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Training systems "Orion" (Fireball) in the CA ARMO

The ARMO Training Center conducts intensive practical courses on integrated security systems based on ISO Orion equipment.

•   Integrated systems based on ISO "Orion" and continuing education courses.
•   Fire and security (fire and security) alarm (FA).
•   Access Control Systems (AC).
•   Automatic fire extinguishing systems (AFS).
•   CCTV systems.

Issued Documents

• After training, a "Certificate of Completion" is issued, issued jointly by ARMO and Bolid.
• At the end of the training, certification is carried out in the form of testing and control laboratory work. Successfully passed the certification issued "Qualification Certificate".
• Trainees in continuing education courses are issued a "Certificate of Continuing Education"

Full list of courses "Car"

• . Qualification exam in full-time or part-time. Study days: 1. Classroom hours: 4.
• Study days: 1. Classroom hours: 8.
• Study days: 1. Classroom hours: 8.
• Study days: 1. Classroom hours: 8.
• Study days: 1. Classroom hours: 8.
•   Operation and maintenance   access control systems based on ISO "Orion" and their elements (Fireball). Issuing an organization certificate of qualified personnel. Study days: 1. Classroom hours: 8.
•   Installation, maintenance and repair of access control systems based on ISO "Orion" and their elements, including dispatching and commissioning (Fireball). Issuing an organization certificate of qualified personnel. Study days: 1. Classroom hours: 8.
•   Design of CCTV systems based on ISO "Orion". For designers and service engineers. Study days: 1. Classroom hours: 8.
•   Operation of a CCTV system based on ISO “Orion”. Oriented to service engineers during the period of removal of the system from warranty service. Study days: 1. Classroom hours: 8.
•   Installation, programming and commissioning of CCTV systems based on ISO “Orion”. For installers of a network video surveillance system, as well as service engineers.
•   Dispatching of CCTV systems based on ISO “Orion”. For dispatchers of video surveillance systems, as well as service engineers. Study days: 1. Classroom hours: 8.
• Design of an automated fire extinguishing system based on ISO "Orion" (Fireball). Theoretical course. Programming and operation are not studied. A line of equipment and installation rules for an automated fire extinguishing system based on ISO "Orion" (Fireball) .. Study days: 1. Classroom hours: 6.
•   Design of fire alarm systems based on ISO "Orion" (Fireball). Theory course. Programming and operation are not studied. The line of equipment and installation rules fire alarm   based on ISO "Orion" (Fireball) .. Study days: 1. Classroom hours: 6.
•   Installation and maintenance of automatic control systems based on ISO "Orion" (Fireball). No exam. Programming is not considered. Range of equipment, installation rules, actions during normal operation and maintenance automatic systems   fire extinguishing based on ISO "Orion" (Fireball). . Study days: 1. Classroom hours: 8.
•   Installation and maintenance of fire alarm systems based on ISO "Orion" (Fireball). No exam. Programming is not considered. The range of equipment, installation rules, actions during normal operation and maintenance of the fire alarm based on ISO "Orion" (Fireball) .. Study days: 1. Classroom hours: 8.
•   Programming and commissioning of automatic control systems based on ISO "Orion" (Fireball). Programming is being studied. No exam. AWP "Orion Pro" - just a review. Installation is not being studied. Programming of automatic gas and powder fire extinguishing systems based on ISO "Orion" (Fireball) .. Study days: 2. Classroom hours: 16.
•   Programming and commissioning of OPS based on ISO "Orion" (Fireball). Programming is being studied. No exam. AWP "Orion Pro" - just a review. Installation is not being studied. Programming security and fire alarms based on ISO "Orion" (Fireball) .. Study days: 2. Classroom hours: 16.
•   Certification course of programming and commissioning of the fire alarm system based on ISO "Orion". Intensive advanced course. At the end of the course, students pass a qualification exam. AWP "Orion Pro" - just a review. Installation is not being studied. Programming security and fire alarms based on ISO "Orion" (Fireball) .. Study days: 3. Classroom hours: 24.
•   Programming and commissioning of the fire alarm system based on the ISO "Orion" (Fireball) with the study of AWP "Orion Pro" and warning devices via telephone channels. Advanced course. No exam. Installation is not considered. Programming fire alarm devices based on ISO "Orion" (Fireball). It includes the Orion Pro workstation and the UO-4C instrument settings. Study days: 3. Classroom hours: 24.
•   Certification course of programming and commissioning of the fire alarm system based on ISO "Orion" - advanced course. Intensive advanced course. At the end of the course, students pass a qualification exam. Installation is not being studied. Programming fire alarm devices based on ISO "Orion" (Fireball). It includes the Orion Pro workstation and the UO-4C instrument settings.
• . Complete design track for all systems. No exam. Programming is not studied. The theory of technical protection of objects is given. We study a range of equipment, installation rules, actions during operation and maintenance of fire and security alarms, automatic fire extinguishing systems and access control and management systems based on the ISO "Orion" .. Study days: 4. Classroom hours: 32.
