Low-capacity retail complex networks
- Added: 03.07.2014
- Size: 3 MB
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Description
Project's Content
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Makeevka СМЕТНАЯ ТАБЛИЦА 4.2_Слаботочные системы_RUS.xls
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БЛОКОВАЯ СХЕМА ДОМОФОННОЙ СЕТИ_RUS.dwg
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БЛОКОВАЯ СХЕМА КАБЕЛЬНОГО ТЕЛЕВИДЕНИЯ_RUS.dwg
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БЛОКОВАЯ СХЕМА КОНТРОЛЯ ДОСТУПА_RUS.dwg
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БЛОКОВАЯ СХЕМА СИГНАЛИЗАЦИИ ПРОТИВ ВЗЛОМА И НАПАДЕНИЯ_RUS.dwg
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БЛОКОВАЯ СХЕМА ТЕЛЕФОННОЙ СЕТИ_RUS.dwg
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ПЕРВАЯ СТРАНИЦА_RUS.dwg
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ПЛАНЫ ЭТАЖЕЙ_RUS.dwg
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ПЗ_ТЕЛЕТЕХ_RUS.doc
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Additional information
1. materials
All devices and materials used for installation of the designed system must comply with the current norms and regulations of the Republic of Ukraine and have the necessary tolerances and certificates. All deviations from the project instructions should be agreed in writing with the contract engineer.
1.1. SYSTEM COMPONENTS SSWiN
All devices and materials used for installation of the designed system must comply with the current norms and regulations of the Republic of Ukraine and have the necessary tolerances and certificates. The centrals used must meet the requirements for large and medium objects, i.e. with a high degree of risk. The reliability of the system and the reliability of its operation must be confirmed by a certificate in accordance with at least class "C." All deviations from the project instructions should be agreed in writing with the contract engineer.
1.1.1. SYSTEM CABLE NETWORK SSWiN
The cable network of the hacking and attack alarm system consists of surveillance lines from the concentrator modules to individual sensors. The network should be made with copper wires. Okablowanie w obiekcie należy wykonać przewodem wieloparowym o następujących parametrach:
• To sensors - telecommunication cable with cross section 0.5 and number of strands 6, standard not lower than YTKSY 3x2x0,5 ,
• For trunk connection, annunciators - telecommunication shielded cable with cross section 0.8 and number of strands 6, standard at least YTKSY 3x2x0.8.
• Between the center and the concentrator modules and the manipulators, a communication line should be laid - wires in the standard: YTKSY 3x2x0.8 and a supply wire - at least 2x1.5mm2 (12V power supply).
1.1.2. ALARM CENTERS SSWiN
All elements of the system must be fully compatible and ensure the correct operation of the entire system. A modular system with an architecture that allows for its expansion without the need to replace the system as a whole is adopted. Consideration should be given to integration with other security systems.
1.1.3. passive infrared sensors pir.
Passive infrared PIR sensor: sensor coverage 12 m; number of beams 52 pcs as well as beam monitoring the sensor approach area; Power (nom. 12 V) 8 - 16 VDC; Current (przy 8.0 - 16.0 VDC) 6 mA during observation and during alarm; Animal resistance < 20 kg; operating temperature 20 to + 55 ° C; storage temperature 20 to + 60 ° C; humidity (EN 60721) < 95% vol.; resistance to electromagnetic interference > 30 V/m; containment category (EN 60529, EN 50102) IP 41/IK 02; climate category VdS II; Wide-angle mirror; Connectivity to the applied SSWiN system; Min class "C" The sensor shall be designed for use in professional protective systems. Detectors must have a logical structure that implements digital processing algorithms that give a high degree of detection and resistance to animals. In addition, the sensors must have a so-called black mirror, which provides resistance to false alarm while maintaining the appropriate sensitivity of the sensor and confidently distinguishing the signals generated by an unauthorized person from the plugging signals. The sensor must have a temperature compensation system to improve its performance in changing weather conditions .
1.1.4. combined dual sensors
Dual sensor:. sensor area approx. 12 m; Power (nom. 12 V) 8 - 16 VDC; Current (przy 12 VDC) 15 mA during observation and 30 mA during alarm; operating temperature 20 to + 55 ° C; storage temperature 20 to + 60 ° C; humidity (EN 60721) < 95% RH; resistance to electromagnetic interference > 30 V/m; containment category (EN 60529, EN 50102) IP 41/IK 02; Wide-angle mirror; Connectivity to the applied SSWiN system; Class "C." The sensor shall be designed for use in professional protective systems. Detectors must have decision systems using multi-vector signal processing in both subsystems, each interference being distinguished and suppressed separately in each subsystem. Decisive systems should avoid false alarms from through or light reflections.
