RU2072632C1 - Channel selector - Google Patents

Abstract

FIELD: communication engineering. SUBSTANCE: device has first and second channel quality control units, command receiver, control unit, command sensor, time counter, comparison unit, two receivers and two transmitters, housekeeping information transmission signal switch, basic information transmission signal switch, information reception signal switch. EFFECT: improved reliability of device. 4 dwg

Description

 The invention relates to telecommunications, in particular to information transmission systems.

 The closest in technical essence and the number of essential features to the proposed device is a device for switching communication channels, containing two communication channels with equipment sets, each of which contains a switch, two channel quality control units, a control unit, a command sensor, a command receiver, a comparison unit , time counter (1) (prototype). The device reduces information loss by simultaneously switching communication channels. At the same time, a signal about the poor quality of the receiving path does not always indicate a deterioration in the quality of the transmitting path. It is more rational, especially in terms of reliability, to switch paths individually, depending on their quality.

 Improving the reliability of the device is achieved by the fact that in the device for switching communication channels, containing two communication channels with equipment sets, each of which contains a switch, two channel quality control units, a command receiver, a control unit, a command sensor, a time counter, a comparison unit, are introduced a switch for signal transmission of service information, a switch for signal transmission of basic information and a switch for signal reception of information.

 Comparative analysis with the prototype device shows that the proposed device is distinguished by the presence of new units: a switch for signaling service information, a switch for signal transmission of basic information and a switch for signal receiving information, the presence of connections of newly introduced blocks with known ones, and the effect achieved from these differences is not an arithmetic sum effects of each difference.

 Comparison of the proposed technical solution with other technical solutions shows that the set of switch blocks of signal-transmission service information, transmission of basic information and reception of information corresponds to the switch in the device (1) by the functions of switching both the transmit and receive paths from the main channel to the backup one. However, the combination of these blocks in conjunction with the known blocks exhibits a new property that allows you to separately switch the receiving and transmitting paths, which leads to increased reliability of the device.

 In FIG. 1 shows a block diagram of a device for switching communication channels; in FIG. 2 4 structural electrical circuits, respectively, of a switch for signaling transmission of service information, a switch of signals for transmitting basic information, and a switch for signals for receiving information. A device for switching communication channels (Fig. 1) comprises first and second channel quality control units 1 and 2, a command receiver 3, a control unit 4, a command sensor 5, a time counter 6, a comparison unit 7, the first transmitter 8 and a signal receiver 9, second transmitter 10 and a receiver 11 of signals, a switch 12 of signals for transmitting overhead information (com. signal per.-chi sl.inf-ii), a switch 13 of signals for transmitting basic information (com-signal of a signal per-main basic info ii), a switch 14 signals receiving information com-r sing. receiving information). The first and second outputs of the control unit 4 are connected, respectively, with the first and fourth inputs of the command sensor 5, the third and fourth outputs of the control unit 4 are connected respectively with the first input of the time counter 6 and the fifth input of the comparison unit 7, the first, second and third inputs of the control unit 4 connected respectively to the output of the first channel quality control unit 1, the output of the second quality control unit 2 and the output of the receiver 3 teams. The first, second and third outputs of the command sensor 5 are connected respectively to the first, second and third inputs of the comparison unit 7, the third input of the command 5 sensor is connected to the first output of the time counter 6, the second inputs of the command 5 sensor and time counter 6 are connected to the device clock inputs , the second output of the counter 6 is connected to the fourth input of the comparison unit 7. The output of the first transmitter 8 of the signals and the first input of the first receiver 9 of the signals are connected respectively to the third output and input of the device (input and output of the first communication channel).

 The output of the second transmitter 10 and the first input of the second receiver 11 are connected respectively to the fourth output and input of the device (input and output of the second communication channel). The first output of the comparison unit 7 is connected to the fifth inputs of the switch 13 of the transmission signals of the main information and the switch 14 of the information reception signals, the second output is connected to the seventh input of the switch 13 and the fourth input of the switch 14, the third output of the comparison unit 7 is connected to the sixth inputs of the switch 12 of signal transmission service information switch 13 signals transmitting basic information and switch 14 signals receiving information.

