CS267703B1 - Unattended line termination for remote control of the digital tract - Google Patents

Abstract

The solution concerns the connection of an unattended line termination for remote control of the status of a digital tract of transmission systems with pulse code modulation on metallic lines. Its essence lies in the fact that the input of a receiving repeater is connected to the input terminal of the line interface in the receiving direction. Its first output is connected, on the one hand, to the output terminal of the muldex interface in the receiving direction and, on the other hand, through an attenuator to the first input of the signal crossover, while the second output of the receiving repeater is connected via a digital signal error meter to the first input of the loop control circuit. The input terminal of the phantom circuit interface is connected via a ringing receiver to the second input of the loop control circuit, the output of which is connected to the second input of the signal crossover, the third input of which is connected to the input terminal of the muldex interface in the transmitting direction. The output of the signal crossover is connected via a transmitting repeater to the output terminal of the line interface in the transmitting direction. This solution allows independent acquisition of basic information about the status of the digital tract and expands the possibilities of known methods of fault localization. It is suitable for transmission systems with first and higher order pulse code modulation.

Description

The invention relates to the connection of an unattended line termination for remote control of the state of a digital tract of transmission systems with pulse code modulation - PGM on metallic lines.

In some network configurations with a PCM transmission system, 7 serviced terminals cooperate with unattended terminals. In the served terminal station, it is easy to obtain information on the transmission status of the digital tract in the reverse direction, i.e. from the unattended terminal station to the served one. It is difficult to obtain this information in the direction there, ie from the served terminal to the unattended.

The known method solves this problem by closing the loop in the line termination without an operator, i.e. by turning the digital signal in the direction there in the reverse direction. The status of the entire digital tract can then be checked in the operated terminal station. The disadvantage is . however, the operation of the digital tract is interrupted during its health check.

In other known methods, data on the transmission status of the digital tract is transmitted from the unattended terminal to the serviced terminal via a special transmission path. This makes it possible to check the condition of the digital tract without interrupting its operation, but the disadvantage is the increased cost of equipping this special transmission path. The control of the status of the digital tract then depends on other transmission devices and their reliable function.

The above-mentioned disadvantages are eliminated by the connection of an unattended line termination for remote control of the state of the digital tract according to the invention, the essence of which consists in that the input of the receiving repeater is connected to the input terminal of the line interface in the receiving direction. First output of the receiving repeater It is connected to the output terminal of the muldex interface in the receiving direction and at the same time via an attenuation element to the first input of the signal switch. The second output of the receiving repeater is connected via a digital signal error meter to the first input of the loop control circuit, the input terminal of the fahtom circuit interface being connected to the input of the ring receiver. Its output is connected to the second input of the loop control circuit. The output of the loop control circuit is connected to the second input of the signal switch, the third input of which is connected to the input terminal of the muldex interface in the transmitting direction. The output of the signal switch is connected via a transmitter repeater to the output terminal of the line interface in the transmit direction.

The connection of an unattended line termination according to the invention allows a simple and fast control of the state of the digital tract with minimal costs and without the need for the cooperation of other transmission devices.

An example of an unattended line termination is further described with reference to the drawing. The input of the receiving repeater PO is connected to the input terminal RLP of the line termination in the receiving direction *. The first output of the receiving repeater PO is connected to the output terminal BMP of the muldex interface in the receiving direction and simultaneously via the attenuator Ú The second output of the receiving repeater PO is connected to the digital signal error MCH meter. The output of the MCH digital signal error meter is connected to the first input of the loop control system circuit. The input terminal of the RF interface of the fahtom circuit is connected via a PV ring receiver to the second input of the loop control system circuit. The output of the loop control control circuit is connected to the second input of the SV signal switch. The third input of the SV signal switch is connected to the input terminal of the RMV muldex interface in the transmission direction. The output of the signal switch SV is connected via the transmission repeater VO to the output terminal RLV of the line interface in the transmission direction.

