RU2622848C1 - Command-shooting management information system (versions) - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: system contains the automated operator workstation (1), equipped with security facilities (2), computer systems (3, 4), digital inter-machine exchange channel (5), keyboards (6, 7), documenting devices (8, 9), monitors (10, 11), time-binding modules (12, 13), base stations of the common time system with remote antennas (14, 15); digital information exchange channels with peripheral communication subsystems, including the light and sound alarm systems (24), control devices (25), and power supply devices.

EFFECT: increase of the reliability and system fault tolerance.

46 cl, 46 dwg

Description

The invention relates to combat information and control systems and can be used to control the preparation and launch of missiles (anti-missiles, torpedoes, guided missiles, etc.) into which the flight mission data is input from supporting systems.

A device is known - command-firing information management system - which contains an operator console consisting of two electronic computers, two system interface lines, four adapters of a multiplex channel for information exchange, a keyboard, a graphic information display device, two digital input-output devices, control and management panels, lag interface adapter and serial interface adapter, data exchange backbone in the form of a redundant multiplex of an information exchange channel, at least one peripheral communication device with control objects, each of which contains an electronic computer of a peripheral communication device with control objects, a system interface highway of a peripheral communication device with control objects, an adapter of a multiplex communication channel of a peripheral communication device with control objects, an adapter for code channels of communication with control objects, a digital input-output device for a peripheral communication device with an object tami control and m relay blocks (IPC G06F 15/16, RF patent No. 58748, publ. November 27, 2006).

The disadvantages of this device are:

- limited functionality for the preparation and launch of missiles (missiles, torpedoes, guided missiles, etc.), requiring precise time synchronization with the operation of external systems and control objects;

- low degree of security from unauthorized control actions (from supporting systems, the operator, environmental factors, enemy forces and equipment, emergency situations caused by equipment failures, etc.) and / or during missile launch failures (anti-missile, torpedoes , guided missiles, etc.), for example, due to a malfunction of relay blocks;

- insufficient reliability of operation and fault tolerance of the operator console in case of failure of its individual elements.

Also known is a command-firing information-control system (IPC G06F 19/00, G06F 171: 00, G06F 15/16, RF patent No. 2191430, publ. 20.10.2002).

The device comprises an operator panel consisting of two electronic computers, two system interface lines, four LAN adapters, a keyboard, a documentation device, a monitor, a video adapter, a multiplex channel adapter, a long-term storage device, a digital input-output adapter, a control and control panel , a parallel interface adapter and a serial interface adapter, two interface lines of information exchange, two peripheral devices for communication with the object control mixtures, each of which contains a calculator module, modules of the start circuits, and power modules of the onboard equipment.

The device has:

- limited functionality that does not allow it to be used for the preparation and launch of missiles (anti-missiles, torpedoes, guided missiles, etc.), requiring precise time synchronization of the preparation and launch operations, including data input of the flight mission, with the work of the supporting systems, as well as the exact implementation of a certain time schedule (time reference: maternity, astronomical, relative, etc.) prelaunch preparation and launch;

- a low degree of security that does not allow it to be used for the preparation and launch of missiles (missiles, torpedoes, guided missiles, etc.) that require protection from unauthorized control actions (from supporting systems, the operator, environmental factors, forces and means enemy, emergency situations caused by equipment failures, etc.) by physically breaking the start circuit modules and power supply modules of the on-board equipment from the firing command and control information system from the r aket (anti-missile, guided missile torpedoes, etc.), as well as the implementation of special jacking operations, including the discharge of onboard power sources for missiles (anti-missile, guided missile torpedoes, etc.), in the event of a failed launch;

- insufficient reliability of operation and fault tolerance, which do not allow it to be used for the preparation and launch of missiles (anti-missiles, torpedoes, guided missiles, etc.), requiring the systematic conduct of autonomous, according to the operator’s commands, and complex, according to commands from the supporting systems, health checks the functioning (testing) of the firing command and control information system, including with imitation of missile preparation and launch operations (missile defense, guided missile torpedoes, etc.).

The closest prototype to the claimed technical solution is a device - firing command and control information system (IPC G06F 17/00, G06F 15/16, F41F 3/04, RF patent No. 2562774, publ. 07.20.2015).

This device contains an operator’s workstation equipped with two computer systems, two base stations of a single time system with remote antennas, two keyboards, two documentation devices and two monitors, peripheral communication subsystems according to the number of missiles, anti-missiles, torpedoes, guided missiles being prepared for launch, with their control devices, consisting of the main and backup control units, a motor drive of current disconnectors and performance checks, power supply devices consisting of the main and backup switching units, the primary and backup secondary power supply units, the primary and backup power supply units for igniting the squibs, the primary and backup discharge units, the primary and backup power supply units of the motor drive of current disconnectors, the main and backup power supply standby units, digital channels of information exchange in an amount corresponding to the number of peripheral sub Istemi connection or exceeding a multiple number of peripheral communication subsystems.

The device solves the problem of controlling the preparation and launch of missiles (anti-missiles, torpedoes, guided missiles, etc.) when automatically entering flight mission data from supporting systems, but its disadvantages are:

a) limited functionality that does not allow it to be used for the preparation and launch of missiles (missiles, torpedoes, guided missiles, etc.), requiring:

- organization of parallel time-synchronized operation of peripheral communication subsystems;

- receiving (changing, checking the correctness, etc.) flight task data, preparation and launch commands (launch prohibition), information about the launch time and signals to unlock protection against unauthorized launch from supporting systems during the duty and / or execution missile preparation and launch operations (anti-missiles, torpedoes, guided missiles, etc.);

- visual control by the operator and / or staff for the current time (maternity, astronomical, relative, etc.) and the state of the firing command and control information system;

- organization of the exchange of information between the operator’s workstation and peripheral communication subsystems in case of their remote relative position;

- enabling remote control of power supplies to peripheral communication subsystems;

- organization of the exchange of information between the operator of the firing command and control information system and the maintenance personnel of the supporting systems;

b) a low degree of security that does not allow it to be used for the preparation and launch of missiles (anti-missiles, torpedoes, guided missiles, etc.), requiring:

- the availability of means of protection against the unauthorized launch of missiles (anti-missiles, torpedoes, guided missiles, etc.) managed by supporting systems;

- visualization and signaling of information about the current state of the device (command-fire information-control system), the mating elements of the command-fire information-control system (for example, doors, hatches, security devices, microclimate support devices, etc.) and missiles ( missiles, torpedoes, guided missiles, etc.);

- providing the opportunity for the operator to abort the preparation and launch of missiles (missiles, torpedoes, guided missiles, etc.);

c) insufficient reliability of operation and fault tolerance, not allowing it to be used for the preparation and launch of missiles (anti-missiles, torpedoes, guided missiles, etc.), requiring:

- ensuring the synchronization of the work of computer systems from the automated workplace of the operator;

- Preventing interruptions in the supply of electricity to the constituent elements of the operator’s workstation and firing command and control information system;

- redundancy of means of providing the dialogue mode "operator-computer complex";

- ensuring the fault tolerance of the means of formation and long-term storage of the time scale synchronized with the scale of the State service of uniform time and reference frequencies;

- providing the possibility of identification and operational control of the technical condition of the device (command-fire information-control system), the mating elements of the command-fire information-control system (for example, doors, hatches, security devices, microclimate support devices, etc.) and missiles (missile defense, torpedoes, guided missiles, etc.) on the part of the supporting systems.

The technical task of the claimed invention is the creation of a device - command-firing information-control system - which allows you to expand the functionality, improve the safety, reliability and fault tolerance of combat information-control systems designed to control the preparation and launch of missiles (missiles, torpedoes, guided missiles, etc.) .P.).

The problem is solved as follows.

Option 1. The device is a firing command and control information system containing an operator's workstation equipped with two computer systems, two keyboards, two documenting devices, two monitors and two base stations of the same time system with external antennas, digital communication channels with peripheral communications subsystems in an amount of at least two times the number of missiles being prepared for launch (anti-missiles, torpedoes, guided by ards, etc.), peripheral communication subsystems in terms of the number of missiles being prepared for launch (anti-missiles, torpedoes, guided missiles, etc.), with control devices included in them, consisting of a functional check unit, main and backup automation units , and power supply devices, consisting of a motor drive of current disconnectors, the main and backup blocks of switching, the main and backup blocks of secondary power supplies, the main and backup blocks of the command for operation p shovels, main and backup discharge blocks, primary and backup power supplies of a motor drive of current disconnectors, primary and backup power supply units on duty, additionally, at least one digital inter-machine exchange channel is added to the operator’s workstation for each computer complex, one time binding module, a pair of digital channels of information exchange for connecting external centralized control devices (providing systems), one set of warning devices and one set of external communications devices, a set of light-sound signaling devices to each peripheral communication subsystem, and the computer systems from the operator’s workstation are interconnected by a digital inter-machine communication channel, to each computer complex from the automated operator’s workplace using digital-channels of information exchange connected keyboard, documentation device, monitor, the base station of a single time system with a remote antenna - through a time-binding module, centralized control devices (providing systems) - through a pair of digital information exchange channels for connecting external centralized control devices (supporting systems), a set of warning devices and the first groups of input and outputs of the main and duplicating automation units, as well as functioning verification units from the control devices of peripheral communication subsystems - through a set of external devices communications and digital channels of information exchange with peripheral communication subsystems, each control device from the peripheral communication subsystems through the second groups of outputs and third groups of inputs of the main and backup automation units is connected to the mating elements of the firing command and control information system (e.g. doors, hatches, protective devices, microclimate support devices, etc.), the fourth groups of outputs of the main and backup automation units - respectively, to the third groups of inputs odes of the main and backup switching units from the power supply device, the fifth group of outputs and sixth input groups of the main and backup automation units - respectively to the first and sixth groups of inputs and the second and fifth groups of outputs of the motor drive current isolators from the power supply device, the second group of outputs and the third group of inputs of the functional check unit - respectively to the third group of inputs and the fourth group of outputs of the motor drive of current disconnectors from the device power supply properties, each power supply device from the composition of peripheral communication subsystems through the inputs of the primary and backup units of secondary power supplies, the primary and backup units for commanding the igniters, the primary and backup power units of the motor drive of current disconnectors, the primary and backup units of standby power is connected to an external source power supply, the ninth group of outputs and the tenth group of inputs of the motor drive of current disconnectors - to the rocket ( rotivoreket, torpedo, guided missile, launch container, etc.), the eighth outputs of the main and backup switching units - to a set of light-sound signaling devices, in each power supply device from the peripheral communication subsystems, the outputs of the main and backup standby power units are connected to consumers electricity from the composition of power supply and control devices, the outputs of the main and backup power standby units are connected to consumers from the composition of power devices power and control, the outputs of the main and backup power supply units of the motor drive of current isolators, the main and backup power supply units for triggering the squibs, the main and backup power supply units of the secondary power supplies are connected respectively to the fourth inputs, the sixth and seventh groups of inputs of the main and backup switching units, fifth groups the outputs of which are connected to the inputs of the main and backup blocks of the discharge, the second groups of outputs to the eighth and twelfth groups of inputs of the motor ivoda tokorazediniteley, the first group of inputs and outputs of the second group - according to the seventh and eleventh groups, and outputs the eighth and the twelfth group includes motor drive tokorazediniteley.

Option 2. It is distinguished by the fact that two digital time displays are additionally introduced into the operator’s workstation, and a digital time board is connected to each base station of a single time system with a remote antenna.

Option 3. It differs in that an energy distribution cabinet with an uninterruptible power supply is additionally introduced, with the first group of inputs the energy distribution cabinet with an uninterruptible power supply connected to external power sources, and the second group of outputs to electricity consumers that are part of the operator’s automated workstation.

Option 4. It differs in that an energy distribution cabinet with an uninterruptible power supply is additionally introduced, with the first group of inputs the energy distribution cabinet with an uninterruptible power supply connected to external power sources, the second group of outputs to electricity consumers, which are part of the operator’s automated workstation, the third group of digital channels of information exchange through sets of external communications devices - to computer systems from an automated circuit ochego operator's seat.

Option 5. It differs in that an energy distribution cabinet with an uninterruptible power supply is additionally introduced, with the first group of inputs the energy distribution cabinet with uninterruptible power supply connected to external power sources, the second group of outputs to electricity consumers, which are part of the operator’s automated workstation, the third group of digital channels of information exchange - to computer systems from the operator’s workstation.

Option 6. It is characterized in that an energy distribution cabinet with an uninterruptible power supply is additionally introduced into the operator’s workstation, at least one signal converter, the first group of inputs, the energy distribution cabinet with uninterruptible power supply is connected to external power supplies, the second group outputs - to consumers of electricity, which are part of the operator's automated workplace, by the third group of inputs and outputs through a signal converter and samples of external communications devices using digital channels of information exchange - to computer systems from the operator’s workstation.

Option 7. It is characterized in that an energy distribution cabinet with an uninterruptible power supply is additionally introduced into the operator’s workstation, at least one signal converter, the first group of inputs, the energy distribution cabinet with uninterruptible power supply is connected to external power sources, the second group outputs - to electricity consumers, which are part of the operator’s automated workstation, by the third group of inputs and outputs through a signal converter with through digital channels of information exchange - to computer systems from the operator’s workstation.

Option 8. It is distinguished by the fact that two sets of public information display tools (digital displays, tablet computers, liquid crystal panels, etc.) are additionally introduced into the operator’s workstation, moreover, to each computer complex from the operator’s workstation using digital information exchange channels a set of public information display tools is connected (digital display, tablet computer, liquid crystal panel, etc.).

Option 9. It is distinguished by the fact that two sets of public information display tools (digital displays, tablet computers, liquid crystal panels, etc.) are additionally introduced into the operator’s workstation, and to each computer complex from the operator’s workstation using digital channels of information exchange through sets of external communication devices connected a set of means for displaying public information (digital display, tablet computer , The liquid crystal panel and the like).

Option 10. It is distinguished by the fact that two modules of serial channels are additionally introduced into the operator’s workstation, and the first groups of inputs and outputs of the main and duplicate automation units are connected to each computer complex from the operator’s automated workstation using digital information exchange channels, as well as function check blocks from the composition of control devices of peripheral communication subsystems - through the serial channel module, a set of external devices x communications and digital channels of information exchange with peripheral communication subsystems.

Option 11. It is distinguished by the fact that two exchange modules are additionally introduced into the operator’s automated workstation, and centralized control devices (supporting systems) are connected to each computer complex from the operator’s automated workstation using digital information exchange channels — through an exchange module and a pair of digital information exchange channels for connecting external centralized control devices (supporting systems).

Option 12. It is distinguished by the fact that two exchange modules are additionally introduced into the operator’s automated workstation, and centralized control devices (supporting systems) are connected to each computer complex from the operator’s automated workstation using digital information exchange channels — through the exchange module.

Option 13. It is distinguished by the fact that two exchange modules and two sets of public information display devices (digital displays, tablet computers, liquid crystal panels, etc.) are additionally introduced into the operator’s automated workstation, moreover, to each computer complex from an automated workstation operator’s places using digital channels of information exchange connected centralized control devices (supporting systems) - through the exchange module and a pair of digital channels of information exchange connection for connecting external centralized control devices (supporting systems), a set of public information display devices (digital display, tablet computer, LCD panel, etc.) - through the exchange module.

Option 14. It differs in that the operator’s workstation is equipped with two monitors with touch screens.

Option 15. It differs in that the operator’s workstation is equipped with two keyboards with a trackball.

Option 16. It is distinguished by the fact that two backup base stations of a single time system are additionally introduced into the operator’s workstation, and a base station of a single time system with a remote antenna and a backup are connected to each computer complex from the operator’s automated workstation using digital channels of information exchange base station of a single time system - through a time binding module.

Option 17. It is distinguished by the fact that both base stations of the same time system with remote antennas are connected to each computer complex from the operator’s automated workstation using digital channels of information exchange through a time-fixing module.

Option 18. It is distinguished by the fact that two backup base stations of a single time system are additionally introduced into the operator’s workstation, and both base stations of a single time system with remote antennas are connected to each computer complex from the operator’s automated workstation using digital channels of information exchange redundant base stations of a single time system - through a time binding module.

Option 19. It differs in that at least one device for emergency shutdown of peripheral communication subsystems is additionally introduced into the automated workstation of the operator, moreover, an emergency shutdown device of peripheral subsystems is connected to both computer complexes from the automated workstation of the operator using digital channels of information exchange communications - through sets of external communications devices.

Option 20. It is characterized in that at least one peripheral communication subsystem emergency shutdown device is additionally introduced into the operator’s workstation, moreover, a peripheral subsystem emergency shutdown device is connected to both computer complexes from the operator’s automated workstation using digital communication channels communication.

Option 21. It is characterized in that at least one peripheral communication subsystem emergency shutdown device and one signal converter are additionally introduced into the operator’s automated workstation, the outputs of the peripheral communication subsystem emergency shutdown device being connected to the inputs of the signal converter, to both computing complexes from the composition of the operator’s workstation using digital channels of information exchange through sets of external communications devices connected pre verters signals.

Option 22. It is characterized in that at least one peripheral communication subsystem emergency shutdown device and one signal converter are additionally introduced into the operator's automated workstation, the outputs of the peripheral communication subsystem emergency shutdown device being connected to the inputs of the signal converter, to both computing complexes from the composition of the operator's automated workstation using digital channels of information exchange connected signal converter.

Option 23. It is characterized in that at least one operator chair is additionally introduced into the operator's automated workstation.

Option 24. It is characterized in that a wired communication line with power means and an automated operator’s workstation, at least one power supply control unit are additionally introduced, and the power supply control unit is connected to emergency (backup) via wired communication lines with power supply power supplies from the composition of external centralized control devices (supporting systems) to both computer systems from the automated system In the operator’s working place, using the digital channels of information exchange through the sets of external communication devices, a power supply control unit is connected.

Option 25. It is characterized in that a wired communication line with power means and an automated operator’s workstation, at least one power supply control unit are additionally introduced, moreover, the power supply control unit is connected to emergency (backup) via wired communication lines with power supply power supplies from the composition of external centralized control devices (supporting systems) to both computer systems from the automated system In the operator’s place, using the digital channels of information exchange, a power supply control unit is connected.

Option 26. It is characterized in that wired communication lines with power supply are additionally introduced into the operator's automated workstation, at least one power supply control unit and one signal converter, wherein the power supply control unit is connected using wired communication lines with power supply emergency (backup) power supplies from external centralized control devices (supporting systems), the outputs of the control unit Power supplies are connected to the inputs of the signal converter, and a signal converter is connected to both computer complexes from the operator’s workstation using digital channels of information exchange through sets of external communication devices.

Option 27. It is characterized in that there are additionally introduced wired communication lines with power supplies, at least one power supply control unit and one signal converter, the power supply control unit being connected via wired communication lines to power supply facilities, to an operator's automated workstation emergency (backup) power supplies from external centralized control devices (supporting systems), the outputs of the control unit The power supply is connected to the inputs of the signal converter, and a signal converter is connected to both computer complexes from the operator’s workstation using digital channels of information exchange.

Option 28. It is distinguished by the fact that digital channels of information exchange with sets of technical means of protection in an amount at least corresponding to the number of missiles being prepared for launch (anti-missiles, torpedoes, guided missiles, etc.) are introduced into the operator’s workstation at least one additional computing complex and one additional set of external communications devices, a set of technical means of protection for each peripheral communication subsystem, moreover, a computer complex from the operator’s automated workstation using at least one digital information exchange channel is connected to centralized control devices (supporting systems), through an additional set of external communication devices using digital information exchange channels with sets of technical protection equipment, it is connected to sets technical protection equipment from the composition of peripheral communication subsystems, each power supply device from the composition of peripheral subsystems the connection is connected through some outputs from the ninth group of the motor drive outputs and a set tokorazediniteley technical protection to the rocket (interceptor missiles, torpedoes, guided missiles, launch canister, etc.).

Option 29. It is distinguished by the fact that digital channels of information exchange with sets of technical means of protection in an amount at least corresponding to the number of missiles being prepared for launch (anti-missiles, torpedoes, guided missiles, etc.) are introduced into the operator’s workstation at least one additional computing complex, one additional set of external communication devices and an exchange module with centralized control devices (supporting systems), at each A serial communication subsystem is a set of technical means of protection, and an additional computer complex is connected to the centralized control devices (providing systems) through an exchange module with centralized control devices (supporting systems) from the operator’s automated workstation using at least one digital information exchange channel through an additional set of external communication devices using digital channels of information exchange with the sets of technical means of protection is connected to sets of technical means of protection from the composition of peripheral communication subsystems, each power supply device from the composition of peripheral communication subsystems is connected through some outputs from the ninth group of outputs of the motor drive of current disconnectors and a set of technical means of protection to the rocket (anti-missile, torpedo, guided missile, launch container, etc.).

Option 30. It is characterized in that a set of technical means of protection is additionally introduced into each peripheral communication subsystem, and each set of technical means of protection from the composition of peripheral communication subsystems is connected via at least one control channel to centralized control devices (providing systems), each power device from the composition of the peripheral communication subsystems is connected through some outputs from the ninth group of outputs of the motor drive of current disconnectors and a set of technical means of protection for a missile (anti-missile, torpedo, guided missile, launch container, etc.).

Option 31. It is distinguished by the fact that a set of protective equipment is additionally introduced into each peripheral communication subsystem, and sets of protective equipment are connected to each computer complex from the operator’s automated workstation through sets of external communication devices and digital communication channels with peripheral communication subsystems the composition of peripheral communication subsystems, each power supply device from the composition of peripheral communication subsystems is connected through some Outputs from the ninth group of the motor drive outputs and a set tokorazediniteley technical protection to the rocket (interceptor missiles, torpedoes, guided missiles, launch canister, etc.).

Option 32. It is distinguished by the fact that channel amplification devices are additionally introduced into digital channels of information exchange with peripheral communication subsystems, in the amount necessary to ensure continuous and stable communication between computer systems from the operator’s workstation and function check blocks, main and duplicate blocks automation from the control devices of the peripheral communication subsystems, and to each computer complex from the automation The operator’s workstation is connected through sets of external communication devices and digital channels of information exchange with peripheral communication subsystems with channel amplification devices, the first groups of inputs and outputs of the main and duplicate automation units, as well as functional check units from the control devices of the peripheral communication subsystems.

Option 33. It is characterized in that the main and duplicate automation units from the control devices of the peripheral communication subsystems are connected to missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) by the seventh groups of inputs and outputs.

Option 34. It is characterized in that the main and duplicate automation units from the control devices of the peripheral communication subsystems with the eighth outputs connected to the second inputs of the main and duplicate blocks of the secondary power sources, the main and duplicate blocks of the command for triggering the igniter, the main and duplicate power supplies of the motor drives current disconnectors from the composition of power supply devices of peripheral communication subsystems, each power supply device from the composition of peripheral communication subsystems ithout first inputs of the main and backup secondary power source units, primary and backup units supplying commands to actuate squib, primary and backup power supplies motor drive tokorazediniteley connected to an external power source.

Option 35. It is characterized in that the inputs and outputs of the main and duplicate blocks of secondary power supplies, the main and duplicate blocks for commanding the igniter, the main and backup power supplies of the motor drives of the current disconnectors are connected to the seventh, sixth and fourth inputs and outputs of the main and duplicate switching units from the power supply devices of peripheral communication subsystems.

Option 36. It is characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, and each power supply device from the peripheral communication subsystems through the inputs of the primary and backup units of the secondary power supplies, the primary and backup units of the command for triggering the igniter, the main and backup power supply units of the motor drive of current disconnectors, the main and backup power supply standby units are connected to the voltage switching unit, cat which, in turn, is connected to an external power source.

Option 37. It is characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, and each power supply device from the peripheral communication subsystems through the inputs of the primary and backup units of the secondary power supplies, the primary and backup units of the command for triggering the igniter, the primary and backup power supply units of the motor drive of current disconnectors is connected to the voltage switching unit, which, in turn, is connected to an external source of electric power Ania.

Option 38. It is characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, and each computer complex from the operator’s automated workstation is connected via sets of external communication devices and digital information exchange channels with peripheral communication subsystems using digital communication channels voltage switching units from the composition of the peripheral communication subsystems, the first groups of inputs and outputs of the main and redundant automation units and, as well as functioning verification units from the composition of control devices of peripheral communication subsystems, each power supply device from the composition of peripheral communication subsystems through the inputs of the main and backup blocks of secondary power supplies, the main and backup blocks of command issuing for the operation of the squibs, the main and backup power supplies of the motor drive current disconnectors, main and backup standby power supply units are connected to a voltage switching unit, which, in turn, to an external power source.