•   Design, installation and operation of fire alarm systems, access control systems and automated control systems based on ISO "Orion" (Fireball). Refresher course   with the issuance of a certificate. The mandatory program of the Ministry of Emergencies and the rules for the installation, operation and maintenance of fire alarm systems, automatic fire extinguishing systems and access control and management systems based on the ISO "Orion" are given. .
•   Monitoring and management of ISO "Orion" using software "Orion Pro". Orion Pro course without exam. Installation is not being studied. The course assumes the presence of programming skills of devices ISO "Orion" (Fireball). Setting up and monitoring the fire alarm system, automatic fire extinguishing systems and access control and management systems in the Orion Pro AWP .. Study days: 1. Classroom hours: 8.
• . A complete programming track without an exam. Includes AWP "Orion Pro". Installation is not considered. Programming of fire alarm systems, automatic fire extinguishing systems and access control and management systems based on ISO "Orion" .. Study days: 5. Classroom hours: 40.
•   Programming and commissioning of OPS, ACS and ASTP based on ISO "Orion" (Fireball). Refresher course   with the issuance of a certificate. The mandatory program of the Ministry of Emergencies and the rules for programming and commissioning of fire alarm systems, automatic fire extinguishing systems and control and management systems are given.
•   Design, installation and operation, programming and commissioning of OPS and ASPT based on ISO "Orion" (Fireball). Advanced programming track without exam. Includes AWP "Orion Pro". A range of equipment, installation rules, actions during operation and maintenance, programming of fire alarm systems and automatic fire extinguishing systems based on ISO "Orion" (Fireball) .. Study days: 5. Classroom hours: 40.
•   Design, installation and operation, programming and commissioning of OPS and ASPT based on ISO "Orion" (Fireball) advanced. Refresher course with the issuance of certificates, with the study of programming. Without a qualification exam. The obligatory program of the Ministry of Emergencies, AWP "Orion Pro", installation, operation and programming are given fire systems   (OPS and ASPT) .. Study days: 6. Classroom hours: 48.
•   Certification course Design and commissioning of integrated security systems based on ISO "Orion". Full track programming on all systems. At the end of the course, students pass a qualification exam. Includes AWP "Orion Pro". Installation is not being studied. Programming of fire alarm systems, automatic fire extinguishing systems and access control and management systems based on ISO "Orion" .. Study days: 6. Classroom hours: 48.
•   Integrated security systems based on ISO "Orion" (Fireball). The advanced training course based on the Bolid equipment includes the basics of SAPS, ACS, ASPT, video surveillance and Orion Pro. . Study days: 6. Classroom hours: 48.
•   Operation, programming and commissioning of OPS, ACS and ASPT based on ISO "Orion" (Fireball). A full track without an examination on the operation, programming and commissioning of security and fire alarms, access control and fire extinguishing systems based on the ISO "Orion" (Fireball). Includes AWP "Orion Pro". The range of equipment, installation rules, actions during operation and maintenance, system programming .. Study days: 5. Classroom hours: 40.
•   Certification on the topic "Operation and maintenance of fire alarm systems based on ISO Orion". Qualification exam in full-time or part-time. Study days: 1. Classroom hours: 4.
•   Certification on the topic "Design, installation and commissioning of the fire alarm system based on ISO Orion". Qualification exam in full-time or part-time. Study days: 1. Classroom hours: 4.
•   Certification on the topic "Operation and maintenance of automatic control systems based on ISO Orion". Qualification exam in full-time or part-time. Study days: 1. Classroom hours: 4.
•   Certification on the topic "Design, installation and commissioning of ASPT based on ISO Orion". Qualification exam in full-time or part-time. Study days: 1. Classroom hours: 4.
•   Certification on the topic "Programming, installation, commissioning and maintenance of the fire alarm system based on ISO" Orion ". Certification. Study days: 1. Classroom hours: 4.
•   The organization of central security points on the basis of AWP PCO "Aegis-3". For installers of security systems, as well as for service engineers. Study days: 2. Classroom hours: 16.
•   Design of warning and evacuation control systems based on ISO “ORION” (Fireball). The course is aimed at designers and installers of warning systems and evacuation control. Study days: 1. Classroom hours: 8.
•   Operation and maintenance of warning and evacuation control systems based on ISO "ORION" (Fireball). The course is focused on service engineers. Study days: 1. Classroom hours: 8.
•   Installation, programming and commissioning of warning and evacuation control systems based on ISO "ORION" (Fireball). The course is aimed at specialists in the installation and commissioning of warning and evacuation systems based on the ISO "ORION". Study days: 3. Classroom hours: 24.