CS 267 703 Bl

The digital signal in the direction there arrives at the line termination without operator via the line interface with the input terminal RLP in the receiving direction. The digital signal in the reverse direction comes to the line termination unattended via the muldex interface with the RMV input terminal in the transmitting direction. In the operating mode, this signal passes further from the third input of the signal switch SV to its output and, after processing in the transmission repeater VO, is transmitted to the line interface with the output terminal RLV in the transmission direction. In control mode, the · digital signal processing in the direction there is unchanged. The signal from the first output of the receiving repeater PO passes further through the attenuation element ÚČ and the second input of the signal switch SV to the output and after processing in the transmitting repeater VO is transmitted to the line interface and the output terminal RLV in the transmitting direction. The signal from the muldex interface in the transmitting direction is disconnected in this mode in the signal switch SV. The change of the line termination mode without operator, ie the closing of the loop in the transmission is decided by the loop control control system. A necessary condition for the transition of the line termination without operator to the control mode is an unsatisfactory state of transmission in the direction there, i.e. the MOH error meter measures at the second output of the receiving repeater PO an error frequency greater than 10 "or a complete signal failure. This information is passed in the form of a logic level from the output of the MOH error meter to the first input of the loop control circuit ftS. As a command for remote loop closure in the line termination without an operator, a low frequency signal is transmitted, eg 500 Hz, from the serviced terminal station via the fan circuit. The phantom circuit is used to transmit a business call and the same low frequency signal is used for ringing. Via the RF interface of the phantom circuit, the ringing signal is received and evaluated by the PV ringing receiver, at the output of which the arrival of the ringing appears as a change of the logic level. The loop control circuit Ss will transfer the line termination unattended to the control mode if and only if at the time of arrival of the command, i.e. the corresponding logic level change at the second input of the loop control circuit, there will be a logic level at its first input corresponding to the unsatisfactory transmission state in direction there. Unattended line termination remains in control mode for the entire duration of the command transmission, regardless of the next state of transmission in the direction there, ie regardless of further changes in the logic level at the first input of the loop control control circuit. Return to operating mode occurs when the command ends.

A prerequisite for obtaining the necessary information about the state of the digital tract in the direction there is a satisfactory transmission in the reverse direction, i.e. a frequency of transmission errors of less than 10 ". If there is a satisfactory transmission in the direction there at the moment of receiving the command, the loop in the transmission does not close and in the reverse direction the satisfactory transmission of the useful signal continues even for the entire duration of the transmission of the command. Thus, with a satisfactory transmission in both directions, no change is made by sending the command, it works without interruption of operation. If, at the time of receiving the command, the transmission in the direction there is unsatisfactory, the loop in the transmission is closed and the unsatisfactory signal from the direction there is transmitted in the reverse direction for the entire duration of the transmission of the command. Thus, in the case of an unsatisfactory transmission in the direction there, it is permissible to interrupt the original transmission of the useful signal in the direction back for the duration of the command transmission.

The circuit according to the invention makes it possible to obtain basic information on the state of the digital tract independently and to expand the possibilities of known fault location methods. It is suitable for transmission systems with pulse code modulation of the first and higher orders.

Claims (1)

Unattended line termination connection for remote control of the state of the digital tract of transmission systems with pulse code modulation on metallic lines, characterized in that an input of a receiving repeater (PO) is connected to the input terminal (RLP) of the line interface in the receiving direction. on the one hand to the output terminal (RMP) of the muldex interface in the receiving direction and on the other hand via an attenuator (ÚS) to the first input of the signal switch (SV), the second output of the receiving repeater (PO) being connected via a digital signal error meter (MCH) to the first input of the loop control circuit (RS), the input terminal (RF) of the phantom circuit interface being connected via a ring receiver (PV) to the second input of the loop control circuit (RS), the output of which is connected to the second input of the signal switch (SV), the third input of which is connected to the input terminal (RMV) of the muldex interface in the transmit direction, while the output of the signal switch (SV) is connected via the transmitter repeater (VO) to the output terminal (RDV) li interface in the transmission direction.