Option 39. It is characterized by the fact that a voltage switching unit is additionally introduced into each peripheral communication subsystem, and each computer complex from the operator’s automated workstation is connected via sets of external communication devices and digital information exchange channels with peripheral communication subsystems using digital communication channels voltage switching units from the composition of the peripheral communication subsystems, the first groups of inputs and outputs of the main and redundant automation units and, as well as functioning verification units from the composition of control devices of peripheral communication subsystems, each power supply device from the composition of peripheral communication subsystems through the inputs of the main and backup blocks of secondary power supplies, the main and backup blocks of command issuing for the operation of the squibs, the main and backup power supplies of the motor drive current disconnectors are connected to a voltage switching unit, which, in turn, is connected to an external power source.

Option 40. It is characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, the main and duplicating automation units from the control devices of the peripheral communication subsystems having ninth outputs connected to the inputs of the voltage switching blocks, each power supply device from the composition of the peripheral communication subsystems through the inputs the main and backup blocks of secondary power supplies, the main and backup blocks of the command for triggering the squibs, the main and double The power supply unit of the motor drive of the current disconnectors is connected to a voltage switching unit, which, in turn, is connected to an external power source.

Option 41. It is characterized in that an automatic check device is additionally introduced into each peripheral communication subsystem, and ninth output groups and tenth input groups of each motor drive of current disconnectors from the power supply devices of the peripheral communication subsystems are connected to the automatic check device.

Option 42. It is characterized in that an automatic verification device is additionally introduced into each peripheral communication subsystem, and each control device from the peripheral communication subsystems is connected to the automatic verification device through the second output groups and the third input groups of the main and backup automation units, the ninth output groups and tenth groups of inputs of each motor drive of current disconnectors from the composition of the power supply devices of the peripheral communication subsystems are connected to the device a check-automatic.

Option 43. It is characterized in that an automatic checking device is additionally introduced into each peripheral communication subsystem, and digital channels of information exchange with peripheral communication subsystems are disconnected from the first input-output groups of the main and duplicate automation units, as well as functioning verification units from the composition of peripheral control devices communication subsystems, the first groups of inputs and outputs of the main and duplicating automation units, as well as function check units from the control devices The peripheral communication subsystems are connected to automatic verification devices.

Option 44. It is characterized in that an automatic checking device is additionally introduced into each peripheral communication subsystem, and digital channels of information exchange with peripheral communication subsystems are disconnected from the first input-output groups of the main and duplicate automation units, as well as functioning verification units from the composition of peripheral control devices communication subsystems, to the first computing complex from the operator’s workstation using digital channels of information exchange the automatic verification devices from the peripheral communication subsystems are connected - through the first set of external communication devices and digital communication channels with the peripheral communication subsystems, the automatic verification devices from the peripheral communication devices are connected to the second computer complex from the operator’s automated workstation using digital information exchange channels communication subsystems - through the second set of external communication devices and digital channels of information exchange with peripheral communication subsystems.

Option 45. It is characterized in that multichannel radiotelephone exchange tools are additionally introduced into the operator’s automated workstation, radiotelephone exchange means are introduced into each peripheral communication subsystem, moreover, the multichannel radiotelephone exchange means from the operator’s automated workstation are connected to centralized control devices (providing systems) and means radiotelephone exchange from the composition of peripheral communication subsystems.

Option 46. It is characterized in that a set of video surveillance tools is additionally introduced into the operator’s automated workstation, video surveillance tools are installed in each peripheral communication subsystem, the video surveillance software set from the operator’s workstation is connected to video surveillance tools from the peripheral communication subsystems and supporting systems .

The set of distinctive features of the claimed invention ensures the implementation of the technical task.

From the studied scientific, technical and patent information, the authors do not know the device with the distinguishing features indicated in the claims, this gives reason to conclude that the claimed object meets the criteria of the invention.

The claimed invention is illustrated by drawings, where:

- FIG. 1 is a functional diagram of embodiment 1 of the claimed invention;

- FIG. 2 is a functional diagram of option 2 of the claimed invention;

- FIG. 3 is a functional diagram of a variant 3 of the claimed invention;

- FIG. 4 is a functional diagram of embodiment 4 of the claimed invention;

- FIG. 5 is a functional diagram of an embodiment 5 of the claimed invention;

- FIG. 6 is a functional diagram of an embodiment 6 of the claimed invention;

- FIG. 7 is a functional diagram of an embodiment 7 of the claimed invention;

- FIG. 8 is a functional diagram of embodiment 8 of the claimed invention;

- FIG. 9 is a functional diagram of a variant 9 of the claimed invention;

- FIG. 10 is a functional diagram of a variant 10 of the claimed invention;

- FIG. 11 is a functional diagram of a variant 11 of the claimed invention;

- FIG. 12 is a functional diagram of an embodiment 12 of the claimed invention;

- FIG. 13 is a functional diagram of a variant 13 of the claimed invention;

- FIG. 14 is a functional diagram of an embodiment 14 of the claimed invention;

- FIG. 15 is a functional diagram of an embodiment 15 of the claimed invention;

- FIG. 16 is a functional diagram of an embodiment 16 of the claimed invention;

- FIG. 17 is a functional diagram of a variant 17 of the claimed invention;

- FIG. 18 is a functional diagram of an embodiment 18 of the claimed invention;

- FIG. 19 is a functional diagram of an embodiment 19 of the claimed invention;

- FIG. 20 is a functional diagram of an embodiment 20 of the claimed invention;

- FIG. 21 is a functional diagram of an embodiment 21 of the claimed invention;

- FIG. 22 is a functional diagram of an embodiment 22 of the claimed invention;

- FIG. 23 is a functional diagram of a variant 23 of the claimed invention;

- FIG. 24 is a functional diagram of an embodiment 24 of the claimed invention;

- FIG. 25 is a functional diagram of an embodiment 25 of the claimed invention;

- FIG. 26 is a functional diagram of an embodiment 26 of the claimed invention;

- FIG. 27 is a functional diagram of an embodiment 27 of the claimed invention;

- FIG. 28 is a functional diagram of an embodiment 28 of the claimed invention;

- FIG. 29 is a functional diagram of an embodiment 29 of the claimed invention;

- FIG. 30 is a functional diagram of an embodiment 30 of the claimed invention;

- FIG. 31 is a functional diagram of an embodiment 31 of the claimed invention;

- FIG. 32 is a functional diagram of an embodiment 32 of the claimed invention;

- FIG. 33 is a functional diagram of an embodiment 33 of the claimed invention;

- FIG. 34 is a functional diagram of an embodiment 34 of the claimed invention;

- FIG. 35 is a functional diagram of an embodiment 35 of the claimed invention;

- FIG. 36 is a functional diagram of an embodiment 36 of the claimed invention;

- FIG. 37 is a functional diagram of an embodiment 37 of the claimed invention;

- FIG. 38 is a functional diagram of a variant 38 of the claimed invention;

- FIG. 39 is a functional diagram of an embodiment 39 of the claimed invention;

- FIG. 40 is a functional diagram of an embodiment 40 of the claimed invention;

- FIG. 41 is a functional diagram of an embodiment 41 of the claimed invention;

- FIG. 42 is a functional diagram of an embodiment 42 of the claimed invention;

- FIG. 43 is a functional diagram of an embodiment 43 of the claimed invention;

- FIG. 44 is a functional diagram of an embodiment 44 of the claimed invention;

- FIG. 45 is a functional diagram of an embodiment 45 of the claimed invention;

- FIG. 46 is a functional diagram of an embodiment 46 of the claimed invention.

Option 1. The device - firing command and control information system - contains an operator’s workstation 1 equipped with access restriction means 2, the first 3 and second 4 computing complexes, a digital inter-machine exchange channel 5, the first 6 and second 7 keyboards, the first 8 and second 9 documentation devices, first 10 and second 11 monitors, first 12 and second 13 time reference modules, first 14 and second 15 base stations of the time system with remote antennas, first 16 and second 17 pairs of digits ovyh traffic channels for external centralized management device (support systems), the first 18 and second 19 sets of notification means, first 20 and second 21 sets of external device connections 2 and digital traffic channels due to the peripheral subsystems 22 _1-1 ÷ 22 _1-n 22 _2-1 ÷ 22 _2-n , "identical peripheral communication subsystems 23 ₁ ÷ 23 _n , with their included sets of light-sound signaling devices 24, control devices 25, consisting of a functional check unit 26, the basics 27 and duplicating 28 automation units, and power supply devices 29, consisting of a motor drive of current disconnectors 30, the main 31 and backup 32 switching units, the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of commands for triggering the igniter, the main 37 and the backup 38 of the discharge blocks, the main 39 and the backup 40 of the power supplies of the motor drive of the current disconnectors, the main 41 and the backup of 42 units of the standby power supply.

In this case, the first 3 and second 4 computing complexes from the automated workstation of operator 1 are interconnected by a digital inter-machine exchange channel 5, the first keyboard 6, the first device are connected to the first computing complex 3 from the automated workstation of operator 1 using digital channels of information exchange documentation 8, the first monitor 10, the first base station of the system of a single time with a remote antenna 14 - through the first time reference module 12, the device is centralized go control (providing systems) - through the first pair of digital channels of information exchange for connecting external centralized control devices (providing systems) 16, the first set of warning equipment 18 and the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as functional check units 26 from the peripheral subsystem 25 controls communication January ₂₃ ÷ 23 _n - via a first set of external communication device 20 and the digital traffic channels of peripheral subsystems with ides _1-1 ÷ 22 22 _1-n, to the second computer complex 4 from the workstation 1 by the operator of digital traffic channels connected to the second keyboard 7, the second document unit 9, the second monitor 11, the second base station system with a single time remote antenna 15 - through the second module of the time binding 13, centralized control devices (supporting systems) - through the second pair of digital channels of information exchange for connecting external devices of centralized control communications (of supporting systems) 17, the second set of warning devices 19 and the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as function checking units 26 from the control devices 25 of the peripheral communication subsystems 23 ₁ ÷ 23 _n - through the second set of devices external communications 21 and digital communication channels with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n , each control device 25 of the peripheral communication subsystems 23 ₁ ÷ 23 _n through the second groups of outputs and third groups of inputs of the main 27 and the backup 28 automation units are connected to the mating elements of the firing command and control information system (for example, doors, hatches, security devices, microclimate support devices, etc.) 43 _i , the fourth output group of the main 27 and the backup 28 automation units - respectively to the third groups of inputs of the main 31 and the backup 32 switching units from the power supply 29, the fifth group of outputs and the sixth groups of inputs of the main 27 and the backup 28 automation units - respectively, to the first and a clean group of inputs and the second and fifth groups of outputs of the motor drive of the current disconnectors 30 from the power supply device 29, the second group of outputs and the third group of inputs of the functional testing unit 26 to the third group of inputs and the fourth group of outputs of the motor drive current disconnector 30 from the power supply device 29, each power supply device 29 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n through the inputs of the main 33 and duplicating 34 blocks of secondary power sources, the main 35 and a backup 36 power supply units for triggering the igniter, the main 39 and 40 backup power supplies of the motor drive of the current disconnectors, the main 41 and 42 backup power supply units on the standby are connected to an external power supply 44 _i , the ninth group of outputs and the tenth group of inputs of the motor drive of the current disconnectors 30 - to the rocket (interceptor missiles, torpedoes, guided missiles, launch canister, etc.) 45 _i, the eighth primary outputs 31 and 32 of the backup switching units - to a set of light units ƃ signal 24, 29 from the connection of peripheral subsystems in each device power January ₂₃ ÷ 23 _n outputs the primary 41 and backup 42 duty power supplies connected to the consumers of electricity from the power supply device 29 and control 25, the outputs of the primary 39 and backup 40 power motor units the drive of current disconnectors, the main 35 and the backup 36 units for commanding the igniter, the main 33 and the backup 34 units of the secondary power sources are connected respectively to the fourth inputs, the sixth and seventh groups of inputs of the main 31 and the backup 32 switching units, the fifth groups of outputs are connected to the inputs of the main 37 and the backup 38 discharge units, the first groups of inputs and the second groups of outputs, respectively, to the seventh and eleventh groups of outputs and the eighth and twelfth groups of inputs of the motor drive of current disconnectors 30.

Option 2. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with a first 46 and a second 47 digital time display.

In this case, in contrast to option 1, the first digital time board 46 is connected to the first base station of the single time system with a remote antenna 14, and the second digital time panel 47 is attached to the second base station of a single time system with a remote antenna 15.

Option 3. It differs from option 1 in that the device further comprises an energy distribution cabinet with an uninterruptible power supply 48.

At the same time, in contrast to option 1, the first group of inputs, the energy distribution cabinet with uninterruptible power supply 48 is connected to external power sources 49, the second group of outputs to electricity consumers, which are part of the operator’s automated workstation 1.

Option 4. It differs from option 1 in that the device further comprises an energy distribution cabinet with an uninterruptible power supply 48.

In this case, in contrast to option 1, the first group of inputs, the energy distribution cabinet with uninterruptible power supply 48 is connected to external power sources 49, the second group of outputs - to electricity consumers, which are part of the operator’s workstation 1, and the third group of digital information exchange channels through the first set of external communications devices 20 to the computer complex 3 and through the second set of external communications devices 21 to the computer complex 4 from the automated about the operator’s workplace 1.

Option 5. It differs from option 1 in that the device further comprises an energy distribution cabinet with an uninterruptible power supply 48.

In this case, in contrast to option 1, the first group of inputs, the energy distribution cabinet with uninterruptible power supply 48 is connected to external power sources 49, the second group of outputs - to electricity consumers, which are part of the operator’s workstation 1, and the third group of digital information exchange channels - to computer complex 3 and computer complex 4 from the workstation of operator 1.

Option 6. It differs from option 1 in that the device further comprises an energy distribution cabinet with uninterruptible power supply 48 and a signal converter 50 as part of the operator's automated workstation 1.

At the same time, in contrast to option 1, the first group of inputs, the energy distribution cabinet with uninterruptible power supply 48 is connected to external power sources 49, the second group of outputs to electric consumers, which are part of the operator’s workstation 1, and the third group of inputs and outputs through signal converter 50 and the first set of external communication devices 20 using digital channels of information exchange - to the computer complex 3, through the second set of external communication devices 21 using ü digital channels of information exchange - to the computer complex 4 from the composition of the automated workplace of the operator 1.

Option 7. It differs from option 1 in that the device further comprises an energy distribution cabinet with uninterruptible power supply 48 and a signal converter 50 as part of the operator's automated workstation 1.

At the same time, in contrast to option 1, the first group of inputs, the energy distribution cabinet with uninterruptible power supply 48 is connected to external power sources 49, the second group of outputs to electric consumers, which are part of the operator’s workstation 1, and the third group of inputs and outputs through signal converter 50 using digital channels of information exchange to the computer complex 3 and computer complex 4 from the automated workstation of the operator 1.

Option 8. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with first 51 and second 52 sets of public information display facilities.

In this case, in contrast to option 1, the first computer complex 3 from the automated workstation of operator 1 is connected via the digital channel of information exchange to the first set of public information display tools 51, to the second computer complex 4 from the automated workplace of the operator 1 s using a digital information exchange channel, a second set of public information display means 52 is connected.

Option 9. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with the first 51 and second 52 sets of means for displaying public information.

In this case, in contrast to option 1, the first set of public information display devices 51 is connected to the first computer complex 3 from the automated workstation of operator 1 using a digital information exchange channel through the first set of external communication devices 20, to the second computer complex 4 of the composition of the operator’s automated workstation 1 using a digital channel of information exchange through the second set of external communications devices 21 connected to the second set of tools about Display of public information 52.

Option 10. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with first 53 and second 54 modules of serial channels.

At the same time, in contrast to option 1, the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as function checking units 26 from the device structure, are connected to the first computer complex 3 from the automated workstation of operator 1 using digital channels of information exchange peripheral control 25 communication subsystems January ₂₃ ÷ 23 _n - via a first module successive channels 53, the first set of external communication device 20 and the digital traffic channels with the peripheral subsystem and communication _1-1 ÷ 22 22 _1-n, to the second computer complex 4 from the workstation 1 by the operator of digital traffic channels connected to the first group of inputs-outputs 27 and core redundant automation units 28 and 26 check the functioning blocks from the control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n through the second module of serial channels 54, the second set of external communication devices 21 and digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n .

Option 11. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with first 55 and second 56 exchange modules.

In this case, in contrast to option 1, to the first computer complex 3 from the automated workstation of operator 1 using digital information exchange channels through the first exchange module 55 and the first pair of digital information exchange channels for connecting external centralized control devices (supporting systems) 16 centralized control devices (supporting systems) are connected, to the second computer complex 4 of the automated workstation of operator 1 using digital of the channels of information exchange through the second exchange module 56 and the second pair of digital channels of information exchange for connecting external centralized control devices (supporting systems) 17, centralized control devices (supporting systems) are connected.

Option 12. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with first 55 and second 56 exchange modules.

At the same time, in contrast to option 1, centralized control devices (supporting systems) 57 are connected to the first computer complex 3 from the automated workstation of operator 1 using digital information exchange channels through the first exchange module 55, and to the second computer complex 4 from the automated operator’s workstation 1 using digital channels of information exchange through the second exchange module 56 connected centralized control devices (providing systems ) 57.

Option 13. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with first 51 and second 52 sets of public information display means, first 55 and second 56 exchange modules.

In this case, in contrast to option 1, the centralized control devices (providing systems) 57 and the first set of public information display facilities 51 are connected to the first computing complex 3 from the operator’s automated workstation 1 using digital information exchange channels 55 through the first exchange module 55 , to the second computing complex 4 from the automated workstation of operator 1 using digital channels of information exchange through the second exchange module 56 cheny centralized control unit (providing system) 57 and a second set of display 52 common information.

Option 14. It differs from option 1 in that the device contains an automated workstation of an operator 1 equipped with a first monitor 10 with a touch screen 58 and a second monitor 11 with a touch screen 59.

In this case, in contrast to option 1, the first monitor 10 with a touch screen 58 is connected to the first computer complex 3 from the automated workstation of operator 1 using a digital information exchange channel, and to the second computer complex 4 from the automated workplace of operator 1 using digital channel information exchange connected to a second monitor 11 with a touch screen 59.

Option 15. It differs from option 1 in that the device comprises an operator’s workstation 1 equipped with a first keyboard 6 with trackball 60 and a second keyboard 7 with trackball 61.

In this case, in contrast to option 1, the first keyboard 6 with a trackball 60 is connected to the first computer complex 3 from the automated workstation of operator 1 using a digital information exchange channel, and the second computer complex 4 from the automated workstation of operator 1 using a digital information exchange channel is connected to the second keyboard 7 with trackball 61.

Option 16. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with the first 62 and second 63 backup base stations of the single time system.

In this case, in contrast to option 1, the first base station of the single time system with a remote antenna 14 with the first standby connected to it is connected to the first computing complex 3 from the automated workstation of operator 1 using digital channels of information exchange through the first time reference module 12 the base station of the single time system 62, to the second computing complex 4 from the automated workplace of the operator 1 using digital channels of information exchange through the second th module 13 is connected binding time the second base station is a single-time system with a remote antenna 15 connected thereto the second base station backup uniform time system 63.

Option 17. In contrast to option 1, the first 14 and second 15 base stations of the single time system with remote antennas are connected to the second one to the first computer complex 3 of the automated workstation of operator 1 using digital data exchange channels 12 computing complex 4 of the automated workstation of operator 1 using digital channels of information exchange through the second module 13 time connection connected the first 14 and second 15 base stations Nation of a single time system with remote antennas.

Option 18. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with the first 62 and second 63 backup base stations of the single time system.

At the same time, in contrast to option 1, the first 14 and second 15 base stations of the single-time system with remote antennas connected to the first computer complex 3 from the automated workstation of operator 1 are connected via the first data-binding module 12 through the first time reference module 12 respectively the first 62 and second 63 reserve base stations of the single time system, to the second computing complex 4 from the automated workstation of operator 1 using digital the channels of information exchange through the second time-fixing module 13 are connected to the first 14 and second 15 base stations of the single time system with external antennas connected to them, respectively, the first 62 and second 63 backup base stations of the single time system.

Option 19. It differs from option 1 in that the device contains an automated workstation for operator 1, additionally equipped with an emergency shutdown device for peripheral communication subsystems 64.

In this case, in contrast to option 1, an emergency shutdown device for peripheral communication subsystems 64 is connected to the first computing complex 3 from the automated workstation of operator 1 through digital channels of information exchange through the first set of external communication devices 20, and to the second computing complex 4 from the composition emergency workstation of operator 1 using digital channels of information exchange through the second set of external communications devices 21 connected emergency emergency device Communication peripheral subsystems 64.

Option 20. It differs from option 1 in that the device contains an automated workstation for operator 1, additionally equipped with an emergency shutdown device for peripheral communication subsystems 64.

At the same time, in contrast to option 1, an emergency shutdown device for peripheral communication subsystems 64 is connected to the first computer complex 3 from the workstation of operator 1 using a digital information exchange channel, and to the second computer complex 4 from the workstation of operator 1 using digital channel information exchange connected device emergency shutdown of peripheral communication subsystems 64.

Option 21. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with an emergency shutdown device for peripheral communication subsystems 64 and a signal converter 65.

At the same time, in contrast to option 1, the outputs of the emergency shutdown device of the peripheral communication subsystems 64 are connected to the inputs of the signal converter 65, to the first computer complex 3 of the automated workstation of the operator 1 using digital channels of information exchange through the first set of external communication devices 20 signal converter 65, to the second computing complex 4 from the automated workplace of the operator 1 using digital channels of information exchange through a second set of external communications devices 21 connected to the signal Converter 65.

Option 22. It differs from option 1 in that the device contains an automated workstation for operator 1, additionally equipped with an emergency shutdown device for peripheral communication subsystems 64 and a signal converter 65.

At the same time, in contrast to option 1, the outputs of the emergency shutdown device of the peripheral communication subsystems 64 are connected to the inputs of the signal converter 65, the signal converter 65 is connected to the first computing complex 3 from the operator’s automated workstation 1 using a digital information exchange channel, and the second computing complex 4 of the automated workstation of operator 1 using a digital channel of information exchange connected signal converter 65.

Option 23. It differs from option 1 in that the automated workstation of operator 1 is equipped with at least one operator seat 82.

Option 24. It differs from option 1 in that the device comprises wired communication lines with power supplies 66 and an automated workstation of operator 1, additionally equipped with a power control unit 67.

In this case, in contrast to option 1, the power supply control unit 67 is connected via wired communication lines with power supply 66 to emergency (standby) power supply from external centralized control devices (providing systems), to the first computer complex 3 of the automated operator’s workstation 1 using digital channels of information exchange through the first set of external communications devices 20 connected to the control unit of power supply 67, to the To the computer complex 4 of the automated workstation of the operator 1, using the digital channels of information exchange through the second set of external communications devices 21, the power supply control unit 67 is connected.

Option 25. It differs from option 1 in that the device comprises wired communication lines with power supplies 66 and an operator workstation 1, additionally equipped with a power control unit 67.

In this case, in contrast to option 1, the power supply control unit 67 is connected via wired communication lines with power supply 66 to emergency (standby) power supply from external centralized control devices (providing systems), to the first computer complex 3 of the automated the operator’s workstation 1 using digital channels of information exchange connected to the control unit of power supply 67, to the second computer complex 4 of the structure of the automated workstation of the operator 1 using the digital channels of information exchange connected to the control unit of power supply 67.

Option 26. It differs from option 1 in that the device comprises wired communication lines with power supplies 66, an operator workstation 1, additionally equipped with a power supply control unit 67 and a signal converter 68.

In this case, in contrast to option 1, the power supply control unit 67 is connected via wired communication lines with power supply 66 to emergency (standby) power supply from external centralized control devices (providing systems), the outputs of the power supply control unit 67 are connected to the inputs of the signal converter 68, to the first computing complex 3 from the automated workplace of the operator 1 using digital channels of information exchange through ne vy set of external communication device 20 connected to the signal converter 68, to the second computer complex 4 from the workstation 1 by the operator of digital traffic channels via the second set of external communication device 21 connected to the signal converter 68.

Option 27. It differs from option 1 in that the device comprises wired communication lines with power supplies 66, an operator workstation 1, additionally equipped with a power supply control unit 67 and a signal converter 68.

In this case, in contrast to option 1, the power supply control unit 67 is connected via wired communication lines with power supply 66 to emergency (standby) power supply from external centralized control devices (providing systems), the outputs of the power supply control unit 67 are connected to the inputs of the signal converter 68, to the first computing complex 3 of the automated workplace of the operator 1 using a digital channel for information exchange signal converter 68, a signal converter 68 is connected to the second computing complex 4 from the automated workstation of operator 1 using a digital information exchange channel.

Option 28. It differs from option 1 in that the device contains digital channels of information exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n , an automated workstation of operator 1, additionally equipped with a third computer complex 70 and a third set of external communication devices 71 , in each peripheral communication subsystem 23 ₁ ÷ 23 _{n a} set of technical means of protection 72.