 The first, second, fourth and fifth inputs of the switch 12 of the service information transmission signals are connected respectively to the first output of the command sensor 5, the second input of the device (service input), the first and second outputs of the control unit 4, the third input of the switch 12 is connected to the output of the first control unit 1 quality and the first input of the switch 14 of the information reception signals, the first and second outputs of the switch 12 are connected respectively to the first and second inputs of the switch 13 of the transmission signals of the main information. The third input, the first, second, third and fourth outputs of the switch 13 are connected respectively to the first input (information) of the device, the first input of the second signal transmitter 10, the first input of the first signal transmitter 8, the second input of the first transmitter 8 and the second input of the second signal transmitter 10, the fourth input of the switch 13 is connected to the output of the receiver 3 teams. The first output of the switch 14 of the information reception signals is connected to the first output (information) of the device and the input of the first quality control unit 1, the second output of the switch 14 is connected to the second output (service) of the device and the inputs of the second quality control unit 2 and 3 command receiver, second, third the inputs, the third and fourth outputs of the switch 14 are connected respectively to the output of the first signal receiver 9, the output of the second signal receiver 11, the second input of the first receiver 9 and the second input of the second signal receiver 11.

 The overhead signal switch 12 (Fig. 2) contains two triggers Tr 15 and Tr 16, four two-input circuits 17 20 AND with one inverse input each, two two-input circuits 21 and 22 AND, two OR circuits 23 and 24.

 The switch 13 of the basic information transmission signals (Fig. 3) contains a first trigger Tr 25, a group of 26 keys, a second trigger Tr 27, a first, second, third and fourth two-input circuit 28 31 And, and circuit 28 and 31 And contains one inverse input , two circuits 32 and 33 OR.

 The switch 14 of the information reception signals (Fig. 4) contains a first trigger Tr 34, a group of keys Cl 35, a second trigger Tr 36, four two-input circuits 37 40 I, and circuits 38, 39 I have one inverse input, two circuits 41 and 42 OR.

 A device for switching communication channels works as follows.

 In the initial state, the channel quality control unit 1 includes, through the switch 14 of the information reception signals, a signal receiver 9 and a third input of the device into the first communication channel, and a control unit 2 into the second communication channel.

 The results of evaluating communication channels by any parameters (residual attenuation, edge distortion, the number of errors, levels of information signals, interference, etc.) at the output of quality control units 1 and 2 are divided into several limits corresponding, for example, to estimates "," warning "and" accident ". A device for switching communication channels is switched to a backup channel when the main channel is still in good condition, but at the limit when a warning signal is received from control unit 1. For example, when the quality of the first communication channel deteriorates, a signal appears at the output of the control unit 1, which changes the state of the control unit 4. The control unit 4 from its third output gives a signal to the time counter 6 to record the current time code in the sensor 5 commands. From its second output, the control unit 4 gives a command to the switch 12 of the service information transmission signals (to its fifth input) to connect the first output of the command sensor to the second communication channel (fourth input and output of the device) and the command to the code sensor 5 to the second communication channel. Simultaneously with the issuance of this code in the communication channel, the sensor 5 commands sends it to the first input of the comparison unit 7, while the write clock pulses come from the second output of the sensor 5, and the enable signal from the third output of the sensor 5. Codes are sent to the fourth input of the comparison unit 7 the current time from the counter 6 times. When the recorded and current time codes coincide, the signal arriving at the fifth inputs of the switch 13 and the switch 14 appears on the first output of the comparison unit 7. By this signal, the control unit 1 and the first stationary output of the device switch to receive information from the second channel (the fourth input of the device is receiver 11 signals the third input and the first output of the switch 14 information reception signals), the control unit 2 and the second station output of the device are switched to receive information from the first channel (the third input of the receiving device 9, the second input signal and a second output switch 14 of the information receiving signals) while the first sensor output command 5 is disconnected from the second channel signal output from the third output of the comparator unit.

