Integrated security system ISS "777"
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System peculiarities:
INTEGRATED SECURITY SYSTEM ISS "777"The ISS "777" serves for creating modern security complexes of both middle sized and big sized units. With minimum hardware the system can execute complicated operating algorithms and integrate into a single complex the subdivisions of perimeter, burglar and fire alarm, automated devices of fire fighting and smoke removal, automated devices of entrance/exit, entrance checkpoints, access control, video surveillance and safety system. High capacity of soft and hardware, flexible configuration and communication distance in the ISS "777" allow creating and developing individually for every unit the system configuration with all necessary functions and subsystemsthat meet all the security requirements. Technical characteristics:
Logical system structure Address blocks are the basis for the ISS "777" operation. The address blocks are managed by a controller. The controller and address blocks create a sector. Via communication line of RS485 standard one controller can serve up to 32 address blocks of different destinations. Every loop, logical zone, proximity reader, execution device in the ISS "777" has its individual address. Sectors can be divided on the basis of function (for example, burglar alarm sector) or on the basis of territory (for example, the first floor sector). There can be up to 32 sectors in security system of the unit (when using in the main communication line interface standard RS485) or up to 255 (when using local computer networks and protocol TCP/IP). Controllers of all system sectors are connected via main communication line to the centralized control station (CCS) that can consist of several automated workstation with different tasks. The Integrated Security System ISS "777" consists of: Fire and Burglar Alarm System and Access Control "Network A" on the basis of indicating and control devices, Analogue–Addressable Fire Alarm System "ASPS" 01–33–1311 "Biriuza" and digital video surveillance system "Intellect". Distributed system structure Distributed (multiserver) structure of upper level in Integrated Security System "777" allows to integrate security subdivisions of enterprise branches on the level of database via networks Ethernet/Internet.   System peculiarities:
STRUCTURE CHART OF INTEGRATED SECURITY SYSTEM "777" THE SOFTWARE OF ISS "777"AWP "Duty Operator" (AWP DO) Automated working place "Duty Operator" displays current situation of the unit on–line and controls system functioning in real time. Equipment structure of the system, unit structure, zones maps, plans and the technical status of every system module are displayed at AWP DO. The program records all unit events and enters this information into Event log. It displays single–step instructions, stated when configuring the system, for the Duty Operator on every event to respond immediately. The instructions have spaces for notes where its execution time is fixed. AWP "Duty Operator" displays graphically and in numbers the information about equipment technical state: current voltage value, charge of storage battery, case openings, communication availability and quality with each system module. During alarm situation, alarm zone and type of event are highlighted at the unit plans, and current video image is displayed in a special window. Arming/disarming, video surveillance control and control of automated devices and access can be carried out on–line. AWP DO has a possibility for audio recording and accompanying sound of events and actions. The application program "Archive Manager" (Reports generator) serves for archiving and processing the 24–hour Event logs and it allows creating and redacting the necessary reports, using set patterns and filters.
   Application "System Configurator" It creates and displays the unit structure and component parts of equipment, establishes logical links between system devices and creates a reaction mechanism to events. The main goals: forming of logical zones and sectors on the base of the unit plans, setting equipment operation modes and intersector logics, establishing interaction between sectors and changing system structure.
 Application "Script Master" For the installer it is an instrument for creating individual scripts and operation logics of system equipment (scripts links) at the intersector level. It allows to create complicated algorithms and controlling scripts, set their start procedure in accordance with the events in the system.
 AWP "Parking" It controls entrance/exit of motor transport, has flexible tariff system, provides parking services payment as well as automation of calculations at an unlimited quantity of terminals. This program allows setting different rates depending on day or night time, parking duration and user category. It is possible to view the video and keep transport photos in a data base.