In this case, in contrast to option 1, the third computer complex 70 from the automated workstation of operator 1 using digital information exchange channels 73 is connected to centralized control devices (providing systems), through a third set of external communication devices 71 using digital information exchange channels with sets of means protection _3-1 ÷ 69 69 _3-n is connected to a set of technical protection means 72 from the peripheral communication subsystem ₂₃ January ÷ 23 _n, each device Electrofeeding I 29 from the peripheral communication subsystem ₂₃ January ÷ 23 _n connected through some outputs from the ninth group of the motor drive outputs tokorazediniteley 30 and a set of means 72 to protect the missile (interceptor missiles, torpedoes, guided missiles, launch canister, etc.) 45 ,.

The set of external communication devices 71 functionally corresponds to the first 20 and second 21 sets of external communication devices.

Option 29. It differs from option 1 in that the device contains digital channels of information exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n , an automated workstation of operator 1, additionally equipped with a third computer complex 70, a third set of external communications devices 71 and an exchange module with centralized control devices (providing systems) 74, in each peripheral communication subsystem 23 ₁ ÷ 23 _{n a} set of technical means of protection 72.

In this case, in contrast to option 1, the third computer complex 70 is connected to the centralized control devices (providing systems) through an exchange module with centralized control devices (providing systems) 74 from the operator’s automated workstation 1 using digital information exchange channels 73 a third set of external communication device 71 via digital traffic channels with sets of means protection _3-1 ÷ 69 69 _3-n is connected to a set of technical COROLLARY protection 72 from the peripheral subsystems communication January ₂₃ ÷ 23 _n, each power supply device 29 from the peripheral subsystems communication January ₂₃ ÷ 23 _n connected through some outputs from the ninth group of the motor drive outputs tokorazediniteley 30 and a set of technical protection 72 to the rocket ( anti-missile, torpedo, guided missile, launch container, etc.) 45 _i .

The set of external communication devices 71 functionally corresponds to the first 20 and second 21 sets of external communication devices.

Option 30. It differs from option 1 in that the device contains in each peripheral communication subsystem 23 ₁ ÷ 23 _{n a} set of technical means of protection 72.

At the same time, in contrast to option 1, each set of protective equipment 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _{n is} connected via a control channel 73 to centralized control devices (providing systems), each power supply device 29 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n connected through some outputs from the ninth group of the motor drive outputs tokorazediniteley 30 and a set of means 72 to protect the missile (interceptor missiles, torpedoes, guided missiles, trigger con eyneru etc.) 45 _i.

Option 31. It differs from option 1 in that the device contains in each peripheral communication subsystem 23 ₁ ÷ 23 _{n a} set of technical means of protection 72.

In this case, in contrast to option 1, the first computer complex 3 of the automated workstation of operator 1 is connected via digital channels of information exchange 20 through the first set of external communication devices 20 and digital communication channels with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n sets of technical protection equipment 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n , the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as functional verification units 26 of the composition and control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n , to the second computing complex 4 of the automated workstation of operator 1 using digital channels of information exchange are connected via a second set of external communication devices 21 and digital communication channels with peripheral communication subsystems 22 _{2 -1} ÷ February _22-n sets of technical protection 72 from the peripheral communication subsystem ₂₃ January ÷ 23 _n, the first group of inputs-outputs 27 and core redundant automation unit 28 and the verification unit operation 26 from the 25 peripheral subsystems controls communication January ₂₃ ÷ 23 _n, each power supply device 29 from the peripheral subsystems communication January ₂₃ ÷ 23 _n connected through some outputs from the ninth group of the motor drive outputs tokorazediniteley 30 and a set of technical means of 72 to missile (anti-missile, torpedo, guided missile, launch container, etc.) 45 _i .

Option 32. It differs from option 1 in that the device comprises, as part of the digital channels of information exchange with peripheral communication subsystems, 22 _2-1 ÷ 22 _2-n channel amplification devices 75.

In this case, in contrast to option 1, the first computer complex 3 of the automated workstation of operator 1 is connected via digital channels of information exchange 20 through the first set of external communication devices 20 and digital communication channels with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n devices 75 channel gain first group of inputs-outputs 27 and core redundant automation unit 28 and the operation check block 26 from the peripheral subsystem 25 controls with ides ₁ ÷ 23 23 _n, to the second computer complex 4 from the workstation operator 1 by using the digital traffic channels are connected through the second set of devices external connections 21 and digital traffic channels due to the peripheral subsystems 22 _2-1 ÷ 22 _{2- n} with channel amplification devices 75 first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as functional check units 26 of the control devices 25 of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Channel amplification devices 75 maintain the required level of electrical signals in digital channels of information exchange with peripheral communication subsystems. The constituent elements of channel amplification devices 75 are included in the breaks in digital channels of information exchange with peripheral communication subsystems, the number of elements in each channel depends on the distance between the operator’s workstation 1 and the corresponding peripheral communication subsystem.

33. Embodiment differs from Embodiment 1 in that the core 27 and the redundant blocks 28 from the automatic communication control units 25 of peripheral subsystems 23 ₁ 23 _n ÷ seventh group of inputs-outputs are connected to the missile (interceptor missiles, torpedoes, guided missiles, launch canisters and t .p.) 45 ₁ ÷ 45 _n .

Option 34. It differs from option 1 in that the main 27 and duplicating 28 automation units from the control device 25 of the peripheral communication subsystems 23 ₁ ÷ 23 _{n with} eighth outputs are connected to the second inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and backup 36 power supply units for triggering the igniter, the main 39 and 40 backup power supplies of motor drives of current disconnectors from the power supply devices 29 peripheral communication subsystems 23 ₁ ÷ 23 _n , each power supply 29 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n through the first inputs of the main 33 and the backup 36 units of secondary power supplies, the main 35 and 36 backup units for commanding the igniter, the main 39 and 40 backup power supply units of the motor drive of the current disconnectors are connected to an external power source 44 _i .

Option 35. Differs from option 1 in that the inputs and outputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the squibs, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors are connected respectively to the seventh, the sixth and fourth inputs and outputs of the main 31 and duplicating 32 switching units from the power supply devices of 29 peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 36. It differs from option 1 in that the device contains a voltage switching unit 76 in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

At the same time, in contrast to option 1, each power supply device 29 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n through the inputs of the main 33 and the backup 36 units of the secondary power sources, the main 35 and the backup 36 units of the command for the operation of the igniter, the main 39 and the backup 40 power supply units of the motor drive of current isolators, the main 41 and the backup 42 power supply standby units are connected to a voltage switching unit 76, which, in turn, is connected to an external power supply 44 _i .

Option 37. It differs from option 1 in that the device comprises a voltage switching unit 76 in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

In this case, in contrast to option 1, each power supply device 29 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n through the inputs of the main 33 and the backup 36 units of the secondary power sources, the main 35 and the backup 36 units of the command for the operation of the igniter, the main 39 the backup 40 power supply units of the motor drive of the current disconnectors is connected to the voltage switching unit 76, which, in turn, is connected to an external power supply 44 _i .

Option 38. It differs from option 1 in that the device comprises a voltage switching unit 76 in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

In this case, in contrast to option 1, the first computer complex 3 of the automated workstation of operator 1 is connected via digital channels of information exchange 20 through the first set of external communication devices 20 and digital communication channels with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n voltage switching blocks 76 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n , the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as function checking blocks 26 from the device TV control 25 peripheral communication subsystems 23 ₁ ÷ 23 _n , to the second computing complex 4 from the automated workstation of operator 1 using digital channels of information exchange through the second set of external communication devices 21 and digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n connected voltage switching blocks 76 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n , the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as function check blocks 26 from the composition of control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n , each power supply device 29 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n through the inputs of the main 33 and backup 34 units of secondary power supplies, the main 35 and backup 36 units of command activation of the squibs, the main 39 and the backup 40 power supply units of the motor drive of the current disconnectors, the main 41 and the backup 42 power supply standby units are connected to the voltage switching unit 76, which, in turn, is connected to eshnim power source 44 _i.

Option 39. It differs from option 1 in that the device contains a voltage switching unit 76 in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

In this case, in contrast to option 1, the first computer complex 3 of the automated workstation of operator 1 is connected via digital channels of information exchange 20 through the first set of external communication devices 20 and digital communication channels with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n voltage switching blocks 76 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n , the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as function checking blocks 26 from the device TV control 25 peripheral communication subsystems 23 ₁ ÷ 23 _n , to the second computing complex 4 from the automated workstation of operator 1 using digital channels of information exchange through the second set of external communication devices 21 and digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n connected voltage switching blocks 76 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n , the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as function check blocks 26 from the composition of control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n , each power supply device 29 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n through the inputs of the main 33 and backup 34 units of secondary power supplies, the main 35 and backup 36 units of command the operation of the squibs, the main 39 and the backup 40 power supply units of the motor drive of the current disconnectors is connected to the voltage switching unit 76, which, in turn, is connected to an external power supply 44 _i .

Option 40. It differs from option 1 in that the device contains a voltage switching unit 76 in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

In this case, in contrast to option 1, the main 27 and duplicating 28 automation units from the control devices 25 of the peripheral communication subsystems 23 ₁ ÷ 23 _{n the} ninth outputs are connected to the inputs of voltage switching blocks 76, each power supply device 29 from the composition of the peripheral communication subsystems 23 _{1 n} ÷ 23 via inputs 33 and core 34 of the backup blocks the secondary power supplies, the main 35 and 36 of the backup commands to the squib activation blocks 39 and core 40 of the backup power supply of the motor drive units tokorazedinite it is connected to a voltage switching unit 76, which in turn is coupled with the external power source 44 _i.

Option 41. It differs from option 1 in that the device comprises an automatic check device 77 _i in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

In this case, in contrast to option 1, the ninth output groups and tenth input groups of each motor drive of current disconnectors 30 of the power supply devices 29 of the peripheral communication subsystems 23 ₁ ÷ 23 _{n are} connected to the 77 _i automatic check device.

Option 42. It differs from option 1 in that the device comprises an automatic check device 77 _i in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

At the same time, in contrast to option 1, each control device 25 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n through the second groups of outputs and third groups of inputs of the main 27 and duplicating 28 automation units is connected to the automatic verification device 77 _i , the ninth group of outputs and tenth groups of inputs of each motor drive of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _{n are} connected to an automatic check device 77 _i .

Option 43. It differs from option 1 in that the device comprises an automatic check device 77 _i in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

At the same time, in contrast to option 1, digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _{2-n are} disconnected from the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as functional testing units 26 of the device peripheral control 25 communication subsystems January ₂₃ ÷ 23 _n, the first group of inputs-outputs 27 and core redundant automation blocks 28 and blocks the operation check 26 from the control device 25 peripheral communication subsystem January ₂₃ ÷ 23 _n are connected to automatic devices eskoy test 77 ₁ 77 ÷ _n.

Option 44. It differs from option 1 in that the device comprises an automatic check device 77 _i in each peripheral communication subsystem 23 ₁ ÷ 23 _n .

At the same time, in contrast to option 1, digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _{2-n are} disconnected from the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as functional testing units 26 of the device control 25 peripheral communication subsystems 23 ₁ ÷ 23 _n , to the first computing complex 3 of the automated workstation of operator 1 using digital channels of information exchange connected automatic verification devices 77 ₁ ÷ 77 _n of the peripheral communication subsystems 23 ₁ ÷ 23 _n - through the first set of external communication devices 20 and digital communication channels with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n , to the second computer complex 4 from the automated workstation of operator 1 using digital channels of information exchange connected devices of automatic verification 77 ₁ ÷ 77 _n from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n - through the second set of external communication devices 21 and digital channels of information exchange with peripheral communication subsystems 22 _{2 -1} ÷ 22 _2-n .

Option 45. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with multi-channel radiotelephone communications 78, in each peripheral communication subsystem 23 ₁ ÷ 23 _n radiotelephone communications 79.

In this case, in contrast to option 1, multichannel radiotelephone communications 78 from the automated workstation of operator 1 are connected to centralized control devices (providing systems) and radiotelephone communications 79 from the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 46. It differs from option 1 in that the device contains an automated workstation of operator 1, additionally equipped with a set of video surveillance tools 80, in each peripheral communication subsystem 23 ₁ ÷ 23 _n video surveillance tools 81.

In this case, in contrast to option 1, a set of video surveillance tools 80 from the automated workstation of operator 1 are connected to video surveillance tools 81 from the peripheral communication subsystems 23 ₁ ÷ 23 _n and to video surveillance tools from the composition of the supporting systems.

The operating procedure of the device is divided into stages:

- preparatory;

- on duty;

- main;

- emergency;

- Maintenance.

Preparatory stage

Option 1. The first 3 and second 4 computing systems (electronic computers), the first 8 and second 9 documentation devices, the first 10 and second 11 monitors, the first 14 and second 15 base stations of the single time system with remote antennas, the first 18 and second 19 sets of warning equipment from the automated workplace of the operator (operator console) 1 are connected to external power sources.

Power supply devices 29 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n through the inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the igniter, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors, the main 41 and duplicate 42 units of standby power supply are connected to external power sources 44 ₁ ÷ 44 _n .

Electricity consumers from the composition of control devices 25 and power supply 29 are connected to the outputs of the main 41 and duplicating 42 units of standby power from the composition of power devices 29 of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Access restriction tools 2 (for example, locks, rotary door handles, lock keys, locking bolts, etc.) restricts the access of maintenance personnel to the components located inside the operator’s workstation 1 by reliably closing doors (sashes, hatches, etc.) .P.).

When power is supplied to the first 3 and second 4 computing complexes (electronic computers), the first 8 and second 9 documentation devices, the first 10 and second 11 monitors, the first 14 and second 15 base stations of the single time system with remote antennas, the first 18 and second 19 sets of warning equipment from the operator’s automated workstation 1, as well as to the inputs of the main 41 and 42 backup power supply units from the power supply devices of 29 peripheral communication subsystems 23 ₁ ÷ 23 _n pre-installed on the first 3 and second 4 computer complexes from the automated workstation of operator 1, function check blocks 26, the main 27 and backup 28 automation blocks from the control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n , system and functional software of the command -firing information management system. In this case, it is carried out:

a) the conversion of primary electricity (AC voltage) supplied to the inputs of the main 41 and 42 backup power supply units from the power supply 29 to DC voltage with the characteristics necessary for the safe operation of the firing command and control information system, which is supplied to electricity consumers from the composition of control devices 25 and power supply 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n ;

b) the conversion of primary electricity (AC voltage) supplied to the inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the squibs, the main 39 and duplicating 40 power supplies of motor drives of current isolators into DC voltages with the characteristics necessary to ensure the launch of missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n and the safe operation of command-fire information and control a reducing system, which are supplied respectively to the seventh, sixth and fourth groups of inputs of the main 31 and the backup 32 switching units from the power supply devices of 29 peripheral communication subsystems 23 ₁ ÷ 23 _n ;

c) automatic testing and preparation for the operation of hardware and software:

- the first 3 and second 4 computing complexes, the digital channel of the inter-machine exchange 5, the first 6 and second 7 keyboards, the first 8 and second 9 documentation devices, the first 10 and second 11 monitors, the first 12 and second 13 time-binding modules, the first 14 and second 15 base stations of a single time system with remote antennas, the first 20 and second 21 sets of external communications devices from the automated workstation of operator 1;

- functional check units 26, main 27 and duplicating 28 automation units from control devices 25 of peripheral communication subsystems 23 ₁ ÷ 23 _n ;

d) under the control of the functional software of the firing command and control information system, automatic and / or operator, in the dialogue mode “operator - computer complex” using the first 6 and second 7 keyboards, manual check of serviceability of the first 18 and second 19 sets of warning means, respectively :

- issuing with the subsequent removal from the first computing complex 3 to the first set of warning equipment 18 commands that ensure the appearance with subsequent disappearance of the necessary light and / or sound warning signals;

- issuing with the subsequent removal from the second computing complex 4 to the second set of warning means 19 commands that ensure the appearance with subsequent disappearance of the necessary light and / or sound warning signals;

e) in the dialogue mode “operator - computer complex” using the first 6 and second 7 keyboards, the operator manually enters access passwords (the implementation of the functions of programmatically restricting the operator’s access to the functional software of the firing command and control information system);

f) under the control of the functional software of the firing command and control information system or the system software of the first 3 and second 4 computing complexes, automatic testing of digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n , 22 _2-1-1 ÷ 22 _2-n , the first 20 and second 21 sets of external communication devices by the organization of information exchange:

- through the first set of external communications devices 20 through digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n between the first computer complex 3 of the automated workstation of the operator 1 and the functional check units 26, the main 27 and duplicate 28 blocks automation from the control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n ;

- through the second set of external communication devices 21 via digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n between the second computer complex 4 of the automated workstation of the operator 1 and the functional test blocks 26, the main 27 and duplicate 28 blocks automation from the control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n ;

g) under the control of the functional software of the firing command and control information system and / or system software of the first 3 and second 4 computing complexes, testing the first 16 and second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems) by exchanging information:

- between the first computer complex 3 of the automated workstation of operator 1 and external centralized control devices (providing systems) through the first pair of digital information exchange channels for connecting external centralized control devices (supporting systems) 16;

- between the second computing complex 4 of the automated workstation of operator 1 and external centralized control devices (providing systems) through a second pair of digital information exchange channels for connecting external centralized control devices (supporting systems) 17;

h) under the control of the functional software of the firing command and control information system and / or system software of the first 3 and second 4 computing complexes, testing the digital channel of the inter-machine exchange 5 by organizing the exchange of information between the first 3 and second 4 computing complexes;

i) under the control of the functional software of the firing command and control information system or the system software of the first 3 and second 4 computing complexes, automatic synchronization of the time generated by the means of the first 3 and second 4 computing complexes with the time generated, respectively, of the first 14 and second 15 base stations of a single time system with remote antennas from the operator’s automated workstation 1;

j) in the dialogue mode “operator - computing complex” using the first 6 and second 7 keyboards, the operator manually entered into the memory of the first 3 and second 4 computing complexes from the automated workstation of operator 1 data on the firing command and control information system, peripheral subsystems communications 23 ₁ ÷ 23 _n , missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 45 ₁ ÷ 45 _n and the operator of the firing information-control system;

k) under the control of the functional software of the firing command and control information system, automatic or by the operator, in the dialogue mode “operator - computer complex” using the first 6 and second 7 keyboards from the automated workstation of operator 1, manual assignment of the first computer complex 3- main, and the second computing complex 4 - duplicating, or, conversely, the main computing complex with installed on it part of the functional software On providing support, it further manages the operation of the command and firing information management system as a whole, and the backup computer complex with a part of the functional software installed on it is a “hot” reserve in relation to the main computer complex - it repeats (duplicates) the actions of the main computer complex receiving information on a digital channel inter-machine exchange 5;

l) synchronization of the work of the main and backup computing systems by the organization of information exchange on the digital channel of the inter-machine exchange 5 between the first 3 and second 4 computer complexes;

m) sequentially, for each peripheral communication subsystem 23 ₁ ÷ 23 _n , automatically under the control of the functional software of the command-firing information-control system, or manually by the operator, in the dialogue mode “operator-computer complex” using the first 6 and second 7 keyboards from the automated workstation of operator 1 (signal transceiver between the first 3 or second 4 computing complex and the function check blocks 26, the main 27 and duplicate 28 blocks a automatically from the composition of control devices 25 through the first 20 and / or second 21 set of external communication devices via digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n or 22 _2-1 ÷ 22 _2-n ) is carried out:

- determination of the initial position of the motor drive of current disconnectors 30 from the power supply device 29 by issuing from the fifth groups of outputs of the main 27 and / or duplicating 28 automation units from the control device 25 of the discrete signals, respectively, to the first and / or sixth group of inputs of the motor drive of current disconnectors 30 s subsequent reading from the sixth groups of inputs of the main 27 and / or backup 28 automation units from the control device 25 discrete signals received, respectively, from the WTO a swarm and / or fifth group of outputs of the motor drive of current disconnectors 30 (Algorithm 1);

- if the motor drive of the current disconnectors 30 from the power supply device 29 is not in a position in which the fifth groups of outputs and sixth groups of inputs of the main 27 and the backup 28 automation units from the control device 25, the second groups of outputs and the first groups of inputs of the main 31 and backup 32 switching units from the power supply device 29 are connected through a motor drive of current disconnectors 30, respectively, to the third group of inputs and the second group of outputs of the functional check unit 26 from the control device 25, the motor drive of the current disconnectors 30 is transferred to the required position: from the fourth groups of outputs of the main 27 and / or backup 28 automation units from the control device 25, discrete signals are output to the third groups of inputs, respectively, of the main 31 and / or backup 32 switching units from the power supply device 29, in which the switching elements (relays, contactors, power switches, etc.) are triggered, which ensures the transfer of control dis signals for changing the position of the motor drive of the current disconnectors 30 from the main 39 and / or the backup 40 power supply units of the motor drive of the current disconnectors from the power supply device 29 to the fourth inputs of the main 31 and / or duplicating 32 switching units, through the second groups of outputs of the main 31 and / or a backup 32 switching units from the power supply device 29 to the eighth and / or twelfth groups of inputs of the motor drive of current disconnectors 30 (Algorithm 2);

- checking the position of the motor drive of the current disconnectors 30 from the composition of the power supply device 29, in which the fifth groups of outputs and sixth groups of inputs of the main 27 and the backup 28 automation units from the control device 25, the second groups of outputs and the first groups of inputs of the main 31 and 32 backup switching blocks from the composition of the power supply device 29, respectively, are not connected through the ninth group of outputs and the tenth group of inputs of the motor drive of current disconnectors 30 with a missile (anti-missile, torpedo, directs the projectile, a trigger container and the like) 45 _i, for which outputs from the fifth main group 27 and / or backup blocks 28 from the automatic control unit 25 are issued digital signals respectively into first and / or sixth group of the motor drive input current isolators 30 followed by reading from sixth groups of inputs of the main 27 and / or duplicating 28 automation units from the control device 25 of the discrete signals received, respectively, from the second and / or fifth groups of outputs of the motor drive isolators 30 (Algorithm 3);

- checking the serviceability of the switching elements from the main 31, duplicating 32 switching units, as well as checking the serviceability of the main 33, duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 command units for the operation of the squibs from the power supply 29, for which from the fourth output groups of the main 27 and / or backup 28 automation units from the control device 25, discrete signals are output to the third input groups, respectively, of the main 31 and / or backup 32 switching devices from the power supply device 29, in which switching elements are turned on and then turned off, and when switching elements are turned on, discrete occurrences or the appearance and magnitude of analog signals on the third group of inputs of the function check unit 26 from the control device 25 coming from the main 33 or duplicating 34 blocks of secondary power supplies, or from the main 35 or duplicating 36 blocks of command for the operation of squibs from the device power supply 29 through the seventh and sixth groups of inputs, the second groups of outputs of the main 31 and / or the backup 32 switching units from the power supply device 29, respectively, the eighth and twelfth groups of inputs, the fourth group of outputs of the motor drive current disconnectors 30 from the control device 25; when the switching elements are turned off, the loss of discrete or analog signals is recorded on the third group of inputs of the function check unit 26 from the control device 25 (Algorithm 4);

- checking the serviceability (current state) of the mating elements of the command-firing information-control system (for example, doors, hatches, security devices, microclimate support devices, etc.) 43 _{i by} issuing from the second groups of outputs and reading from the third groups of inputs of the main 27 and / or duplicating 28 automation units from the control device 25 discrete and / or analog signals (Algorithm 5);

- checking the operability of the light-sound signaling device 24, for which, from the fourth groups of outputs of the main 27 and / or backup 28 automation units from the control device 25, discrete signals are issued / removed to / from the third (s) group of inputs, respectively, of the main 31 and / or duplicating 32 switching blocks from the power supply device 29, in which switching elements are turned on / off, which ensures the appearance / disappearance of discrete signals coming from the main 35 and / or redundant 36 blocks odachi commands to actuate squib or core 41 and / or backup power supplies 42 attendant on the outputs of the eighth core 31 and / or backup switching units 32 from the supply device 29 and input light and sound signaling device 24;

