DE19934622A1 - Testing/fault diagnosis of standard fixed connection in telecommunications network involves passing random bit sequence for bit error rate test, evaluating signals received via loop - Google Patents

Abstract

The method involves establishing a telecommunications connection between a remote actuation arrangement and the opposite point of the fixed connection by suitable operation of the remote actuation arrangement, passing a control signal to form a conducting loop, decoding the control signal, activating a unit to form a conducting loop, passing a random bit sequence to perform a bit error rate test, evaluating the signals arriving at the evaluation unit via the conducting loop and determining the bit error rate and breaking the connection for an acceptable bit error rate or calling up status information and/or triggering various switching functions using control signals entered at then remote actuation arrangement. An Independent claim is also included for an arrangement for remotely actuated initiation of different functions of electrical loads.

Description

The invention relates to a method for testing and error diagnosis of a standard hard connection in a telecommunications network via one of a telecommunications Terminal to the remote station of the telecommunications to be set up tion connection and a device that can be used to carry out the method, by means of which different switching functions on connected devices can be triggered remotely using the multi-frequency dialing method.

Extensive and extensive telecommunications networks place high demands changes in operational safety and bring a high level in this context Effort for testing and, if necessary, error diagnosis from within these networks established or to be established standard permanent connections. Previously required the testing and fault diagnosis of a standard leased line usually use by two service technicians. The leased line must be on each subscriber side Be a service technician on site. The two technicians then drove appropriate ones together Tests, such as bit error rate tests, and other tests to diagnose a possibly made errors.

DE 197 58 274 describes a device for forming a test loop for a Fixed connection with S0 interface proposed, with which at least the fixed Position an error in the leased line in the course of a bit error rate determination is possible by only one technician. The device disclosed in the document allows it, in a digital network starting from a subscriber line of the leased line form a test loop at the associated remote station. For this, the illustrated Device an adaptation of the asymmetrical S0 interface to a symmetrical interface with two unidirectional data lines. This will it is possible for a service technician to determine an error that has occurred, however For a more detailed fault diagnosis, a second technician must contact the Place the remote site or the customer must be specified by execution Actions involved in this. With regard to the scope of the networks and the resultant due to the large number of possible malfunctions, this is comparatively complex. In addition, leaves  Sometimes a malfunction has already occurred, for example by resetting one reach component connected to a telecommunications connection.

In practice, it is already known to perform certain switching operations of devices using a trigger telecommunication terminal arranged away therefrom. Let it be devices on and off, for example, via a telecommunication connection switch. In addition, DE 197 04 823 controls the device by telephone described with which not only simple switching operations, but different Device functions can be triggered. With the one described in the script Devices can be operated with a universal infrared remote control such as VCRs, televisions, and the like, over the telephone network by means of control signals coded according to the multi-frequency selection method serve. With a device located in the rooms of the devices to be controlled the incoming control signals are decoded and sent to the infrared remote control transmitted, via which the devices are then finally actuated. For diagnosis purposes in the event of interference occurring on a telecommunications connection is a however, such a device cannot be used.

The object of the present invention is to specify a method with which test and diagnostic processes on a standard leased line from a subscriber side of the Leased line can be carried out via a telecommunications connection. Furthermore, it is an object of the invention to provide a device suitable for this purpose create.

According to the invention the object is achieved by a method with the main claim specified features and procedural steps solved. The invention Device is described by the features mentioned in claim 6. Advantageous refinements or developments of the method and the pre direction are given by the respective subclaims.

The method according to the invention enables the testing and fault diagnosis of a standard fixed connection via a telecommunication terminal to be set up for a telecommunication connection to the opposite of the fixed connection, this telecommunication terminal device and my associated additional devices, such as measuring and display units serving as remote control means and evaluation unit, and being connected to the telecommunication connection of the remote station Means for decoding and converting control signals received by the remote control means are provided. The process comprises the following process steps:

• a) Establishing a telecommunications connection between the remote control means and the remote station by operating the remote control appropriately,
• b) transmission of a control signal to form a line loop from the Fernbe funds to the remote station via the existing connection,
• c) decoding the control signal by means of it to the telecommunications connection means connected to the remote station for decoding and implementing tax signals,
• d) activation of a unit to form a line loop,
• e) transmission of a random bit sequence for carrying out a bit error rate test,
• f) Evaluation of the formed over the line loop on the evaluation unit accurate signals and determination of the bit error rate,
• g) Disconnection when the bit error rate is permissible or status is queried information and / or triggering different switching functions on the network closing device of the telecommunications connection of the remote station and / or at connected to this telecommunication connection devices for fault diagnosis, whereby the status query and the triggering of the Switching functions by means of the remote control means entered via the tele communication connection transmitted and at the telecommunications connection decoded and implemented control signals at the remote station.