The schedule of courses "Bolid"

date	Course	Hours
November 2017
27.11		6
27.11 - 01.12		40
27.11		8
27.11 - 02.12		48
27.11 - 02.12	Design, installation and operation, programming and commissioning of OPS and ASPT based on ISO "Orion" (Fireball) advanced	48
28.11		8
28.11		8
28.11		6
29.11		8
29.11 - 01.12		24
30.11 - 01.12		16
December 2017
04.12		8
04.12	Design of CCTV systems based on ISO "Orion"	8
04.12		6
04.12 - 08.12	Design, installation and operation, programming and commissioning of OPS and ASPT based on ISO "Orion" (Fireball)	40
05.12	Operation of a CCTV system based on ISO “Orion”	8
05.12 - 07.12		24
05.12 - 07.12		24
05.12 - 06.12		16
05.12 - 08.12		32
05.12		8
06.12 - 08.12		24
06.12 - 07.12	Installation, programming and commissioning of CCTV systems based on ISO “Orion”	16
08.12	Dispatching of CCTV systems based on ISO “Orion”	8
11.12 - 15.12	Design, installation and operation, programming and commissioning of OPS and ASPT based on ISO "Orion" (Fireball)	40
11.12 - 14.12		32
11.12 - 15.12	Design, installation and operation of fire alarm systems, access control systems and automated control systems based on ISO "Orion" (Fireball)	40
15.12		8
18.12	Installation and maintenance of automatic control systems based on ISO "Orion" (Fireball)	8
18.12 - 22.12		40
18.12	Design of an automated fire extinguishing system based on ISO "Orion" (Fireball)	6
18.12 - 23.12	Programming and commissioning of OPS, ACS and ASTP based on ISO "Orion" (Fireball)	48
18.12 - 23.12	Integrated security systems based on ISO "Orion" (Fireball)	48
19.12 - 20.12	Programming and commissioning of automatic control systems based on ISO "Orion" (Fireball)	16
25.12 - 29.12	Design, installation and operation, programming and commissioning of OPS and ASPT based on ISO "Orion" (Fireball)	40
25.12 - 27.12	Installation, programming and commissioning of warning and evacuation control systems based on ISO "ORION" (Fireball)	24
25.12	Design of fire alarm systems based on ISO "Orion" (Fireball)	6
26.12	Installation and maintenance of fire alarm systems based on ISO "Orion" (Fireball)	8
27.12 - 29.12	Certification course of programming and commissioning of the fire alarm system based on ISO "Orion"	24
27.12 - 28.12	Programming and commissioning of OPS based on ISO "Orion" (Fireball)	16
29.12	Monitoring and management of ISO "Orion" using software "Orion Pro"	8
January 2018
09.01	Design of an automated fire extinguishing system based on ISO "Orion" (Fireball)	6
09.01 - 12.01	Design, installation and operation of fire alarm systems, access control systems and automated control systems based on ISO "Orion" (Fireball)	32
09.01	Design of warning and evacuation control systems based on ISO “ORION” (Fireball)	8
10.01	Operation and maintenance of warning and evacuation systems based on ISO “ORION” (Fireball)	8
10.01	Installation and maintenance of automatic control systems based on ISO "Orion" (Fireball)	8
10.01 - 12.01	Installation, programming and commissioning of warning and evacuation control systems based on ISO "ORION" (Fireball)	24
11.01 - 12.01	Programming and commissioning of automatic control systems based on ISO "Orion" (Fireball)	16
15.01	Design of fire alarm systems based on ISO "Orion" (Fireball)	6
15.01 - 19.01	Operation, programming and commissioning of OPS, ACS and ASPT based on ISO "Orion" (Fireball)	40
16.01	Installation and maintenance of fire alarm systems based on ISO "Orion" (Fireball)	8
17.01 - 19.01	Certification course of programming and commissioning of the fire alarm system based on ISO "Orion"	24
17.01 - 18.01	Programming and commissioning of OPS based on ISO "Orion" (Fireball)	16
17.01 - 19.01	Programming and commissioning of an alarm system based on ISO "Orion" (Fireball) with the study of AWP "Orion Pro" and warning devices via telephone channels	24
17.01 - 20.01	Certification course of programming and commissioning of the fire alarm system based on ISO "Orion" - advanced course	32
19.01	Monitoring and management of ISO "Orion" using software "Orion Pro"	8
22.01	Design of ACS based on ISO "Orion" (Fireball)	6
22.01 - 26.01	Programming and commissioning of OPS, ACS and ASTP based on ISO "Orion" (Fireball)	40
23.01	Installation and maintenance of access control systems based on ISO "Orion" (Fireball)	8
24.01 - 26.01	Programming and commissioning of access control systems based on ISO "Orion" (Fireball)	24

•   Design of ACS based on ISO "Orion" (Fireball). Theoretical course. Programming and operation are not studied. A line of equipment and installation rules for an access control and management system based on ISO "Orion" (Fireball) .. Study days: 1. Classroom hours: 6.
•   Installation and maintenance of access control systems based on ISO "Orion" (Fireball). Programming is not studied. No exam. The range of equipment, installation rules, actions during operation of the access control and management system based on ISO "Orion" (Fireball) .. Study days: 1. Classroom hours: 8.
•   Programming and commissioning of access control systems based on ISO "Orion" (Fireball). Includes AWP "Orion Pro". No exam. Installation is not being studied. Programming devices for access control and management systems based on ISO "Orion" (Fireball) .. Study days: 3. Classroom hours: 24.
•   Certification on the topic "Operation and maintenance of access control systems based on ISO Orion". Qualification exam in full-time or part-time. Study days: 1. Classroom hours: 4.
•   Certification on the topic "Design, installation, programming and commissioning of access control systems based on ISO Orion". Qualification exam in full-time or part-time. Study days: 1. Classroom hours: 4.
•   Operation and maintenance of fire alarm systems ISO "Orion" and its elements (Fireball). Issuing an organization certificate of qualified personnel. Study days: 1. Classroom hours: 8.
•   Installation, maintenance and repair of fire alarm systems ISO "Orion" and its elements, including scheduling and commissioning (Fireball). Issuing an organization certificate of qualified personnel. Study days: 1. Classroom hours: 8.
•   Operation and maintenance of automatic fire extinguishing systems based on ISO "Orion" and their elements (Fireball). Issuing an organization certificate of qualified personnel. Study days: 1. Classroom hours: 8.
•   Installation, maintenance and repair of systems automatic fire fighting   based on ISO "Orion" and their elements, including dispatching and commissioning (Fireball). Issuing an organization certificate of qualified personnel.

• To collect, process, transmit, display and register notifications on the status of security, alarm and fire alarm loops
• For access control and management (control of blocking devices such as a barrier, turnstile, gate, gateway, door, etc.)
• For video surveillance and video monitoring of protected objects
• To control the fire automatics of an object
• For managing building engineering systems

The system provides

• A modular structure that optimally equips both small and very large distributed objects
• Low cost per single loop or one access point
• Protected communication protocol over the communication channel between the console and devices
• Microprocessor analysis of the signal in the alarm loops, the ability to measure the loop resistance to prevent sabotage
• The ability to use the same Proximity card or Touch memory key to arm / disarm and control access in several ways:
  
  
  • decentralized:
    • using the keyboard
    • using the Touch memory key,
    • using remote plastic cards,
    • in a combined way (keyboard plus remote card),
  • centrally:
    • using the remote control "S2000"
    • using the remote control "S2000-KS"
    • using computer
• Access control and management through entry points such as doors, turnstiles, gateways, barriers
• Video surveillance, video monitoring and recording alarm situations
• Management of automatic fire extinguishing, warning, smoke removal, air conditioning devices

  The main technical data of the system in the variant of using one branch of the RS-485 interface and Orion workstation software:

	up to 127
Number of zones	up to 16,000
The number of zones, united in sections (AWP "Orion")	up to 16,000
The number of zones, united in sections (PKU S2000)	up to 512
Number of sections (AWP "Orion")	up to 10,000
Number of sections (PKU S2000)	up to 255
Number of Access Points	up to 254
The number of outputs for controlling external devices (AWP "Orion")	up to 16,000
Number of outputs for controlling external devices (PKU S2000)	up to 255
Number of users (AWP "Orion")	up to 30,000
Number of users (PKU S2000)	up to 511
RS-485 Interface Line Length	up to 4,000 m