- checking the sequence and correctness of the operations for preparing and launching a rocket (anti-missile, torpedo, guided missile, etc.) 45 _i , for which, in accordance with the training and launch sequence diagram, implemented as part of the functional software for command and fire information control system: from the first 3 and / or second 4 computing complexes, respectively, the first 18 and / or second 19 sets of warning devices give commands that ensure the appearance of light and / or sound alerts Niya the start of operations for the preparation and launch missiles (anti-missiles, torpedoes, guided missile, etc.) 45 _i; from the fourth groups of outputs of the main 27 and / or backup 28 automation units from the control device 25, discrete signals are issued / removed to / from the third (input) group of inputs, respectively, of the main 31 and / or 32 backup switching blocks from the composition power supply devices 29, in which switching elements are turned on / off, which ensures the appearance / disappearance of discrete and / or analog signals at the third group of inputs of the function check unit 26 of the device TWA control 25, coming from the main 33 and / or duplicating 34 blocks of secondary power supplies and / or from the main 35 and / or duplicating 36 blocks of command for triggering the squibs respectively through the seventh and sixth groups of inputs, the second groups of outputs of the main 31 and / or duplicating 32 switching blocks from the composition of the power supply device 29, the eighth and twelfth groups of inputs, the fourth group of outputs of the motor drive current disconnectors 30 from the power supply device 29; from the fifth groups of outputs of the main 27 and / or the backup 28 automation units from the control device 25, in the necessary sequence, discrete and / or analog signals are received / removed that are fed to the third group of inputs of the function check unit 26 from the control device 25, respectively, through the first and / or the sixth group of inputs, the fourth group of outputs of the motor drive of current disconnectors 30 from the power supply device 29; the function check unit 26 from the control device 25, depending on the signals supplied to the third group of inputs, generates signals on the second group of outputs, which through the third group of inputs, the second and fifth groups of outputs of the motor drive of current isolators 30 go to the sixth groups of inputs of the main 27 and / or duplicating 28 automation units from the control device 25; discrete and analog signals are fed to the sixth groups of inputs of the main 27 and / or duplicating 28 automation units from the control device 25; from the first 3 and second 4 computing complexes, commands are sent that were sent to the first 18 and second 19 sets of warning means, which ensures the disappearance of light and / or sound warning signals (Algorithm 6);

- checking the health of the motor drive of current disconnectors 30 from the composition of the power supply device 29, for which it is consistent: from the fourth groups of outputs of the main 27 and / or the backup 28 automation units from the control device 25, discrete signals are output to the third groups of inputs, respectively, of the main 31 and / or duplicating 32 switching blocks from the power supply device 29, in which the switching elements are triggered, which ensures the transfer of control discrete signals to change position motor drive current isolators 30 from the main 39 and / or backup 40 power supply units of the motor drive current isolators from the power supply device 29, supplied to the fourth inputs of the main 31 and / or duplicating 32 switching units, through the second output groups of the main 31 and / or duplicating 32 units switching from the composition of the power supply device 29, respectively, to the eighth and / or twelfth groups of inputs of the motor drive current disconnectors 30; checking the execution of the command to change the position of the motor drive of the current disconnectors 30 from the power supply device 29, in which the fifth groups of outputs and sixth groups of inputs of the main 27 and the backup 28 automation units from the control device 25, the second groups of outputs and the first groups of inputs of the main 31 and backup 32 switching units from the power supply device 29, respectively, are connected through the ninth group of outputs and the tenth group of inputs of the motor drive current disconnect telephones 30 with a missile (anti-missile, torpedo, guided by a projectile, launch container, etc.) 45 _i , for which, from the fifth output group of the main 27 and / or duplicating 28 automation units from the control device 25, discrete signals are output, respectively, to the first and / or sixth groups of inputs of the motor drive of current disconnectors 30 with subsequent reading from the sixth groups of inputs of the main 27 and / or duplicating 28 automation units from the control device 25 discrete signals coming, respectively, from the second and / or fifth th group of outputs of the motor drive 30 tokorazediniteley; the type and correctness of the connection of the missile (anti-missile, torpedo, guided missile, launch container, etc.) is checked 45 _i , for which discrete signals are issued from the control unit 25 from the fifth output group of the main 27 and / or the duplicating 28 automation units, respectively, to the first and / or sixth group of entrances and further from the ninth group of outputs of the motor drive of current disconnectors 30 to the missile (anti-missile, torpedo, guided missile, launch container, etc.) 45 _i , followed by reading from the sixth input groups of the main 27 and / or backup 28 automation units from the control device 25 of the discrete signals coming from the rocket (anti-missile, torpedoes, guided missile, launch container, etc.) 45 _i through, respectively, the second and / or fifth groups outputs, the tenth group of inputs of the motor drive current disconnectors 30; from the fourth output groups of the main 27 and / or backup 28 automation units from the control device 25, discrete signals are output to the third input groups, respectively, of the main 31 and / or 32 backup switching units from the power supply 29, in which the switching elements are triggered, which ensures the transmission of control discrete signals to change the position (return to the starting position) of the motor drive of current disconnectors 30 from the main 39 and / or backup 40 power supply units the auxiliary drive of current isolators from the power supply device 29, arriving at the fourth inputs of the main 31 and / or the backup 32 switching units, through the second output groups of the main 31 and / or the backup 32 switching units from the power supply 29 to the eighth and / or twelfth input motor groups drive current disconnectors 30; algorithm 1 is executed; Algorithm 3 is executed (Algorithm 7);

n) displaying information about the sequence, content and results of initializing the functional software of the firing command and control information system on the first 10 and second 11 monitors from the automated workstation of operator 1;

o) automatic or at the operator’s command (in the “operator-computer complex” dialogue mode using the first 6 and second 7 keyboards) paper-based documentation of the results of initializing the functional software of the firing command and control information system using the first 8 and second 9 devices documentation from the workstation of the operator 1;

p) automatic storage in the memory of the first 3 and second 4 computing systems from the automated workstation of operator 1 of the initialization of the functional software of the command-firing information-control system;

c) automatic or at the operator’s command (in the “operator-computer complex” dialog using the first 6 and second 7 keyboards) transfer of the first 3 and second 4 computer systems from the automated workstation of operator 1 and the firing command and control system to in general, in a state of readiness for external centralized management - the exchange of information with external centralized control devices (supporting systems) through respectively the first 16 and / or second 17 pa s digital traffic channels for external centralized management device (support systems) and working under the control of a centralized control of external devices (support systems);

r) the execution of other actions provided by the algorithm for the operation of the command-firing information management system, design, software, operational and other documentation.

The operator of the firing command and control information system in the dialogue mode “operator - computer complex” using the first 6 and second 7 keyboards has the ability to:

- derive the first 3 and second 4 computing systems from the automated workstation of operator 1 and the firing command and control information system as a whole from the state of readiness for external centralized control;

- re-perform actions (checks) of the preparatory phase;

- use the available functions and procedures of the system and / or functional software that are preinstalled on the first 3 and second 4 computer systems, the first 8 and second 9 documentation devices, the first 10 and second 11 monitors, the first 12 and second 13 time reference modules, the first 14 and the second 15 base stations of a single time system with remote antennas;

- perform other actions provided by the algorithm for the operation of the command-firing information-control system, design, operational, repair and other design, operational, repair and other documentation.

Option 2. It differs from option 1 as follows.

The first 46 and second 47 digital time displays from the workstation of operator 1 are connected to external power sources.

When power is supplied to the first 14 and second 15 base stations of the single time system with external antennas and the first 46 and second 47 digital time displays, the software pre-installed on them is initialized, which implements the display of the current time (maternity, astronomical, relative, etc. ) on the first 46 and second 47 digital displays according to the signals received respectively from the first 14 and second 15 base stations of the single time system with external antennas. Thus, the first 46 and second 47 digital displays display the time synchronized with the scale of the State Service for Unified Time and Reference Frequencies, which is generated and stored in the first 14 and second 15 base stations of the system of unified time with external antennas.

The operator of the firing command and control information system provides visual control of the time displayed on the first 46 and second 47 digital displays.

Option 3. It differs from option 1 as follows.

The supply of electricity from external power sources to 49 consumers from the automated workplace of operator 1 is carried out through the first group of inputs and the second group of outputs of the energy distribution cabinet with uninterruptible power supply 48.

Option 4. Differs from option 1 as follows.

The supply of electricity from external power sources to 49 consumers from the automated workplace of operator 1 is carried out through the first group of inputs and the second group of outputs of the energy distribution cabinet with uninterruptible power supply 48.

Monitoring the technical condition and management of the cabinet energy distribution with uninterruptible power supply 48 is carried out by the exchange of information:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 from the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and the first set of external communications devices 20;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and the second set of external communications devices 21.

Option 5. Differs from option 1 as follows.

The supply of electricity from external power sources to 49 consumers from the automated workplace of operator 1 is carried out through the first group of inputs and the second group of outputs of the energy distribution cabinet with uninterruptible power supply 48.

Monitoring the technical condition and management of the cabinet energy distribution with uninterruptible power supply 48 is carried out by the exchange of information:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48.

Option 6. Differs from option 1 as follows.

The supply of electricity from external power sources to 49 consumers from the automated workplace of operator 1 is carried out through the first group of inputs and the second group of outputs of the energy distribution cabinet with uninterruptible power supply 48.

Monitoring the technical condition and management of the cabinet energy distribution with uninterruptible power supply 48 is carried out by the exchange of information:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48, signal converter 50 and the first set of external communications devices 20;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48, signal converter 50 and the second set of external communications devices 21.

Option 7. It differs from option 1 as follows.

The supply of electricity from external power sources to 49 consumers from the automated workplace of operator 1 is carried out through the first group of inputs and the second group of outputs of the energy distribution cabinet with uninterruptible power supply 48.

Monitoring the technical condition and management of the cabinet energy distribution with uninterruptible power supply 48 is carried out by the exchange of information:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and signal converter 50;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and signal converter 50.

Option 8. It differs from option 1 as follows.

The first 51 and second 52 sets of means for displaying public information from the workstation of operator 1 are connected to external power sources.

When power is supplied to the first 51 and second 52 sets of means for displaying public information from the workstation of operator 1, the system and functional software pre-installed on them is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the first 51 and second 52 sets of means for displaying public information;

b) under the control of functional software of a command-firing information-control system or system software of the first 3 and second 4 computing complexes, automatic testing of digital channels of information exchange:

-between the first computing systems 3 and the first set of means for displaying public information 51;

- between the second computing systems 4 and the second set of means for displaying public information 52;

c) display of information about the command and firing information management system:

- coming from the first computing complex 3 on the screen of the first set of means for displaying public information 51;

- coming from the second computing complex 4 on the screen of the second set of means for displaying public information 52.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 9. It differs from option 1 as follows.

The first 51 and second 52 sets of means for displaying public information from the workstation of operator 1 are connected to external power sources.

When power is supplied to the first 51 and second 52 sets of means for displaying public information from the workstation of operator 1, the system and functional software pre-installed on them is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the first 51 and second 52 sets of means for displaying public information;

b) under the control of functional software of a command-firing information-control system or system software of the first 3 and second 4 computing complexes, automatic testing of digital channels of information exchange:

- between the first computing systems 3 and the first set of means for displaying public information 51 information exchange through the first set of external communications devices 20;

- between the second computing complexes 4 and the second set of means for displaying public information 52, the exchange of information through the second set of external communication devices 21;

c) display of information about the command and firing information management system:

- coming from the first computing complex 3 through the first set of external communications devices 20 on the screen of the first set of public information display means 51;

- coming from the second computing complex 4 through the second set of external communications devices 21 on the screen of the second set of public information display means 52.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 10. It differs from option 1 as follows.

The exchange of information between the first computing complex 3 and the first set of external communications devices 20 from the automated workstation of the operator 1 is carried out through the first module of serial channels 53.

The exchange of information between the second computing complex 4 and the second set of external communication devices 21 from the automated workplace of the operator 1 is carried out through the second module of serial channels 54.

Each of the modules of the serial channels provides pairing-work of the corresponding computing complex with the work of several parallel independent channels of the serial interface to which the sets of external communication devices are connected.

Option 11. Does not differ from option 1.

Option 12. Does not differ from option 1.

Option 13. It differs from option 1 as follows.

The first 51 and second 52 sets of means for displaying public information from the workstation of operator 1 are connected to external power sources.

When power is supplied to the first 51 and second 52 sets of means for displaying public information from the workstation of operator 1, the system and functional software pre-installed on them is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the first 51 and second 52 sets of means for displaying public information;

b) under the control of functional software of a command-firing information-control system or system software of the first 3 and second 4 computing complexes, automatic testing of digital channels of information exchange:

- between the first computing systems 3 and the first set of means for displaying public information 51 information exchange through the first exchange module 55;

- between the second computing complexes 4 and the second set of means for displaying public information 52, the exchange of information through the second exchange module 56;

c) display of information about the command and firing information management system:

- coming from the first computing complex 3 through the first exchange module 55 on the screen of the first set of public information display means 51;

- coming from the second computing complex 4 through the second exchange module 56 on the screen of the second set of public information display means 52.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 14. Differs from option 1 as follows.

The first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 of the automated workstation of the operator 1 are connected to external power sources.

When power is supplied to the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the workstation of operator 1, the system software preinstalled on them is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the automated workstation of the operator 1;

b) displaying information about the sequence, content and results of initializing the functional software of the firing command and control information system on the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the automated workstation of the operator 1.

The operator firing command and control information system for implementing the dialogue mode "operator - computer complex" can use the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the automated workstation of the operator 1.

Option 15. Differs from option 1 as follows.

When power is supplied to consumers from the operator’s automated workstation 1, the system software preinstalled on them is initialized, the first keyboard 6 with trackball 60 and the second keyboard 7 with trackball 61 are initialized for operation.

The operator of the firing command and control information system uses the first keyboard 6 with trackball 60 and the second keyboard 7 with trackball 61 from the automated workstation of operator 1 to implement the operator-computer complex dialogue mode.

Option 16. Differs from option 1 as follows.

The first 62 and second 63 reserve base stations of the single time system from the workstation of operator 1 are connected to external power sources.

When power is supplied to the first 62 and second 63 backup base stations of the single-time system from the workstation of operator 1, the system and functional software pre-installed on them is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the first 62 and second 63 reserve base stations of the single time system;

b) automatic transfer of the first 62 and second 63 reserve base stations of the single time system to the “hot” standby mode with respect to the first 14 and second 15 base stations of the single time system with remote antennas, respectively.

Option 17. Does not differ from option 1.

Option 18. Differs from option 1 as follows.

The first 62 and second 63 reserve base stations of the single time system from the workstation of operator 1 are connected to external power sources.

When power is supplied to the first 62 and second 63 backup base stations of the single-time system from the workstation of operator 1, the system and functional software pre-installed on them is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the first 62 and second 63 reserve base stations of the single time system;

b) automatic transfer of the first 62 and second 63 reserve base stations of the single time system to the “hot” standby mode with respect to the first 14 and second 15 base stations of the single time system with remote antennas, respectively.

Option 19. Differs from option 1 as follows.

From the emergency shutdown device of the peripheral communication subsystems 64, the first computing complex 3 using digital channels of information exchange through the first set of external communication devices 20 receives information about the absence of the need for emergency shutdown of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

From the emergency shutdown device of the peripheral communication subsystems 64, the second computing complex 4 using digital channels of information exchange through the second set of external communication devices 21 receives information about the absence of the need for emergency shutdown of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 20. Differs from option 1 as follows.

From the emergency shutdown device of the peripheral communication subsystems 64, the first computing system 3 receives information via digital channels of information exchange about the absence of the need for an emergency shutdown of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

From the emergency shutdown device of the peripheral communication subsystems 64, the second computer complex 4 receives information via digital information exchange channels that there is no need to emergency shutdown the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 21. It differs from option 1 as follows.

From the outputs of the emergency shutdown device of the peripheral communication subsystems 64 to the first computing complex 3 through the signal converter 65 and the first set of external communication devices 20, information is received that there is no need for an emergency shutdown of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

From the outputs of the emergency shutdown device of the peripheral communication subsystems 64 to the second computing complex 4 through the signal converter 65 and the second set of external communication devices 21, information is received about the absence of the need for emergency shutdown of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 22. It differs from option 1 as follows.

From the outputs of the emergency shutdown device of the peripheral communication subsystems 64, the first computer complex 3 receives information via the signal converter 65 that there is no need for an emergency shutdown of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

From the outputs of the emergency shutdown device of the peripheral communication subsystems 64, the second computer complex 4 receives information through the signal converter 65 that there is no need for an emergency shutdown of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 23. It differs from option 1 as follows.

The operator of the command and firing information management system is located in the operator's seat 82.

Option 24. It differs from option 1 as follows.

The power supply control unit 67 of the automated workstation of the operator 1 is connected to external power sources.

When power is supplied to the control unit for power supplies 67 from the automated workstation of operator 1, the system and functional software pre-installed in it is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the power supply control unit 67;

b) automatic testing of information exchange channels:

- between the first computing complex 3 and the power supply control unit 67 exchange of information through the first set of external communications devices 20;

- between the second computing complex 4 and the power supply control unit 67, the exchange of information through the second set of external communications devices 21;

c) automatic testing of wired communication lines with power supply 66 by the exchange of information between the control unit of power supply 67 and emergency (backup) power supply from external centralized control devices (supporting systems).

Option 25. Differs from option 1 as follows.

The power supply control unit 67 of the automated workstation of the operator 1 is connected to external power sources.

When power is supplied to the control unit for power supplies 67 from the automated workstation of operator 1, the system and functional software pre-installed in it is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the power supply control unit 67;

b) automatic testing of information exchange channels:

- exchange of information between the first computing complex 3 and the control unit for power supplies 67;

- the exchange of information between the second computing complex 4 and the control unit for power supplies 67;

c) automatic testing of wired communication lines with power supply 66 by the exchange of information between the control unit of power supply 67 and emergency (backup) power supply from external centralized control devices (supporting systems).

Option 26. Differs from option 1 as follows.

The power supply control unit 67 and the signal converter 68 from the automated workstation of the operator 1 are connected to external power sources.

When power is supplied to the signal converter 68 from the automated workstation of operator 1, the system and functional software pre-installed in it is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the signal converter 68;

b) automatic testing and preparation for operation of the hardware of the power supply control unit 67;

c) automatic testing of information exchange channels:

- between the first computing complex 3 and the signal converter 68, the exchange of information through the first set of external communications devices 20;

- between the second computing complex 4 and the signal converter 68, the exchange of information through the second set of external communications devices 21;

d) automatic testing of wired communication lines with power supply 66 by the exchange of information between the control unit of power supply 67 and emergency (backup) power supply from external centralized control devices (supporting systems).

Option 27. Differs from option 1 as follows.

The power supply control unit 67 and the signal converter 68 from the automated workstation of the operator 1 are connected to external power sources.

When power is supplied to the signal converter 68 from the automated workstation of operator 1, the system and functional software pre-installed in it is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the signal converter 68;

b) automatic testing and preparation for operation of the hardware of the power supply control unit 67;

c) automatic testing of information exchange channels:

- exchange of information between the first computing complex 3 and the signal converter 68;

- exchange of information between the second computing complex 4 and the signal converter 68;

d) automatic testing of wired communication lines with power supply 66 by the exchange of information between the control unit of power supply 67 and emergency (backup) power supply from external centralized control devices (supporting systems).

Option 28. Differs from option 1 as follows.

The third computer complex (electronic computer) 70 of the automated workstation of operator 1 is connected to external power sources.

When power is supplied to the third computing complex 70 from the automated workstation of operator 1, the system and functional software pre-installed on it is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the third computing complex 70;

b) automatic testing of digital channels of information exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n and the third set of external communication devices 71 by the organization of information exchange through a third set of devices of external communications 71 through digital channels of information exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n between the third computing complex 70 and sets of technical means of protection 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n ;

c) automatic testing of digital channels of information exchange 73 by the organization of the exchange of information between the third computer complex 70 and external centralized control devices (supporting systems) through digital channels of information exchange 73;

d) sequentially, for each peripheral communication subsystem 23 ₁ ÷ 23 _n , automatically, under the control of the functional software of the third computer complex 70 (signal transceiver between the third computer complex 70 and the sets of security equipment 72 through the third set of external communications devices 71 via digital channels information exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n ) is carried out:

- health check of sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n ;

- a break by means of sets of technical protection equipment 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n of the electrical connections from the ninth group of outputs of the motor drive of current disconnectors 30.

Option 29. Differs from option 1 as follows.

The third computer complex (electronic computer) 70 of the automated workstation of operator 1 is connected to external power sources.

When power is supplied to the third computing complex 70 from the automated workstation of operator 1, the system and functional software pre-installed on it is initialized. In this case, it is carried out:

a) automatic testing and preparation for operation of hardware and software of the third computing complex 70;

b) automatic testing of digital channels of information exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n and the third set of external communication devices 71 by the organization of information exchange through a third set of devices of external communications 71 through digital channels of information exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n between the third computing complex 70 and sets of technical means of protection 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n ;

c) automatic testing of digital channels of information exchange 73 by the organization of the exchange of information between the third computer complex 70 and external centralized control devices (providing systems) through digital channels of information exchange 73 and the exchange module with centralized control devices (providing systems) 74;

d) sequentially, for each peripheral communication subsystem 23 ₁ ÷ 23 _n , automatically, under the control of the functional software of the third computer complex 70 (signal transceiver between the third computer complex 70 and the sets of security equipment 72 through the third set of external communications devices 71 via digital channels information exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n ) is carried out:

- health check of sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n ;

- a break by means of sets of technical protection equipment 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n of the electrical connections from the ninth group of outputs of the motor drive of current disconnectors 30.

Option 30. Differs from option 1 as follows.

By commands from external centralized control devices (supporting systems), coming through digital channels of information exchange 73, to sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n , the following is carried out:

- health check of sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n ;

- a break by means of sets of technical protection equipment 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n of the electrical connections from the ninth group of outputs of the motor drive of current disconnectors 30.

Option 31. No different from option 1.

Option 32. Differs from option 1 as follows.

The exchange of information between the operator’s workstation 1 and peripheral communication subsystems 23 ₁ ÷ 23 _{n is} carried out via digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n , 22 _2-1 ÷ 22 _2-n with channel amplification devices 75.

Option 33. No different from option 1.

Option 34. Differs from option 1 as follows.

When initializing the system and functional software of the firing command and control information system, the conversion of primary electricity (AC voltage) coming from external power sources 44 _i to the first inputs of the main 33 and duplicating 34 blocks of secondary power sources, the main 35 and duplicating 36 supply units no commands for triggering the squibs, the main 39 and 40 duplicating power supplies of the motor drives of current disconnectors in DC voltage . The main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the squibs, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors are disabled.

When implementing algorithm 6, the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command issuing for the operation of the squibs, the main 39 and duplicating 40 power blocks of motor drives of current disconnectors from the composition of power supply devices 29 by feeding / removing discrete signals from the eighth outputs of the main 27 and duplicating 28 automation units from the control device 25.

Option 35. Differs from option 1 as follows.

When initializing the system and functional software of the firing command and control information system, the conversion of primary electricity (AC voltage) coming from external power supplies 44 _i to the first inputs of the main 33 and duplicating 34 blocks of secondary power sources, the main 35 and duplicating 36 supply units no commands for triggering the squibs, the main 39 and 40 duplicating power supplies of the motor drives of current disconnectors to the DC voltage . The main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the squibs, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors are disabled.

When implementing algorithm 6, the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks for giving commands to actuate the squibs, the main 39 and duplicating 40 power blocks for motor drives of current disconnectors by feeding / removing discrete signals, respectively, are switched on / off in series or in parallel with seventh, sixth and fourth inputs and outputs of the main 31 and 32 duplicating switching units from the composition of power supply devices 29.

Option 36. Differs from option 1 as follows.

Electric power supply from external power supplies 44 ₁ ÷ 44 _n to the inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the igniter, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors, the main 41 and duplicating 42 units of standby power supply is carried out through voltage switching units 76, in which switching and distribution of electricity is performed.

Option 37. Differs from option 1 as follows.

Electric power supply from external power supplies 44 ₁ ÷ 44 _n to the inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the squibs, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors is carried out through voltage switching blocks 76, in which switching and distribution of electricity is carried out.

Option 38. Differs from option 1 as follows.

Electric power supply from external power supplies 44 ₁ ÷ 44 _n to the inputs of the main 33 and duplicating 34 blocks of secondary power sources, the main 35 and duplicating 36 blocks of command for triggering the igniter, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors, the main 41 and duplicating 42 units of standby power supply is carried out through voltage switching units 76. Switching and distribution of electricity in voltage switching units 76 is carried out according to signals received in the periphery communication subsystems 22 _1-1 ÷ 22 _1-n via digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n and / or 22 _2-1 ÷ 22 _2-n .

Option 39. Differs from option 1 as follows.

Electric power supply from external power supplies 44 ₁ ÷ 44 _n to the inputs of the main 33 and duplicating 34 blocks of secondary power sources, the main 35 and duplicating 36 blocks of command for triggering the squibs, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors is carried out through voltage switching blocks 76. switching and distribution of electricity in the voltage switching unit 76 is carried by the signals entering the peripheral communication subsystem 22 _1-1 ÷ January _22-n of digital channel information onnogo exchange with peripheral communication subsystem 22 _1-1 ÷ January _22-n and / or 22 _2-1 ÷ February _22-n.

