RU17229U1 - DIGITAL COMPUTER SYSTEM OF RADAR STATION OF DESTINATION - Google Patents

Abstract

1. Digital computing system of a target designation radar station, comprising a first graphic information display device, a first graphic information display device adapter, a first system interface highway (SIM), a second SIM, characterized in that it further comprises a first video signal matching device, a first control panel, first unit of amplifiers (BU), first adapter of the control panel, first, second, third and fourth blocks of galvanic isolation devices, first block of software a mimic parallel interface, a first electronic computer (LAN), a first local area network (LAN) adapter, a second graphic information display device, a second video signal matching device, a second graphic information display device adapter, a multiplex channel adapter, the first, second, third and fourth isolated serial interface converters, serial interface adapter, second computer, second LS adapter, first block of regulators, first coordinate-pointing construction, multiplexer, first demultiplexer, third computer, third graphic information display device, first long-term storage device (DZU), fourth computer, fourth graphic information display device, second DZU, third SIM, second control unit, fifth computer, third LAN adapter, sixth Computers, fourth SIM, seventh computers, first analog-to-digital converter (ADC), first digital signal processing processor (DSP), second ADC, second, third and fourth DSP processors, fourth LAN adapter, serial converter

Description

Digital computer system of target designation radar

The utility model relates to digital computing systems and is designed to process information and generate control signals for blocks of the target designation radar station.

A known computing system for processing data 1, comprising central processing units, memory units, peripheral processors forming a group of devices with high overall performance and external unified devices for exchanging information with external executive equipment.

The disadvantage of this system is the lack of the ability to exchange information between all processors, which reduces the effective performance of the system, in addition, it is impossible to simultaneously exchange with external subscribers.

Computing system 2 is also known, consisting of several microprocessors connected via a system bus to a shared memory through which information is exchanged between all processors. Exchange control is carried out by the system bus distributor.

The disadvantage of this system is the low bandwidth of the exchange of information through shared memory, as well as the lack of control over the state of each microprocessor, which limits the functionality and reliability of the considered system.

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(RAM), a memory communication device, a switching unit and a pulse generator for synchronizing the operation of the entire system.

The system has limited functionality and lack of reliability in case of failure of individual elements of the system.

Also known is a multiprocessor computing system 4, consisting of several processors with their resident, RAM and read-only memory (ROM), input-output ports connected to a single system bus, to which a system input-output device, system RAM and ROM are connected.

The disadvantage of this system is the lack of means to ensure logical-temporal diagrams of device control.

The closest in technical essence to the proposed digital computer system of the target designation radar is a multiprocessor ship data processing system 5, containing microprocessors, information exchange devices, input-output units, external storage devices, the first and second system interface lines, the inter-main communication adapter, and the control panel , blocks of data input from ship's information sources, while connected to the first highway through information exchange devices microprocessors, the second inputs and outputs of which, through the input-output blocks, form m groups of system outputs for m actuators, two external storage devices are connected to the second highway via the interface unit, a display (graphic information display device), a control panel, and also a timer - a system controller, through the third input-output of the inter-trunk adapter, to the first input of which the trunk is connected, and to the second - the input of the data input adapter.

The objective of the utility model is the creation of a digital computer system for a target designation radar, which has universality, wide functionality, enhanced reliability of operation and fault tolerance.

The essence of the utility model lies in the fact that the digital computer system of the radar target designation containing the first display device of graphic information, the first adapter

graphic information display devices, a first system interface highway (SIM), a second SIM, further comprises a first video signal matching device, a first control panel, a first amplifier unit (CU), a first control panel adapter, a first, second, third and fourth blocks of galvanic isolation devices , the first block of a programmable parallel interface, the first electronic computer (computer), the first local area network (LAN) adapter, the second graphic information display device, the second video signal matching device, second graphic information display device adapter, multiplex channel adapter, first, second, third and fourth isolated serial interface converters, serial interface adapter, second computer, second LAN adapter, first controller block, first pointing device, multiplexer, the first demultiplexer, the third computer, the third graphic information display device, the first long-term storage device (DZU), the fourth E VM, fourth graphic information display device, second DZU, third SIM, second control unit, fifth computer, third LAN adapter, sixth computer, fourth SIM, seventh computer, first analog-to-digital converter (ADC), first digital signal processing processor (DSP) , the second ADC, the second, third and fourth DSP processors, the fourth LAN adapter, the serial to parallel converter, the fifth SIM, the eighth computer, the first digital input-output unit with galvanic isolation, the second programmable parallel interface unit, the fifth a LAN apter, third control unit, fourth control unit, sixth SIM, first and second microprogram data acquisition devices, second digital input-output unit with galvanic isolation, third programmable parallel interface unit, pulse duration measuring unit, pulse repetition period measuring unit, multi-channel digital converter codes, multichannel phase-code converter, fifth and sixth control unit, multichannel digital-to-analog converter (DAC), third microprogram data acquisition device, sixth LAN adapter, ma LAN of information exchange of drugs, the fourth block of programmable parallel interface, combined by the corresponding links.

In addition, the digital computing system of the targeting radar further comprises a seventh SIM, a seventh LAN adapter, a fifth graphic information display device, a third video signal matching device, a third graphic information display device adapter, a second control panel, a seventh control unit, a second control panel adapter, a ninth computer, tenth computer, sixth graphic information display device, third DZU, second coordinate pointing device, second demultiplexer, sec the fifth block of regulators, the fifth block of a programmable parallel interface, combined by the corresponding links.

The essence of the utility model is illustrated in the drawing, on which are indicated:

1 - the first device for displaying graphic information;

2 - the first adapter of the graphic information display device;

3- first SIM;

4- second SIM;

5 - the first device for matching video signals;

6- first control panel;

7 - the first block of amplifiers;

8- first control panel adapter;

9- first block of galvanic isolation devices;

10- second block of galvanic isolation devices;

11- third unit of galvanic isolation devices;

12- fourth block of galvanic isolation devices;

13 - the first block of a programmable parallel interface;

14 - the first computer;

15- first drug adapter;

16 is a second device for displaying graphic information;

17 is a second device for matching video signals;

18 is a second adapter of a graphic information display device;

19- multiplex channel adapter;

20 - first isolated serial interface converter; 22 interfaces; 23 interfaces 24252627282930313233343536373839404142434445- 46474849505152 third isolated serial converter four-fourth isolated serial converter; serial adapter second computer; second drug adapter; the first block of regulators; first pointing device; multiplexer; first demultiplexer; third computer; a third graphic information display device; first DZU; fourth computer; a fourth graphic information display device; second DZU; third SIM; a fifth graphic information display device; a third video matching device; a third adapter for a graphic information display device; second control panel; second control unit; control panel adapter; fifth computer; third drug adapter; sixth computer; a sixth graphic information display device; third DZU; second pointing device; second demultiplexer; the second block of regulators; fourth SIM; 55565758596061626364 binding; 656667686970717273 binding; 7475767778- 79808182838485 first digital signal processing processor (DSP); second ADC; a second DSP processor; third DSP processor; fourth DSP processor; fourth drug adapter; serial to parallel converter; fifth SIM; eighth computer; the first digital input-output unit with galvanic expansion; a programmable parallel interface unit; fifth drug adapter; third control unit; fourth control unit; sixth SIM; ninth computer; first firmware data acquisition device; a second firmware data acquisition device; the second block of digital input-output with galvanic rubbed block programmable parallel interface; unit for measuring pulse duration; block for measuring the pulse repetition period; multi-channel digital code converter; multichannel phase-code converter; fifth BU; sixth control unit; seventh control unit; multi-channel DAC; seventh SIM; tenth computer; third firmware data acquisition device; 2 (fl - б 88- backbone of information exchange of a local network;