  When using branched network management (AWP "Orion Pro" and PKU S2000 v. 1.20 and higher), the system capabilities are significantly higher:

Number of workstations (RM)	up to 64
The number of PCUs connected to one RS-232 port	up to 127
Number of simultaneously used RS-232 ports	up to 4
Number of zones	up to 2,048,382
The number of zones that are organized into sections	up to 64 897
Number of sections	up to 32 385
Number of outputs for controlling external devices	up to 64 897
Number of Access Points	up to 32 385
Number of users	up to 64 897
The number of devices connected to the RS-485 interface line	up to 16 129
The length of one branch of the RS-485 interface line (lower level)	up to 4,000 m
RS-485 Interface Line Branch Length (Top Level)	up to 3,000 m

  In the second variant of using the system, the “S2000” remote control performs the functions of a system controller, interrogating system devices connected to the RS-485 interface. AWP "Orion Pro" interrogates the status of devices and issues commands to them through the "S2000" remote controllers connected via RS-485 interface.

The technical implementation of the ISO "Orion" is based on the use of the head (master, control) network controller of the system (which can be the C2000 control panel or computer with the Orion workstation), which interrogates the RS-485 lines connected to it devices of the Orion system. Maximum system functions can only be realized using a network controller.

At the same time, a number of devices of the ISO "Orion" also allows autonomous operation. During autonomous operation, the functional capabilities of the device itself, such as fire alarm, management and access control functions, fire extinguishing management.

The basis for combining devices into the system is the communication line of the RS-485 interface. Features of technical solutions used in the development of devices allow using not only a bus structure over a dedicated communication line inherent in the standard RS-485 interface, but also, to a sufficient extent, an arbitrary topology using interface repeaters with galvanic isolation of S2000-PI and various communication channels (leased line, busy line, fiber-optic communication channel, digital communication channel in the E1 stream, local area network via Ethernet, cellular communication channel, radio communication channel).

Function	Features
Security alarm	independent monitoring in one loop of the alarm contact and the sensor lock contact protection of loops from sabotage by tracking sharp changes in loop resistance, not exceeding the thresholds of operation protection against false alarms due to high voltage in the alarm loops (24 V), digital filtering of AC signals, pulse pick-ups, electrostatic effects and other electromagnetic interference automatic alarm reset of detectors with loopback power when arming speech warning on duty at the Orion AWP on the possible sabotage of alarm loops when changing the loop resistance by a certain amount when taking it under protection various ways of arming / disarming logging of all events occurring in the system display of the status of zones, sections, access points, control panels, readers, video cameras on graphic plans of rooms mechanism for setting authorization to take / withdraw and access for staff and visitors by programming access levels flexible differentiation of powers of on-duty and administrators of the AWP through a multi-level password system and the ability to connect biometric systems to restrict access to AWP powerful macro language support for control scenarios allowing to issue one or a set of commands to control panels, actuators, as well as system software both by an event in the system or by a time schedule, or by an operator’s command voice alarm notification, the ability to record and play custom voice messages multi-stage alarm handling output of information cards for each element of the system, as well as for personnel or visitors system protection against the launch of unauthorized programs lack of restrictions on the number of zones in the section
Fire alarm	recognition of double operation of detectors in one loop protection against false alarms by automatically resetting detectors powered by a loop connection of threshold, address and address-analog detectors measurement of dust, smoke and temperature values \u200b\u200band graphical display of statistics on a computer screen a set of statistics for the development of measures to improve fire safety, the organization of maintenance visual display on the floor plans of the location of the detectors and devices, the smokest detectors, temperature at controlled points, statistics for the day, month, year script programming for control of automatic control systems, alerts
Automatic fire extinguishing system	autonomous or centralized fire protection   industrial and civil facilities in one direction of gas, aerosol or powder fire extinguishing monitoring the status of two fire alarm loops, door status sensor circuits, manual start sensor circuits control of operability of start-up circuits for open and short circuit starting and controlling the operation of modules of automatic fire extinguishing means time delay before starting fire extinguishing means remote launch of fire extinguishing means on command from the "S2000" remote control manual start of fire extinguishing means from manual start sensors automatic start of fire extinguishing means when two fire detectors are triggered in either one or two alarm loops inclusion of sound and light fire warning (siren, transporters) monitoring of operability of siren circuits for open and short circuit automatic start blocking when opening doors to a protected room manual (from the panel of the device "S2000-ASPT") or remote (from the panel "S2000" or "S2000-PT") reset the fire extinguishing agent launch mode control of the S2000-KPB control and launch units to increase the number of controlled start circuits transmission of service and alarm messages to the "S2000" and "S2000-PT" remote control control of two or three fire pumps control a jockey pump or compensation device control of the electric valve or section of the deluge curtain control of technological equipment (valves of the ventilation system in the room, etc.) automatic start blocking when automatic mode is disabled on any of the pump control cabinets
Access control	control by keys of Touch Memory, Proximity-cards or PIN-code centralized and distributed (local) storage of access keys repeat control functions time zones non-volatile calendar search for colleagues time tracking reports on the remaining time in the premises low cost per door
Video surveillance and video control	connection to computers of an unlimited number of cameras display video motion detection detection of "forgotten" things area planning when using the detector digital image scaling record video on the hard drive and view it, search by date, time, camera number sound alarm recording of pre- and post-alarm situations with the ability to set the recording time the ability to create remote jobs telemetric control of two-axis rotary devices live video, comparison of video from a camera with an image from a database on one screen when presenting an access card integration with the Orion system system response to a wide variety of events: from alarm and providing access to remote control of arming
Building Engineering Management	measurement of values \u200b\u200bof analog parameters (temperature, smoke) air conditioning, heating, ventilation, warning, alarm systems management programming scripts for managing building engineering systems both according to measurement results, events in the system or time schedule, and according to operator’s commands

System Composition

• Hardware-software complex based on personal computers with software:
  