1.1.5. attack buttons
Attack button: min class "C"; alarm relay NC; alarm time - press time + 1s; operating temperature 20 - + 55 ° C; Connectivity to the applied SSWiN system; housing opening alarm (tamper).
1.1.6. radio attack button
Attack radio button: 12V DC power; current during observation 20mA; NO or NC transfer outputs; radius of min. 100m; transmission is protected by dynamically changing code; possibility of servicing 12 consoles; housing opening alarm (tamper); Connectivity to the applied SSWiN system; min class ".C."
1.1.7. magnetic sensors - contacts
Magnetic sensor (contactor): Designed for surface mounting (self-adhesive or screwed), radius 22mm, color white or brown (according to the color of the door); Designed for hidden mounting, circular section (Ø 9.5 mm) and radius 19mm, color white or brown (according to the color of the door); Designed for surface mounting (screwed), equipped with lining and shell, color white or brown (according to the color of the door); All contactors shall have mine class "C"; Connectivity to the applied SSWiN system.
1.1.8. optical and acoustic annunciator
Acoustic and optical annunciator: acoustic alarm - piezoelectric converter; sound strength: at least 120dB; optical alarm - xenon torch; DC 12V +/20% power supply; current - acoustic alarm up to 270 mA; current - optical signalling 270 mA; internal battery 6V/1.3 Ah (low temperature resistant); protection of the internal battery of the pre-cover. WTAT 3,15A; operating temperature 35 ° C... + 60 ° C; housing opening alarm (tamper); shall have separate control inputs for acoustic and optical signaling; The electronic system shall be weatherproof; Connectivity to the applied SSWiN system; min class "C."
1.2. components of the skd system
The purpose of the access control system is to limit the movement of unauthorized persons in the territory of the object, as well as to regulate access to the areas of the object depending on the degree of admission. When configuring the system, be aware of fire safety and do not limit evacuation. The functional diagram shall correspond to the functional diagram of the building. Identification cards should be issued only to persons who are authorized to stay with the premises or areas concerned.
So configured access control will allow you to organize traffic on the site and limit the access of unauthorized persons to the corresponding areas, while not restricting movement .
All devices and materials used for installation of the designed system must comply with the current norms and regulations of the Republic of Ukraine and have the necessary tolerances and certificates. All deviations from the project instructions should be agreed in writing with the contract engineer.
1.2.1. cable network of skd system
The cable network of the access control system consists of signal lines from the input-output modules to individual elements.
object cable network is designed on the basis of multipath wires with the following parameters:
• To button sensors - telecommunication cable with cross section 0.5 and number of strands 6, standard not lower than YTKSY 3x2x0,5,
• To connect the trunk, - telecommunication cable, multi-dimensional, with a section of 0.5 and a number of strands of 8, the standard is not lower than UTP cat 5.
A YTKSY 3x2x0.8 communication line and a minimum of 2x1.5mm2 (12V power) supply wire are routed between the controller and the individual input, output and scanner modules.
1.2.2. controllers, modules, output input modules
The system used shall have the parameters specified in the project explanatory note and device specifications. All elements of the system must be fully compatible and ensure the correct operation of the entire system. A modular system with an architecture that allows for its expansion without the need to replace the system as a whole is adopted. Consideration should be given to integration with other security systems.
1.2.3. SCANNERS
Access control card scanner: transmission frequency 125 kHz; coverage area 7cm; memory operating prior to updating system programming; status check and sound signal; Forward data via RS485 or Wiegand trunk operation in "touch and go" mode; current 120mA; 1224VDC power supply; operating temperature 25 to + 70 ° C; protective category of IP65 housing.
1.2.4. magnetic sensors - contacts
Magnetic sensor (contactor): Designed for surface mounting (self-adhesive or screwed), radius 22mm, color white or brown (according to the color of the door); Designed for hidden mounting, circular section (Ø 9.5 mm) and radius 19mm, color white or brown (according to the color of the door); Designed for surface mounting (screwed), equipped with lining and shell, color white or brown (according to the color of the door); All contactors shall have mine class "C";
1.2.5. closing elements
Locking elements: electric lock, electric lock or electromagnetic bracket with parameters: U = 24V DC i IMAX = 800mA. When selecting these elements, you should pay attention to their purpose, specified by the manufacturer. Locking elements must be selected depending on the intended loads. The element that is opened by current is mounted if there is a handle on the protected side that opens the door. Otherwise, the open button, the evacuation button, and the reversing element (opened by no current) must be mounted.