89- input-output of the relay exchange line with power supply devices and ventilation system;

90- input-output of the relay exchange line with switches on the waveguides;

91 - input-output of the relay exchange line with the combat information management system (CIUS);

92 - the first control amplifier output of the receiver;

93 - the first input-output serial interface exchange with consumers of radar information;

94 - the second input-output serial interface exchange with consumers of radar information;

95- third input-output of a serial interface for exchanging radar information with consumers;

96- fourth input-output of a serial interface for exchanging radar information with consumers;

97 - the first input-output of a multiplex communication channel with consumers of radar information;

98 - the second input-output multiplex channel exchange with consumers of radar information;

99- video input of the active channel;

100 - input synchronization signals of the active channel;

101 - input-output of the control signals and the state of the transmitter of the active channel;

102 - input-output of the control signals and the status of the filtering processing device of the signals of the active channel;

103 - input-output of the control signals and the status of the receiver of the active channel;

104 - the first input of the signal analyzer of the temporal characteristics of the passive channel signals;

105 - the second input of the signal analyzer of the temporal characteristics of the passive channel signals;

106 - the first input-output of the control signals and the status of the receiver of the passive channel;

a complete antenna;

108 - the first input of the gyroscope signals;

109 - the second input of the gyroscope signals;

110 - the third input of the gyroscope signals;

111 - the second input-output of the control signals and the status of the receiver of the passive channel;

112 - the third input-output of the control signals and the status of the receiver of the passive channel;

113 - output of an analog communication channel with consumers of radar information;

114 - input of the passive channel receiver signals;

115- fourth block of programmable parallel interface;

116- fifth block of programmable parallel interface;

117 - the second control amplifier output of the receiver.

The output of the first adapter 2 of the graphic information display device through the first video matching device 5 is connected to the input of the first graphic information display device 1, the input-output of the fourth programmable parallel interface unit 115 is connected to the first input-output of the first adapter 8 of the control panel, the second input-output of which connected through the first control unit 7 to the input-output of the first control panel 6, the first, second, third inputs and outputs of the first block 13 of the programmable parallel interface soy are dined with the first inputs and outputs, respectively, of the first, second, third blocks 9, 10, 11 of galvanic isolation devices, the second inputs and outputs of which are, respectively, input-output 89 of the relay exchange line with power supply devices and a ventilation system, input-output 90 of the highway relay exchange with switches on the waveguides, input-output 91 of the relay exchange line with the CIUS, the fourth input-output of the first block 13 of the programmable parallel interface is connected to the input-output of the fourth block 12 of the device galvanic isolation station, the first and second outputs of which are connected to the control (V) inputs, respectively, of the first demultiplexer 30 and multiplexer 29.

signals to the input of the second graphic information display device 16, the first, second, third, fourth inputs and outputs of the adapter 24 of the serial interfaces are connected to the first inputs and outputs of the first, second, third, fourth isolated converters 20, 21, 22, 23 serial interfaces, the second inputs and outputs of which are, respectively, the first, second, third, fourth inputs and outputs 93, 94, 95, 96 serial interfaces of exchange with consumers of radar information, the first and second ode adapter 19 outputs the multiplexed channels are, respectively, first and second inputs-outputs 97 and 98 multiplex exchange channel with the radar information consumers.

The first, second, third, fourth outputs of the first block 27 of the regulators are connected to the corresponding inputs of the multiplexer 29, the outputs of which are the first and second outputs 92 and 117 control the amplifier of the receiver, the first coordinate-pointing device 28, the first, the second, is connected to the input of the first demultiplexer 30 the third, fourth outputs of the first demultiplexer 30 are connected to the second inputs and outputs of the serial interfaces, respectively, of the first computer 14, the third computer 31, the fourth computer 34, the second computer 25. The first inputs and outputs of the last The serial interfaces of the first computer 14 and the third computer 31 are interconnected, the first inputs and outputs of the serial interfaces of the second computer 25 and the fourth computer 34 are interconnected.

The third and fourth graphic information display devices 32 and 35 are connected to the outputs (B) of the video signals of the third and fourth computers 31 and 34, respectively, and the first and the fourth and fourth computers are connected to the inputs / outputs (memory) of the DZU interface of the third and fourth computers 31 and 34, respectively. the second DZU 33 and 36,

The first inputs of the first and second ADCs 54 and 56 are interconnected and form the input 99 of the video signal of the active channel, the second inputs of the first and second ADCs 54 and 56 are interconnected and form the input 100 of synchronization signals of the active channel, the output of the first ADC 54 is connected to the input of the first processor 55 DSP, the first output of the second ADC 56 is connected to the input of the second processor 57 DSP, the second output of the second ADC 56 is connected to the input of the third processor 58 DSP, output

the third DSP processor 58 is connected to the input of the fourth DSP processor 59, the first input-output of the seventh computer serial interface 53 is connected to the first input-output of the serial code converter 61 in parallel, the second input-output of which is connected to the third output of the multi-channel digital code converter 77, the second the input-output of the serial interface of the seventh computer 53 is connected to the input-output of the serial interface of the eighth computer 63.

The input-output of the first block 64 digital input-output with galvanic isolation is the input-output 101 of the control signals and the state of the transmitter of the active channel, the first and second inputs and outputs of the second block 65 of the programmable parallel interface are connected to the first inputs and outputs, respectively, of the third and fourth WU 67 and 68, the second input-output of which are, respectively, the input-output 102 of the control signals and the status of the filtering device of the active channel signals and the input-output 103 of the control signals eniya active channel and receiver status.

The first input-output of the serial interface of the fifth computer 44 is connected to the input-output of the serial interface of the sixth computer 46, the second input-output of the serial interface of the fifth computer 44 is connected to the second output of the multi-channel converter 77 of digital codes, the first inputs of the first and second microprogram devices 71 and 72 are collected data are interconnected and connected to the first output of the multi-channel converter 77 of digital codes, the second inputs of the first and second microprogram devices 11 t 72 data collection are connected between wallpaper and are connected to the output of the pulse width measuring unit 75, the input of which is the first input 104 of the signal analyzer of the time characteristics of the passive channel signals, the third inputs of the first and second microprogram data acquisition devices 71 and 72 are interconnected and connected to the output of the pulse repetition period measuring unit 76 , the input of which is the second input 105 of the signal analyzer of the temporal characteristics of the signals of the passive channel, the input-output of the second block 73 of digital input-output with galvanic isolation is the first input-output 106 of the control signals and the status of the receiver of the passive channel.

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the parallel interface is connected to the first inputs and outputs of the fifth and sixth control units 79 and 80, the second inputs and outputs of which are, respectively, the second and third inputs and outputs 111 and 112 of the control signals and the status of the receiver of the passive channel, the third input and output of the third block 74 programmable a parallel interface through a second control unit 42 is connected to the input of a multi-channel DAC 82, the output of which is the output 113 of an analog communication channel with consumers of radar information.