  
  • automated workplace of the duty operator of the security service (AWP "Orion");
  • automated workstation of the head of the security service (AWS NSO);
  • automated workstation of video monitoring (AWP "Intellect", AWP "Inspector +", AWP "VideoNet", AWP "Videospider", AWP "GOAL", AWP "CVS", AWP "Phobos")
  • AWP "S2000"
  • AWP "Dining room"
• Control and management panel (PKU) "S2000"
• Remote control and management "S2000M"
• Keyboard LED "S2000-KS"
• Keyboard "S2000-K"
• Display unit "S2000-BI"
• Reception and control security and fire device "Signal-20"
• Reception and control security and fire device "Signal-20M"
• Reception and control security and fire device "Signal-20P SMD"
• Device reception and control security and firefighter "Signal-20P SMD" isp.01
• Access Control Controller "S2000-2"
• Reader of electronic identifiers (EI) Touch Memory "Reader-2"
• Reader contactless plastic cards "S2000-Proxy"
• Reader contactless plastic cards "S2000-Proxy H"
• Reader contactless plastic cards "Proxy-2A"
• Reader contactless plastic cards "Proxy-3A", "Proxy-3M"
• Reader contactless plastic cards "Proxy-Long"
• Access Control Controller "ProxyH-1000"
• Alarm and starting block "S2000-SP1"
• Address Subsystem
  
  
  • Notification transmission system "SPI-2000A"   consisting of:
    
    
    • controller of a two-wire communication line "S2000-KDL"
    • address extender "S2000-AR1"
    • address extender "S2000-AR2"
    • address extender "S2000-AR8"
  • Addressable Detectors
    
    
    • addressable detector security optical-electronic infrared passive "S2000-IK"
    • address detector optical-electronic surface "S2000-SHIK"
    • address announcer security acoustic "S2000-ST"
    • magnetically contact security detector "S2000-SMK"
    • addressable fire detector smoke optical-electronic "DIP-34A"
    • addressable fire detector maximum thermal differential with temperature measurement address "S2000-IP"
    • address announcer fire manual address IP 513-3A
  • address block of the signal-starting "S2000-SP2"
  • branching-isolating block "BRIZ", "BRIZ-01"
• Reception and control device and control of automatic fire extinguishing means and sirens "S2000-ASPT"
• Device fire control "Potok-3N"
• Control and starting block "S2000-KPB"
• Fire extinguishing control panel "S2000-PT"
• Display unit "S2000-BI" isp.01
• Control panel "S2000-PU"
• Interface converter RS-232 / RS-485 with galvanic isolation "PI-GR"
• Converters of interfaces RS-232 / RS-485, repeaters of the interface RS-485 with galvanic isolation "S2000-PI"
• RS-485 / USB Converter "S2000-USB"
• RS-485 / Ethernet Converter "S2000-Ethernet"
• RS-485 / Radio Converter "S2000-RPI"
• Telephone informant "S2000-IT"
• 12 V and 24 redundant power supplies

Devices and devices that make up the system can be divided into six groups.

  The first group is devices with radial signal loops. This group of devices includes "Signal-20", "Signal-20P" and "S2000-4". Devices of this group can work in stand-alone mode ("Signal-20", "S2000-4") and as part of the system, under the control of a network controller ("Signal-20", "Signal-20P" and "S2000-4").

The second group of devices is a subsystem of notification transmission "SPI S2000A". This group includes the controller "S2000-KDL" and address expanders, detectors and signal-starting blocks: "S2000-AR1", "S2000-AR2", "S2000-AR8", "S2000-IP", "DIP-34A" , "IPR 513-3A", "S2000-IK", "S2000-ST", "S2000-SMK", "S2000-SP2". The controller of this group has one address line of communication, to which address expanders, address detectors and signal-start blocks are connected, while the controller can only work as part of a system under the control of a network controller.

The third group is devices that provide access control functions. This group includes "S2000-4", its modifications "S2000-4-01", "S2000-4-02" and "S2000-2". "S2000-2" is a controller that implements the function of access control "input / output" for one door or the function "input" or "exit" for two doors. "S2000-4" implements only the "input" or "output" function for one door. Controllers can be used to control access on blocking devices such as "door", "turnstile", "barrier", "gateway", etc. Devices of this group can work as part of a system, under the control of a network controller or autonomously.

The fourth group consists of control, indication and notification devices to external systems. This group of devices includes S2000-K, S2000-KS, S2000-BI, S2000-IT, S2000-SP1. The devices of this group are designed to provide the functions of controlling arming, disarming partitions, controlling and controlling access, displaying the status of system partitions, controlling executive devices, as well as transmitting notifications to centralized control panels and system users. The devices of this group do not have the ability to work autonomously and are intended to function only as part of the system, under the control of a network controller (except for "S2000-IT").

Fifth group - executive control devices fire automatics. This group includes devices "S2000-ASPT" and "S2000-KPB". Devices are designed to build fire extinguishing systems, smoke removal, control building systems with distributed actuators. Devices of this group can work as part of a system, under the control of a network controller or autonomously (except for "S2000-KPB").

Sixth group - network controllers and interface converters. This group of devices includes "S2000", "S2000-KS" and a personal computer with the Orion workstation software installed on it and a PI, "PI-GR" or "S2000-PI" interface converter. The main purpose of "S2000-PI" is to build the top level of the control interface of a complex distributed system using a tree topology of the interface, as well as lengthening the RS-485 interface and localizing the short circuit of the RS-485 interface line when implementing a ring or tree structure of the interface lines. In a complex distributed system, a computer network can be used, which also allows the use of an arbitrary topology.

Functionality and Features

All devices included in the ISO "Orion" have several common functional features.

Power supply of all devices is carried out from direct current sources of nominal voltage of 12 V or 24 V. Therefore, when constructing a security or access control system using ISO "Orion", redundant direct current power sources must be used to power devices. For this, DC power sources "RIP-12" with a voltage of 12 V and "RIP-24" with a voltage of 24 V, or others with similar characteristics, can be used.