According to an advantageous embodiment of the method, the Control signal to form the line loop an access test with which the Authorization to access a person performing the test and error diagnosis he follows. It is in the sense of the method according to the invention if the result is a positive access check from the telecommunications connection of the counter place an acknowledgment signal is returned. Entering the to check the Access authorization, to form the line loop and to trigger the switching Functional identification or control signals are advantageously carried out by means of telecommunications operating according to the multi-frequency dialing method terminal equipment. According to an advantageous implementation of the The procedure used is the release of those used for the telecommunication connection  Management after the completion of the test or error diagnosis by entering a corresponding release signal on the remote control device. But it is conceivable also that the release takes place after a specified period of time, within which on the telecommunications connection with the means for decoding and Implementation of the control signals no identification or control signals received become. The device according to the invention that can be used to carry out the method has on the means for decoding and implementing the remote control means outgoing control signals. In particular, the device has a unit for this purpose Call detection and reception, a unit for converting an incoming tone according to the specification of the multi-frequency selection method in a binary value, a unit for converting a binary value into a decimal value and a unit with freely configurable outputs for coupling with the device via the device Network termination device connected to a telecommunications connection, remotely operated devices as well as for triggering various switching functions in Dependency of one from an incoming multi-frequency tone on its conversion control signal derived into a decimal value. At least one of the switching outputs the device is used to switch a line loop via an electro African "loop connector". In addition, the device is activated when it is started up brought a switch-on reset to a basic position.

Advantageously, the device also has a patch panel on which a Identification code for checking the access authorization of a person who remotely operates the Device effecting person can be determined. According to another advantageous Embodiment is integrated in the device, a timer, which for the Fernbe operation of the devices established telecommunications connection in the event that no longer receives a control signal within a defined period of time, releases it again. According to one embodiment, the device also has a unit, which comes from the tension of the telecommunication network, which for their own Power supply required operating voltage wins. After all, it is from Advantage if the device to the technician who is connected to the Actuator builds up, signals the call acceptance by the remote station. The method according to the invention advantageously enables one at a time Standard leased line not only detect errors, but by the  Triggering switching operations to a limited extent also by fault diagnosis respectively. The invention does not claim to cause any error to be able to determine. Rather, it is about the fact that in some cases the Possibility to connect to the terminals connected to a telecommunications connection trigger different switching processes and this adjusts itself to the device to be able to query the current status, a first error diagnosis is possible. It is even conceivable, the difficulties encountered by resetting a device or other sensible switching operations, about the knowledge of which a customer affected by the fault cannot be disposed of. The device described is for this can be used advantageously, but the use of the device is not exclusively based on this purpose is limited.

The invention will be explained in more detail below using an exemplary embodiment become. In the accompanying drawing:

Fig. 1 is a block diagram of the device according to the invention;

Fig. 2 to 6 Alternate embodiments of individual components of the device accordingly the block diagram of FIG. 1

Fig. 1 is a block diagram of the basic construction of the device according to the invention again. The device is connected to the connecting line 1 of a telecommunication connection and is brought into a basic state when it is started up by a switch-on reset 11 . An incoming call to trigger switching processes on devices coupled to the device for this purpose is first routed to a unit for call detection and answering 2. The call is accepted by the device and an acknowledgment tone generated by a corresponding module 4 is output to the remote station. In addition, the switch is signaled by module 3 that the line is busy. The device is now ready to receive signals which come in from a telecommunication terminal connected to the remote station in the form of dialing tones according to the multi-frequency dialing method. The unit for decoding 5 of the incoming signals in the form of the tones converts the tones formed from two frequencies into binary signals. A further decoder 6 converts the binary values into decimal values, each of which triggers a switching function assigned to it. One of the switching outputs of the unit 7 is used to switch an electronically operated loop connector 8 . In addition to securing against unauthorized use, the device shown in the figure has a unit for carrying out an authorization code check 9 . In addition, a timer 10 is part of the device, which after a predetermined period of time, within which no identification or control signals are received if there is an existing connection, releases the line.