The output of the multi-channel converter 78 phase-code is connected to the input of the multi-channel converter 77 of digital codes, the first, second, third, fourth inputs of the multi-channel converter 78 phase-code are, respectively, the input 107 of the signals of the angular position sensor of a slowly rotating antenna, the first, second, third inputs 108, 109, 110 gyro signals.

The input of the third firmware data acquisition device 85 is the input 114 of the passive channel receiver signals.

The interface inputs and outputs (I) of the first adapter 2 of the graphic information display device, the first programmable parallel interface unit 13, the first computer 14, the first LAN adapter 15, the fourth programmable parallel interface unit 115 are interconnected using the first SIM 3.

The interface inputs and outputs (I) of the second adapter 18 of the graphic information display device, the multiplex channel adapter 19, the serial adapter 24, the second computer 25, the second LAN adapter 26 are interconnected using the second SIM 4.

Interface inputs and outputs (I) of the seventh computer 53, the first and second ADCs 54 and 56, the first, second, third and fourth processors 55, 57, 58 and 59 DSPs, the fourth adapter 60 HP are interconnected using the fourth SIM 52.

The interface inputs and outputs (I) of the eighth computer 63, the first block 64 of digital input-output with galvanic isolation, the second block 65 of the programmable parallel interface and the fifth adapter 66 LAN are interconnected using the fifth SIM 62.

digital input-output with galvanic isolation, the third block 74 of the programmable parallel interface and the sixth adapter 86 HP are interconnected using the sixth SIM 69.

The interface inputs and outputs (I) of the sixth computer 46, the third microprogram device 85 for collecting data, the third adapter 45 HP are interconnected using the third SIM 37.

Network inputs and outputs (C) of the first, second, third, fourth, fifth, sixth adapters 15, 26, 45, 60, 66, 86 HP and network inputs and outputs (C) of the third, fourth computer 31, 34 are interconnected with help highway 88 drug information exchange.

The sixth graphic information display device 47 is connected to the output (B) of the video signal of the tenth computer 84, and the third memory 48 is connected to the input / output (memory) of the interface of the DZU of the tenth computer 84.

The output of the third adapter 40 of the graphic information display device through the third video matching device 39 is connected to the input of the fifth graphic information display device 38, the first input-output of the fifth programmable parallel interface unit 116 is connected to the first input-output of the second control panel adapter 43, the second input-output which through the seventh control unit 81 is connected to the input-output of the second control panel 41.

The second input-output of the fifth block 116 of the programmable parallel interface is connected to the control input (Y) of the second demultiplexer 50, to the input of which a second pointing device 49 is connected, the first and second outputs of the second demultiplexer 50 are connected to the second inputs and outputs of the serial interfaces, respectively, ninth and tenth computers 70 and 84, the first inputs of the serial interfaces of the ninth and tenth computers 70 and 84 are interconnected.

The first, second, third, fourth outputs of the second block 51 of the regulators are connected, respectively, with the fifth, sixth, seventh, eighth inputs of the multiplexer 29.

The interface inputs and outputs (I) of the third adapter 40 of the graphic information display device, the ninth computer 70, the seventh LAN adapter 87, the fifth programmable parallel interface unit 116 are interconnected using the seventh SIM 83.

The network inputs and outputs (C) of the seventh adapter 87 and the network inputs and outputs (C) of the tenth computer 84 are connected to each other and to the network inputs and outputs of the first, second, third, fourth, fifth, sixth adapters 15, 26, 45, 60, 66, 86 drugs and network inputs and outputs (C) of the third, fourth computer 31, 34 using the trunk 88 information exchange of drugs.

The first graphic information display device 1, the first graphic information display device adapter 2, the first SIM 3, the second SIM 4, the first video signal matching device 5, the first control panel b, the first control unit 7, the first control panel adapter 8, the first unit 9 of galvanic isolation devices , the second block 10 of galvanic isolation devices, the third block 11 of galvanic isolation devices, the fourth block 12 of galvanic isolation devices, the first programmable parallel interface block 13, the first computer 14, ne a local network adapter 15, a second graphic information display device 16, a second video signal matching device 17, a second graphic information display device adapter 18, multiplex channel adapter 19, first, second, third and fourth isolated serial converters 20, 21, 22 and 23 adapter 24 serial interfaces, the second computer 25, the second adapter 26 HP, the first block 27 of the regulators, the first pointing device 28, the multiplexer 29, the first demultiplexer 30, the third computer 31 , the third graphic information display device 32, the first DZU 33, the fourth computer 34, the fourth graphic information display device 35, the second DZU 36, the fourth programmable parallel interface unit 115 comprise a radar operator panel.

Seventh SIM 83, fifth graphic information display device 38, third video signal matching device 39, third graphic information display device adapter 40, second control panel 41, seventh control unit 81, second control panel adapter 43, ninth computer 70, seventh adapter 87 HP, tenth A computer 84, a sixth graphic information display device 47, a third DZU 48, a second pointing device 49, a second demultiplexer 50, a second control unit 51, a fifth programmable parallel interface unit 116 composition They ply the console of the ship's commander.

The first graphic information display device 1 performs the function of an electronic control panel of an active channel of a radar station. On the first graphical information display device 1, images of controls (regulators, buttons, indicators) are displayed. The command and data input from the electronic control panel is carried out by moving the cursor (using the first coordinate pointing device 28) to the corresponding images of the controls on the screen of the first graphic information display device 1 and pressing the corresponding buttons of the first coordinate pointing device 28.

The first adapter 2 of the graphic information display device serves to form an image on the screen of the first graphic information display device 1.

The first video signal matching device 5 converts the video signals coming from the output of the first adapter 2 of the graphic information display device into the form necessary to output them to the first graphic information display device 1, and also amplifies these signals to ensure their reliable transmission via cables to the first display device 1 graphic information.

The first control panel b contains a set of buttons (keyboard) and a set of indicators. The buttons are used to enter data and commands for controlling the active channel of the radar station. Indicators are used to confirm the reception and various stages of the execution of the entered commands. The buttons are connected in a matrix. The first adapter 8 of the control panel scans the matrix of buttons, and also provides control signals for indicators that are amplified by the first control unit 7. To ensure the connection of the first adapter 8 of the control panel with the first system interface highway 3, the fourth block 115 of the programmable parallel interface serves.

The first block 13 of the programmable parallel interface serves to exchange control signals and status signals with power supply devices and a ventilation system (signals about the presence of supply voltages within specified limits, about the serviceability of power supplies, about overheating of individual devices of the digital computer system of the targeting radar, and switching on commands redundant power supplies, etc.), ensuring the issuance of control signals and receiving status signals from the switches on the wave news, providing the exchange of state signals of the radar station with the combat information-control system, providing control of the multiplexer 29 and the first demultiplexer 30. The first, second, third, fourth blocks 9, 10, 11, 12 of the galvanic isolation devices provide galvanic isolation of the inputs and outputs of the first block 13 programmable parallel interfaces with long lines of communication.

