RU2308158C2 - System for controlling serviceability of command translation lines - Google Patents

Abstract

FIELD: electric communications, possible use for controlling analog command translation lines at ships and other moving objects.

SUBSTANCE: in accordance to the invention, system additionally features sharply directional microphones with adjustable sound duct, microphone amplifiers, level regulators, transformers with signal delay elements, AND circuit, second indicator of serviceability control of translation lines, while microphones are positioned in front of loudspeakers connected to translation transmission line.

EFFECT: increased fullness of control of command translation lines.

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Description

The present invention relates to the field of telecommunications, and in particular to the technique of monitoring analog command broadcast lines, and can be used in monitoring systems of wired communication channels on ships and ships of the Navy.

A known system for monitoring communication channels of multi-program wire broadcasting, comprising on the transmitting side a program source, a clock pulse generator, a command block, a pulse distributor, a switch, m control units, where m is the number of programs, the outputs of the program source are connected to the reference inputs of the corresponding control units, output the clock generator is connected to the input of the pulse distributor, the outputs of which are connected to the corresponding control inputs of the switch, the command inputs of which are connected to the outputs of the command block, on the receiving side of the n blocks of allocation of control signals, where n is the number of monitored channels, each of which is connected through the corresponding direct communication channel to the program source and through the corresponding reverse communication channel and switch with the corresponding control unit on the transmitting side and is made in the form of a program selection unit, a command receiver and a switching unit, the input of the program selection unit is connected to the output of the direct communication channel, and the outputs to the outputs of the switching unit, the control input of which connected to the output of the command receiver, the input of the command receiver and the output of the switching unit are connected to the reverse communication channel. “Management and control in the networks of three-program wire broadcasting.” - Information collection. Ed. Baranovsky B.K., M., “Communication”, 1994

However, the known system has low reliability due to the large number of switching elements involved in the switching of analog signals, as well as the insufficient completeness of control, since there is no monitoring of the operability of the transmission line and loudspeakers.

A device is known that allows simultaneous and continuous monitoring of objects by several signals (programs) in the presence of one connecting line from each object by the method of temporary compression. The device consists of a ring switch and a coordinate switch that acts as a distributor and synchronizer. USSR copyright certificate No. 270009, cl. H04J 3/14, 1968

The disadvantage of this device is the lack of completeness of control due to the lack of control of the operability of the transmission line and speakers.

The closest in technical essence and the achieved result to the invention is the "System for monitoring the operability of command broadcast lines."

The system consists of series-connected power-on boards, a microphone amplifier, a “Transmission control” indicator, a “Busy” indicator, and is called a line control device (PCL).

This system is connected to the output of the speakerphone amplifier and is installed at the command transmission device (PKP).

"Unified shipboard equipment for loud-speaking communication and broadcasting" Rowan ", ID1.203.028 TO3, 1990

The disadvantage of the prototype is the lack of completeness of control, since there is no control of the serviceability of the cable of the transmission line and speakers.

The aim of the invention is to increase the completeness of control of command broadcast lines.

This goal is achieved due to the fact that in a system consisting of a series-connected amplifier, a block for switching on and switching transmission control indicators, additional directional microphones with an adjustable sound duct, microphone amplifiers, level controllers, converters with signal delay elements, circuit I, and a second indicator are additionally introduced serviceability monitoring, while microphones are placed opposite the speakers connected to the broadcast line, and the microphones are connected in series with the microphone amplifiers, signal level regulators, converters with signal delay elements and inputs of the AND circuit, the output of which is connected to the second health indicator, and the outputs of the level controllers are connected to the inputs of the switch, the output of which in turn is connected to the level indicator, and the output of the sound frequency generator is with the input of the command gear device.

The structural diagram of the proposed system is shown in the drawing and contains a series-connected microphone 1 of type MD-71, command gear 2, a broadcast console 3, an adjustable amplifier 4, speakers 5, directional microphones with an adjustable sound duct 6, while microphones 6 are located opposite the speakers 5. Microphones 6 are connected in series with microphone amplifiers 7, signal level controllers 8, converters 9 with a signal delay element, circuit I 10, the output of which is connected to the old indicator serviceability of the transmission path 11, and the outputs of the level 8 controllers are connected to the inputs of the switch 12, the output of which, in turn, is connected to the level indicator 13, and the output of the audio frequency generator 14 is connected to the input of the control panel 2.