All radial signal loops of the Signal-20, Signal-20P, S2000-4 devices have a voltage of 24 V, regardless of the supply voltage of the devices themselves, and any detectors with a dry contact output or with powered by an alarm loop. Security types of loops are controlled by devices not only along the boundaries of the Norms zone, but also when the loop resistance rapidly changes by more than 10% in less than 5 minutes, and can also be controlled not only in the taken state, but also in the removed state, while network controller sends messages about loop violation and its recovery. The type 5 security loop (the loop type is set when programming by the user) has the ability to independently control the alarm contact and the sensor lockout contact in one loop. If any of these contacts is broken in the taken state, the device transmits an alarm message to the network controller. When the lock contact is opened in the released state, the device transmits a message about the violation of the lock of the sensor housing. When restoring a message about the restoration of the housing lock.

In the system, from the network controller, you can remotely request the readings of the analog-to-digital converter of each of the Signal-20, Signal-20P, S2000-4 devices and receive the measured resistance values \u200b\u200bof each signal loop in a digital code, which can be converted to a value resistance in kOhm.

Fire loops of types 1 and 2 are monitored for the operation of fire detectors included in parallel in the loop, as follows. When the detector is triggered, the device removes power from the loop (resetting the notification) and supplies it again. If within one minute there is no repeated operation of the detector, the device generates and transmits to the network controller the message "Sensor operation" and remains in standby mode. This eliminates false alarms. When the detector is triggered again within one minute after the first operation, the device displays the message “Caution! Fire hazard”. When another detector is triggered in this loop, the device displays the message “Fire” and switches to the “Fire” mode, including light and sound sirens, and, if necessary, gives a signal to start the automatic fire extinguishing system.

The S2000-KDL controller can connect up to 127 addressable detectors and / or monitored circuits to its address two-wire line via address expanders. Only detectors with a “dry contact” at the output can be included in controlled circuits of address expanders; detectors powered by a loop can not be included in controlled circuits of expanders. The network controller "S2000-KDL" can receive from the address-analog fire detectors ("DIP-34A", "S2000-IP") connected to it, not only the messages "Warning", "Fire", "Fault", "Required maintenance "," Disabled ", but also the analog values \u200b\u200bof smoke and dust (" DIP-34A "), the temperature at the installation point (" S2000-IP "). When the addressable detectors are triggered, the “S2000-KDL” can issue commands to turn on the relay of the address signal-starting blocks “S2000-SP2”, and also send these messages to the system controller to issue commands to turn on the system outputs.

In the system’s devices, it is possible to set various tactics for the operation of these outputs for executive outputs depending on various events: “Alarm”, “Caution”, “Fire”, “Fault”, “Violation and restoration of the technological type of loop”, “Arming”, “Disarming” - more than 30 tactics of operation of each of the outputs of devices.

All ISO Orion devices allow operation as part of a system under the control of a network controller. The network controller can be a S2000 control and control panel, a S2000-KS LED control and control panel or a personal computer. The maximum number of devices in the system controlled by one network controller cannot exceed 127, and for "S2000-KS" - no more than 4. When using multiple network controllers, the maximum number of devices can be more than 16,000.

All devices of ISO "Orion" allow the possibility of changing (setting) configuration parameters to specific requirements. When devices are delivered from the factory, the installed configuration is focused on some average requirements of a typical facility. When delivered from the factory, all ISO "Orion" devices have the system parameter "network address" set to 127. When operating devices in the system (under the control of a network controller), this parameter must have a unique value for each device.

Based on the equipment of the ISO "Orion" combined systems can be built combining the functions of security alarms, fire alarms, access control, video surveillance control and engineering systems of buildings. At the same time, various functionalities can be implemented in combined systems.

Today, various integrated systems are used to create the appropriate level of security at the facility. Holistic protective systems are a set of technological tools that serve to fulfill the tasks. At present, a combination of security and fire alarms is widely used.

The Orion fire alarm system in practice integrates with a security subsystem.

The integrated complex Orion is presented in the form of a combination of technological, hardware and software specialized tools. Their work is aimed at identifying the facts of a fire, recording attempts to illegally access the guarded perimeter, video surveillance, access control, the inclusion of automatic warning and fire extinguishing systems. Such systems provide the ability to create dispatch services on their basis.

Tasks performed by integrated systems

The Orion security and fire alarm system is installed on the protected object to perform a number of tasks:

• Receiving, registering, processing, transmitting information coming from notification devices (security, fire, alarm);
• Access control and access control system (management of executive devices, for example: turnstiles, barriers, gates, gateways, entrance doors, etc.);
• Implementation of continuous internal and external video surveillance of the protected area;
• Regulation of the operation of automatic fire extinguishing and warning subsystems;
• Management of various engineering systems of the structure (including communications and air conditioning).

The Orion security alarm system in combination with the fire subsystem due to its multifunctionality is designed to provide:

• Structurality of modules, which allows equipping objects of various sizes with similar protective circuits;
• Low cost of installing one fire loop or checkpoint;
• Adequate security level for the created exchange protocols via communication channels between the receiving devices and the control panel;
• Microprocessor analysis of incoming signals directly in the installed loops;
• Measurement of the resistance value to exclude the occurrence of an emergency in the operation of the complex;
• The ability to use various types of identifiers for access;
• The use of keys to remove or arm the object (these actions can also be carried out using the keyboard, remote control, combined method);
• Exercise comprehensive control over checkpoints;
• Management of the video surveillance subsystem and monitoring its work;
• Registration of all emergencies in special protocols;
• Management of fire safety subsystems: fire extinguishing, warning, smoke removal, conditioning.

What are the functional features of ISO?