The first computer 14 provides control and monitoring of the state of power supply devices and a ventilation system, the temperature regime of the radar devices, provides control and monitoring of the state of the switches on the waveguides, provides information on the state of the radar station, provides control of the multiplexer 29 and the first demultiplexer 30, provides reception data from the first pointing device 28, provides using the fourth block 115 programmable parallel interface and the first adapter 8 of the control panel, receiving data from the buttons of the first control panel 6 and controlling the indicators of the first control panel b, and also provides the formation of graphic data displayed on the screen of the first device 1 display graphic information.

The first adapter 15 LAN provides data exchange between the first computer 14 and other devices connected to the trunk 88 of the information exchange of drugs.

Data exchange between the first computer 14, the first adapter 2 of the graphic information display device, the fourth block 115 of the programmable parallel interface, the first block 13 of the programmable parallel interface, the first adapter 15 of the LAN is carried out by the first SIM 3.

The second graphic information display device 16 performs the function of an electronic control panel of a passive channel of a radar station. On the second device 16 for displaying graphical information, images of control elements (controllers) are displayed.

buttons, indicators). The command and data input from the electronic control panel is done by moving the cursor (using the first coordinate pointing device 28) to the corresponding images of the controls on the screen of the second graphic display device 16 and pressing the corresponding buttons of the first coordinate pointing device 28.

The second adapter 18 of the graphic information display device serves to form an image on the screen of the second graphic information display device 16.

The second video signal matching device 17 converts the video signals coming from the output of the second adapter 18 of the graphic information display device into the form necessary to output them to the second graphic information display device 16, and also amplifies these signals to ensure their reliable transmission via cables to the second display device 16 graphic information.

The adapter 24 serial interfaces provides data exchange between the digital computer system of the radar target designation and consumers of radar information on four serial interfaces.

The adapter 19 multiplex channels provides data exchange between the digital computer system of the radar target designation and consumers of radar information on two redundant multiplex channels.

The first, second, third, fourth isolated converters 20, 21, 22, 23 of the serial interfaces convert voltage signals into current signals and provide galvanic isolation.

The second computer 25 controls the exchange of data between the digital computer system of the radar target designation and the consumers of radar information (weapon control systems, navigation system, additional remotes and indicators), provides data reception from the first coordinate-pointing device 28, and also provides the formation of graphic data output to the screen of the second graphic information display device 16.

A computer 25 and other devices connected to the line 88 of the information exchange of drugs.

Data exchange between the second computer 25, the second adapter 18 of the graphic information display device, the multiplex channel adapter 19, the serial interface adapter 24, the second LAN adapter 26 is performed using the second SIM 4.

The third graphic information display device 32 serves to display the radar information received from the active channel of the radar station. The image of the radar situation at various scales (the image of the entire radar situation and a more detailed image of the radar situation for any region, for example, near any target) can be simultaneously displayed on the screen of the third graphic information display device 32.

The first DZU 33 is used to store mathematical software for all computers of the digital computer system of the radar target designation. The third computer 31 contains a built-in adapter for displaying graphic information and a LAN adapter. The third computer 31 receives data from the first coordinate pointing device 28, provides data transmission from the first DZU 33 through the line 88 of information exchange of drugs to the rest of the digital computer of the digital computing system of the radar target designation (provides loading on the LAN of all computers of the digital computer system of the radar target designation) , and also provides the formation of graphic data displayed on the screen of the third device 32 display graphic information.

The fourth graphic information display device 35 is for displaying radar information received from a passive channel of a radar station. The second DZU 36 is used to store data on the form of signals received from various sources of electromagnetic radiation (electronic portraits of targets). The fourth computer 34 contains a built-in adapter for displaying graphic information and a LAN adapter. The fourth computer 34 provides data reception from the first coordinate pointing device 28, provides data transmission from the second DZU 36 through the line 88 of information exchange of drugs to the rest of the digital computer of the digital computing system of the targeting radar, and also provides the formation of graphic data displayed on the screen of the fourth device 35 display graphic information.

The first coordinate pointing device 28 is intended to control the cursor (s) on the screens of the first, second, third, fourth devices 1, 16, 32, 35 displaying graphic information and entering coordinates. The first demultiplexer 30 connects the output of the first pointing device 28 to the second inputs and outputs of the serial interface of the first computer 14, the second computer 25, the third computer 31 or the fourth computer 34.

The first and second blocks 27 and 51 of the controllers each represents a set of four potentiometers, one of which serves to set the parameters of the temporary automatic gain control, and the other three to set the parameters of the manual gain control of the amplifiers of the receiver. The findings of these potentiometers form respectively the first, second, third, fourth outputs of the first and second blocks 27 and 51 of the regulators.

The multiplexer 29, depending on the signals supplied to its control, input (U) connects to its first output either the first output of the first block 27 of the regulators, or the first output of the second block 51 of the regulators, and also connects to its second output or the second output of the first block of 27 regulators or the third output of the first block 27 of regulators, or the fourth output of the first block 27 of regulators, or the second output of the second block 51 of regulators, or the third output of the second block 51 of regulators, or the fourth output of the second block 51 of regulators.

The fifth graphic information display device 38 performs the function of an electronic control panel of the ship’s commander’s console. On the fifth graphical information display device 38, images of the controls (knobs, buttons, indicators) are displayed. The command and data input from the electronic control panel is done by moving the cursor (using the second coordinate pointing device 49) to the corresponding images of the controls on the screen of the fifth graphic display device 38 and pressing the corresponding buttons of the second coordinate pointing device 49.

The third adapter 40 of the graphic information display device serves to form an image on the screen of the fifth graphic information display device 38.

The third video signal matching device 39 converts the video signals coming from the output of the third adapter 40 of the graphic information display device into the form necessary to output them to the fifth graphic information display device 38, and also amplifies these signals to ensure their reliable transmission via cables to the fifth display device 38 graphic information.

The second control panel 41 contains a set of buttons (keyboard) and a set of indicators. The buttons are used to enter data and commands for controlling the radar station. Indicators are used to confirm the reception and various stages of the execution of the entered commands. The buttons are connected in a matrix. The second adapter 43 of the control panel scans the matrix of buttons, and also provides control signals for indicators that are amplified by the seventh control unit 81.

To ensure communication of the second adapter 43 of the control panel with the seventh SIM 83, the fifth block 116 of the programmable parallel interface is used.

The ninth computer 70 receives data from the second coordinate pointing device 49, and, using the fifth block 116 of the programmable parallel interface and the second adapter 43 of the control panel, receives data from the buttons of the second control panel 41 and controls the indicators of the second control panel 41, as well as provides graphic data displayed on the screen of the fifth device 38 display graphic information.

The seventh adapter 87 LAN provides data exchange between the ninth computer 70 and other devices connected to the trunk 88 of the information exchange of drugs.

Data is exchanged between the ninth computer 70, the third adapter 40 of the graphic information display device, the fifth programmable parallel interface unit 116, and the seventh LAN adapter 87 via the seventh SIM 83.

The sixth graphic information display device 47 serves to display the radar information of both active and passive channels. The third DZU 48 is used to store the software and software for the control panel of the ship's commander. The tenth computer 84 contains a built-in adapter for displaying graphic information and a LAN adapter. The tenth computer 84 provides data reception from the second coordinate pointing device 49 / provides data transmission from the third DZU 48 via the line 88 of information exchange of drugs in the ninth computer 70, and also provides the formation of graphic data displayed on the screen of the sixth device 47 display graphic information.