Option 40. Differs from option 1 as follows.

Electric power supply from external power supplies 44 ₁ ÷ 44 _n to the inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the squibs, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors is carried out through voltage switching blocks 76. Switching and distribution of electricity in voltage switching units 76 is carried out according to the signals received from the ninth outputs of the main 27 and / or duplicating 28 automation units from the remainder of control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 41. Differs from option 1 as follows.

Instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.), automatic verification devices 77 _i can be connected to ninth output groups and tenth input groups of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n performing including missile simulation functions (anti-missiles, torpedoes, guided missiles, launch containers, etc.).

Option 42. Differs from option 1 as follows.

Instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.), automatic verification devices 77 _i can be connected to ninth output groups and tenth input groups of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n performing including missile simulation functions (anti-missiles, torpedoes, guided missiles, launch containers, etc.).

Instead of the mating elements of a command-firing information-control system (for example, doors, hatches, protective devices, microclimate support devices, etc.) to the second output groups and third input groups of the main 27 and duplicating 28 automation units from the 25 peripheral control devices of the communication subsystems 23 ₁ ÷ 23 _n , devices of automatic checking 77 _i can be connected, including simulation functions of mating elements of a command-firing information-control system (for example, doors, hatches, protective devices, microclimate support devices, etc.).

Option 43. No different from option 1.

Option 44. No different from option 1.

Option 45. Differs from option 1 as follows.

The operator of the command-firing information management system has the ability to interact:

- with maintenance personnel of centralized control devices (supporting systems) using multichannel radiotelephone exchange facilities 78;

- with maintenance personnel of a command-firing information-control system located in the peripheral communication subsystems 23 ₁ ÷ 23 _n , using multichannel radiotelephone exchange 78 and radiotelephone exchange 79.

Option 46. Differs from option 1 as follows.

The operator of the command and firing information management system has the ability to carry out video surveillance:

- for firing command and control information system using a set of video surveillance 80;

- for supporting systems using sets of video surveillance tools from their composition;

- for peripheral communication subsystems 23 ₁ ÷ 23 _n , using video surveillance 81.

Duty stage

Option 1. The preparatory phase of the command-firing information management system is completed.

The command-firing information-control system is being transferred to the state of external centralized control:

- between the first 3 and / or second 4 computer systems from the operator’s workstation 1 and external centralized control devices (providing systems) through the first 16 and / or second 17 pairs of digital communication channels for connecting external centralized control devices (supporting systems) ) communication is established and information is exchanged;

- there are restrictions on the actions of the operator of the command-firing information-control system (for example, on changing the position of the motor drive of current disconnectors 30 from the power supply device 29, on the conclusion of the command-firing information-control system from the state of external centralized control, etc.).

Command-firing information management system is in constant readiness for the transition to the main stage of work. The transition to the main stage of work can be carried out only by commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workplace of operator 1 through the first 16 and / or second 17 pairs of digital channels information exchange for connecting external centralized control devices (supporting systems).

Periodically, in accordance with the algorithm of the operation of the command-firing information-control system and / or by commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workstation of operator 1 through the first, respectively 16 and / or second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems), in series or in parallel about for each peripheral communication subsystem 23 ₁ ÷ 23 _n , automatically, under the control of the system or functional software command-firing information-control system is carried out:

a) testing of digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n , 22 _2-1 ÷ 22 _2-n organization of information exchange:

- through digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n through the first set of external communication devices 20 between the first computer complex 3 of the automated workstation of operator 1 and function test blocks 26, the main 27 and duplicate 28 blocks automation and control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n ;

- through digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n through a second set of external communication devices 21 between the second computer complex 4 from the automated workstation of operator 1 and the functional check units 26, the main 27 and duplicate 28 blocks automation from the control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n ;

b) control of the position of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _{n by} performing algorithms 1-3;

c) checking the serviceability of the switching elements from the main 31, duplicating 32 switching units, as well as checking the serviceability of the main 33, duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 command units for triggering the squibs from the power supply devices of 29 peripheral communication subsystems 23 ₁ ÷ 23 _n execution of algorithm 4;

d) checking the serviceability (current state) of the mating elements of the command-firing information-control system 43 ₁ ÷ 43 _{n by} performing algorithm 5;

e) checking the sequence and correctness of the operations for the preparation and launch of missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _{n by} performing algorithm 6;

f) performing other actions provided by the algorithm for the operation of the command-firing information management system, design, software, operational and other documentation.

Periodically, in accordance with the algorithm of the operation of the command-firing information-control system and / or by commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workstation of operator 1 through the first, respectively 16 and / or second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems), automatically, under control system or functional software command-firing information management system, or manually by the operator, in the dialogue mode "operator - computer complex" using the first 6 and second 7 keyboards from the automated workstation of operator 1, is carried out:

a) testing the first 16 and / or second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems) by the organization of information exchange:

- between the first computer complex 3 of the automated workstation of operator 1 and external centralized control devices (providing systems) through the first pair of digital information exchange channels for connecting external centralized control devices (supporting systems) 16;

- between the second computing complex 4 of the automated workstation of operator 1 and external centralized control devices (providing systems) through a second pair of digital information exchange channels for connecting external centralized control devices (supporting systems) 17;

b) monitoring the health of the first 3 and / or second 4 computing systems from the automated workstation of operator 1 and external centralized control devices (supporting systems) by organizing the exchange of information according to a special algorithm, respectively, through the first 16 and / or second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems);

c) hardware and software testing:

- the first 3 and second 4 computing complexes, the first 6 and second 7 keyboards, the first 8 and second 9 documenting devices, the first 10 and second 11 monitors, the first 12 and second 13 time reference modules, the first 14 and second 15 base stations of the single time system with remote antennas from the automated workplace of the operator 1;

- functional check units 26, main 27 and duplicating 28 automation units and from the composition of control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n ;

d) testing the digital channel of the inter-machine exchange 5 by the organization of the exchange of information between the first 3 and second 4 computer complexes from the automated workstation of operator 1;

d) synchronization of the work of the main and backup computing systems by the organization of information exchange on the digital channel of the inter-machine exchange 5 between the first 3 and second 4 computing complexes;

f) synchronization of the time generated by the first 3 and / or second 4 computing systems with the time generated by the first 14 and second 15 base stations of the single time system with remote antennas from the automated workstation of operator 1 using the capabilities of the first 12 and second 13 time binding modules;

g) check of serviceability of the first 18 and / or second 19 sets of warning equipment:

- issuing with the subsequent removal from the first computing complex 3 to the first set of warning equipment 18 commands that ensure the appearance with subsequent disappearance of the necessary light and / or sound warning signals;

- issuing with the subsequent removal from the second computing complex 4 to the second set of warning means 19 commands that ensure the appearance with subsequent disappearance of the necessary light and / or sound warning signals;

h) entering into the memory of the first 3 and / or second 4 computing complexes from the automated workstation of operator 1 data on the command-firing information-control system, peripheral communication subsystems 23 ₁ ÷ 23 _n , missiles (missiles, torpedoes, guided missiles, launchers containers, etc.) 45 ₁ ÷ 45 _n and the operator of the firing command and control information system (when changing the operator);

i) reassignment of the first computing complex 3 - duplicate, and the second computing complex 4 - the main, or, conversely;

j) display of the contents and results of the functional software of the command-firing information-control system on the first 10 and second 11 monitors from the automated workstation of operator 1;

k) documenting on paper the contents and results of the functional software of the firing command and control information system using the first 8 and second 9 documenting devices from the automated workstation of operator 1;

l) storing in memory of the first 3 and second 4 computing systems from the automated workstation of operator 1 of the content and results of the functional software of the command-firing information-control system;

m) the execution of other actions provided for by the algorithm for the operation of the command-firing information management system, design, software, operational and other documentation.

The operator of the firing command and control information system in the dialogue mode “operator - computer complex” using the first 6 and second 7 keyboards has the ability to:

- output the first 3 or second 4 computing systems from the automated workstation of operator 1 from the state of external centralized control to the state of autonomous control for offline testing of the corresponding hardware and software of the computing complex, keyboard, documentation device, monitor, time binding module, base station of the system at the same time with a remote antenna (while the computer complex remains in a state of centralized control of the GSI major);

- return the first 3 or second 4 computing systems from the automated workstation of operator 1 from the state of autonomous control to the state of external centralized control;

- output one of the peripheral communication subsystems 23 ₁ ÷ 23 _n , from the state of external centralized control to the state of autonomous control for autonomous testing of the corresponding hardware and software of the peripheral communication subsystem - execution of algorithms 1-7;

- return the peripheral communication subsystem, which is in the state of autonomous control, to the state of external centralized control;

- to carry out the withdrawal of the command-firing information management system from the state of external centralized control to the state of autonomous control (readiness for external centralized control) to perform the preparatory phase;

- use the available functions and procedures of the system and / or functional software that are preinstalled on the first 3 and second 4 computer systems, the first 8 and second 9 documentation devices, the first 10 and second 11 monitors, the first 12 and second 13 time reference modules, the first 14 and the second 15 base stations of a single time system with remote antennas;

- perform other actions provided by the algorithm for the operation of the command-firing information-control system, design, operational, repair and other documentation.

Option 2. It differs from option 1 as follows.

On the first 46 and second 47 digital displays from the operator’s automated workstation 1 according to the signals received respectively from the first 14 and second 15 base stations of the single time system with external antennas, the time is displayed synchronized with the scale of the State service of the single time and reference frequencies.

The operator of the firing command and control information system provides visual control of the time displayed on the first 46 and second 47 digital displays.

Option 3. Does not differ from option 1.

Option 4. Differs from option 1 as follows.

In accordance with the algorithm of the operation of the command-firing information-control system and / or by commands from external centralized control devices (supporting systems), automatically, under the control of the system or functional software of the command-firing information-control system, the technical state is controlled and operation is controlled energy distribution cabinet with uninterruptible power supply 48 information exchange:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 from the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and the first set of external communications devices 20;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and the second set of external communications devices 21.

Option 5. Differs from option 1 as follows.

In accordance with the algorithm of the operation of the command-firing information-control system and / or by commands from external centralized control devices (supporting systems), automatically, under the control of the system or functional software of the command-firing information-control system, the technical state is controlled and operation is controlled energy distribution cabinet with uninterruptible power supply 48 information exchange:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48.

Option 6. Differs from option 1 as follows.

In accordance with the algorithm of the operation of the command-firing information-control system and / or by commands from external centralized control devices (supporting systems), automatically, under the control of the system or functional software of the command-firing information-control system, the technical state is controlled and operation is controlled energy distribution cabinet with uninterruptible power supply 48 information exchange:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48, signal converter 50 and the first set of external communications devices 20;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48, signal converter 50 and the second set of external communications devices 21.

Option 7. It differs from option 1 as follows.

In accordance with the algorithm of the operation of the command-firing information-control system and / or by commands from external centralized control devices (supporting systems), automatically, under the control of the system or functional software of the command-firing information-control system, the technical state is controlled and operation is controlled energy distribution cabinet with uninterruptible power supply 48 information exchange:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and signal converter 50;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and signal converter 50.

Option 8. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display of information about the command-firing information management system coming from the first 3 and second 4 computing complexes, respectively;

- displaying information about the state of the channels of information exchange between the first 51 and second 52 sets of means for displaying public information and, respectively, the first 3 and second 4 computing complexes.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 9. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display information about the command and firing information management system, respectively, coming from the first computing complex 3 through the first set of external communications devices 20 and from the second computing complex 4 through the second set of external communications devices 21;

- displaying information about the state of information exchange channels between the first 51 and second 52 sets of public information display means and, respectively, the first 20 and second 21 sets of external communications devices.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 10. No different from option 1.

Option 11. It differs from option 1 as follows.

The exchange of information between the first computer complex 3 of the automated workstation of operator 1 and external centralized control devices is carried out through the first exchange module 55 and the first pair of digital channels of information exchange for connecting external centralized control devices (supporting systems) 16.

The exchange of information between the second computer complex 4 of the automated workstation of the operator 1 and external centralized control devices is carried out through the second exchange module 56 and the second pair of digital information exchange channels for connecting external centralized control devices (supporting systems) 17.

Each of the exchange modules provides interfacing of the operation of the corresponding computing complex with the operation of several parallel independent channels of the serial interface to which external centralized control devices are connected.

Option 12. Differs from option 1 as follows.

The exchange of information between the first computing complex 3 of the automated workstation of the operator 1 and centralized control devices 57 is carried out through the first exchange module 55.

The exchange of information between the second computing complex 4 of the automated workstation of operator 1 and centralized control devices 57 is carried out through the second exchange module 56.

Each of the exchange modules provides interfacing of the operation of the corresponding computing complex with the operation of several parallel independent channels of the serial interface to which external centralized control devices are connected.

Option 13. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display information about the command-firing information management system, respectively, coming from the first computing complex 3 through the first exchange module 55 and from the second computing complex 4 through the second exchange module 56;

- displaying information about the state of information exchange channels between the first 51 and second 52 sets of public information display means and, respectively, the first 55 and second 56 exchange modules.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

The exchange of information between the first computing complex 3 of the automated workstation of the operator 1 and centralized control devices 57 is carried out through the first exchange module 55.

The exchange of information between the second computing complex 4 of the automated workstation of operator 1 and centralized control devices 57 is carried out through the second exchange module 56.

Each of the exchange modules provides interfacing of the work of the corresponding computer complex with the work of several parallel independent channels of the serial interface, to which external centralized control devices and sets of public information display devices are connected.

Option 14. Differs from option 1 as follows.

The content and results of the functional software of the firing command and control information system are displayed on the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the automated workstation of the operator 1.

The operator firing command and control information system for implementing the dialogue mode "operator - computer complex" can use the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the automated workstation of the operator 1.

Option 15. Differs from option 1 as follows.

The operator of the firing command and control information system uses the first keyboard 6 with trackball 60 and the second keyboard 7 with trackball 61 from the automated workstation of operator 1 to implement the operator-computer complex dialogue mode.

Option 16. Differs from option 1 as follows.

The first 62 and second 63 reserve base stations of the single time system are in the “hot” standby mode with respect to the first 14 and second 15 base stations of the single time system with remote antennas, respectively.

Option 17. Does not differ from option 1.

Option 18. Differs from option 1 as follows.

The first 62 and second 63 reserve base stations of the single time system are in the “hot” standby mode with respect to the first 14 and second 15 base stations of the single time system with remote antennas, respectively.

Option 19. Differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through the first set of external communications devices 20 from the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through the second set of external communications devices 21 from the emergency shutdown device of the peripheral communication subsystems 64.

Option 20. Differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 from the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 from the emergency shutdown device of the peripheral communication subsystems 64.

Option 21. It differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through the signal converter 65 and the first set of external communications devices 20 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through a signal converter 65 and a second set of external communications devices 21 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64.

Option 22. It differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through a signal converter 65 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through a signal converter 65 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64.

Option 23. No different from option 1.

Option 24. It differs from option 1 as follows.

In accordance with the functioning algorithm of the command-firing information-control system, automatically, under the control of the functional software of the power supply control unit 67, information is exchanged between the control unit of power supply 67 and emergency (standby) power supply from external centralized control devices (providing systems ) through wired communication lines with power supplies 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted:

- into the first computing complex 3 through the first set of external communications devices 20;

- into the second computing complex 4 through the second set of external communications devices 21.

Option 25. Differs from option 1 as follows.

In accordance with the functioning algorithm of the command-firing information-control system, automatically, under the control of the functional software of the power supply control unit 67, information is exchanged between the control unit of power supply 67 and emergency (standby) power supply from external centralized control devices (providing systems ) through wired communication lines with power supplies 66.

Information about the state of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted to the first 3 and second 4 computing complexes.

Option 26. Differs from option 1 as follows.

In accordance with the functioning algorithm of the command-firing information-control system, information is exchanged between the control unit for power supplies 67 and emergency (standby) power supplies from external centralized control devices (supporting systems) via wired communication lines with power supplies 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted:

- into the first computing complex 3 through a signal converter 68 and a first set of external communications devices 20;

- into the second computing complex 4 through a signal converter 68 and a second set of external communications devices 21.

Option 27. Differs from option 1 as follows.

In accordance with the functioning algorithm of the command-firing information-control system, information is exchanged between the control unit for power supplies 67 and emergency (standby) power supplies from external centralized control devices (supporting systems) via wired communication lines with power supplies 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted to the first 3 and second 4 computer systems via a signal converter 68.

Option 28. Differs from option 1 as follows.

In accordance with the algorithm of the operation of the firing command and control information system in series and in parallel, for each peripheral communication subsystem 23 ₁ ÷ 23 _n , automatically, under the control of the functional software of the third computer complex 70 (signal transceiver between the third computer complex 70 and the sets of technical means protection 72 through the third set of devices of external communications 71 through digital channels of information exchange with sets of technical means of protection s 69 _3-1 ÷ 69 _3-n ) the gap is monitored by means of sets of technical protection equipment 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n of the electrical connections from the ninth group of outputs of the motor drive of current disconnectors 30.

Information about the state of sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n from the third computer complex 70 is transmitted to external centralized control devices (supporting systems) through digital communication channels 73.

Option 29. Differs from option 1 as follows.

In accordance with the algorithm of the operation of the firing command and control information system in series and in parallel, for each peripheral communication subsystem 23 ₁ ÷ 23 _n , automatically, under the control of the functional software of the third computer complex 70 (signal transceiver between the third computer complex 70 and the sets of technical means protection 72 through the third set of devices of external communications 71 through digital channels of information exchange with sets of technical means of protection s 69 _3-1 ÷ 69 _3-n ) the gap is monitored by means of sets of technical protection equipment 72 from the composition of the peripheral communication subsystems 23 ₁ ÷ 23 _n of the electrical connections from the ninth group of outputs of the motor drive of current disconnectors 30.

Information about the state of sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n from the third computer complex 70 is transmitted to external centralized control devices (supporting systems) through digital information exchange channels 73 and an exchange module with centralized control devices (supporting systems) 74.

Option 30. Differs from option 1 as follows.

Information on the state of sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n is transmitted to external centralized control devices (supporting systems) through digital communication channels 73.

Option 31. Differs from option 1 as follows.

Periodically, according to commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workstation of operator 1 through respectively the first 16 and / or second 17 pairs of digital communication channels for connecting external devices centralized control (support systems), in series or in parallel for each peripheral communication subsystem January ₂₃ ÷ 23 _n is carried out gap control means sets those nical protection 72 parts of electrical connections from the ninth group of the motor drive outputs tokorazediniteley 30:

- organization of information exchange on digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n through the first set of external communications devices 20 between the first computer complex 3 of the automated workstation of operator 1 and sets of protective equipment 72 of the peripheral communication subsystems 23 ₁ ÷ 23 _n ;

- the organization of information exchange on digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n through the second set of external communication devices 21 between the second computer complex 4 from the automated workstation of operator 1 and sets of technical protection equipment 72 from the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 32. Differs from option 1 as follows.

The exchange of information between the operator’s workstation 1 and peripheral communication subsystems 23 ₁ ÷ 23 _{n is} carried out via digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n , 22 _2-1 ÷ 22 _2-n with channel amplification devices 75.

Option 33. No different from option 1.

Option 34. Differs from option 1 as follows.

When implementing algorithm 6, the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command issuing for the operation of the squibs, the main 39 and duplicating 40 power blocks of motor drives of current disconnectors from the composition of power supply devices 29 by feeding / removing discrete signals from the eighth outputs of the main 27 and duplicating 28 automation units from the control device 25.

Option 35. Differs from option 1 as follows.

When implementing algorithm 6, the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks for giving commands to actuate the squibs, the main 39 and duplicating 40 power blocks for motor drives of current disconnectors by feeding / removing discrete signals, respectively, are switched on / off in series or in parallel with seventh, sixth and fourth inputs and outputs of the main 31 and 32 duplicating switching units from the composition of power supply devices 29.

Option 36. No different from option 1.

Option 37. No different from option 1.

Option 38. No different from option 1.

Option 39. No different from option 1.

Option 40. No different from option 1.

Option 41. Differs from option 1 as follows.

Instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.), automatic verification devices 77 _i can be connected to ninth output groups and tenth input groups of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n performing including missile simulation functions (anti-missiles, torpedoes, guided missiles, launch containers, etc.).

Option 42. Differs from option 1 as follows.

Instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.), automatic verification devices 77 _i can be connected to ninth output groups and tenth input groups of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n performing including missile simulation functions (anti-missiles, torpedoes, guided missiles, launch containers, etc.).

Instead of the mating elements of a command-firing information-control system (for example, doors, hatches, protective devices, microclimate support devices, etc.) to the second output groups and third input groups of the main 27 and duplicating 28 automation units from the 25 peripheral control devices of the communication subsystems 23 ₁ ÷ 23 _n , devices of automatic checking 77 _i can be connected, including simulation functions of mating elements of a command-firing information-control system (for example, doors, hatches, protective devices, microclimate support devices, etc.).

Option 43. No different from option 1.

Option 44. No different from option 1.

Option 45. Differs from option 1 as follows.

The operator of the firing command and control information system has the ability to interact with the maintenance personnel of centralized control devices (supporting systems) using multichannel radiotelephone communications 78.

Option 46. Differs from option 1 as follows.

The operator of the command and firing information management system has the ability to carry out video surveillance:

- for firing command and control information system using a set of video surveillance 80;

- for peripheral communication subsystems 23 ₁ ÷ 23 _n , using video surveillance 81.

Main stage

Option 1. The preparatory phase of the command-firing information management system is completed. The firing command and control information system has been transferred from duty to the main stage of work on commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workstation of operator 1 through the first 16 and / or the second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems).

In accordance with the algorithm for the operation of the command-fire information-control system, automatically, under the control of the functional software of the command-fire information-control system:

- the formation of light and / or sound warning signals about the start of operations for the preparation and launch of missiles (missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , by issuing commands from the first 3 and / or second 4 computing complexes to respectively, the first 18 and / or second 19 sets of warning equipment from the automated workplace of the operator 1;

- synchronization of the time generated by the means of the first 3 and second 4 computing complexes, with the time formed, respectively, by the first 14 and second 15 base stations of the system of single time with remote antennas from the automated workstation of operator 1;

- synchronization of the operation of the main and backup computing systems by the organization of information exchange on the digital channel of the inter-machine exchange 5 between the first 3 and second 4 computing complexes;

- display of the content and results of the functional software of the command-firing information management system on the first 10 and second 11 monitors from the automated workstation of operator 1;

- documenting on paper the contents and results of the functional software of the firing command and control information system using the first 8 and second 9 documenting devices from the workstation of operator 1;

- preservation in the memory of the first 3 and second 4 computing systems from the automated workstation of the operator 1 content and the results of the functional software command-firing information management system;

- execution of other actions provided by the algorithm for the operation of the command-firing information management system, design, software, operational and other documentation.