Despite the fact that integrated systems are presented as an integrated complex, each subsystem has its own characteristics. Work is performed both autonomously and through centralized management. The security alarm system as part of an integrated system has the following functional set:

• Autonomous control of alarm and blocking contacts in one loop;
• Installation of protection on loops from extraneous interference;
• False alarm protection;
• Immunity to electrostatic and electromagnetic interference;
• Automatic zeroing of alarm state when arming an object;
• Variability of methods of arming and disarming an object;
• Creation of protocols containing information about events;
• Drawing up a graphic plan of the facility to display the health and current status of all equipment;
• Programming access levels for workers and visitors;
• Differentiation of administrators' authority and access rights through the installation of a password system;
• Transfer of control commands to control and reception mechanisms, actuators;
• Notification in case of an alarm situation with the ability to save transmitted messages;
• Alarm processing according to a multi-stage principle;
• High level of system protection from installing and running unauthorized software or individual programs;
• Unlimited number of controlled zones within one section.

And the subsystem automatic extinguishing   The fires in the Orion complex are multifunctional. Among the main and auxiliary functions, the following are distinguished:

• Possibility of recognition of repeated operation within one loop;
• Automatic reset of the status of notification devices to exclude the possibility of a false alarm;
• Detector Connection various types;
• Establishing and checking the level of dust, temperature, smoke of the room;
• Organization of technical inspection of equipment and development of a list of measures to increase the degree of protection of an object from fire;
• Graphic image of the location of all notification devices;
• Keeping records of statistical data for the established reporting period;
• Programming commands transmitted to the notification subsystem and automatic fire extinguishing;
• Installation of various types of fire extinguishing systems at the same time;
• Monitoring the proper condition of several loops with checking the connecting circuits;
• Detection of breakage of connecting lines or short circuit;
• Transmission of commands to launch automatic fire extinguishing devices;
• The possibility of delaying the start of the launch of automatic means of extinguishing the flame;
• Remote control of the launch of fire extinguishing means by transmitting a command from the control panel;
• Manual start of automatic installations;
• Automation of starting processes of fire extinguishing subsystems;
• Management of technological devices of the premises;
• Automatic blocking of access;
• Transfer of current messages and alarms to the “S2000” and “S2000-PT” consoles;
• Controlling the operation of several fire pumps.

Also, ACS, video surveillance subsystems and building management engineering structures have their functional features in the integrated complex.

On the video - information about the fire alarm:

Components of an integrated protection system

The Orion IP includes a number of technical and software components:

• A hardware-software system equipped with specialized software, which includes the automated workplaces of the duty officer, head of the security service responsible for the video surveillance subsystem;
• Control and control panel (PKU “S 2000” and “S 2000 M”);
• LED keyboard type “C 2000-KS” and “C 2000-K”;
• Indicative block;
• Security and fire control and reception mechanisms (Signal-20, 20M, 20P SMD, 20P SMD);
• Specialized controller that controls access to the object;
• Reader of electronic keys Touch Memory;
• Readers of contactless identifiers;
• Signal-starting block element.

In the case of installation of a security-fire complex of the address type, the following equipment is installed:

• Signal-starting block element "C 2000-SP1";
• Two-wire controllers "C 2000-KDL";
• Addressable expanders of the type "C 2000-AR1", "C 2000-AR2", "C 2000-AR8";
• Addressable notification mechanisms (surface and volume electron-optical, acoustic security, fire smoke, magnetic contact, fire-heat differentiated, manual fire detectors);
• Block elements of branching and isolation;
• Reception and control mechanism for controlling automatic fire extinguishing installations of type “C 2000-ASPT”;
• Fire control device of the type "Potok-3N";
• Indicative blocks;
• Interface converters of various kinds;
• Sources of backup power supply (12V and 24V).

All mechanisms, devices and devices that are part of an integrated integrated circuit can be divided into six subgroups. The first subgroup includes devices that have radial loops. For example, the device "Signal-20" and the like. They can work both offline and through centralized (network) management. The second subgroup of devices is the notification transmission mechanisms. These include controllers, address type detectors, signal and trigger block elements. Since all of the above mechanisms are connected to the controller, its control can only be carried out according to the network principle.

The third subgroup is completed with mechanisms that ensure the performance of functions related to access control to the object. These include controllers of the “C 2000-4” type with all subsequent modifications. Controllers can be used in network mode or to control access relative to one point. The fourth subgroup of devices is formed by mechanisms for controlling the processing and transmission of information to external subsystems. The devices of this subgroup provide arming and disarming. Thanks to these mechanisms, it is possible to monitor the current state of various sections of the subsystem and manage execution devices.

The mechanisms that make up this subsystem do not work independently.

The fifth subgroup of elements includes devices and mechanisms for controlling automatic fire extinguishing installations. This subgroup is completed with devices of the type “C 2000-ASPT” and “C 2000-KPB”. The presence of these mechanisms allows you to build a fire extinguishing scheme, smoke removal, control various engineering subsystems of the building in case of emergency. The sixth subgroup includes controllers and interface converters. On personal computers, AWP Orion software is installed. These devices allow you to build a multi-level user interface and ensure its implementation on various lines. If a complex complex in its structural set is installed at an object, then a computer network can be used for control.

On the video - more information about fire safety systems:

It’s not enough to build a house; it needs to be preserved. One of the main enemies of any buildings is fire. He in a few minutes can destroy property that you have acquired over many years. To avoid this, you need to carry out a whole range of activities: monitor the quality of wiring, clean chimneys, exhaust hoods. But you can’t keep track of everything, and a fire can occur in any home. In order to minimize its consequences, a fire alarm is needed. "Car" - fire system, allowing you to calmly leave the house for a long time.

The room can also be subjected to the penetration of unauthorized persons: robbers, robbers, other undesirable subjects. What to do, install another system? The "car" allows you to cope with this problem. Having connected clients receive system 2 in 1.

Alarm Tasks

She must:

• detect any intruder;
• create a notice in a format suitable for transmission;
• send a notice to the decision center;
• set and disarm.

Manufacturer

Systems are produced by a research and development enterprise from Korolev. NVP "Bolid" is a leader in Russia among enterprises manufacturing products of this kind. In addition, it issues access control. Over the twenty-five years of its activity, equipment development engineers have significantly improved its functionality and technical characteristics.