The second coordinate pointing device 49 is intended to control the cursor (s) on the screens of the fifth and sixth devices 38 and 47 displaying graphical information and entering coordinates. The second demultiplexer 50, depending on the control signals received at its control (V) input from the second input-output of the fifth block 116 of the programmable parallel interface, connects the output of the second coordinate-pointing device 49 to the second input-output of the serial interface of the ninth computer 70 or to the second input-output serial interface of the tenth computer 84.

The fifth and sixth graphic information display devices 38 and 47, the second control panel 41 and the second coordinate indicating device 49 can be used to display information and control both active and passive channels of the radar station.

The first and second ADCs 54 and 56 convert the video signal of the active channel of the radar station through the first and second inputs 99 and 100 of the video signal and synchronization signals of the active channel into digital form. The digitized video signal of the active channel from the output of the first ADC 54 is fed to the input of the first processor 55 DSP. Data from the output of the second ADC 56 is processed by the second, third and fourth processors 57, 58 and 59 DSP. In this case, the third and fourth processors 58 and 59 DSPs process the digitized video signal of the active channel in two stages. At the first stage, the data is fed to the input of the third processor 58 DSP, and then

the results of this processing from the output of the third processor DSP 58 are fed to the input of the fourth processor 59 DSP.

A serial to parallel converter 61 is used to provide input of the angle of rotation of the antenna of the active channel and gyro data into the seventh computer 53.

The seventh computer 53 is used to control the processes of input, processing and transmission to the operator’s panels of the radar station and the ship commander of the active channel data of the radar station (provides control of the first and second ADCs 54 and 56, controls the first, second and third DSP processors 55, 57 and 58, and also carries out the loading of mathematical software in them).

The fourth adapter 60 LAN provides data exchange between the seventh computer, 53 and other devices connected to the trunk 88 information exchange of drugs.

Data exchange between the seventh computer 53, the first and second ADCs 54 and 56, the first, second and third processors 55, 57 and 58 DSPs, the fourth adapter 60 HP is carried out on the fourth SIM 52.

The first block 64 digital input-output with galvanic isolation provides the issuance of control signals and reception of the status signals of the transmitter of the active channel of the radar station.

The second programmable parallel interface unit 65 provides a variety of control signals and reception of the status signals of the filtering device of the active channel and the active channel receiver. The third WU 67 serves to amplify the signals coming from the second block 65 of the programmable parallel interface to the levels necessary to control the filtering device for processing the active channel signals and confidently transmit these signals through cables to the filtering device for processing the active channel signals. The fourth control unit 68 is used to amplify the signals coming from the second block 65 of the programmable parallel interface to the levels necessary to control the active channel receiver and confidently transmit these signals via cables to the active channel receiver.

It filters the processing of the active channel signals, and also calculates the Doppler frequency shift.

The fifth adapter 66 LAN provides data exchange between the eighth computer 63 and other devices connected to the trunk 88 of the information exchange of drugs.

Data exchange between the eighth computer 63, the first block 65 of the programmable parallel interface, the first block 64 of the digital input-output with galvanic isolation, the fifth adapter 66 LAN is carried out on the fifth SIM 62.

Block 75 measuring the pulse duration through the first input 104 of the signal analyzer of the temporal characteristics of the signals of the passive channel receives signals from the analyzer of the temporal characteristics of the signals of the passive channel, and digitally outputs data on the measured duration of the pulses received by the receiver of the passive channel of signals to the first and second firmware 71 and 72 data collection. Similarly, the pulse repetition period measuring unit 76, through the second signal input 105 of the analyzer of the temporal characteristics of the passive channel signals, receives signals from the analyzer of the temporal characteristics of the passive channel signals, and digitally provides data on the measured pulse repetition period received by the receiver of the passive signal channel to the first and second firmware data acquisition devices 71 and 72.

The first and second microprogram data acquisition devices 71 and 72 receive, up to the digital input / output channels with galvanic isolation, data on the duration and repetition period of pulses / received by the receiver of the passive channel, and also receive data on the angular position of the slowly rotating antenna and gyroscope data, and provide storage and providing consumers with this data.

The second galvanically isolated digital input / output unit 73 provides control signals and receives status signals of a passive channel receiver.

The third block 74 of the programmable parallel interface provides the issuance of control signals and reception of the status signals of the receiver of the passive channel and radar information. The radar information provided by the third block 74 of the programmable parallel interface through the second control unit 42 is fed to the input of the multi-channel DAC 82 and is fed to the consumers by analog channels to the radar information.

The fifth and sixth control units 79 and 80 serve to amplify the signals coming from the third block 74 of the programmable parallel interface to the levels necessary for the receiver of the passive channel and confidently transmit these signals through the cables to the receiver of the passive channel.

The second control unit 42 serves to amplify the signals from the third block 74 of the programmable parallel interface to the levels required for the multi-channel DAC 82.

The fifth computer 44 controls the receiver of the passive channel of the radar station, controls the reception of data from units 75 and 76 for measuring the duration and repetition period of pulses, as well as data on the angular position of the slowly rotating antenna and gyroscope data, controls the transmission of this data to other devices of the digital radar computing system target designation station, controls the delivery of radar data to consumers of radar information via analog channels.

The fifth computer 44 also processes the data of the passive channel.

The sixth adapter 86 LAN provides data exchange between the fifth computer 44 and other devices connected to the trunk 88 of the information exchange of drugs.

Data exchange between the fifth computer 44, the second block 73 digital input-output with galvanic isolation, the third block 74 programmable parallel interface, the first and second microprogram devices 71 and 72 data collection, the sixth adapter 86 LAN is carried out on the sixth SIM 69.

The multi-channel converter 78 phase-code receives the signals of the sensor of the angular position of a slowly rotating antenna and the signals of the gyroscope and converts these signals into digital form. The multi-channel converter 77 of digital codes provides the transmission of data on the angular position of a slowly rotating antenna and gyroscope data to the seventh computer 53, to the fifth computer 44, to the first and second microprogram data acquisition devices 71 and 72. In this multi-channel converter

77 digital codes converts data codes received from the multi-channel converter 78 phase-code into the form necessary for transferring this data to the seventh computer 53 (in parallel code), to the fifth computer 44 (in serial code), to the first and second firmware devices 71 and 72 data collection (in parallel code).

The third microprogram device 85 for data collection receives data from the receiver of the passive channel and provides their storage and issuance for further processing. The composition of the third microprogram / multi device 85 includes a dual-port random access memory device that simultaneously records the data received at the input of the third microprogram data acquisition device 85 and provides data to the third SIM 37 stored in the third microprogram data collection device 85.

The sixth computer 46 controls the reception of data from the receiver of the passive channel and processes the data of the passive channel.

The third adapter 45 LAN provides data exchange between the sixth computer 46 and other devices connected to the trunk 88 of the information exchange of drugs.

Data exchange between the sixth computer 46, the third microprogram device 85 for data collection, the third adapter 45 LAN is carried out on the third SIM 37.

The first, second, third, fourth, fifth, sixth and seventh interface lines 3, 4, 37, 52, 62, 69 and 83 can be implemented as ISA lines.

The trunk 88 of the information exchange of drugs can be made in the form of a trunk network Ethernet.

Additionally, the first computer 14 is connected to the third computer 31 by a serial channel. Also, the second computer 25 with the fourth computer 34, the ninth computer 70 with the tenth computer 84, the seventh computer 53 with the eighth computer 63, the fifth computer 44 with the sixth computer 46 are also connected by a serial channel.