Microphone 1 is designed to convert sound vibrations into electrical ones.

The command transmission device 2 is designed to turn on the broadcast device, amplifier and select the desired broadcast line.

Translation device 3 is designed to ensure priority devices command transmissions and switching them to the desired broadcast line.

Adjustable amplifier 4 provides amplification and adjustment of the signal level to the desired value.

Loudspeakers 5 are designed to convert electrical vibrations into sound.

Omni-directional microphones with an adjustable sound path 6 - for converting sound vibrations received from speakers (loudspeakers) into electric ones and pairing according to the power of the sound path “speaker-microphone”.

Microphone amplifier 7 - to enhance the electrical signal.

The signal level regulator 8 - to match the signal level coming from the microphone amplifier, with the Converter 9.

The Converter with elements of the delay signal 9 is used to convert a low frequency signal into a DC signal. The signal delay element provides a delay of 2-3 seconds for the end of the DC signal relative to the moment the audio signal ends.

Scheme And 10 - to generate a signal “OK” in the presence of signals at all its inputs.

Indicator 11, located on the line control device (PCL), provides visual control of the health of the broadcast path.

The switch 12 is used for switching the outputs of the control points to the level indicator.

Level gauge 13 - to control the signal level at control points from the broadcast line.

The audio frequency generator 14 - for supplying a control signal to the broadcast line.

The system for monitoring the operability of command broadcast lines works as follows.

If it is necessary to transmit a command, the operator presses the button of the required broadcast line on the control panel 2 device, as a result of which the translation device (TP) 3 connects the necessary broadcast line to the output of the mic-telephone amplifier 1. When a command is sent, the signal from the mic-telephone amplifier 1 through the control panel 2, TP 3, amplifier 4, the broadcast line goes to the speakers 5.

The existing control circuit (i.e., a prototype) using a line control device (PCL) controls the signal from the microphone 1 only to the output of the amplifier 4. The operability of the transmission line and loudspeakers 5 is not controlled.

To eliminate this drawback, loudspeakers 5 are equipped with pointed microphones with an adjustable sound duct 6, which receive sound vibrations and convert them into electric ones. An adjustable sound duct is necessary to adjust the sound power due to the significant variation in the power of the speakers 5 (from 0.5 to 10 W).

Further, the electrical signals are amplified by a microphone amplifier 7 and, through a level controller, are supplied to transducers 9, which convert the sinusoidal speech signals into direct current packages, which are fed to the input of the And 10 circuit.

If the transmission path is in good condition, signals are received at all the inputs of the And 10 circuit and it generates a signal at the output that goes to the health monitoring indicator of the broadcast line 11. In the event of a malfunction in the broadcast line 11 of at least one loudspeaker 5, the And 10 circuit does not generate a signal and on indicator 11 there will be no signal of serviceability.

The operator, seeing the absence of a signal for serviceability of the transmission line, sends a control signal from the generator 14 to the input of the control panel 2 and, using the level gauge 13 and the switch 12, determines the faulty section of the transmission line.

Feasibility study.

The system for monitoring the operability of command transmission lines pays for itself during the first year of operation. The use of the proposed monitoring system on ships and ships of the Navy when checking the operability of a command speakerphone system, troubleshooting it allows you to reduce the troubleshooting time by several times in comparison with the basic object - the prototype, since the proposed monitoring device covers monitoring the health of both broadcast lines and loudspeakers themselves.

Claims (1)

A system for monitoring the operability of command transmission lines, comprising loudspeakers, a microphone amplifier in series, a command transmission device, a broadcasting console and a switch, the output of which is connected to a transmission control indicator, characterized in that additionally directional microphones with an adjustable sound duct are placed in front of the speakers, connected to the broadcast line, the outputs of each omnidirectional microphone, respectively, through The newly connected microphone amplifier, level control, and low-frequency signal to DC signal converter with signal delay elements are connected to the inputs of the And circuit, the output of which is connected to the input of the health monitoring indicator of the transmission lines, and the outputs of the level controllers are connected to the inputs of the switch, while the control indicator transmission is made in the form of a level indicator, and the output of the sound frequency generator is connected to the input of the command gear device.