 A similar device is connected at the other end of the communication channel. Upon receipt of a command to switch from the second channel (at the first device), this command is received by the receiver of 3 commands and the signal "switch to the second channel from communication" arriving at the third input of control unit 4 appears on its output. The signal control unit 4 from its fourth output records the received command in the comparison unit 7, the fourth input of which receives the current time codes from counter 6. If the received time code (contained in the command) coincides with one of the current codes at the first output of the comparison unit 7 a signal appears that goes to the fifth input of the switch 13 of the basic information transmission signals and connects the first station input to the fourth output of the device, the second channel through the third input and the first output of the switch 13 and the transmitter 10, and the second station input to the third output of the device the first channel (through the second input and the first output of the switch 12 signaling service information, the first input and second output of the switch 13 and the transmitter 8). In the transmitting device (in which the warning signal occurred), only the station outputs were switched, and in the receiving device only the station inputs. This is achieved in the first case by the receipt of the permission signal from the output of the control unit 1 only to the switch 14 (at its first input), and in the second case, by the receipt of the permission signal from the output of the receiver 3 of the commands only to the switch 13 (at its fourth input).

 Thus, the channels are switched in contrast to the prototype in only one direction, and in that which is subject to interference. Good direction is not affected.

 The switch 12 signal transmission service information (Fig. 2) operates as follows.

Under the influence of control signals at the third to sixth inputs of the switch 12 of the signal transmission service information triggers 15 and 16 set the switch 12 in one of the following states:
switching off the first input (from sensor 5) through the OR element 21 of the OR element 23 to the first output of the switch 12 or through the AND elements 22 and the OR element 24 to the second output;
switching off the second input (from the second stationary input of the device) through the OR element 17 and the OR element 23 to the first output or through the OR element 20 and the OR element 24- to the second output.

 To control the elements And 17 and 20 are additionally used elements And 18 and 19 connected to the outputs of the triggers 15 and 16.

 The switch 13 of the transmission signals of the basic information (Fig. 3) operates as follows.

 Trigger 25 using signals at its inputs (fourth and sixth inputs of switch 13) allows or prohibits the passage of control signals from the fifth or seventh inputs through key 26 to trigger 27 and to the third and fourth outputs of switch 13 (to switch the operating frequencies of transmitters 8 and 10 signals). The trigger 27, controlling the elements And 28 31, through them and through the element OR 32 to the first output, either the first or third inputs, and through the element OR 33 to the second output, either the third or second inputs.

 The switch 14 of the information reception signals operates similarly to the switch 13 except that the And 37 40 elements (analogues of And 28 elements 31) trigger 36 controls only from one of its output, and the trigger 27 of the switch 13 with two outputs.

 The implementation of the main units of the device is similar to the implementation of the known units of the prototype device, while the output of the OR element 28 in the comparison unit in the proposed device is also connected to the third output of the comparison unit, and the receiving and transmitting paths are disconnected, unlike the combined paths in the communication channels (signal transceivers) of the prototype .

 Achievable technical result consists in increasing the reliability of the device almost twice by increasing the number of operational states. The increase in this number compared to the prototype device is achieved by switching to the backup circuit at the same time only one (faulty) direction, and not two (including serviceable) directions, as is done in the prototype.

 The proposed device can be used in radio relay, tropospheric communication systems and radio systems for transmitting information with predetermined indicators of message delivery time.

Claims (1)