To the equipment of NVP "Bolid" from the section of systems for protection and fire alarm   fire, security and combined sensors, control equipment, batteries, installation and installation equipment include.

With the help of NVP Bolid systems, it is possible to control cars in parking lots, heating and other engineering networks, to record all energy resources consumed. You can track all moving objects.

The Orion security system is used at 800 thousand enterprises. It is no coincidence that it is considered the most popular in Russia. Fifty awards at various exhibitions, including international ones, confirm this title.

Using

The company's products are mainly involved in large enterprises, large buildings, sports facilities. During the Olympics in Sochi, they also used the Bolid system.

Description

"Fireball" - a system consisting of a certain number of devices that are controlled from a single center, workplace. At the same time, there is a workstation for protection and fire safety.

Integrated system including:

• cCTV;
• alarm;
• video intercoms;
• remote controller;
• s2000 keyboards.

Targeting systems

Alarm systems are unicast and addressable.

The latter always work with network controllers. It can be a remote control or an AWP. They allow you to determine the place of penetration or fire occurrence with an accuracy of one installed sensor. This saves time on troubleshooting.

Combined consists of a controller S2000-KDL, address and non-address detectors.

Comparison with foreign analogues

Feedback from experts using the Bolid system and foreign analogues, note that they are significantly inferior in quality to both the software and the hardware itself. Why are they used everywhere?

Bolid (security systems):

• much cheaper;
• deliver them faster;
• it is possible to quickly find spare parts;
• the modular system is easy to install;
• the system is easy to expand, which is convenient for large-scale production;
• convenient client-service architecture.

Integrated security system "Orion"

"Orion car" consists of devices and software, interconnected by a common control system. It not only notifies of a fire occurrence, but also controls the extinguishing of the fire, the removal of smoke. In addition, the Orion Fireball system monitors the facility, and conducts video surveillance of its territory.

The monitoring and dispatch system helps rationally organize the work of staff.

Interaction with other systems

The equipment "Bolid" is combined with all life support systems. Together with heating, electricity and water supply, devices that control the lighting of the building, it is connected in a single complex with a central server. This makes it possible to monitor the status and readings of all devices from one place, which allows you to synchronize their work.

If one of the devices fails, then a signal about this is automatically sent to the server. This allows you to quickly and in time detect a malfunction and eliminate it.

Equipment

The devices of the Bolid S2000 station are mechanisms that link all the sensors into a single system and control them. Direct communication makes it possible to deliver the sensor signal through the address unit to the central console. But there are also false signals. The system even provides for these cases or malfunctions. Detectors can be configured to report such problems.

The C2000 "car" quickly detects a fire and transmits information to the server in a few seconds. Immediately after receiving such a signal, the equipment that deals with the elimination of the fire turns on.

S2000 is designed in such a way that it can work from the central remote control and independently, if this remote control is not present or for some reason it does not work. If there is no signal from the reporting device, then it goes to work offline. Therefore, a failure in the common system will not prevent you from dealing with the problem. Fire extinguishing is carried out using powder or gas extinguishers. It includes smoke removal and ventilation devices. At the same time, the system can use almost a hundred instruments. Therefore, you do not need to install devices that would manage each of them.

A certain number of relays and loops connecting them into a single complex can solve such problems:

• eliminate the fire automatically or in manual mode;
• manage everything and Access Control (ACS) if the central console is out of order;
• automatically control indoor and outdoor lighting;
• protect the roof from icing;
• notify sound and light signals of sirens about problems;
• manage the heat and water supply of the room;
• control the temperature in the building.

In addition, the system performs another function. With the help of video surveillance, you can not only search for fires, but also control the work and actions of the organization’s employees and visitors.

If the organization has its own transport and parking for it, you can assign control over them to the Bolid equipment.

The S2000-M console is the main one in the system. It is there that the programs for all the cases provided are located. There are signals of malfunctions, from there the inclusion of devices corresponding to the program goes. 511 sections, zones - more than 2 thousand.

S2000-KDL receives information from more than 120 addressable detectors and expanders, of which users are advised to use no more than a hundred. They are powered by a two-wire communication line.

S2000-K keyboard displays 485 commands for arming and disarming, displays messages. Works with Orion workstation.

S2000-SP1 - relay, opens the line at a voltage after 60V.

S2000-KPB - control and start-up unit, to which 6 lines are connected. Voltage - from 12 to 24 V. Finds line breaks or possible cases of short circuits.

S2000-BZK - protective switching unit.

The address sensors "Bolid" IPR 513-3A, allowing to report a fire in manual mode, work from S2000-KDL, can have about 130 addresses.

Fire sensors Dip-34A, responsive to smoke, addressable. They are placed at a height of up to 9 m. If the room is taller, you can use linear sensors. Due to the fact that they are designed for other systems, they use address extenders.

Security infrared analog sensors S2000-IR allow you to detect a fire location with high accuracy.

Software

By purchasing a Bolid (security system), you get along with it software that allows you to manage processes.

Price

The cost of a set of equipment depends on the number of required functions and ranges from tens to hundreds of thousands of rubles.

Installation by specialists

Purchased equipment must be installed. Installation is carried out by specialists. First, they inspect the room, measure the area, the height of the buildings. Calculate how many and what elements are needed to perform quality protection.

If the installed Bolid device is addressable, then the address and configuration are changed before installation.

There is no certain price for installation. On-site specialists determine the level of complexity, take into account the area and height of the room, determine the installation methods, the number of each type of sensors and other equipment. Calculate the required number of specialists and equipment needed for the installation of equipment.

Training

Burglar alarm system is quite difficult to use. It will not be easy for a beginner to understand its functions. Therefore, various training programs have been developed for specialists who will continue to service the equipment.

This can be a full course or seminars on specific topics. If the first is intended for a detailed study of all the equipment, then the second can be visited by specialists who have work experience, but require knowledge adjustment. This also includes employees who work only in a certain direction.