal according to the ITU G.994.1 standard or the ANSI Tl.413 R-Act-Req standard. The described embodiment of the hardware sensor recognizes request signals from two of the most important data protocols. Thus, the hardware sensor described can be used in many application environments. An advantageous development of the test unit is that the test unit can generate a request signal in different transmission powers. The use of different transmission powers for checking the hardware sensor offers the advantage that, in addition to the functionality of the hardware sensor, the sensitivity of the hardware sensor can also be checked. For this purpose, the test unit advantageously has a programmable signal generator which can preferably generate any desired request signal, but in particular the request signals according to the ITU G.994.1 and ANSI Tl.413 R-Act-Req data protocols.

In a preferred embodiment of the invention, the test unit emits an error signal if the hardware sensor does not recognize the request signal despite specifying a request signal.

The invention is explained in more detail below with reference to the figures. It shows the figure one

Circuit arrangement with a terminal and an exchange.

FIG. 1 schematically shows an arrangement in which a terminal 5 is connected to a switching center 1 via a data line 8. To exchange the data, the terminal 5 has a modem 4 which is connected directly to the data line 8. The data line 8 is connected in the exchange 1 to a subscriber line module 16 which has an electronic module 2. The electronic module 2 has a hardware sensor 3, a speech recognition circuit 11 and a data processing circuit 12. The speech recognition circuit 11 and the data processing circuit 12 are preferably formed together with the hardware sensor 3 in the form of an integrated circuit on a semiconductor component. Depending on the embodiment, the module 2 can also be arranged in the form of various discrete components on a circuit board his. The subscriber line module 16 also has a computing unit 13 which controls the speech recognition circuit 11 and the data processing circuit 12.

The data line 8 is connected via a first connection point 14 to the module 2, to which the speech recognition circuit 11 and the data processing circuit 12 are also connected. A selection switch 9 is also provided, which is connected to an input of the hardware sensor 3 and, depending on its switching position, connects the hardware sensor 3 to the first connection point 14 or to a second connection point 15. The hardware sensor 3 is connected to the computing unit 13 via a signal line. In addition, the computing unit 13 is connected to the signal generator 10 via a control line 17. A display 18 is also connected to the computing unit 13.

A test unit 6 can be connected to the second connection point 15 via a data bus 7. The test unit 6 has a signal generator 10 which is connected to the data bus 7.

The circuit arrangement according to the figure functions in such a way that the selection switch 9 connects the hardware sensor 3 to the first connection point 14 in a working position. If a request signal now arrives from the data modem 4 via the data line 8 at the connection point 14, the hardware sensor 3 recognizes the request signal and sends a corresponding control pulse to the computing unit 13. The computing unit 13 controls the data processing circuit 12 in such a way that Request signal for establishing a data connection between the data modem 4 and the switching center 1 is established.

If, for example, a request signal for establishing a data connection has been received, the computing unit 13 controls furthermore the switching center 1 in such a way that the desired telephone subscriber is dialed by the switching center 1 to set up a data connection. If the desired telephone subscriber is ready to set up a data connection, the switching center 1 establishes a voice connection between the subscriber device 5 and the desired telephone subscriber.

For a check of the hardware sensor 3, the selection switch 9 is switched over by the computing unit 13, so that the hardware sensor 3 is connected to the second connection point 15. At the same time, the arithmetic unit 13 sends a start signal to the signal generator 10. After receiving the start signal, the test unit 6 sends a request signal generated by the signal generator 10 via the data bus 7 and the second connection point 15 to the hardware sensor 3. The hardware sensor now recognizes 3 a request signal, the hardware sensor 3 consequently sends a corresponding display signal to the arithmetic unit 13. The functionality of the hardware sensor 3 is checked, for example, in such a way that the arithmetic unit 13 after the start signal has been given to the test unit 6 a display signal of the hardware sensor 3 expected. If the hardware sensor 3 does not deliver the request signal within a predetermined period of time, the computing unit 13 detects a malfunction of the hardware sensor 3 and emits a corresponding error signal via an interface. The error signal is output, for example, on the display 18 or in an acoustic or optical form.

A further improvement of the method according to the invention is achieved in that the signal generator 10 outputs the request signal in different transmission powers. The transmission power is preferably specified by the computing unit 13, so that the computing unit 13 recognizes, for example by a step-by-step increase in the transmission power, at which transmission power the hardware sensor 3 detects the request signal. In a further embodiment, the test unit 6 forwards the request signal to the hardware sensor 3 in a predetermined time grid with increasing transmission power. The temporal increase in the increasing transmission power is known to the arithmetic unit 13, as is the start of the output, so that the arithmetic unit 13 recognizes, based on the time input of the display signal, at which transmission power the hardware sensor 3 has detected a transmission signal.

The hardware sensor 3 is designed in a simple form as a zero crossing detector, with which the frequency of a signal can be determined. A request signal of the ITU-T G.994.1 standard uses three different frequencies simultaneously, so that a hardware sensor 3 must also be able to recognize three frequencies almost simultaneously. It makes sense to have a low pass or a band pass in front of the zero crossing detector. The hardware sensor 3 can also be designed in any other form that allows the detection of a corresponding request signal.

Claims

claims

1. Electronic switching center for switching a desired data connection with an interface for establishing a data connection, characterized in that the interface (14) is connected to a sensor (3), that the sensor (3) is suitable for receiving a request - recognize signals for establishing a data connection.

2. Electronic switching center according to claim 1, so that the sensor (3) is integrated in an integrated circuit with a circuit for data processing.

3. Electronic switching center according to one of claims 1 or 2, so that the sensor (3) is suitable for detecting the receipt of a request signal of the ITU G.994.1 standard.

4. Electronic switching center according to one of claims 1 or 2, d a d u r c h g e k e n n z e i c h n e t that the sensor (3) is suitable for detecting the receipt of a request signal of the standard ANSI Tl .413R-Act-Req.

5. Test unit for checking an electronic switching parts with a signal generator (10) that generates a predeterminable output signal, characterized in that that the output signal is provided for testing a sensor, that the output signal is a request signal for establishing a

Represents data connection.

6. Test unit according to claim 5, so that the signal generator (10) can generate output signals with different transmission powers.

7. Test unit according to one of claims 5 or 6, d a d u r c h g e k e n n e e i c h n e t that the signal generator (10) outputs the output signals graded according to transmission powers in a predetermined time sequence, preferably with increasing transmission power.