As the first and second coordinate pointing devices 28 and 49, manipulators such as HulaPoint, Trackball or Mouse, etc. can be used.

of the sixth device 1, 16, 32, 35, 38, and 47 monitors with an active matrix on liquid crystals, electroluminescent displays, monitors with a cathode ray tube, etc. can be used.

The first, second and third devices 5, 17 and 39 may be a set of amplifiers.

The first, second, third and fourth blocks 9, 10, 11 and 12 may be sets of optoelectronic pairs.

The first, second, third and fourth isolated converters 20, 21, 22 and 23 of the serial interfaces are the RS-232 to RS-485 interface converters.

The 24 serial adapter is an RS-232 interface adapter.

The first, second, and third DZU 33, 36, and 48 can be drives based on flash electronic non-volatile memory devices (FLASH-memory) or magnetic disk drives.

The digital computer system of the radar target designation works as follows.

After turning on the power, the first, second, third, fourth, fifth, sixth, seventh, eighth, ninth and tenth computers 14, 25, 31, 34, 44, 46, 53, 63, 70, and 84 perform a self-test and test the devices connected to them .

Next, download the software and mathematical software in the first, second, third, fourth, fifth, sixth, seventh and eighth computers 14, 25, 31, 34, 44, 46, 53, 63 from the first DZU 33. Download the mathematical software in the ninth and tenth computers 70 and 84 are carried out from the third DZU 48.

The screens of the first, second, and fifth devices 1, 16, and 38 for displaying graphic information display images of controls (controllers, buttons, indicators), that is, images of control panels.

The video signal of the active channel (from the receiver of the active channel) is supplied through the inputs 99 and 100 of the video signal and synchronization signals of the active channel to the first and second ADCs 54 and 56. From the output of the first ADC 54, the data are sent to the DSP processor 55. With the release of the second

ADC 56 data is supplied to the second and third processors 57 and 58 DSP. The processing results from the third DSP processor 58 arrive at the fourth DSP processor 59. The first, second, third and fourth processors 55, 57, 58 and 59 provide simultaneous imaging of the radar situation at various scales (image of the entire radar situation and a more detailed image of the radar situation for any region, for example, near any target), and also provide automatic determination of target parameters.

The data on the angular position of a slowly rotating antenna and the gyroscope data (position data in the space of a carrier ship), necessary for processing radar signals, are supplied to the seventh computer 53 from a multi-channel converter 78 phase-code through a multi-channel converter 77 of digital codes.

The processed radar information (forms of detected targets, target marks, parameters of received radar signals, image of the radar situation, etc.) are transmitted via the fourth SIM 52 and through the fourth adapter 60 drugs arrive on the highway 88 information exchange of drugs through which they are transmitted to connected to this device backbone, including to the radar station operator’s console and to the ship’s commander’s console, where they are used to form the image displayed on the screens of the third and sixth of the devices 32 and 47 for displaying graphic information, and also issued on the first, second, third fourth inputs of the outputs 93, 94, 95, 96 serial interfaces of exchange with consumers of radar information, the first and second inputs and outputs 97 and 98 of multiplex communication channels with consumers of radar information, as well as in analog form to the output 113 of the analog communication channel with consumers of radar information.

Data from the receiver of the passive channel (pre-processed signals received depending on the mode of operation of the rapidly rotating antenna or slowly rotating antenna) are digitally transmitted through the input 114 of the signals of the receiver of the passive channel to the input of the third microprogram data acquisition device 85. The signals from the analyzer of the temporal characteristics of the passive channel signals are fed to the inputs of blocks 75 and 76 for measuring the duration and duration of the pulses. Data from the blocks 75 and 76 measuring the duration and period of the pulses are fed to the corresponding inputs of the first and second microprogram devices 71 and 72 of data collection. Also, data on the angular position of the slowly rotating antenna and gyroscope data (data on the position in the space of the carrier vehicle) are also received in the first and second microprogram devices 71 and 72 for collecting data from the multi-channel converter 78 phase-code through the multi-channel converter 77 of digital codes in the seventh and fifth computers 53 and 44.

The fifth and sixth computers 44 and 46 process the data of the passive channel and output the results of processing through the sixth and third adapters 86 and 45 drugs to the line 88 of information exchange of drugs, through which they are transmitted to devices connected to this line, including the radar operator’s desk and to the ship’s commander’s console, where they are used to form an image displayed on the screens of the fourth and sixth graphic information display devices 35 and 47, and also are issued on the first, second, third fourth inputs odes-outputs 93, 94, 95, 96 serial interfaces for exchanging radar information with consumers, the first and second inputs and outputs 97 and 98 of multiplex communication channels with radar information consumers, as well as in analog form to the output 113 of an analog communication channel with radar information consumers .

At the same time, the control of the radar station modes (setting of the transmitter and receiver modes, filtering signal processing devices, the type of emitted signals, the processing modes of the received signals, the modes of display and delivery of radar information to consumers, etc.) is based on data and commands entered by the user when the help of the first and second control panels 6 and 41, the first and second control units 27 and 51, as well as electronic control panels formed by the first, second and fifth devices 1, 16 and 38 from presentation of graphical information and the first and second coordinate pointing devices 28 and 49 based on user input, processing results of received radar information, data on the status of power supply devices and ventilation systems received at the input-output 89 of the relay exchange line with power devices and a ventilation system , data on the state of the switches on the waveguides entering the input-output 90 of the relay exchange line with the switches on the waveguides, data combat information ion-control system received at the input-output 91 of the relay exchange line with the CIUS, data about the status of the active channel transmitter, received at the input-output 101 of the control signals and the status of the active channel transmitter, data about the state of the filtering device for processing the active channel signals received at input-output 102 of the control signals and the state of the filtering processing device of the active channel signals, data on the status of the receiver of the active channel, received at the input-output 103 of the control signals and status the range of receivers of the active and passive channels, data on the state of the receiver of the passive channel coming to the first, second and third inputs-outputs 106, 111 and 112 of the control signals and the state of the receiver of the passive channel and data from consumers of radar information coming to the first, second, third , the fourth inputs and outputs 93, 94, 95, 96 serial interfaces of exchange with consumers of radar information, the first, second inputs and outputs 97, 98 of multiplex communication channels with consumers of radar information.

The digital computer system of the target designation radar station generates the corresponding commands and data that are output to the input-output 89 of the relay exchange with power supply devices and a ventilation system, input-output 90 of the relay exchange with switches on the waveguides, input-output 91 of the relay exchange with BIUS the first output 92 of the control of the amplifier of the receiver, the second output 117 of the control of the amplifier of the receiver, the input-output 101 of the control signals and the state of the transmitter of the active channel, input-in the output 102 of the control signals and the state of the filtering device for processing the active channel signals, the input-output 103 of the control signals and the status of the receiver of the active channel, the first input-output 106 of the control signals and the status of the receiver of the passive channel, the second input-output 111 of the control signals and the status of the receiver of the passive channel , the third input-output 112 of the control signals and the status of the receiver of the passive channel, the corresponding control commands and data to all systems and devices of the radar target designation, and e, the digital computing system of the target designation radar is set up to provide the required type of image on the screens of the first, second, third, fourth, fifth and sixth graphic information display devices 1, 16, 32, 35, 38 and 47, data type and composition are set up, output through the first, second, third, fourth inputs and outputs 93, 94, 95, 96 serial interfaces of exchange with consumers of radar information, the first, second inputs of outputs 97, 98 of multiplex communication channels with consumers firs radar data and the analog output channel 113 due to the radar information consumers.