In accordance with the algorithm of the operation of the command-firing information-control system according to commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workstation of operator 1 through the first 16 and / or second, respectively 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems), in series or in parallel (in series arallelno) for each peripheral communication subsystem January ₂₃ ÷ 23 _n, except in the state of autonomous control or selectively for one or more peripheral communication subsystem automatically, under control of a functional software command-purpose firing information management system (transceiving signals between the first 3 and / or second 4 computing complexes and the main 27 and duplicating 28 automation units from the control devices 25 through digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n and / or 22 _2-1 ÷ 22 _2-n ) is carried out:

a) synchronization of the work of the main 3 and / or backup 4 computing systems with the operation of external centralized control devices (supporting systems) by the exchange of information through the first 16 and / or second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems);

b) the use of light and sound signaling devices 24, for which, from the fourth groups of outputs of the main 27 and / or duplicating 28 automation units, the control devices 25 give discrete signals to the third groups of inputs, respectively, of the main 31 and / or duplicating 32 switching blocks from the device power supply 29, in which the switching elements are switched on, which ensures the appearance of discrete signals coming from the main 33 and / or duplicating 34 blocks of secondary power supplies or the main 41 and / or oak iruyuschih standby power unit 42, outputs to the eighth core 31 and / or redundant switching block 32 from the power supply device 29 and the input light and sound signaling devices 24;

c) transfer of motor drives of current disconnectors 30 from the composition of power supply devices 29 to a position in which fifth groups of outputs and sixth groups of inputs of main 27 and duplicating 28 automation units from control devices 25, second groups of outputs and first groups of inputs of main 31 and duplicating 32 blocks switching from the composition of power supply devices 29, respectively, are connected through ninth groups of outputs and tenth groups of inputs of motor drives of current disconnectors 30 with missiles (anti-missiles, torpedoes, control yaemymi missiles, launch canisters and the like) 45 ₁ 45 ÷ _n, for which:

- from the fourth groups of outputs of the main 27 and / or duplicating 28 automation units from the control device 25, discrete signals are output to the third groups of inputs, respectively, of the main 31 and / or duplicating 32 switching blocks from the power supply 29, in which the switching elements are triggered that ensures the transfer of control discrete signals to change the position of the motor drives of current disconnectors 30 from the main 39 and / or redundant 40 power supplies of motor drives of current disconnectors from the composition of power supply devices 29, arriving at the fourth inputs of the main 31 and / or duplicating 32 switching units, through the second groups of outputs of the main 31 and / or duplicating 32 switching units from the composition of power supply devices 29, respectively, to the eighth and / or twelfth groups of motor inputs current disconnector drives 30;

- checks the execution of the command to change the position of the motor drives of current disconnectors 30 from the composition of power supply devices 29, in which the fifth groups of outputs and sixth groups of inputs of the main 27 and duplicating 28 automation units from the control devices 25, the second groups of outputs and the first groups of inputs of the main 31 and duplicating 32 switching units from the composition of power supply devices 29, respectively, are connected through the ninth output groups and tenth groups of inputs of the motor drives of current disconnectors 3 0 with missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 45 ₁ ÷ 45 _n , for which, from the fifth groups of outputs of the main 27 and / or duplicating 28 automation units, discrete signals are issued from the control devices 25, respectively , to the first and / or sixth groups of inputs of motor drives of current disconnectors 30 with subsequent reading from the sixth groups of inputs of the main 27 and / or duplicating 28 automation units from the control devices 25 discrete signals coming from the second and / or heel, respectively x groups of outputs of motor drives of current disconnectors 30;

- verification of the correct connection of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 45 ₁ ÷ 45 _n is performed, for which discrete discrete are issued from control devices 25 from the fifth groups of outputs of the main 27 and / or duplicating 28 automation units signals, respectively, to the first and / or sixth groups of inputs and then from the ninth output groups of motor drives of current disconnectors 30 to missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 45 ₁ ÷ 45 _n , followed by reading from sixth groups odes of the main 27 and / or duplicating 28 automation units from the control devices 25 discrete signals coming from missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 45 ₁ ÷ 45 _n through, respectively, the second and / or fifth groups of outputs, tenth groups of inputs of motor drives of current disconnectors 30;

d) monitoring the current state of the mating elements of the command-firing information-control system 43 ₁ ÷ 43 _{n by} issuing from the second groups of outputs and reading from the third groups of inputs of the main 27 and / or duplicating 28 automation units from the control devices 25 of the peripheral communication subsystem 23 ₁ ÷ 23 _n discrete and / or analog signals;

e) input of initial data into the on-board equipment of missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , for which purpose from the fifth groups of outputs of the main 27 and / or duplicating 28 automation units from the control devices 25 through the first and / or sixth groups of inputs and ninth output groups of motor drives of current disconnectors 30 transmit signals to missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n ;

f) checking the correctness of input of initial data into the on-board equipment of missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _{n by} reading discrete signals arriving at the sixth groups of inputs of the main 27 and / or duplicating 28 automation units from the device control 25 from missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 45 ₁ ÷ 45 _n through, respectively, the second and / or fifth groups of outputs, tenth groups of inputs of motor drives of current disconnectors 30;

g) execution of missile preparation and launch operations (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , for which, in accordance with the training and launch sequence diagram, implemented as part of the functional software for command-and-fire information control system:

- from the fourth output groups of the main 27 and / or duplicating 28 automation units from the control device 25, discrete signals are issued / removed to / from the third (s) input groups / groups, respectively, of the main 31 and / or duplicating 32 blocks switching from the composition of power supply devices 29, in which switching elements are turned on / off, which ensures the appearance / disappearance of discrete and / or analog signals on board missiles (missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n drinking from the main 33 and / or duplicating 34 blocks of secondary power supplies, and / or from the main 35 and / or duplicating 36 blocks of submission of commands for triggering the squibs respectively through the seventh and sixth groups of inputs, the second groups of outputs of the main 31 and / or duplicating 32 blocks switching from the composition of power supply devices 29, eighth and twelfth groups of inputs, ninth output groups of motor drives of current disconnectors 30 from the composition of power supply devices 29;

- a fifth group 27 outputs the main and / or redundant automation units 28 from the control device 25 in the desired sequence are given / removable digital and / or analog signals to the missile (missile, torpedo, guided missiles and the like) 45 ₁ ÷ 45 _n, respectively, through the first and / or sixth groups of inputs, ninth output groups of motor drives of current disconnectors 30 from the composition of power supply devices 29;

- missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , depending on the signals coming from the ninth output groups of motor drives of current disconnectors 30 from the composition of power supply devices 29, and their technical condition, form discrete and / or analog signals supplied to the sixth groups of inputs of the main 27 and / or duplicating 28 automation units from the control devices 25 through the tenth groups of inputs, respectively the second and fifth groups of outputs of the motor drives of the current disconnectors 30 from the composition power supply devices 29;

- discrete and analog signals are read coming into the sixth group of inputs of the main 27 and / or duplicating 28 automation units from the control device 25;

h) performing other actions provided for by the algorithm for the operation of the command-firing information-control system, design, software, operational and other documentation.

The operator of the firing command and control information system in the dialogue mode “operator - computer complex” using the first 6 and second 7 keyboards has the ability to use the available functions and procedures of the system and / or functional software preinstalled on the first 3 and second 4 computer complexes, the first 8 and second 9 documentation devices, the first 10 and second 11 monitors, the first 12 and second 13 time reference modules, the first 14 and second 15 base stations of the single time system with remote antennas.

Option 2. It differs from option 1 as follows.

On the first 46 and second 47 digital displays from the operator’s automated workstation 1 according to the signals received respectively from the first 14 and second 15 base stations of the single time system with external antennas, the time is displayed synchronized with the scale of the State service of the single time and reference frequencies.

The operator of the firing command and control information system provides visual control of the time displayed on the first 46 and second 47 digital displays.

Option 3. Does not differ from option 1.

Option 4. Does not differ from option 1.

Option 5. Does not differ from option 1.

Option 6. Does not differ from option 1.

Option 7. Does not differ from option 1.

Option 8. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display of information about the command-firing information management system coming from the first 3 and second 4 computing complexes, respectively;

- displaying information about the state of the channels of information exchange between the first 51 and second 52 sets of means for displaying public information and, respectively, the first 3 and second 4 computing complexes.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 9. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display information about the command and firing information management system, respectively, coming from the first computing complex 3 through the first set of external communications devices 20 and from the second computing complex 4 through the second set of external communications devices 21;

- displaying information about the state of information exchange channels between the first 51 and second 52 sets of public information display means and, respectively, the first 20 and second 21 sets of external communications devices.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 10. No different from option 1.

Option 11. It differs from option 1 as follows.

The exchange of information between the first computer complex 3 of the automated workstation of operator 1 and external centralized control devices is carried out through the first exchange module 55 and the first pair of digital channels of information exchange for connecting external centralized control devices (supporting systems) 16.

The exchange of information between the second computer complex 4 of the automated workstation of the operator 1 and external centralized control devices is carried out through the second exchange module 56 and the second pair of digital information exchange channels for connecting external centralized control devices (supporting systems) 17.

The first 55 and second 56 exchange modules provide the organization of exchange of the first 3 and second 4 computing complexes, respectively, with external centralized control devices via serial interfaces.

Option 12. Differs from option 1 as follows.

The exchange of information between the first computing complex 3 of the automated workstation of the operator 1 and centralized control devices 57 is carried out through the first exchange module 55.

The exchange of information between the second computing complex 4 of the automated workstation of operator 1 and centralized control devices 57 is carried out through the second exchange module 56.

The first 55 and second 56 exchange modules provide the organization of exchange of the first 3 and second 4 computing complexes, respectively, with external centralized control devices via serial interfaces.

Option 13. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display information about the command-firing information management system, respectively, coming from the first computing complex 3 through the first exchange module 55 and from the second computing complex 4 through the second exchange module 56;

- displaying information about the state of information exchange channels between the first 51 and second 52 sets of public information display means and, respectively, the first 55 and second 56 exchange modules.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

The exchange of information between the first computing complex 3 of the automated workstation of the operator 1 and centralized control devices 57 is carried out through the first exchange module 55.

The exchange of information between the second computing complex 4 of the automated workstation of operator 1 and centralized control devices 57 is carried out through the second exchange module 56.

The first 55 and second 56 exchange modules provide the organization of exchange of the first 3 and second 4 computing complexes, respectively, with centralized control devices 57 via serial interfaces.

Option 14. Differs from option 1 as follows.

The content and results of the functional software of the firing command and control information system are displayed on the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the automated workstation of the operator 1.

The operator firing command and control information system for implementing the dialogue mode "operator - computer complex" can use the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the automated workstation of the operator 1.

Option 15. Differs from option 1 as follows.

The operator of the firing command and control information system uses the first keyboard 6 with trackball 60 and the second keyboard 7 with trackball 61 from the automated workstation of operator 1 to implement the operator-computer complex dialogue mode.

Option 16. Differs from option 1 as follows.

The first 62 and second 63 reserve base stations of the single time system are in the “hot” standby mode with respect to the first 14 and second 15 base stations of the single time system with remote antennas, respectively.

Option 17. Does not differ from option 1.

Option 18. Differs from option 1 as follows.

The first 62 and second 63 reserve base stations of the single time system are in the “hot” standby mode with respect to the first 14 and second 15 base stations of the single time system with remote antennas, respectively.

Option 19. Differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through the first set of external communications devices 20 from the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through the second set of external communications devices 21 from the emergency shutdown device of the peripheral communication subsystems 64.

Option 20. Differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 from the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 from the emergency shutdown device of the peripheral communication subsystems 64.

Option 21. It differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through the signal converter 65 and the first set of external communications devices 20 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through a signal converter 65 and a second set of external communications devices 21 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64.

Option 22. It differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through a signal converter 65 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through a signal converter 65 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64.

Option 23. No different from option 1.

Option 24. It differs from option 1 as follows.

In accordance with the functioning algorithm of the command-firing information-control system, automatically, under the control of the functional software of the power supply control unit 67, information is exchanged between the control unit of power supply 67 and emergency (standby) power supply from external centralized control devices (providing systems ) through wired communication lines with power supplies 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted:

- into the first computing complex 3 through the first set of external communications devices 20;

- into the second computing complex 4 through the second set of external communications devices 21.

Option 25. Differs from option 1 as follows.

In accordance with the functioning algorithm of the command-firing information-control system, automatically, under the control of the functional software of the power supply control unit 67, information is exchanged between the control unit of power supply 67 and emergency (standby) power supply from external centralized control devices (providing systems ) through wired communication lines with power supplies 66.

Information about the state of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted to the first 3 and second 4 computing complexes.

Option 26. Differs from option 1 as follows.

In accordance with the functioning algorithm of the command-firing information-control system, information is exchanged between the control unit for power supplies 67 and emergency (standby) power supplies from external centralized control devices (supporting systems) via wired communication lines with power supplies 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted:

- into the first computing complex 3 through a signal converter 68 and a first set of external communications devices 20;

- into the second computing complex 4 through a signal converter 68 and a second set of external communications devices 21.

Option 27. Differs from option 1 as follows.

In accordance with the functioning algorithm of the command-firing information-control system, information is exchanged between the control unit for power supplies 67 and emergency (standby) power supplies from external centralized control devices (supporting systems) via wired communication lines with power supplies 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted to the first 3 and second 4 computer systems via a signal converter 68.

Option 28. Differs from option 1 as follows.

According to commands from external centralized control devices (supporting systems) received through digital communication channels 73, sequentially and in parallel, for one or more peripheral communication subsystems 23 ₁ ÷ 23 _n , automatically, under the control of functional software of the third computing complex 70 (transceiver signals between the third computing complex 70 and sets of technical means of protection 72 through the third set of external communication devices 71 via digital channels of information exchange exchange with sets of technical protection equipment 69 _3-1 ÷ 69 _3-n ) connection is made by means of sets of technical protection equipment 72 parts of electrical connections from the ninth group of outputs of the motor drive of current disconnectors 30, which were previously broken.

Option 29. Differs from option 1 as follows.

According to commands from external centralized control devices (providing systems) coming through digital information exchange channels 73 and an exchange module with centralized control devices (supporting systems) 74, sequentially and in parallel, for one or more peripheral communication subsystems 23 ₁ ÷ 23 _n , automatically , under the control of the functional software of the third computing complex 70 (signal transceiver between the third computing complex 70 and sets of technical redstv protection 72 via a third set of external communication device 71 via digital traffic channels with sets of means protection _3-1 ÷ 69 69 _3-n) compound is carried out by means of technical protection kits 72 parts of electrical connections from the ninth group of outputs of the drive motor 30 tokorazediniteley that were previously torn.

Option 30. Differs from option 1 as follows.

According to commands from external centralized control devices (supporting systems), coming through digital communication channels 73, in series and in parallel, for one or several peripheral communication subsystems 23 ₁ ÷ 23 _n , 72 parts of electrical communications from the structure are connected by means of sets of technical means of protection the ninth group of outputs of the motor drive current disconnectors 30, which were previously broken.

Option 31. Differs from option 1 as follows.

According to commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workplace of operator 1 through respectively the first 16 and / or second 17 pairs of digital channels of information exchange for connecting external centralized control devices (support systems), in series or in parallel to one or more peripheral communication subsystem January ₂₃ ÷ 23 _n, the connection is by means sets techn FIR remedies 72 parts of electrical connections from the ninth group of outputs of the motor drive tokorazediniteley 30 that have been severed.

Option 32. Differs from option 1 as follows.

The exchange of information between the operator’s workstation 1 and peripheral communication subsystems 23 ₁ ÷ 23 _{n is} carried out via digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n , 22 _2-1 ÷ 22 _2-n with channel amplification devices 75.

Option 33. Differs from option 1 as follows.

In accordance with the algorithm of the operation of the command-firing information-control system according to commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workstation of operator 1 through the first 16 and / or second, respectively 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems), in series or in parallel (in series arallelno) for each peripheral communication subsystem January ₂₃ ÷ 23 _n, except in the state of autonomous control or selectively for one or more peripheral communication subsystem automatically, under control of a functional software command-purpose firing information management system (transceiving signals between the first 3 and / or second 4 computing complexes and the main 27 and duplicating 28 automation units from the control devices 25 through digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n and / or 22 _2-1 ÷ 22 _2-n ) is carried out:

a) data entry into the on-board equipment of missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , for which purpose from the seventh groups of inputs and outputs of the main 27 and / or duplicating 28 automation units from control devices 25 are transmitted signals to missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n ;

b) checking the correctness of data entry into the on-board equipment of missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _{n by} reading information coming into the seventh group of inputs and outputs of the main 27 and / or duplicating 28 automation units from the device control 25 from missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 45 ₁ ÷ 45 _n ;

c) execution of operations for the preparation and launch of missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , for which, in accordance with the training and launch sequence diagram, implemented as part of the functional software for command and firing information control system:

- including from the seventh groups of inputs and outputs of the main 27 and / or duplicating 28 automation units from the control devices 25, signals to missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n are transmitted in the necessary sequence;

- missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , depending on the signals received, including from the seventh groups of inputs and outputs of the main 27 and / or duplicating 28 automation units from the control devices 25 , and their technical condition, generate signals, including those coming to the seventh groups of inputs of the main 27 and / or duplicating 28 automation units from the control devices 25;

- the signals arriving at the seventh input-output groups of the main 27 and / or duplicating 28 automation units from the control unit 25 are read.

Option 34. Differs from option 1 as follows.

When performing missile preparation and launch operations (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , in accordance with the preparation and launch sequence, the main 33 and duplicate 34 blocks of secondary power sources, main 35 and duplicating 36 power supply units for triggering the igniter, the main 39 and duplicating 40 power supply units of the motor drives of current disconnectors from the power supply devices 29 by feeding / removing discrete signals from the eighth outputs of the main 27 and duplicating 2 8 automation units from control devices 25.

Option 35. Differs from option 1 as follows.

When performing missile preparation and launch operations (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , in accordance with the preparation and launch sequence, the main 33 and duplicate 34 blocks of secondary power sources, main 35 and duplicating 36 power supply units for triggering the squibs, the main 39 and 40 backup power supply units of the motor drives of current disconnectors by supplying / removing discrete signals from the seventh, sixth and fourth inputs-outputs of the main 31 and duplicate their switching units 32 from the power supply device 29.

Option 36. No different from option 1.

Option 37. No different from option 1.

Option 38. No different from option 1.

Option 39. No different from option 1.

Option 40. No different from option 1.

Option 41. Differs from option 1 as follows.

Instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.), automatic verification devices 77 _i can be connected to ninth output groups and tenth input groups of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n performing including missile simulation functions (anti-missiles, torpedoes, guided missiles, launch containers, etc.).

Option 42. Differs from option 1 as follows.

Instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.), automatic verification devices 77 _i can be connected to ninth output groups and tenth input groups of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n performing including missile simulation functions (anti-missiles, torpedoes, guided missiles, launch containers, etc.).

Instead of the mating elements of a command-firing information-control system (for example, doors, hatches, protective devices, microclimate support devices, etc.) to the second output groups and third input groups of the main 27 and duplicating 28 automation units from the 25 peripheral control devices of the communication subsystems 23 ₁ ÷ 23 _n , devices of automatic checking 77 _i can be connected, including simulation functions of mating elements of a command-firing information-control system (for example, doors, hatches, protective devices, microclimate support devices, etc.).

Option 43. No different from option 1.

Option 44. No different from option 1.

Option 45. Differs from option 1 as follows.

The operator of the firing command and control information system has the ability to interact with the maintenance personnel of centralized control devices (supporting systems) using multichannel radiotelephone communications 78.

Option 46. Differs from option 1 as follows.

The operator of the command and firing information management system has the ability to carry out video surveillance:

- for firing command and control information system using a set of video surveillance 80;

- for peripheral communication subsystems 23 ₁ ÷ 23 _n , using video surveillance 81.

Emergency phase

Option 1. At the preparatory, standby and main stages when functional software detects a firing command and control information system and / or operator signs of abnormal operation of external centralized control devices (supporting systems) and / or firing command and control information system and / or mating components purpose firing command and information management system ₁ 43 ÷ 43 _n and / or missiles (missiles, torpedoes, guided missiles and the like) 45 ₁ 45 ÷ _n, which adversely affect and safety of operation and / or intended use purpose firing command-information managing system or missiles (missiles, torpedoes, guided missiles and the like) 45 ₁ 45 ÷ _n, is carried out:

a) the termination of current operations, the implementation of actions to localize signs of abnormal work and changing the functioning of the command-firing information-control system and / or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , while :

- if localization is ensured by the reassignment of computer systems, then automatically, under the control of the functional software of the firing command and control information system, or by the operator manually, in the dialogue mode “operator - computer complex” using the first 6 or second 7 keyboards from the workstation operator 1, the reassignment of computer systems is carried out (the duplicate computer system is assigned as the main one, and the main computer ny complex - redundant);

- if localization is ensured by the termination of the algorithm for the operation of the firing command and control information system relative to one or more peripheral communication subsystems, then automatically, under the control of the functional software of the firing command and control information system, or by the operator manually, in the dialogue mode “operator - computing complex ”using the first 6 or second 7 keyboards from the workstation of operator 1, carried out etsya translation of the relevant peripheral communication subsystems in the state of autonomous control;

- if localization is provided by changing one or several digital channels of information exchange of the main computing complex with the main 27 and duplicating 28 automation units from the control devices of 25 peripheral communication subsystems, then automatically, under the control of the system and functional software of the firing command and control information system, Reconfiguration of digital channels of information exchange with peripheral communication subsystems - change of 22 _1-i channels to correspond vuyuschy February _22-i channel, or vice versa, and, if desired, remapping computer complexes (backup computer system assigned basic and primary computer system - duplicate);

- if localization is provided by changing the channels of information exchange of the main computing complex with external centralized control devices (providing systems), then automatically, under the control of the system and functional software of the command-firing information-control system, the digital channels of information exchange are reconfigured to connect external centralized control devices (supporting systems) - change of channels inside / between the first 16 il / 17 and the second steam / vapor digital traffic channels for external centralized management device (support systems) and, if desired, remapping computer complexes (backup computer system assigned basic and primary computer system - duplicate);

- if localization is provided by transferring one or several motor drives of current disconnectors 30 from the composition of power supply devices 29 to a position in which the fifth groups of outputs and sixth groups of inputs of the main 27 and duplicating 28 automation units from the composition of control devices 25, the second groups of outputs and the first groups of inputs of the main 31 and 32 duplicating switching units from the composition of power supply devices 29, respectively, are connected through the fourth groups of outputs and third groups of inputs of motor drives delimiters 30 with third groups of inputs and second groups of outputs of function check blocks 26 from the composition of control devices 25, for each of these drives: from the fourth groups of outputs of the main 27 and / or backup 28 automation units from the control device 25, discrete signals are output to the third groups inputs, respectively, of the main 31 and / or backup 32 switching units from the power supply device 29, in which the switching elements are triggered, which ensures the transfer of control discrete signals for changing the position (return to the initial position) of the motor drive of current disconnectors 30 from the main 39 and / or the backup 40 power supply units of the motor drive of the current disconnectors from the power supply device 29 supplied to the fourth inputs of the main 31 and / or duplicating 32 switching blocks, through the second groups of outputs of the main 31 and / or backup 32 switching units from the power supply device 29 to the eighth and / or twelfth groups of inputs of the motor drive of current disconnectors 30; algorithm 1 is executed; algorithm 3 is executed;

- if signs of an emergency were discovered during the preparation and launch of one or more missiles (missiles, torpedoes, guided missiles, etc.), in accordance with the cyclogram for the implementation of firing operations implemented as part of the functional software for command-fire information - a control system for each of these missiles (anti-missiles, torpedoes, guided missiles, etc.), from the fourth groups of outputs of the main 27 and / or duplicating 28 automation units from 25 of the necessary sequence, discrete signals are issued / removed to / from the third (s) input groups / groups, respectively, of the main 31 and / or duplicating 32 switching units from the power supply devices 29, in which the switching elements are turned on / off, which ensures discharge of sources supply of missiles (anti-missiles, torpedoes, guided missiles, etc.) through the tenth groups of inputs, the seventh and / or eleventh groups of outputs of the motor drives of current disconnectors 30, the first groups of inputs and the fifth groups of outputs of the basics 31 and / or duplicating 32 switching blocks to the main 37 and / or duplicating 38 discharge blocks from the composition of power supply devices 29;

- other actions are performed, as provided by the algorithm for the operation of the command-firing information-control system, design, software, operational and other documentation;

b) synchronization of the work of the main and backup computing systems by the organization of the exchange of information on the digital channel of the inter-machine exchange 5 between the first 3 and second 4 computing complexes;

c) synchronization of the work of the main 3 and / or backup 4 computing systems with the operation of external centralized control devices (supporting systems) by the exchange of information through the first 16 and / or second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems) ( at their serviceability);

d) monitoring the current state of the mating elements of the command-fire information-control system 43 ₁ ÷ 43 _{n by} issuing from the second groups of outputs and reading from the third groups of inputs of the main 27 and / or duplicating 28 automation units from the control devices 25 of the peripheral communication subsystem 23 ₁ ÷ 23 _n discrete and / or analog signals;

e) display of the content and results of the functional software of the firing command and control information system on the first 10 and second 11 monitors from the automated workstation of operator 1 (if they are in good condition);

f) documenting on paper the contents and results of the functional software of the firing command and control information system using the first 8 and second 9 documenting devices from the workstation of operator 1 (if they are in good condition);

g) storing in memory of the first 3 and second 4 computing systems from the automated workstation of operator 1 of the content and results of the functional software of the command-firing information-control system (if they are in good condition);

h) performing other actions provided by the algorithm for the operation of the command-firing information-control system, design, software, operational, repair and other documentation.

Option 2. Does not differ from option 1.

Option 3. It differs from option 1 as follows.

When the supply of electricity from external power supplies 49 is temporarily interrupted, consumers are fed from the operator’s automated workstation 1 through a second group of outputs from an uninterruptible power supply from the power distribution cabinet with an uninterruptible power supply 48.

Option 4. Differs from option 1 as follows.

When the supply of electricity from external power supplies 49 is temporarily interrupted, consumers are fed from the operator’s automated workstation 1 through a second group of outputs from an uninterruptible power supply from the power distribution cabinet with an uninterruptible power supply 48.

In accordance with the algorithm of the operation of the command-fire information-control system, automatically, under the control of the system or functional software of the command-fire information-control system, the technical condition and control of the operation of the energy distribution cabinet with an uninterruptible power supply 48 are exchanged:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 from the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and the first set of external communications devices 20;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and the second set of external communications devices 21.