 A device for switching communication channels, comprising two channel quality control units, a control unit, a command sensor, a command receiver, a comparison unit, a time counter, two signal receivers, two signal transmitters, the first and second outputs of the control unit being connected respectively to the first and the fourth inputs of the command sensor, the third and fourth outputs of the control unit are connected respectively to the first input of the time counter and the fifth input of the comparison unit, the first, second and third inputs of the control unit are connected respectively Actually with the outputs of the first and second quality control unit and the output of the command receiver, the first, second and third outputs of the command sensor are connected respectively to the first, second and third inputs of the comparison unit, the third input of the command sensor is connected to the first output of the time counter, the second output of which is connected to the fourth input of the comparison unit, characterized in that a switch for signaling the transmission of service information, a switch for signaling the transmission of basic information and a switch for signal receiving information are introduced, the first output One of the comparison unit is connected to the fifth inputs of the switch of basic information signals and the switch of information reception signals, the second output of the comparison unit is connected to the seventh input of the switch of basic information signals and the fourth input of the switch of information reception signals, the third output of the comparison unit is connected to sixth inputs of the switch of transmission signals basic information and a switch of signals for receiving information, the second, fourth and fifth inputs of a switch of signals for transmitting service information with respectively, are connected with the second input of the device, the first and second outputs of the control unit, the third input of the service information signal switch is connected to the output of the first quality control unit and the first input of the information reception signal switch, the first and second outputs of the service information signal switch are connected to the first and the second inputs of the switch signal transmission of basic information, the third input of which is the first input of the device, and the first, second, third and fourth output s are connected respectively to the first input of the second signal transmitter, the first input of the first signal transmitter, the second input of the first signal transmitter and the second input of the second signal transmitter, the fourth input of the main signal transmission switch is connected to the output of the command receiver, the first output of the information reception signal switch is the first output the device and is connected to the input of the first quality control unit, the second output of the switch of information reception signals is the second output of the device and connected to the inputs of the second quality control unit and the command receiver, the second, third inputs, the third and fourth outputs of the information reception signal switch are connected respectively to the output of the first signal receiver, the output of the second signal receiver, the second input of the first signal receiver and the second input of the second signal receiver, the second inputs of the command sensor and the time counter are the fifth input of the device, the output of the first transmitter of signals and the first input of the first receiver of signals are respectively the third outputs the input and the input of the device, the output of the second signal transmitter and the first input of the second signal receiver are respectively the fourth output and input of the device, while the signaling service signal switch is made in the form of six AND elements, two triggers and two OR elements, the first input of the service signal transmission switch information are the first inputs of the fifth and sixth AND elements, the outputs of which are respectively connected to the first inputs of the first and second OR elements, the outputs of which are respectively the first and second outputs of the overhead information signal switch, the second input of which are the first inputs of the first and fourth AND elements, the outputs of which are connected respectively to the second inputs of the first and second OR elements, the third and sixth inputs of the overhead information signal switch are respectively the inputs of the second trigger whose output is connected to the first inputs of the second and third elements AND, the second inputs of which are connected respectively with the second and first outputs of the first trigger and the second inputs of the fifth and sixth elements And, the first and second inputs of the first trigger are respectively the fourth and fifth inputs of the switch signaling service information, the outputs of the second and third elements And are connected respectively to the second inputs of the first and fourth elements And, the outputs of which are connected respectively to the second inputs of the first and second OR elements, the switch signal transmission of basic information is made in the form of a key, two triggers, four AND elements and two OR elements, the first the first and second inputs of the switch of signals for transmitting basic information are respectively the first inputs of the first and fourth elements of And, the outputs of which are connected respectively with the first inputs of the first, second elements of OR, the outputs of which are respectively the first and second outputs of the switch of signals for transmitting the basic information, the third input of which the first inputs of the second and third elements AND, the outputs of which are connected respectively to the second inputs of the first and second elements OR, the fourth and sixth inputs The inputs of the signal switch, the transmission of basic information are the inputs of the first trigger, the output of which is connected to one of the inputs of the key, the other two inputs of which are the fifth and seventh inputs of the switch of the signals for transmitting basic information, the two outputs of the key are the fourth output, respectively, connected to the second input of the second trigger and a third output connected to the first input of the second trigger, a switch for transmitting basic information signals, the first output of the second trigger is connected to the second inputs of the third and h of the fourth element AND, and the second output with second inputs of the first and second elements AND, the information reception signal switch is made in the form of a key, two triggers, four AND elements and two OR elements, the first and sixth inputs of the information reception signal switch are the inputs of the first trigger, the output of which is connected to one key input, the other two inputs of which are the fourth and fifth inputs of the information reception signal switch, the second and third inputs of which are the first inputs of the first and second of the first elements And and the first inputs of the third and fourth elements And, the second inputs of all the elements And are connected to the output of the second trigger, the inputs of which are connected respectively to the two outputs of the key, and also are the third and fourth outputs of the switch information reception signals, the outputs of the first and third elements And connected to the inputs of the first OR element, and the outputs of the second and fourth elements AND to the inputs of the second OR element, the outputs of the OR elements are respectively the first and second outputs of the switch inform signals reception nation.

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