In the event of a failure of a computer, its functions may be redistributed between other computers included in the system.

Thus, the proposed digital computer system of the radar target designation has versatility, wider functionality and increased reliability and fault tolerance. The digital computer system of the radar target designation allows you to increase functionality by connecting additional computers and additional adapters.

The presented drawings and description of the system make it possible, using the existing element base, to manufacture the system in an industrial way and use it in radar stations for processing information and generating control signals for radar target designation units, for collecting information, solving combat missions and generating control signals for weapons systems and hardware, which characterizes the proposed utility model as industrially applicable.

Sources of information

1.Pat. US No. 4065809, CL G06F 15/16, 1977

2.Pat. US No. 3959775, CL G06F 15/16, 1976

List of designations for the drawing

1 - the first device for displaying graphic information;

2 - the first adapter of the graphic information display device; 3.4- respectively the first, second SIM;

5 - the first device for matching video signals;

6- first control panel;

7- first control unit;

8- first control panel adapter;

9- first block of galvanic isolation devices;

10, 11, 12 — respectively, the second, third, fourth blocks of galvanic isolation devices;

13 - the first block of a programmable parallel interface;

14 - the first computer;

15-first adapter;

16-second graphic information display device; 17-second video matching device;

18-second adapter of a graphic information display device;

19-channel multiplex adapter;

20, 21, 22, 23 - respectively, the first, second, third, fourth isolated converters of serial interfaces;

24- serial interface adapter;

25- second computer;

26- second drug adapter;

27 - the first block of regulators;

28- first pointing device;

29-multiplexer;

30 - the first demultiplexer;

31- third computer;

32- third display device of graphical information;

33 - the first DZU;

34- fourth computer;

35 is a fourth device for displaying graphic information; 36-second DZU;

37th SIM;

38 - fifth device for displaying graphic information;

39 - third device for matching video signals;

40 - the third adapter of the graphic information display device;

41- second control panel;

42- second control unit;

43- second control panel adapter;

44th fifth computer;

45- third drug adapter;

46th sixth computer;

47th sixth graphic information display device;

48- third DZU;

49- second pointing device;

50 - second demuplexer;

51- second block of regulators;

52- fourth SIM;

53-seventh computer;

54- first ADC;

Digital Computing System ...

57, 58, 59 - respectively, the second, third, fourth processors DSP;

60- fourth drug adapter;

61 - serial to parallel converter;

62- fifth SIM;

63 - eighth computer;

64 - the first block of digital input-output with galvanic isolation;

65- second block of programmable parallel interface;

66th fifth drug adapter;

67, 68 - respectively, the third, fourth control unit;

69th sixth SIM;

70th ninth computer;

71, 72, respectively, the first, second firmware data acquisition device;

73- second block of digital input-output with galvanic isolation;

74 - the third block of a programmable parallel interface;

75- unit for measuring the pulse duration;

76 - unit for measuring the pulse repetition period;

77- multi-channel digital code converter;

78- multi-channel phase-code converter;

79, 80, 81 - respectively, the fifth, sixth, seventh control unit;

82- multi-channel DAC;

83- seventh SIM;

84th tenth computer;

85- third firmware data acquisition device; 86, 87 - respectively, the sixth, seventh drug adapters;

88- drug information exchange highway;

89- input-output of the relay exchange line with power supply devices and ventilation system;

90- input-output of the relay exchange line with switches on the waveguides;

91 - input-output of the relay exchange line with the CIUS;

92 - the first control amplifier output of the receiver;

93, 94, 95, 96 - respectively, the first, second, third, fourth inputs and outputs of serial interfaces for exchanging with consumers of radar information; 97, 98 - respectively, the first, second input-output multiplex communication channels with consumers of radar information;

99- video input of the active channel;

100 - input synchronization signals of the active channel;

101 - input-output of the control signals and the state of the transmitter of the active channel;

102-input-output of the control signals and the state of the filtering signal processing device of the active channel;

103-input-output of the control signals and the status of the receiver of the active channel;

104, 105, respectively, the first, second inputs of the signals of the analyzer of the temporal characteristics of the signals of the passive channel;

106 - the first input-output of the control signals and the status of the receiver of the passive channel; 107 - input signals of the sensor of the angular position of a slowly rotating antenna; 108, 109, 110 - respectively, the first, second, third inputs of the gyroscope signals; 111, 112, respectively, the second, third inputs and outputs of the control signals and the status of the receiver of the passive channel;

113-output of an analog communication channel with consumers of radar information;

114-input signal of the receiver of the passive channel;

115, 116 — respectively, fourth, fifth blocks of a programmable parallel interface; 117 - the second control amplifier output of the receiver.

e yyvj Digital Computing System ...

Claims (2)