Option 5. Differs from option 1 as follows.

When the supply of electricity from external power supplies 49 is temporarily interrupted, consumers are fed from the operator’s automated workstation 1 through a second group of outputs from an uninterruptible power supply from the power distribution cabinet with an uninterruptible power supply 48.

In accordance with the algorithm of the operation of the command-fire information-control system, automatically, under the control of the system or functional software of the command-fire information-control system, the technical condition and control of the operation of the energy distribution cabinet with an uninterruptible power supply 48 are exchanged:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48.

Option 6. Differs from option 1 as follows.

When the supply of electricity from external power supplies 49 is temporarily interrupted, consumers are fed from the operator’s automated workstation 1 through a second group of outputs from an uninterruptible power supply from the power distribution cabinet with an uninterruptible power supply 48.

In accordance with the algorithm of the operation of the command-fire information-control system, automatically, under the control of the system or functional software of the command-fire information-control system, the technical condition and control of the operation of the energy distribution cabinet with an uninterruptible power supply 48 are exchanged:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 (if it is in good condition) from the operator’s workstation 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48, signal converter 50 and the first set external communications devices 20;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 (if it is in good condition) from the operator’s workstation 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48, signal converter 50 and the second set external communications devices 21.

Option 7. It differs from option 1 as follows.

When the supply of electricity from external power supplies 49 is temporarily interrupted, consumers are fed from the operator’s automated workstation 1 through a second group of outputs from an uninterruptible power supply from the power distribution cabinet with an uninterruptible power supply 48.

In accordance with the algorithm of the operation of the command-fire information-control system, automatically, under the control of the system or functional software of the command-fire information-control system, the technical condition and control of the operation of the energy distribution cabinet with an uninterruptible power supply 48 are exchanged:

- between the energy distribution cabinet with uninterruptible power supply 48 and the first computing complex 3 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and signal converter 50;

- between the energy distribution cabinet with uninterruptible power supply 48 and the second computing complex 4 of the automated workstation of operator 1 through the third group of digital channels of information exchange of the energy distribution cabinet with uninterruptible power supply 48 and signal converter 50.

Option 8. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display of information about the command-firing information management system coming from the first 3 and second 4 computing complexes, respectively;

- displaying information about the state of the channels of information exchange between the first 51 and second 52 sets of means for displaying public information and, respectively, the first 3 and second 4 computing complexes.

In case of malfunctioning of the first 10 and / or second 11 monitors from the operator’s automated workstation 1, respectively, the first 51 and / or second 52 sets of public information display means can partially fulfill their functions.

In case of partial malfunctioning of the first 3 and / or second 4 computing complexes from the automated workstation of operator 1, respectively, the first 51 and / or second 52 sets of public information display means can partially fulfill their functions.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 9. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display information about the command and firing information management system, respectively, coming from the first computing complex 3 through the first set of external communications devices 20 and from the second computing complex 4 through the second set of external communications devices 21;

- displaying information about the state of information exchange channels between the first 51 and second 52 sets of public information display means and, respectively, the first 20 and second 21 sets of external communications devices.

In case of malfunctioning of the first 10 and / or second 11 monitors from the operator’s automated workstation 1, respectively, the first 51 and / or second 52 sets of public information display means can partially fulfill their functions.

In case of partial malfunctioning of the first 3 and / or second 4 computing complexes from the automated workstation of operator 1, respectively, the first 51 and / or second 52 sets of public information display means can partially fulfill their functions.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

Option 10. No different from option 1.

Option 11. It differs from option 1 as follows.

The exchange of information between the first computer complex 3 of the automated workstation of operator 1 and external centralized control devices is carried out through the first exchange module 55 and the first pair of digital channels of information exchange for connecting external centralized control devices (supporting systems) 16.

The exchange of information between the second computer complex 4 of the automated workstation of the operator 1 and external centralized control devices is carried out through the second exchange module 56 and the second pair of digital information exchange channels for connecting external centralized control devices (supporting systems) 17.

The first 55 and second 56 exchange modules provide the organization of exchange of the first 3 and second 4 computing complexes, respectively, with external centralized control devices via serial interfaces.

Option 12. Differs from option 1 as follows.

The exchange of information between the first computing complex 3 of the automated workstation of the operator 1 and centralized control devices 57 is carried out through the first exchange module 55.

The exchange of information between the second computing complex 4 of the automated workstation of operator 1 and centralized control devices 57 is carried out through the second exchange module 56.

The first 55 and second 56 exchange modules provide the organization of exchange of the first 3 and second 4 computing complexes, respectively, with external centralized control devices via serial interfaces.

Option 13. It differs from option 1 as follows.

On the screens of the first 51 and second 52 sets of means for displaying public information from the automated workplace of operator 1, the following occurs:

- display information about the command-firing information management system, respectively, coming from the first computing complex 3 through the first exchange module 55 and from the second computing complex 4 through the second exchange module 56;

- displaying information about the state of information exchange channels between the first 51 and second 52 sets of public information display means and, respectively, the first 55 and second 56 exchange modules.

The operator of the firing command and control information system performs visual control of the information displayed on the screens of the first 51 and second 52 sets of public information display facilities.

The exchange of information between the first computing complex 3 of the automated workstation of the operator 1 and centralized control devices 57 is carried out through the first exchange module 55.

The exchange of information between the second computing complex 4 of the automated workstation of operator 1 and centralized control devices 57 is carried out through the second exchange module 56.

The first 55 and second 56 exchange modules provide the organization of exchange of the first 3 and second 4 computing complexes, respectively, with centralized control devices 57 via serial interfaces.

Option 14. Differs from option 1 as follows.

The content and results of the functional software of the firing command and control information system are displayed on the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from the automated workstation of the operator 1.

The operator of the firing command and control information system for the implementation of the dialogue mode “operator - computer complex” and in case of a malfunction of the first 6 and second 7 keyboards can use the first monitor 10 with a touch screen 58 and the second monitor 11 with a touch screen 59 from an automated workstation operator's position 1.

Option 15. Differs from option 1 as follows.

The operator of the firing command and control information system uses the first keyboard 6 with trackball 60 and the second keyboard 7 with trackball 61 from the automated workstation of operator 1 to implement the operator-computer complex dialogue mode.

Option 16. Differs from option 1 as follows.

In case of malfunction of the first 14 and / or second 15 base stations of the single time system with remote antennas, their functions are ensured by the first 62 and / or second 63 reserve base stations of the single time system, which were previously in the “hot” reserve mode.

Option 17. It differs from option 1 as follows.

If the first base station of a single time system with a remote antenna 14 is inoperative, data on a time scale synchronized with the scale of the State Service for Single Time and Reference Frequencies arrives at the first computing complex 3 through the first time reference module 12 from a second base station of a single time system with a remote antenna 15.

If the second base station of the single time system with a remote antenna 15 is inoperative, the data on the time scale synchronized with the scale of the State Service for Single Time and Reference Frequencies enters the second computing complex 4 through the second time reference module 13 from the first base station of the single time system with remote antenna 14.

Option 18. Differs from option 1 as follows.

In case of malfunction of the first 14 and / or second 15 base stations of the single time system with remote antennas, their functions are ensured by the first 62 and / or second 63 reserve base stations of the single time system, which were previously in the “hot” reserve mode.

If the first base station of the single time system with a remote antenna 14 and the first standby base station of the single time system 62 are inoperative, the data on the time scale synchronized with the scale of the State Service for Single Time and Reference Frequencies enters the first computing complex 3 through the first time reference module 12 from a second base station of a single time system with a remote antenna 15 or a second backup base station of a single time system 63.

If the second base station of the single time system with a remote antenna 15 and the second backup base station of the single time system 63 are inoperative, 63 the data on the time scale synchronized with the scale of the State service of the single time and reference frequencies is transmitted to the second computing complex 4 through the second time reference module 13 from the first base station of the single time system with a remote antenna 14 or the first backup base station of the single time system 62.

Option 19. Differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through the first set of external communications devices 20 from the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through the second set of external communications devices 21 from the emergency shutdown device of the peripheral communication subsystems 64.

The operator of the command-fire information-control system when detecting signs of abnormal operation of external centralized control devices (supporting systems) and / or the command-fire information-control system and / or the mating elements of the command-fire information-control system 43 ₁ ÷ 43 _n and / or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , which adversely affect the safety of operation and / or the intended use of a command-firing information control system or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , has the ability to affect the controls of the emergency shutdown device of the peripheral communication subsystems 64, resulting in information from the outputs of the emergency shutdown device of the peripheral communication subsystems 64 about the need for emergency shutdown of peripheral communication subsystems 23 ₁ ÷ 23 _n comes:

- into the first computing complex 3 through the first set of external communications devices 20;

- into the second computing complex 4 through the second set of external communications devices 21.

Option 20. Differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 from the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 from the emergency shutdown device of the peripheral communication subsystems 64.

The operator of the command-fire information-control system when detecting signs of abnormal operation of external centralized control devices (supporting systems) and / or the command-fire information-control system and / or the mating elements of the command-fire information-control system 43 ₁ ÷ 43 _n and / or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , which adversely affect the safety of operation and / or the intended use of a command-firing information control system or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , has the ability to affect the controls of the emergency shutdown device of the peripheral communication subsystems 64, resulting in information from the outputs of the emergency shutdown device of the peripheral communication subsystems 64 about the need for emergency shutdown of peripheral communication subsystems 23 ₁ ÷ 23 _n goes to the first 3 and second 4 computing complexes.

Option 21. It differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through the signal converter 65 and the first set of external communications devices 20 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through a signal converter 65 and a second set of external communications devices 21 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64.

The operator of the command-fire information-control system when detecting signs of abnormal operation of external centralized control devices (supporting systems) and / or the command-fire information-control system and / or the mating elements of the command-fire information-control system 43 ₁ ÷ 43 _n and / or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , which adversely affect the safety of operation and / or the intended use of a command-firing information control system or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , has the ability to affect the controls of the emergency shutdown device of the peripheral communication subsystems 64, resulting in information from the outputs of the emergency shutdown device of the peripheral communication subsystems 64 about the need for emergency shutdown of peripheral communication subsystems 23 ₁ ÷ 23 _n comes:

- into the first computing complex 3 through a signal converter 65 and a first set of external communications devices 20;

- into the second computing complex 4 through a signal converter 65 and a second set of external communications devices 21.

The signal Converter 65 provides the pairing of the emergency shutdown device of the peripheral communication subsystems 64 with the work of the first 20 and second 21 sets of external communications devices.

Option 22. It differs from option 1 as follows.

In accordance with the algorithm for the operation of the command-firing information-control system, automatically, under the control of the functional software of the command-firing information-control system, the absence of information on the need for emergency shutdown of the peripheral communication subsystems is controlled 23 ₁ ÷ 23 _n :

- arriving at the first computing complex 3 through a signal converter 65 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64;

- arriving at the second computing complex 4 through a signal converter 65 from the outputs of the emergency shutdown device of the peripheral communication subsystems 64.

The operator of the command-fire information-control system when detecting signs of abnormal operation of external centralized control devices (supporting systems) and / or the command-fire information-control system and / or the mating elements of the command-fire information-control system 43 ₁ ÷ 43 _n and / or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , which adversely affect the safety of operation and / or the intended use of a command-firing information control system or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n , has the ability to affect the controls of the emergency shutdown device of the peripheral communication subsystems 64, resulting in information from the outputs of the emergency shutdown device of the peripheral communication subsystems 64 about the need for emergency shutdown of peripheral communication subsystems 23 ₁ ÷ 23 _n enters the first 3 and second 4 computing complexes through a signal converter 65.

The signal Converter 65 provides the pairing of the emergency shutdown device of the peripheral communication subsystems 64 with the work of the first 3 and second 4 computing complexes.

Option 23. No different from option 1.

Option 24. It differs from option 1 as follows.

In the event of a temporary interruption in the supply of electricity from regular power sources from external centralized control devices (supporting systems) in accordance with the algorithm of the command-firing information-control system using the power supply control unit 67, the emergency (backup) power supply is started and controlled from the composition of external centralized control devices (supporting systems) through wired communication lines from the facility and power supply 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted:

- into the first computing complex 3 through the first set of external communications devices 20;

- into the second computing complex 4 through the second set of external communications devices 21.

The signal Converter 65 provides the pairing of the emergency shutdown device of the peripheral communication subsystems 64 with the work of the first 20 and second 21 sets of external communications devices.

Option 25. Differs from option 1 as follows.

In the event of a temporary interruption in the supply of electricity from regular power sources from external centralized control devices (supporting systems) in accordance with the algorithm of the command-firing information-control system using the power supply control unit 67, the emergency (backup) power supply is started and controlled from the composition of external centralized control devices (supporting systems) through wired communication lines from the facility power supply 66.

Information about the state of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted to the first 3 and second 4 computing complexes.

Option 26. Differs from option 1 as follows.

In the event of a temporary interruption in the supply of electricity from regular power sources from external centralized control devices (supporting systems) in accordance with the algorithm of the command-firing information-control system using the power supply control unit 67, the emergency (backup) power supply is started and controlled from the composition of external centralized control devices (supporting systems) through wired communication lines from the facility power supply 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted:

- into the first computing complex 3 through a signal converter 68 and a first set of external communications devices 20;

- into the second computing complex 4 through a signal converter 68 and a second set of external communications devices 21.

The signal converter 68 provides the pairing of the operation of the power supply control unit 67 with the operation of the first 20 and second 21 sets of external communications devices.

Option 27. Differs from option 1 as follows.

In the event of a temporary interruption in the supply of electricity from regular power sources from external centralized control devices (supporting systems) in accordance with the algorithm of the command-firing information-control system using the power supply control unit 67, the emergency (backup) power supply is started and controlled from the composition of external centralized control devices (supporting systems) through wired communication lines from the facility power supply 66.

Information about the status of emergency (standby) power supplies from the composition of external centralized control devices (supporting systems) from the power supply control unit 67 is transmitted to the first 3 and second 4 computer systems via a signal converter 68.

The signal converter 68 provides the pairing of the operation of the power supply control unit 67 with the operation of the first 3 and second 4 computing complexes.

Option 28. Differs from option 1 as follows.

According to commands from external centralized control devices (supporting systems) received through digital communication channels 73, sequentially and in parallel, for one or more peripheral communication subsystems 23 ₁ ÷ 23 _n , automatically, under the control of functional software of the third computing complex 70 (transceiver signals between the third computing complex 70 and sets of technical means of protection 72 through the third set of external communication devices 71 via digital channels of information exchange exchange with sets of technical means of protection 69 _3-1 ÷ 69 _3-n ) a break is made by means of sets of technical means of protection 72 parts of electrical connections from the ninth group of outputs of the motor drive of current disconnectors 30, which were previously connected.

Information about the state of sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n from the third computer complex 70 is transmitted to external centralized control devices (supporting systems) through digital communication channels 73.

Option 29. Differs from option 1 as follows.

According to commands from external centralized control devices (providing systems) coming through digital information exchange channels 73 and an exchange module with centralized control devices (supporting systems) 74, sequentially and in parallel, for one or more peripheral communication subsystems 23 ₁ ÷ 23 _n , automatically , under the control of the functional software of the third computing complex 70 (signal transceiver between the third computing complex 70 and sets of technical redstv protection 72 via a third set of external communication device 71 via digital traffic channels with sets of means protection _3-1 ÷ 69 69 _3-n) is carried out by means of a gap protection means sets the technical part of the electrical connections 72 from the ninth group of outputs of the drive motor 30 tokorazediniteley that were previously connected.

Information about the state of sets of technical protection equipment 72 from the composition of peripheral communication subsystems 23 ₁ ÷ 23 _n from the third computer complex 70 is transmitted to external centralized control devices (supporting systems) through digital information exchange channels 73 and an exchange module with centralized control devices (supporting systems) 74.

Option 30. Differs from option 1 as follows.

According to commands from external centralized control devices (supporting systems), coming through digital data exchange channels 73, sequentially and in parallel, for one or several peripheral communication subsystems 23 ₁ ÷ 23 _n , a break is made by means of sets of technical means of protection 72 parts of electrical communications from the ninth group of outputs of the motor drive current disconnectors 30, which were previously connected.

Option 31. Differs from option 1 as follows.

According to commands from external centralized control devices (supporting systems) entering the first 3 and / or second 4 computer systems from the automated workplace of operator 1 through respectively the first 16 and / or second 17 pairs of digital channels of information exchange for connecting external centralized control devices (supporting systems), in series or in parallel, for one or more peripheral communication subsystems 23 ₁ ÷ 23 _n , a break is carried out by means of sets of technical protective equipment 72 parts of electrical connections from the ninth group of outputs of the motor drive of current disconnectors 30, which were previously connected.

Option 32. Differs from option 1 as follows.

The exchange of information between the operator’s workstation 1 and peripheral communication subsystems 23 ₁ ÷ 23 _{n is} carried out via digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n , 22 _2-1 ÷ 22 _2-n with channel amplification devices 75.

Option 33. No different from option 1.

Option 34. Differs from option 1 as follows.

If signs of an abnormal situation are detected during operations to prepare and launch one or more missiles (anti-missiles, torpedoes, guided missiles, etc.), in accordance with the sequence of operations, the main 33 and duplicate 34 blocks of secondary power supplies are turned off , main 35 and duplicating 36 power supply units for triggering the squibs, main 39 and duplicating 40 power supply units of motor drives of current disconnectors from the composition of power supply devices 29 are discrete x signals from the eighth outputs of the main 27 and duplicating 28 automation units from the corresponding control devices 25.

Option 35. Differs from option 1 as follows.

If signs of an abnormal situation are detected during operations to prepare and launch one or more missiles (anti-missiles, torpedoes, guided missiles, etc.), in accordance with the sequence of operations, the main 33 and duplicate 34 blocks of secondary power supplies are turned off , the main 35 and duplicating 36 power supply units for triggering the igniter, the main 39 and duplicating 40 power supply units of the motor drives of current disconnectors by removing discrete signals from the seventh, respectively grained and fourth input-output core 31 and 32 duplicate the switching units from the respective power devices 29.

Option 36. No different from option 1.

Option 37. No different from option 1.

Option 38. Differs from option 1 as follows.

During abnormal operation of a command-firing information-control system and / or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n, it is possible to stop the supply of electricity from external power sources 44 ₁ ÷ 44 _n to the inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for triggering the igniter, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors, the main 41 and duplicating 42 blocks of standby electric reading from the composition of power supply devices 29 peripheral communication subsystems 23 ₁ ÷ 23 _n . The power supply is interrupted by signals supplied to voltage switching blocks 76 via digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n and / or 22 _2-1 ÷ 22 _2-n .

Option 39. Differs from option 1 as follows.

During abnormal operation of a command-firing information-control system and / or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n, it is possible to stop the supply of electricity from external power sources 44 ₁ ÷ 44 _n to the inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for the operation of the igniter, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors from the power supply devices of 29 peripheral communication systems 23 ₁ ÷ 23 _n . The power supply is interrupted by signals supplied to voltage switching units 76 through digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n and / or 22 _2-1 ÷ 22 _2-n .

Option 40. Differs from option 1 as follows.

During abnormal operation of a command-firing information-control system and / or missiles (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n, it is possible to stop the supply of electricity from external power sources 44 ₁ ÷ 44 _n to the inputs of the main 33 and duplicating 34 blocks of secondary power supplies, the main 35 and duplicating 36 blocks of command for the operation of the igniter, the main 39 and duplicating 40 power supplies of motor drives of current disconnectors from the power supply devices of 29 peripheral communication systems 23 ₁ ÷ 23 _n . The power supply is interrupted by signals supplied to voltage switching units 76 from the ninth outputs of the main 27 and / or duplicating 28 automation units from the control devices 25 of the peripheral communication subsystems 23 ₁ ÷ 23 _n .

Option 41. Differs from option 1 as follows.

Instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.), automatic verification devices 77 _i can be connected to ninth output groups and tenth input groups of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n performing including missile malfunction simulation functions (anti-missiles, torpedoes, guided missiles, launch containers, etc.).

Option 42. Differs from option 1 as follows.

Instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.), automatic verification devices 77 _i can be connected to ninth output groups and tenth input groups of motor drives of current disconnectors 30 from the composition of power supply devices 29 of peripheral communication subsystems 23 ₁ ÷ 23 _n performing including missile malfunction simulation functions (anti-missiles, torpedoes, guided missiles, launch containers, etc.).

Instead of the mating elements of a command-firing information-control system (for example, doors, hatches, protective devices, microclimate support devices, etc.) to the second output groups and third input groups of the main 27 and duplicating 28 automation units from the 25 peripheral control devices of the communication subsystems 23 ₁ ÷ 23 _n , devices of automatic checking 77 _i can be connected, including functions for simulating faults in mating elements of a command-firing information-control system (for example, doors, hatches, protective devices, microclimate support devices, etc.).

Option 43. No different from option 1.

Option 44. No different from option 1.

Option 45. Differs from option 1 as follows.

The operator of the firing command and control information system has the ability to interact with the maintenance personnel of centralized control devices (supporting systems) using multichannel radiotelephone communications 78.

Option 46. Differs from option 1 as follows.

The operator of the command and firing information management system has the ability to carry out video surveillance:

- for firing command and control information system using a set of video surveillance 80;

- for peripheral communication subsystems 23 ₁ ÷ 23 _n , using video surveillance 81.

Maintenance Phase

Options 1-40, 45, 46. To check the technical condition and ensure maintenance of the firing command and control information system are carried out for the entire device or its individual elements in a different sequence of actions, corresponding to the preparatory, duty, main and emergency stages of the command firing information management system, as well as other actions provided by the algorithm of functioning of the command and firing information management system, to design, software, operational, repair and other documentation. It is allowed:

- to the motor drives of current disconnectors 30 power supply devices 29 through the tenth group of inputs and the ninth group of outputs to connect instead of missiles (missiles, torpedoes, guided missiles, launch containers, etc.) their functional simulators;

- to the first computing complex 3 of the automated workstation of operator 1 using digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _1-n instead of peripheral communication subsystems 23 ₁ ÷ 23 _n, connect their functional simulators, and to the second computing complex 4 of the automated workstation of operator 1 using digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n instead of peripheral communication subsystems 23 ₁ ÷ 23 _n their functional e imitators;

- connect the first computer complex 3 of the automated workstation of operator 1 instead of the first pair of digital channels of information exchange for connecting external centralized control devices (supporting systems) 16 and external centralized control devices (supporting systems) their functional simulators, and to the second computer complex 4 from the structure of the operator’s workstation 1 to connect instead of the second pair of digital channels of information exchange for connecting views of external centralized control devices (supporting systems) 17 and external centralized control devices (supporting systems) their functional simulators;

- connect to the main 27 and duplicate 28 automation units of control devices 25 through the second groups of outputs and third groups of inputs to connect instead of the mating elements of the command-firing information-control system (for example, doors, hatches, security devices, microclimate support devices, etc.) their functional imitators;

- to the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as function test units 26 from the control devices 25, instead of the first computing complex 3 and / or the second computing complex 4 from the automated workstation of operator 1, connect their functional simulators;

- by means of access restriction 2, ensuring access for maintenance personnel to the components located inside the operator’s automated workstation 1 by opening doors (sashes, hatches, etc.).

Option 41. Differs from option 1 as follows.

It is allowed to motor drives of current disconnectors 30 from the composition of power supply devices of 29 peripheral communication subsystems 23 ₁ ÷ 23 _n through tenth groups of inputs and ninth groups of outputs to connect automatic check devices instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 77 _i .

Option 42. Differs from option 1 as follows.

It is allowed to motor drives of current disconnectors 30 from the composition of power supply devices of 29 peripheral communication subsystems 23 ₁ ÷ 23 _n through tenth groups of inputs and ninth groups of outputs to connect automatic check devices instead of missiles (anti-missiles, torpedoes, guided missiles, launch containers, etc.) 77 _i .

It is allowed to main 27 and duplicating 28 automation units from control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _n through the second groups of outputs and third groups of inputs to connect instead of the mating elements of the command-firing information-control system (for example, doors, hatches, protective devices , climate control devices, etc.) automatic check devices 77 _i .

Option 43. Differs from option 1 as follows.

It is allowed to the first groups of inputs and outputs of the main 27 and duplicating 28 automation units, as well as function test blocks 26 from the control devices 25 peripheral communication subsystems 23 ₁ ÷ 23 _{n to} connect instead of the first computing complex 3 and / or the second computing complex 4 from the automated operator’s workstation 1 automatic verification device 77 _i .

Option 44. Differs from option 1 as follows.