The Figs. 2 to 6 show possible configurations of each component shown in FIG. 1 represents.

The call detection and acceptance takes place according to FIG. 2 by an RC element, the capacitor of which is charged by the AC voltage. Reaches the capacitor voltage half the value of the operating voltage, the call acceptance flip-flop 12 is set. A DC supply voltage is present on the connecting line 1 in the idle state. In order to avoid that the RC element is charged by this supply, it is separated by smaller capacitors.

The call accepting flip-flop 12 receives a brief pulse at the reset input via a further RC element when it is switched on, in order to prevent it from being set by interfering influences. In order to signal the switch to the call acceptance, a transistor is switched through via the output of the call acceptance flip-flop 12 , which connects the a and b wires of the connecting line 1 via a resistor and a Z diode.

While the device is occupying the line, the energy supply is at the Z diode available for the device. Caller ID and call acceptance must be done are supplied before the line is seized and therefore draw their voltage a capacitor that is charged by the AC voltage.

The authorization code is, as can be seen in Fig. 3, set by wiring a patch panel 13 . Four outputs of the decimal decoder 14 , each of which corresponds to a digit of the code, are connected to a switching mechanism. This switching mechanism checks the order in which these outputs are at HIGH levels. All flip-flops in the rear derailleur are reset if a digit not contained in the code or a digit contained in the wrong place was received. This test is carried out by combinations of AND and NOT gates at the inputs of the flip-flops.

If the last flip-flop is set, a correctly entered code is displayed. Around All reset inputs are to prevent a reset by entering further numbers by an AND operation with the Q output of the now LOW level last flip-flops blocked.

The Q output of the last flip-flop serves as an enable for the switching functions. In order to bring the switching mechanism into a defined initial state, the reset inputs of all flip-flops receive a short impulse at the moment of switching on via an RC element 16 .

From the connecting line, the sound signal is passed through an input circuitry from resistors and capacitors to the input of a multi-frequency decoder 15 designed as an integrated circuit. A 4-bit word is available at its outputs for further processing in accordance with the button pressed on the transmitter side. In addition, the circuit generates a signal for the duration of the reception of a valid DTMF tone pair, which is used as a clock for authorization code checking and switching functions. In order to prepare the 4-bit word for the downstream logic consisting of the authorization code check and switching functions, it is converted via the 1-out 10 decoder 14 . Each of its outputs assumes a HIGH level when the corresponding button on the transmitter side is pressed and the tone signal corresponding to the button has been recognized by the DTMF decoder.

An inverting Schmitt trigger in conjunction with an RC time constant is used to generate a confirmation tone after entering the access code and after triggering switching functions ( Fig. 5). The output signal of the Schmitt trigger is AND-linked with an enable signal. The release signal is generated by a monostable multivibrator to which a time constant corresponding to the tone duration is connected. The multivibrator is triggered by the authorization code check module or the multi-frequency decoder.

The timer 10 (see also Fig. 6) is used to automatically release the connection line when no DTMF signal has been received for a certain time and can therefore be assumed that the remote station has disconnected. It consists of a retriggerable monostable multivibrator that triggers automatically when it is switched on and is retriggered by the clock signal on the DTMF decoder. If the predetermined time has elapsed, the call acceptance flip-flop 12 is reset, the downstream transistor becomes high-resistance and the connection is thus disconnected.

A circuit according to FIG. 4, in which a flip-flop is provided for each function, is used, for example, to actuate the actual remote switching functions. A flip-flop for an on-off switching function is included in the circuit described. It gets its clock from an AND operation of the clock from the DTMF decoder with the release signal from the authorization code check. Set and reset inputs of the flip-flop are connected to two outputs of the decimal decoder and receive HIGH level when the associated numeric key is pressed on the transmitter side. The status of the switching flip-flop is indicated by an LED.