 AWP "Pass Issue Terminal" (AWP PIT) It registers system users, assigns authorities and access rights to unit zones, creates time and network schedules, produces and edits passes. When PIT operator enters a new pass into a database, the following information shall be included: personal and official information about its owner, his photo, access authorities, date of pass issue and its period of validity. Various types of data sorting can be applied in the application to facilitate data search. This program designs the pass appearance and prepares it for printing. AWP PIT application builds network access schedule for 16 time intervals during day and night taking into account the leaves for the whole given period.
  AWP "Work–time accounting" It accounts the working time and automatically creates the time–board. The time–board is formed after processing 24–hour access logs of Integrated Security System "777" taking into account the network schedules. It also supports a working schedule with no fixed office hours.
 Integration of ISS "777" with video surveillance system "Intellect" ISS 777 is integrated with the video surveillance system "Intellect" at a software level. AWP DO displays the current video image from any camera connected to the "Intellect" system. Upon an event (alarm, attention, fire, pass by request) the corresponding to the zone video image is automatically filed in the database of AWP DO.   UNIVERSAL INTERFACE ADAPTER "AIU–2"AIU–2 is installed in system PC unit of Centralized Control Station (CCS). It transforms RS 485 into RS 232. AIU–2 Interface Adapter provides communication between the computer of CCS and guarding sector and access system controllers via main communication line, and also provides identification of cards (E– keys) of AWP DO operators using remote Proximity (TM) card–reader. The AIU–2 Interface Adapter installed in the PC of "AWP PIT" ("Pass Issue Terminal") serves to create communication with Automated Working Place of Duty Operator (AWP DO) via RS–485 interface and also to register users' cards (E– keys) using remote Proximity (TM) card reader. Technical characteristics:
 GUARDING SECTOR CONTROLLER "KSO"KSO controller serves for controlling addressable sector devices and providing functioning of subsystems: perimeter, burglar and fire alarm, automated devices of fire fighting and smoke removal, access control and integration with the unit life–support systems. KSO controller receives, processes, transforms and transmits to CCS via communication line of RS485 standard (or Ethernet) the telemetric information from addressable devices and controls sector equipment operation by a given algorithm. The controller keeps in permanent memory the program settings of all addressable devices of the sector, their operation scripts and the whole database of cards (E– keys). It provides system efficiency in case of PC failure. KSO controller is an addressable device in the main communication line. Technical characteristics:
Application of KSO controller with sector equipment: Thanks to flexible algorithms and configurations of sector equipment it is possible at the level of KSO to group and distribute loops, relays, card–readers round the unit logical zones (rooms, room groups), to arrange zone addressing and provide interaction between security subsystems. For example, in case of fire to unblock, and in case of alarm to block access control locks, to start the system of local fire–fighting (gas, aerosol, powder) after notifying and evacuating of the personnel.  
KSD ACCESS CONTROLLERKSD Access Controller is a highlyreliable, universal programmable controller, destinated for automation of entrance checkpoint. It provides full access mode for large number of users and for high intensity of passings. Permanent memory of KSD Access Controller keeps cards (E– keys), network access schedules, access levels and configurable functioning logics for automated entrance checkpoint, enter/exit of motor transport, and locks both in the normal mode and in the "Sluice" mode. There are 10 analog inputs in KSD Access Controller for control sensors connection (Pass Zones, execution devices status, control buttons), 2 channels for card–readers connection, 8 programmable outputs for controlling devices (executive, light–audible, controlling). Built–in source of high–capacity 12V/3A provides uninterruptible power supply to external executive (locks, turnstiles) and light–audible (sirens, traffic lights, indicator boards) devices. The controller has a built–in generator of sound signals.KSD Access Controller operates in autonomous or network mode, creates pass, alarm and failure notices and transmits them to the upper level of the system. If the communication with AWP DO fails, the controller operation mode becomes autonomous, with the full saving of its work efficiency and functioning logics. With the help of KSD Access Controller the access to the unit is organized by one–time, temporary and permanent pass cards both in working days and days off. Time–out of pass expecting can be changed from 0 to 255 seconds. KSD Access Controller is an addressable device in communication main line. Technical characteristics:
