RU2108670C1 - Communication channel monitoring device - Google Patents

Abstract

FIELD: electric communications; monitoring busy communication channels without interruption and distortion of data signal transmission. SUBSTANCE: device has on sending end subscriber's line equipment, first space detector, pilot- signal generator, and matching adder; on receiving end, it has receiving line equipment, second space analyzer, zero-fill shift register, inverter, flip-flop, and display unit. Novelty is that it is provided with delay element on sending end as well as pilot-signal receiver and switch on receiving end with relevant connections and other components. EFFECT: improved noise immunity due to eliminating superposition of service signals on data ones and arrival of service signals at receiving subscriber's line equipment. 1 dwg

Description

 The invention relates to telecommunications, in particular to devices for monitoring busy communication channels without interruption and distortion of the transmission of information signals.

 A device for the operational control of tone frequency channels [1], consisting of a transmitting part, which includes a modeling signal generator and control frequency generators, and a receiving part, which includes an input unit, an automatic gain control unit, bandpass filters, comparators, logical And circuit, adjustable amplifier, envelope extraction units and phase detectors.

 The disadvantages of this device are the need to interrupt the transmission of information signals while checking the channel and the complexity of its design, due to the presence of a large number of components.

 A device for measuring residual attenuation in occupied telephone channels [2], comprising on the transmitting side a measuring signal generator, a first matching adder and a first subscriber unit, and on the receiving side a compensation generator, a reference signal shaper, an amplitude detector, a level meter, a filter, the second subscriber unit, pause analyzer, two key stages, the second matching adder and the generator tuning control unit.

 The disadvantages of this device are the influence of the signals of the measuring generator on the information signals, due to the simultaneous transmission of them over the communication channel, and the significant design complexity due to the large number of components.

 The closest in technical essence to the claimed technical device is a device for monitoring communication channels selected as a prototype [3], comprising a transmitting subscriber kit, a first pause analyzer, a pilot signal generator and matching adder on the transmitting side, and a receiving subscriber on the receiving side set, second pause analyzer, shift register with zeroing, inverter, trigger and indication element.

 The disadvantage of this device is its low noise immunity due to the arrival of a service pilot signal along with useful information, as well as the imposition of a useful signal at the end of a long pause of the pilot signal due to a certain inertia of the operation of the first pause analyzer and pilot signal generator.

 The aim of the invention is to increase the noise immunity by eliminating the imposition of service signals on the information and exclude the receipt of service signals in the receiving subscriber set.

 This goal is achieved by introducing into the composition of the device on the transmitting side a delay element, and on the receiving side of the receiver, a pilot signal and a key connected in a certain way to the other components.

 Comparative analysis with the prototype shows that the inventive device is characterized by the presence of additional elements and the corresponding circuit design. Thus, the claimed device meets the criteria of the invention of "novelty."

 A comparison of the claimed device with other technical solutions shows that the presence of various keys, receivers of service signals and delay elements in the device for checking busy communication channels is widely known. However, with the introduction of an information signal delay element on the transmitting side, a pilot signal receiver, and a key controlled by it, new properties appear on the receiving side, which manifest themselves in increasing the noise immunity of the device. This allows us to conclude that the technical solution meets the criterion of "significant differences".

 The drawing shows a structural diagram of a device for monitoring communication channels.

 A device for monitoring communication channels on the transmitting side contains a transmitting subscriber set 1, a first pause analyzer 2, a pilot signal generator 3, a matching adder 4 and a delay element 5, and on the receiving side, a receiving subscriber set 6, a second pause analyzer 7, a shift register with zeroing 8, inverter 9, trigger 10, indication element 11, pilot signal receiver 12 and key 13, while on the transmitting side the output of the first subscriber set 1 is connected to the inputs of the first pause analyzer 2 and delay element 5, the output of the first analysis the pause jam 2 is connected to the input of the pilot signal generator 3, the outputs of the delay element 5 and the pilot generator 3 are connected to the first and second inputs of the matching adder 4, the output of the adder 4 is connected to the input of the transmission channel 14, the output of the transmission channel 14 on the receiving side connected to the inputs of the second pause analyzer 7, the pilot signal receiver 12 and key 13, the output of the second pause analyzer 7 is connected to the inputs of the shift register 8 with zeroing and the inverter 9, the output of the shift register 8 with zeroing is connected to the first input of the trigger 10, the output of the inverter 9 is connected to the zeroing input of the shift register 7 and to the second input of the trigger 10, to the output of which an indication element 11 is connected, the output of the pilot signal receiver 12 is connected to the control input of the key 13, to the output of which the input of the receiving subscriber set 6 is connected.

 The device operates as follows.