By entering the number "9", the line is released by the Multivibrator of the timer is reset prematurely.

The "#" button on the transmitter resets the switching mechanism for calc verification code check and thus allows a new start after input errors at the Code entry too.

List of the reference symbols used: 1 connecting line
2 unit for call detection and acceptance
3 component
4 building blocks
5 Unit for decoding a DTMF signal
6 unit for binary decimal decoding
7 unit with freely configurable switching outputs
8 loop plugs
9 Unit for performing an authorization code check
10 timers
11 Unit for switch-on reset
12 answer flip flop
13 patch panel
14 Circuit - decimal decoder
15 Circuit - multi-frequency decoder
16 RC link

Claims (10)

1.Procedure for testing and error diagnosis of a standard leased line, via a telecommunication connection to be set up from a telecommunication terminal to the remote station of the leased line, this telecommunication terminal device and additional devices connected to it, such as measuring and display units, serving as remote actuation means and evaluation unit, and with means on the telecommunication connection of the remote station are provided for decoding and converting control signals received by the remote control means, comprising the method steps

• a) establishing a telecommunications connection between the remote control means and the remote station by appropriate operation of the remote control means,
• b) transmission of a control signal to form a line loop from the remote control means to the remote station via the existing telecommunications connection,
• c) decoding the control signal by means of the means for decoding and converting control signals connected to the telecommunication connection of the remote station for this purpose,
• d) activation of a unit to form a line loop,
• e) transmission of a random bit sequence for carrying out a bit error rate test,
• f) evaluation of the signals arriving at the evaluation unit via the formed line loop and determination of the bit error rate,
• g) Disconnect the telecommunication connection when the bit error rate is permissible or query status information and / or trigger different switching functions on the network termination device of the telecommunication connection of the remote station and / or on telecommunication terminals connected to this telecommunication connection for fault diagnosis, the status request and triggering of the switching functions mediated on Remote control means entered, transmitted over the telecommunication connection and decoded at the telecommunication connection of the remote station and implemented binary control signals.

2. The method according to claim 1, characterized in that before the transmission of the Control signal to form the line loop an access test for verification the access authorization of a person performing the test and fault diagnosis Person. 3. The method according to claim 2, characterized in that the result is a positive ongoing access check from the telecommunications connection of the remote station an acknowledgment signal is returned. 4. The method according to claim 2 or 3, characterized in that the input of the Checking the access authorization, the formation of the line loop and the off Solution of the switching functions serving identification or control signals by means of a telecommunication operating according to the multi-frequency dialing method terminal set up. 5. The method according to any one of claims 1 to 4, characterized in that the Release of the connection line used for the telecommunication connection after completed test or error diagnosis by entering a release signal the remote control device or time-controlled after the expiry of a specified one Time span within which the remote station's telecommunications connection no identification or control signals are received. 6.Device for remote actuation of different functions of electrical consumers, primarily electronic devices via a telecommunications connection by means of a telecommunications terminal and using the multi-frequency dialing method, comprising a unit for call detection and acceptance 2 , a unit 5 for converting an incoming tone according to the specifications of the multi-frequency dialing method into a binary value, a unit 6 for converting a binary value into a decimal value and a unit 7 with freely configurable switching outputs for coupling with the remote-controlled devices connected to the network termination device of a telecommunications connection via the device and for triggering different switching functions depending on an incoming one Multi-frequency sound via its conversion into a decimal value derived control signal, the device being commissioned by ei NEN switch-on reset 11 is brought into a basic position and at least one of the switching outputs is used to switch a line loop. 7. The device according to claim 6, characterized in that the device for checking the access authorization of a person who effects the remote operation of the devices has a unit 9 with a plug-in panel 13 for determining an access code. 8. The device according to claim 6 or 7, characterized in that the device has a timer 10 , by which after a specified period of time within which no identification signals for checking the access authorization or control signals for triggering switching functions are decoded, a release of the existing telecommunication connection used for the remote operation of the telecommunications connection line 1 is initiated. 9. Device according to one of claims 6 to 8, characterized in that the Power supply of the device from the voltage of the telecommunications network is done. 10. Device according to one of claims 6 to 9, characterized in that the device has means 4 for signaling the call acceptance to a remote station.