It is allowed to the first computer complex 3 from the automated workstation of operator 1 using digital channels of information exchange with peripheral communication subsystems 22 _1-1 ÷ 22 _{1-n to} connect instead of peripheral communication subsystems 23 ₁ ÷ 23 _n automatic checking devices 77 _i , and the second computing complex 4 of the automated workstation of operator 1 using digital channels of information exchange with peripheral communication subsystems 22 _2-1 ÷ 22 _2-n instead of peripheral communication subsystems 23 ₁ ÷ 23 _n automatic checking devices 77 _i .

Options 45, 46. Do not differ from option 1.

At all stages of the work, the interaction of the device or operator with the supporting systems can be duplicated through specialized and unified digital, radio relay, television, telegraph, telephone, sound, voice, etc. channels of information exchange with supporting systems.

Accurate time synchronization of missile preparation and launch operations (anti-missiles, torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _n with the operation of supporting systems, as well as precise fulfillment of the time schedule for prelaunch and launch - missile preparation and launch cyclograms (anti-missile , torpedoes, guided missiles, etc.) 45 ₁ ÷ 45 _{n are} carried out by synchronizing the time generated by the first 3 and second 4 computing complexes with the time formed by the base stations of the system antennas from the operator’s automated workstation 1. Base stations of a single time system with remote antennas from the operator’s automated workstation 1 formulate and store long-term time scales synchronized with the scale of the State service of uniform time and reference frequencies, which, in turn, , the time scale of the supporting systems is synchronized.

The first 12 and second 13 time binding modules receive and process external interrupts in accordance with the specified polarity and the mask of interrupts received respectively from the first computer complex 3 and the first base station of the single time system with remote antenna 14, from the second computer complex 4 and the second base stations of a single time system with a remote antenna 15.

The first 20 and second 21 sets of external communication devices provide the connection to the first computing complex 3 and the second computing complex 4 external subscribers (peripheral communication subsystems 23 ₁ ÷ 23 _n ) via serial interfaces. Each of the external communication devices may consist of several external communication panels, each of which is connected by digital channels of information exchange with the corresponding computing complex and several external subscribers (peripheral communication subsystems).

This device compared to the prototype with respect to missiles (missiles, torpedoes, guided missiles, etc.) allows you to:

- organize parallel time-synchronized operation of peripheral communication subsystems; receive flight mission data, preparation and launch commands, information about launch time and signals to unlock protection against unauthorized launch from supporting systems during the on-duty and / or missile preparation and launch operations (anti-missiles, torpedoes, guided missiles, etc.) .); to carry out visual control of the current time (maternity, astronomical, relative, etc.) and the state of the firing command and control information system; organize the exchange of information between the operator’s workstation and peripheral communication subsystems in case of their remote relative position; to provide the ability to remotely control the means of supplying power to peripheral communication subsystems; organize the exchange of information between the operator of the firing command and control information system and the maintenance personnel of the supporting systems, which extends the functionality of the device;

- implement security systems that provide protection against unauthorized missile launches (anti-missiles, torpedoes, guided missiles, etc.); to provide the operator of the command and firing information and control system with visual control over the current state of the device, the mating elements of the command and firing information and control system and missiles (anti-missile, torpedoes, guided missiles, etc.); provide the possibility of an emergency interruption of missile preparation and launch operations (anti-missiles, torpedoes, guided missiles, etc.), which increases the safety of the device;

- provide synchronization of the work of computer systems from the automated workplace of the operator; to prevent interruptions in the supply of electricity to the components of the operator’s automated workstation and firing command and control information system; use various means of ensuring the dialogue mode "operator-computer complex"; reserve the means of formation and long-term storage of the time scale; provide identification and operational control of the technical condition of the device, the mating elements of the command-fire information-control system and missiles (anti-missiles, torpedoes, guided missiles, etc.) from the supporting systems, which increases the reliability and fault tolerance of the device.

The use of the invention in armaments and military equipment allows us to successfully carry out combat missions (for example, hitting targets or delivering warheads to a certain point in space), which directly depend on the time (maternity, astronomical, relative, etc.) of the preparation and launch operations one and / or a group of missiles (anti-missiles, torpedoes, guided missiles, etc.), reliable and safe operation of the components of a command-firing information-control system.

Claims (46)

1. A firing command and control information system containing an operator’s workstation equipped with two computer systems, two keyboards, two documentation devices, two monitors and two base stations of a single time system with remote antennas, digital communication channels with peripheral communication subsystems in at least two times the number of missiles, anti-missiles, torpedoes, guided missiles being prepared for launch, and peripheral missiles communication systems according to the number of missiles, anti-missiles, torpedoes, guided missiles being prepared for launch, with control devices included in them, consisting of a function check unit, main and backup automation units, and power supply devices, consisting of a motor drive of current disconnectors, main and backup units switching, the main and backup blocks of secondary power supplies, the main and backup blocks of the command for the operation of the igniter, the main and duplicating its discharge blocks, the main and backup power supplies of the motor drive of current disconnectors, the main and backup power supply standby units, characterized in that at least one digital inter-machine exchange channel is added to the operator’s automated workstation for each computer complex one time binding module, a pair of digital information exchange channels for connecting external centralized control devices, providing systems, one set of warning devices and one set of external communications devices, a set of light-sound signaling devices to each peripheral communication subsystem, while the computer systems from the operator’s workstation are interconnected by a digital inter-machine communication channel, to each computer complex from the automated worker operator’s places using digital channels of information exchange connected keyboard, documentation device, monitor, bases the first station of a single time system with a remote antenna - through a time binding module, centralized control devices, supporting systems - through a pair of digital information exchange channels for connecting external centralized control devices that provide systems, a set of warning devices and the first groups of inputs and outputs of the main and backup units automation, as well as function check units from the composition of control devices of peripheral communication subsystems - through a set of external communication devices and digital channels of information exchange with peripheral communication subsystems, each control device from the composition of peripheral communication subsystems through the second groups of outputs and third groups of inputs of the main and backup automation units is connected to the mating elements of the firing command and control information system, fourth groups of outputs of the main and backup units automation - respectively, to the third groups of inputs of the main and backup switching units from the power supply device, the fifth group s of outputs and sixth groups of inputs of the main and backup automation units - respectively to the first and sixth groups of inputs and the second and fifth groups of outputs of the motor drive of current disconnectors from the power supply device, the second group of outputs and the third group of inputs of the function check unit - respectively, to the third group of inputs and the fourth group of outputs of the motor drive of current disconnectors from the power supply device, each power device from the peripheral communication subsystems through the inputs of the primary and backup units of secondary power supplies, the primary and backup units for commanding the igniter, the primary and backup units of the power drive of the current disconnectors, the primary and backup units of the standby power supply, are connected to an external power source, the ninth group of outputs and the tenth group of inputs of the motor drive current disconnectors - to a missile, anti-missile, torpedo, guided missile, launch container, eighth exits of the main and oak lirovannyh switching units - to a set of light and sound signaling devices, in each power supply device from the peripheral communication subsystems, the outputs of the main and backup standby power supply units are connected to electricity consumers from the power supply and control devices, the outputs of the main and backup standby power supply units are connected to consumers from the device power supply and control, outputs of the main and backup power supplies of the motor drive the main, and the backup blocks of the command for operating the igniter, the main and backup blocks of the secondary power supplies are connected respectively to the fourth inputs, the sixth and seventh groups of inputs of the main and backup blocks of switching, the fifth output groups of which are connected to the inputs of the main and backup blocks of the discharge, the second output groups - to the eighth and twelfth groups of inputs of the motor drive of current disconnectors, the first groups of inputs and second groups of outputs - respectively to the seventh and one the eleventh output group and the eighth and twelfth input group of the motor drive current disconnectors. 2. A firing command and control information system according to claim 1, characterized in that it additionally includes two digital time displays in the operator’s workstation, and a digital time display is connected to each base station of the single time system with a remote antenna. 3. The firing command and control information system according to claim 1, characterized in that it further includes an energy distribution cabinet with an uninterruptible power supply, while the first group of inputs has an energy distribution cabinet with an uninterruptible power supply connected to external power sources, the second group outputs - to electricity consumers, which are part of the operator’s automated workstation. 4. The firing command and control information system according to claim 1, characterized in that it further includes an energy distribution cabinet with an uninterruptible power supply, while the first group of inputs has an energy distribution cabinet with an uninterruptible power supply connected to external power sources, the second group outputs - to electricity consumers, which are part of the operator’s automated workstation, by the third group of digital information exchange channels through sets of external communications devices - to computer systems from the operator’s workstation. 5. The firing command and control information system according to claim 1, characterized in that an energy distribution cabinet with an uninterruptible power supply is additionally introduced into it, while the first group of inputs has an energy distribution cabinet with an uninterruptible power supply connected to external power sources, the second group outputs - to electricity consumers, which are part of the operator’s automated workstation, by the third group of digital channels of information exchange - to computer complexes from a automated workplace of the operator. 6. A firing command and control information system according to claim 1, characterized in that it additionally includes an energy distribution cabinet with an uninterruptible power supply, at least one signal converter in the operator’s workstation, the first group of inputs being a distribution cabinet energy with an uninterruptible power supply connected to external power sources, the second group of outputs - to electricity consumers, which are part of the operator’s workstation, t a group of inputs and outputs through a signal converter and sets of external communication devices using digital channels of information exchange - to computer systems from the operator’s workstation. 7. A firing command and control information system according to claim 1, characterized in that it further includes an energy distribution cabinet with an uninterruptible power supply, at least one signal converter in the operator’s workstation, the first group of inputs being a distribution cabinet energy with an uninterruptible power supply connected to external power sources, the second group of outputs - to electricity consumers, which are part of the operator’s workstation, t by a group of inputs and outputs through a signal converter using digital channels of information exchange - to computer systems from the operator’s automated workstation. 8. The firing command and control information system according to claim 1, characterized in that two sets of public information display means are additionally introduced into the operator’s automated workstation into it, while to each computing complex from the operator’s automated workstation using digital information exchange channels a set of public information display tools is connected. 9. The firing command and control information system according to claim 1, characterized in that two sets of public information display means are additionally introduced into the operator’s workstation into it, and to each computer complex from the operator’s workstation using digital channels of information exchange through sets of external communication devices connected a set of means for displaying public information. 10. The firing command and control information system according to claim 1, characterized in that two modules of serial channels are additionally introduced into the operator’s automated workstation into it, and to each computing complex from the operator’s automated workstation using digital information exchange channels connected the first groups of inputs and outputs of the main and backup automation units, as well as function check units from the control devices of the peripheral communication subsystems - h Through a module of serial channels, a set of external communication devices and digital channels of information exchange with peripheral communication subsystems. 11. The firing command and control information system according to claim 1, characterized in that two exchange modules are additionally introduced into the operator’s automated workstation into it, while each computing complex from the operator’s automated workstation is connected via digital data exchange channels centralized control devices providing systems - through an exchange module and a pair of digital information exchange channels for connecting external centralized control devices tions, supporting systems. 12. The firing command and control information system according to claim 1, characterized in that two exchange modules are additionally introduced into the operator’s automated workstation into it, while each computer complex from the operator’s automated workstation is connected via digital data exchange channels centralized control devices providing systems through the exchange module. 13. A firing command and control information system according to claim 1, characterized in that two exchange modules and two sets of public information display devices are additionally introduced into the operator’s automated workstation, with each computer complex comprising an automated workstation operator using digital channels of information exchange connected centralized control devices that provide systems - through the exchange module and a pair of digital channels of information about ene for external centralized management of devices, support systems, a set of visual display public information - through the exchange unit. 14. Command and firing information management system according to claim 1, characterized in that the operator’s workstation is equipped with two monitors with touch screens. 15. Command-firing information management system according to claim 1, characterized in that the operator’s workstation is equipped with two keyboards with a trackball. 16. The firing command and control information system according to claim 1, characterized in that two redundant base stations of the single time system are additionally introduced into the operator’s workstation into it, while to each computer complex from the operator’s automated workstation using digital channels of information exchange connected to a base station of a single time system with a remote antenna and a backup base station of a single time system through a time binding module. 17. The firing command and control information system according to claim 1, characterized in that both base stations of the single time system with remote antennas are connected to each computer complex from the operator’s automated workstation using digital information exchange channels - through a time reference module. 18. The firing command and control information system according to claim 1, characterized in that two redundant base stations of the single-time system are additionally introduced into the operator’s workstation into it, while to each computer complex from the operator’s automated workstation using digital Information exchange channels connect both base stations of the single time system with remote antennas and backup base stations of the single time system via the time binding module. 19. A firing command and control information system according to claim 1, characterized in that at least one device for emergency shutdown of the peripheral communication subsystems is additionally introduced into the operator’s workstation into the operator’s workstation, while to both computer complexes from the operator’s workstation Using digital channels of information exchange, an emergency shutdown device for peripheral communication subsystems is connected through sets of external communication devices. 20. The firing command and control information system according to claim 1, characterized in that at least one device for emergency shutdown of the peripheral communication subsystems is additionally introduced into the operator’s workstation into the operator’s workstation, while to both computer complexes from the operator’s workstation Using digital channels of information exchange, an emergency shutdown device for peripheral communication subsystems is connected. 21. The firing command and control information system according to claim 1, characterized in that at least one peripheral communication subsystem emergency shutdown device and one signal converter are additionally introduced into the operator’s automated workstation, and the outputs of the peripheral subsystem emergency shutdown device communications are connected to the inputs of the signal converter, to both computer systems from the operator’s workstation using digital channels of information BMENA through a set of devices of external links connected signal converter. 22. The firing command and control information system according to claim 1, characterized in that at least one device for emergency shutdown of the peripheral communication subsystems and one signal converter are additionally introduced into the automated workstation of the operator, while the outputs of the emergency shutdown device of the peripheral subsystems communications are connected to the inputs of the signal converter, to both computer systems from the operator’s workstation using digital channels of information BMENA signal converter is connected. 23. Command and firing information management system according to claim 1, characterized in that the operator’s workstation is equipped with at least one operator seat. 24. Command and firing information management system according to claim 1, characterized in that it further includes wired communication lines with power supplies and at least one power supply control unit in the operator’s workstation, while the power supply control unit is connected using wired communication lines with power supplies to emergency power supplies from external centralized control devices providing systems, to both lnym complexes from the workstation operator by means of digital traffic channels via the external communications device sets the control unit is connected by means of supply. 25. A firing command and control information system according to claim 1, characterized in that it further includes wired communication lines with power supplies and at least one power supply control unit in the operator’s workstation, while the power supply control unit is connected using wired communication lines with power supplies to emergency power supplies from external centralized control devices providing systems, to both lnym complexes from the automated operator position using the number of traffic channels connected to the control unit power supply means. 26. A firing command and control information system according to claim 1, characterized in that it further includes wired communication lines with power supplies, at least one power supply control unit and one signal converter to the operator's automated workstation, the unit control of power supplies is connected via wired communication lines with power supplies to emergency power supplies from external centralized control devices, ensure systems, the outputs of the power supply control unit are connected to the inputs of the signal converter, and the signal converter is connected to both computer complexes from the operator’s automated workstation using digital channels of information exchange through sets of external communication devices. 27. A firing command and control information system according to claim 1, characterized in that it further includes wired communication lines with power supplies, at least one power supply control unit and one signal converter to the operator’s workstation, wherein the unit control of power supplies is connected via wired communication lines with power supplies to emergency power supplies from external centralized control devices, ensure systems, the outputs of the power supply control unit are connected to the inputs of the signal converter, and the signal converter is connected to both computer complexes from the operator’s workstation using digital channels of information exchange. 28. Command and firing information management system according to claim 1, characterized in that it additionally includes digital information exchange channels with sets of technical means of protection in an amount at least corresponding to the number of missiles, anti-missiles, torpedoes, guided missiles being prepared for launch, at least one additional computing complex and one additional set of external communications devices to the operator’s automated workstation, to each communication peripheral subsystem t technical means of protection, while an additional computer complex from the operator’s automated workstation using at least one digital information exchange channel is connected to centralized control devices providing systems through an additional set of external communications devices using digital information exchange channels with technical sets protection equipment is connected to sets of technical protection equipment from the composition of peripheral communication subsystems, each device roystvo power from the peripheral communication subsystem connected through some outputs from the ninth group of the motor drive outputs and a set tokorazediniteley technical protection to the rocket interceptor missiles, torpedoes, guided missiles, launch canister. 29. A firing command and control information system according to claim 1, characterized in that it additionally includes digital information exchange channels with sets of technical means of protection in an amount at least corresponding to the number of missiles, anti-missiles, torpedoes and guided missiles being prepared for launch at least one additional computer complex, one additional set of external communications devices and an exchange module with centralized devices to the operator’s automated workstation on the management, providing systems, to each peripheral communication subsystem, a set of technical means of protection, while an additional computer complex is connected to the devices via an exchange module with centralized control devices providing systems from the operator’s automated workstation using at least one digital information exchange channel centralized management of systems through an additional set of external communications devices using digital equal channels of information exchange with sets of technical means of protection is connected to sets of technical means of protection from the composition of peripheral communication subsystems, each power supply device from the composition of peripheral communication subsystems is connected through some outputs from the ninth group of outputs of the motor drive of current disconnectors and a set of technical means of protection to a missile, anti-missile , dashboard, guided projectile, launch container. 30. A firing command and control information system according to claim 1, characterized in that a set of protective equipment is additionally introduced into each peripheral communication subsystem, wherein each set of protective technical equipment from the composition of the peripheral communication subsystem is provided with at least one the control channel is connected to centralized control devices providing systems, each power supply device from the peripheral communication subsystems is connected through some outputs from the nine that group of outputs of the motor drive of current disconnectors and a set of technical means of protection for a rocket, anti-missile, torpedo, guided projectile, launch container. 31. A firing command and control information system according to claim 1, characterized in that a set of protective equipment is additionally introduced into each peripheral communication subsystem, while each computer complex from the operator’s workstation is connected via sets of external communication devices and digital channels of information exchange with peripheral communication subsystems, sets of technical means of protection from the composition of peripheral communication subsystems, each power supply device from the composition of the peripheral communication subsystems is connected through some outputs from the ninth group of outputs of the motor drive of current disconnectors and a set of technical means of protection to a rocket, anti-missile, torpedo, guided missile, launch container. 32. A firing command and control information system according to claim 1, characterized in that channel amplification devices are additionally introduced into digital channels of information exchange with peripheral communication subsystems in an amount necessary to ensure continuous and stable communication between computing complexes from the operator’s workstation and function check blocks, the main and backup automation blocks from the control devices of peripheral communication subsystems, at ohms, each computer complex from the operator’s automated workstation is connected via sets of external communication devices and digital channels of information exchange with peripheral communication subsystems to channel amplification devices, the first groups of inputs and outputs of the main and duplicate automation units, as well as functional check units from the control devices peripheral communication subsystems. 33. A firing command and control information system according to claim 1, characterized in that the main and duplicate automation units from the control devices of the peripheral communication subsystems are connected to missiles, anti-missiles, torpedoes, guided missiles, launch containers by the seventh input-output groups. 34. A firing command and control information system according to claim 1, characterized in that the main and duplicate automation units from the control devices of the peripheral communication subsystems with eighth outputs are connected to the second inputs of the main and duplicate blocks of the secondary power sources, the main and duplicate command submission units on the operation of the igniter, the main and backup power supplies of the motor drives of current disconnectors from the power supply devices of the peripheral communication subsystems, each device ektropitaniya from the peripheral communication subsystems through first inputs of the main and backup secondary power supply units, the main and backup commands to the squib operation, primary and backup power supplies tokorazediniteley motor drive unit connected to an external power source. 35. The firing command and control information system according to claim 1, characterized in that the inputs and outputs of the main and backup units of the secondary power sources, the main and backup units for commanding the operation of the squibs, the main and backup power units of the motor drives of current disconnectors are connected respectively to the seventh, sixth and fourth inputs and outputs of the main and backup switching units from the power supply devices of the peripheral communication subsystems. 36. A firing command and control information system according to claim 1, characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, wherein each power supply device from the peripheral communication subsystems through the inputs of the primary and backup units of secondary power sources of the main and backup power supply units for triggering the igniter, the main and backup power supply units of the motor drive of current disconnectors, the main and backup power units th power supply unit connected to the switching voltage, which in turn is connected to an external power source. 37. A firing command and control information system according to claim 1, characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, wherein each power supply device from the peripheral communication subsystems through the inputs of the primary and backup units of secondary power sources , the main and backup power supply units for triggering the squibs, the main and backup power supply units of the motor drive of current disconnectors is connected to the voltage switching unit I, which, in turn, is connected to an external power source. 38. A firing command and control information system according to claim 1, characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, while each computer complex of the operator’s automated workstation is connected via digital data exchange channels through sets of external communication devices and digital channels of information exchange with peripheral communication subsystems, voltage switching units from the composition of peripheral communication subsystems, first ith groups of inputs and outputs of the main and duplicate automation units, as well as the function check blocks from the control devices of the peripheral communication subsystems, each power supply device from the peripheral communication subsystems through the inputs of the main and backup blocks of secondary power supplies, the main and backup blocks of command input for operation igniter, the main and backup power supply units of the motor drive of current disconnectors, the main and backup power supply standby units It is connected to a voltage switching unit, which, in turn, is connected to an external power supply. 39. A firing command and control information system according to claim 1, characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, while each computer complex of the operator’s automated workstation is connected via digital data exchange channels through sets of external communication devices and digital channels of information exchange with peripheral communication subsystems, voltage switching units from the composition of peripheral communication subsystems, first ith groups of inputs and outputs of the main and duplicate automation units, as well as the function check blocks from the control devices of the peripheral communication subsystems, each power supply device from the peripheral communication subsystems through the inputs of the main and backup blocks of secondary power supplies, the main and backup blocks of command input for operation igniter, the main and backup power supplies of the motor drive of the current disconnectors is connected to the voltage switching unit, which, in its own red, to an external power source. 40. A firing command and control information system according to claim 1, characterized in that a voltage switching unit is additionally introduced into each peripheral communication subsystem, wherein the main and duplicate automation units from the control devices of the peripheral communication subsystem are connected to the inputs by the ninth outputs voltage switching units, each power supply device from the composition of peripheral communication subsystems through the inputs of the primary and backup units of secondary power supplies, the primary and backup units In order to supply commands for triggering the squibs, the main and backup power supplies of the motor drive of the current disconnectors, it is connected to a voltage switching unit, which, in turn, is connected to an external power source. 41. A firing command and control information system according to claim 1, characterized in that an automatic check device is additionally introduced into each peripheral communication subsystem, while the ninth output groups and tenth input groups of each motor drive current disconnectors from the power supply devices of the peripheral subsystems communications are connected to the automatic verification device. 42. A firing command and control information system according to claim 1, characterized in that an automatic checking device is additionally introduced into each peripheral communication subsystem, wherein each control device from the peripheral communication subsystems through the second groups of outputs and third groups of inputs of the main and redundant automation units connected to an automatic check device, ninth output groups and tenth input groups of each motor drive of current disconnectors from the electronic devices power connection of peripheral subsystems are connected to the automatic testing device. 43. A firing command and control information system according to claim 1, characterized in that an automatic check device is additionally introduced into each peripheral communication subsystem, wherein digital channels of information exchange with peripheral communication subsystems are disconnected from the first groups of input and outputs of the main and duplicating automation units, as well as functioning verification units from the control devices of peripheral communication subsystems, the first input-output groups of the main and duplicating automation units, as well as e function check blocks from the control devices of the peripheral communication subsystems are connected to automatic check devices. 44. A firing command and control information system according to claim 1, characterized in that an automatic check device is additionally introduced into each peripheral communication subsystem in it, while digital channels of information exchange with peripheral communication subsystems are disconnected from the first groups of inputs and outputs of the main and duplicating automation units, as well as functioning verification units from the composition of control devices of peripheral communication subsystems, to the first computer complex from the structure of an automated worker operator’s places using digital channels of information exchange connected automatic checking devices from the composition of peripheral communication subsystems - through the first set of external communication devices and digital channels of information exchange with peripheral communication subsystems, to the second computer complex from the automated workplace of the operator using digital channels of information exchange automatic verification devices from the composition of peripheral communication subsystems are connected - through the second set of devices three external communications and digital channels of information exchange with peripheral communication subsystems. 45. A firing command and control information system according to claim 1, characterized in that multichannel radiotelephone exchanges are additionally introduced into the operator’s workstation into each operator’s automated workstation, radiotelephone exchanges are provided to each peripheral communication subsystem, and multichannel radiotelephone exchanges from an automated the operator’s workplace is connected to centralized control devices providing systems and means of radiotelephone exchange from the periphery Other communication subsystems. 46. A firing command and control information system according to claim 1, characterized in that a set of video surveillance tools is added to the operator’s automated workstation, video surveillance tools are provided to each peripheral communication subsystem, and a set of video surveillance tools is provided from an automated workstation operator’s place is connected to video surveillance equipment from the composition of peripheral communication subsystems and supporting systems.

Images