 On the transmitting side, the information to be transmitted from the output of the transmitting subscriber set 1 is fed directly to the input of the first pause analyzer 2 and through the delay element 5 and the matching adder 4 to the transmission channel 14. The first analyzer of 2 pauses at the same time constantly monitors the availability of transmitted information. If significant gaps in the transmission are detected due to working pauses or the absence of transmission of information signals, the first pause detector 2 provides a resolving potential to the pilot signal generator 3, according to which a pilot signal is supplied from the output of the generator 3 to the second input of the matching adder 4. Thus, either the information signal from the subscriber set 1 or the pilot signal from the generator 3 is constantly supplied to the controlled channel 14 from the transmitting side. In this case, there may be small pauses due to the discontinuity of the information signal itself, the pilot signal, as well as some inertia of the first analyzer 2 pauses and 3 pilot signal generators.

 When the controlled channel 14 is in good working order, a sequence of information signals and a pilot signal is sent directly to the inputs of the second pause analyzer 7, receiver 12 and key 13 directly to the inputs of the second analyzer 7. The second pause analyzer 7, upon detecting the pause start time, issues a trigger signal to the first input of the shift register 8 with zeroing, as a result of which “unity” begins to advance along the shift register 8 at a certain speed. If the pause was short, i.e. due to the information signal itself or the intermittent of the pilot signal, then at the moment of its completion, the inverter 9 is triggered by the signal from the output of the second analyzer 7 pauses to the input of the inverter 9 and its output signal arriving at the zeroing input of the shift register 8 resets its content.

 If the pause duration turns out to be significant, which indicates the failure of the monitored channel 14, the “one” received from the output of the second detector 7 pauses to the first input of the shift register 8 with zeroing will appear at its output after a certain time and change the position of trigger 10, as a result, the indication element 11 will trigger, indicating a failure of the channel 14.

 When restoring the operability of channel 14, the appearance at its output, and therefore at the input of the second analyzer 7, of pauses of the information signal or pilot signal causes the corresponding signal to be issued by the second analyzer 7 of pauses, by which the inverter 8 is triggered, giving a signal to the second input of trigger 10, which is triggered and turns off the display element 11.

 As follows from the above, the positive effect due to the introduction of new elements into the device is as follows.

 Due to the small delay in the arrival of the information signal in the matching adder 4 compared to its arrival at the input of the first detector 2 of pauses, provided by the connection to the first input of the matching adder 4 of the delay element 5, the overlap of the beginning of the information sending of the pilot signal due to some inertia of the operation of the first analyzer 2 pauses and generator 3 pilot signal.

 When the pilot signal arrives at the receiving side, the pilot signal receiver 12 is activated and closes the key 13 with its output potential, thereby preventing it from passing to the input of the receiving subscriber unit 6. If the pilot signal receiver is not present in the pilot signal, the receiver 12 potential opens the key 13, providing an information signal to the input of the receiving subscriber device 6.

 Thus, the goal - improving noise immunity by eliminating the imposition of service signals on the information and eliminating the receipt of service signals in the receiving subscriber set - is achieved.

 The advantages of the proposed device are the simplicity of its design, which leads to a low cost and high operational reliability of the device, as well as high security of information signals from service signals during its operation. All this contributes to the widespread use of this device when creating various subsystems for monitoring communication channels as part of an automated communication management system.

 The technical and economic effect provided by the proposed device consists in the possibility of increasing the efficiency of detecting a communication channel failure, which results in an increase in the efficiency of the functioning of the channels and the communication system as a whole.

 Sources of information.

1. Auth. St. USSR N 684749, class H 04 B 3/04, 1979
2. Auth. St. USSR N 788401, class H 04 B 3/48, 1980.

 3. RF patent N 2024204, class. H 04 B 3/46, 1994, (prototype).

Claims (1)

 A device for monitoring communication channels, comprising, on the transmitting part, a transmitting subscriber set, a first pause analyzer, a pilot signal generator and a matching adder, wherein the output of the transmitting subscriber set is connected to the input of the first pause analyzer, the output of which is connected to the control input of the pilot signal generator, the output of which is connected to the second input of the matching adder, the output of which is connected to the input of the controlled transmission channel, and on the receiving side, the receiving subscriber set, the second anal pause jam, zero shift register, inverter, trigger and indication element, while the output of the controlled transmission channel is connected to the input of the second pause analyzer, the output of which is connected to the first input of the shift register with zeroing and to the inverter input, the output of the shift register with zeroing is connected to the first trigger input, the inverter output to the zeroing input of the shift register with zeroing and to the second trigger input, the trigger output to the input of the indication element, characterized in that the delay element is introduced into it on the transmitting side LCD, and on the receiving side, the pilot signal receiver and key, while the output of the transmitting subscriber set is connected to the input of the delay element, and the first input of the matching adder is connected to the output, on the receiving side, the output of the controlled transmission channel is connected to the inputs of the pilot signal receiver and key , the output of the pilot receiver is connected to the control input of the key, and the output of the key is connected to the input of the receiving subscriber set.