Modes of application of KSD Access Controller:  
AB4/AB4–U SERVICE BLOCKAB4 Service Block serves for creating zones of burglar, fire, perimeter alarm, access control and control of access automated devices, fire fighting, smoke removal, notification. AB4–U has:
Technical characteristics:
Example 1: For one room AB4 Service Block provides a complex protection of a room: fire alarm, burglar alarm with two alarm zones and access control. Access to the room and its arming are carried out from one VKP reader (Proximity), and exit – by button. The zone can be controlled by VPU Remote keyboard. With AB4 Service Block relay one can control access lock and lighting (off/on) in the room while arming it. Zone status is displayed on VPU in the hall and is indicated by LED on VKP reader of the room. Example 2: For two rooms One Service Block serves for two rooms. Every zone (room) has one fire alarm loop and one burglar alarm loop and the relay of access lock control. Access to/exit from one room is made by pass card (direction control). For the other room: entrance by pass card, exit by button. Zone status is displayed on VPU in the hall and is indicated by LED on the corresponding VKP readers of the rooms. Example 3: For four rooms All loops of AB4 Service Block have alarm detectors in. Each loop controls two alarm boundaries (volume, perimeter) of a separate room. Arming/disarming is commanded from individual VKP readers for each room. Zones control can be effected from VPU keyboard. Zone status is displayed on VPU in the hall and is indicated by LED on the corresponding VKP readers of the rooms.  
VPU REMOTE CONTROL PANELVPU Remote Control Panel serves for displaying on LCD the status of sector devices, fire and burglar alarm loops, as well as for viewing messages buffer. With the help of VPU it is possible to arm/disarm alarm zones, re–arm the loops of alarm buttons and fire alarm and to control remotely the automated devices. VPU can be applied for creating guard posts both in autonomous and in network operation modes. VPU is an addressable device in object communication line. Technical characteristics:
VPIU–16 REMOTE CONTROL AND INDICATION PANELVPIU–16 is a LED board. It displays the status of burglar and fire alarm loops, executive devices, AB4, AB4–U Service Blocks and other active devices. VPIU–16 arms/disarms the zones and controls remotely the automated devices in a manual mode. The local stations of monitoring and operative controlling the sector equipment and guarded zones can be created with help of VPIU–16 Indication Panel. VPIU–16 is an addressable device in the object communication line. Technical characteristics:
 KSP–A4/8 COMMUNICATOR OF MATCHING WITH CCSThe Communicator transmits via 4 serial ports the status messages of sector alarm zones to monitoring systems, for example to CCS of Automated System of Burglar Alarm "Alesia" by city busy telephone lines (18kHz). KSP–A4/8 Communicator is an addressable device in object communication line. Technical characteristics:
 
BUN–3–12D AND BUN–1–12 LOAD CONTROL UNITSLoad Control Units BUN–3–12D and BUN –1–12 are applied in control schemes of different engines, smoke removal valves, fire fighting equipment and other devices that are switched on by way of 220/380V supply. Beside that, Load Control Unit BUN–3–12D is as well applied for control of voltage supply 220/380V presence on execution devices. These units are connected to KSO, KSD, AB4 or AB4–U. Technical characteristics:
 
VKP PROXIMITY CARD READERVKP Proximity Card Reader is a reader of cards (E–keys) types Em–Marin or HID. Supports protocols Touch Memory, Wigand and internal protocol of System ISS "777". VKP Proximity Card Reader with the help of built–in two–colour LED indicates the statuses of fire and burglar alarm zones or access control zones that this VKP belongs to. Up to 4 VKP Proximity Card Readers are connected to one AB4 Module via local addressable bus. Technical characteristics:
REPEATER: R485–4URepeater R485–4U is destinated for system protection if cuts or short circuits occur in communication line. Different schemes of repeater connection allow to increase the length of object communication line, divide it into segments, as well as to create a flexible topology of communication lines with circular and branched structure. Technical characteristics:
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