1. Digital computing system of a target designation radar station, comprising a first graphic information display device, a first graphic information display device adapter, a first system interface highway (SIM), a second SIM, characterized in that it further comprises a first video signal matching device, a first control panel, first unit of amplifiers (BU), first adapter of the control panel, first, second, third and fourth blocks of galvanic isolation devices, first block of software a mimic parallel interface, a first electronic computer (LAN), a first local area network (LAN) adapter, a second graphic information display device, a second video signal matching device, a second graphic information display device adapter, a multiplex channel adapter, the first, second, third and fourth isolated serial interface converters, serial interface adapter, second computer, second LS adapter, first block of regulators, first coordinate-pointing construction, multiplexer, first demultiplexer, third computer, third graphic information display device, first long-term storage device (DZU), fourth computer, fourth graphic information display device, second DZU, third SIM, second control unit, fifth computer, third LAN adapter, sixth Computers, fourth SIM, seventh computers, first analog-to-digital converter (ADC), first digital signal processing processor (DSP), second ADC, second, third and fourth DSP processors, fourth LAN adapter, serial converter code in parallel, fifth SIM, eighth computer, first digital input-output unit with galvanic isolation, second programmable parallel interface unit, fifth LAN adapter, third control unit, fourth control unit, sixth SIM, first and second microprogram data acquisition devices, second block digital input-output with galvanic isolation, the third block of a programmable parallel interface, a block for measuring the pulse duration, a block for measuring the pulse repetition period, a multi-channel converter of digital codes, many a global phase-to-code converter, a fifth and sixth control unit, a multi-channel digital-to-analog converter (DAC), a third microprogram data acquisition device, a sixth LAN adapter, a LAN information exchange trunk, the fourth block of a programmable parallel interface, and the output of the first adapter of the graphic information display device through the first the video signal matching device is connected to the input of the first graphic information display device, the input-output of the fourth programmable block in parallel of the first interface is connected to the first input-output of the first adapter of the control panel, the second input-output of which is connected through the first control unit to the input-output of the first control panel, the first, second, third inputs and outputs of the first block of the programmable parallel interface are connected to the first inputs and outputs, respectively, of the first, second, third blocks of galvanic isolation devices, the second inputs and outputs of which are, respectively, the input-output of the relay exchange line with power devices and a valve system input, output of the relay exchange line with switches on the waveguides, input / output of the relay exchange line with the combat information and control system, the fourth input-output of the first block of the programmable parallel interface is connected to the input-output of the fourth block of galvanic isolation devices, the first and second outputs which is connected to the control inputs, respectively, of the first demultiplexer and multiplexer, the output of the second adapter of the graphic information display device is connected through the second device for matching video signals to the input of the second graphic information display device, the first, second, third, fourth inputs and outputs of the serial interface adapter are connected to the first inputs and outputs, respectively, of the first, second, third, fourth isolated converters of serial interfaces, the second inputs and outputs which are, respectively, the first, second, third, fourth inputs and outputs of serial interfaces for exchanging with consumers of radar information, the first and second inputs and outputs of the multiplex channel adapter are, respectively, the first and second inputs and outputs of the multiplex communication channels with consumers of radar information, the first, second, third, fourth outputs of the first block of controllers are connected to the corresponding inputs of the multiplexer, the first and second outputs of which are , respectively, the first and second outputs of the control of the amplifiers of the receiver, the first coordinate-pointing device, the first, second, the third, fourth outputs of the first demultiplexer are connected to the second inputs and outputs of the serial interfaces, respectively, of the first computer, the third computer, the fourth computer, the second computer, the first inputs and outputs of the serial interfaces of the first computer and the third computer are interconnected, the first inputs and outputs of the serial interfaces the second computer and the fourth computer are interconnected, the third and fourth graphic information display devices, respectively, are connected to the outputs of the video signals of the third and fourth computers, and the input-output m of the DZU interface of the third and fourth computers are connected, respectively, the first and second DZU, the first inputs of the first and second ADCs are interconnected and form the video signal input of the active channel, the second inputs of the first and second ADCs are interconnected and form the input of synchronization signals of the active channel, output the first ADC is connected to the input of the first DSP processor, the first output of the second ADC is connected to the input of the second DSP processor, the second output of the second ADC is connected to the input of the third DSP processor, the output of the third DSP processor is connected connected to the input of the fourth DSP processor, the first input-output of the seventh mainframe serial interface is connected to the first input-output of the serial code converter into parallel, the second input-output of which is connected to the third output of the multi-channel digital code converter, the second input-output of the seventh mainframe serial interface is connected with the input-output of the serial interface of the eighth computer, the input-output of the first block of digital input-output with galvanic isolation is the input-output of control signals and the state of the active channel transmitter, the first and second inputs and outputs of the second block of the programmable parallel interface are connected to the first inputs and outputs, respectively, of the third and fourth control units, the second inputs and outputs of which are, respectively, the input-output of the control signals and the state of the filtration processing device the signals of the active channel and the input-output of the control signals and the status of the receiver of the active channel, the first input-output of the serial interface of the fifth computer is connected to the input-output after serial interface of the sixth computer, the second input-output of the serial interface of the fifth computer is connected to the second output of the multichannel digital code converter, the first inputs of the first and second microprogram data acquisition devices are interconnected and connected to the first output of the multichannel digital code converter, second inputs of the first and second microprogram data acquisition devices are interconnected and connected to the output of the pulse duration measuring unit, the input of which is the first signal input a passive channel signal time analyzer, the third inputs of the first and second microprogram data acquisition devices are interconnected and connected to the output of the pulse repetition period measuring unit, the input of which is the second signal input of the passive channel signal time analyzer, the input-output of the second digital input unit -output with galvanic isolation is the first input-output of the control signals and the status of the receiver of the passive channel, the first and second inputs and outputs t this programmable parallel interface unit is connected to the first inputs and outputs of the fifth and sixth control units, the second inputs and outputs of which are, respectively, the second and third inputs and outputs of the control signals and the status of the receiver of the passive channel, the third input-output of the third programmable parallel interface block The control unit is connected to the input of a multi-channel DAC, the output of which is the output of an analog communication channel with consumers of radar information, the output of a multi-channel converter the c-code is connected to the input of the multi-channel converter of digital codes, the first, second, third, fourth inputs of the multi-channel phase-to-code converter are, respectively, the input of the signals of the angular position sensor of a slowly rotating antenna, the first, second, third inputs of the gyro signals, the input of the third microprogram device the data collection is the input of the receiver signals of the passive channel, the interface inputs and outputs of the first adapter of the graphic information display device, the first block is programmable the first parallel interface, the first computer, the first LAN adapter, the fourth programmable parallel interface unit are interconnected using the first SIM, the interface inputs and outputs of the second adapter of the graphic display device, multiplex channel adapter, serial interface adapter, the second computer, the second LAN adapter are connected between themselves using the second SIM, interface inputs and outputs of the seventh computer, the first and second ADCs, the first, second, third and fourth DSP processors, the fourth adapter the tera drugs are interconnected using the fourth SIM, the interface inputs and outputs of the eighth computer, the first digital input-output unit with galvanic isolation, the second programmable parallel interface unit and the fifth adapter of the drug are interconnected using the fifth SIM, the interface inputs and outputs of the fifth computer , the first and second microprogram data acquisition devices, the second galvanically isolated digital input / output unit, the third programmable parallel interface unit and the sixth LAN adapter are connected between wallpaper using the sixth SIM, the interface inputs and outputs of the sixth computer, the third microprogram data acquisition device, the third LAN adapter are interconnected using the third SIM, the network inputs and outputs of the first, second, third, fourth, fifth, sixth LAN adapters and network inputs - the outputs of the third, fourth computers are interconnected using the LAN information exchange drugs. 2. The digital computing system according to claim 1, characterized in that it further comprises a seventh SIM, a seventh LAN adapter, a fifth graphic information display device, a third video signal matching device, a third graphic information display device adapter, a second control panel, a seventh control unit, a second control panel adapter, ninth computer, tenth computer, sixth graphic information display device, third DZU, second coordinate-pointing device, second demultiplexer, second regulator block c, the fifth block of the programmable parallel interface, while the sixth graphic information display device is connected to the video signal output of the tenth computer, the third DZU is connected to the input / output of the tenth computer's DZU interface, the output of the third adapter of the graphic information display device through the third video matching device is connected to the input of the fifth graphic information display device, the first input-output of the fifth programmable parallel interface unit is connected to the first input-output of the WTO the second control panel adapter, the second input-output of which through the seventh control unit is connected to the input-output of the second control panel, the second input-output of the fifth block of the programmable parallel interface is connected to the control input of the second demultiplexer, to the input of which a second pointing device is connected, the first and the second outputs of the second demultiplexer are connected to the second inputs and outputs of the serial interfaces, respectively, of the ninth and tenth computers, the first inputs and outputs of the serial interfaces are the fifth and tenth computers are interconnected, the first, second, third, fourth outputs of the second block of regulators are connected, respectively, with the fifth, sixth, seventh, eighth inputs of the multiplexer, the interface inputs and outputs of the third adapter of the graphic information display device, the ninth computer, the seventh adapter LAN, the fifth block of programmable parallel interface are interconnected using the seventh SIM, the network inputs and outputs of the seventh adapter and the network inputs and outputs of the tenth computer are interconnected and with network inputs-in moves the first, second, third, fourth, fifth, sixth, and network adapters PM inputs-outputs of the third, fourth computer via line information exchange PM.