1.3. components of the cctv system
All devices and materials used for installation of the designed system must comply with the current norms and regulations of the Republic of Ukraine and have the necessary tolerances and certificates. All deviations from the project instructions should be agreed in writing with the contract engineer.
1.3.1. system cable network
• Copper wires for video signal transmission:
The copper cable network is used to transmit a video signal from the camera to the recorder. It is performed by a concentric cable with an impedance of 75 Ohm, the standard is not lower than YWD75.
• Power cables:
Shall provide continuous power to CCTV devices. It is made with copper 3 conductors with a single-wire core structure and a minimum section of 2.5 m2.
1.3.2. MONITORS
Monitors used in the system shall be monitors designed for professional CCTV systems. Shall be made in TFT technology and adapted for continuous operation.
Master Data:
• minimum resolution 1024x768 pixels.
1.3.3. stationary cells powered 230 v
The system is designed based on high resolution devices based on PAL color technology. The camera must have built-in digital signal processing algorithms with the ability to adjust parameters using the OSD menu.
Master Data:
• 420 line resolution (752 x 582 pixels)
• 1/3 inch converter,
• 100 - 230 RAC power supply,
• Adapted to video (AI) or direct (DD) lenses,
• Automatic gain control function,
• Automatic white adjustment.
1.3.4. stationary cameras powered 12 v
The system is designed based on high resolution devices based on PAL color technology. The camera must have built-in digital signal processing algorithms with the ability to adjust parameters using the OSD menu.
Master Data:
• 420 line resolution (752 x 582 pixels)
• 1/3 inch converter,
• 12 VDC/24 RAC power supply,
• Adapted to video (AI) or direct (DD) lenses
• Automatic gain control function,
• Automatic white adjustment,
1.3.5. LENSES
The lens is an optical system for projecting an image of a desired scene onto a photosensitive surface of the transducer. To implement the task, use lenses with a variable focal length, with the following parameters:
• focal length within 3.5-8,
• diaphragm with direct drive (for external chambers),
• manual diaphragm (for internal chambers),
• mounting bracket of CS type,
• suitable for installation in 1/3 "converter chambers,
• viewing angles from 35 to 73.8 °,
• aperture value F = 1.4.
1.3.6. external housings
To ensure the appropriate operating conditions of the chambers and their protection against atmospheric effects, external housings with the following parameters should be used:
• Resistance to external atmospheric effects,
• Anti-mildew system (thermostat heater),
• Heating with power supply voltage 230 V power 7 W,
• Place for installation of waveguide converter and amplifier for camera,
• Degree of protection of IP 66.
1.3.7. brackets for cameras
Taking into account the placement of cameras on the object, two types of brackets should be provided:
• Standard brackets supplied by the chassis or camera manufacturer;
• Custom-made brackets - if the camera is installed in place, the standard bracket on will provide the optimal field of view or it cannot be correctly attached to the base.
The brackets should be selected at the construction stage, after checking the installation method and refining the camera field of view. Special attention should be paid to the method of fastening to the wall (base), which should ensure the stability of the structure, so as to prevent shocks and vibrations of the structure. The method of brackets attachment, construction and finishing during installation works shall be agreed with the customer and the architect .
1.3.8. recording devices
The recorder must record the image digitally on the local hard disk. Reduce the ability to work with the monitors listed above. The image should be recorded using the latest data compression technology to ensure high image quality. The image should be recorded on a disk of at least 250 GB. The device shall have the function of eliminating non-uniformity in the time of action of television lines in the projection of recording. The recorder shall meet the following requirements:
• High-performance image compression with MPEG4 encoding
• 9 or 16 full video inputs,
• Compatibility with color (PAL or NTSC) and black and white (CCIR and EIA170) video signal sources,
• Different search methods (time/date, calendar, events),
• Record min. 50 cells per second in PAL (60 in NTSC),
• Video throughput outputs,
• Permanent hard disk recording in overwrite mode,
• Ultra SCSI write archiving,
• Permanent recording during archiving, transmission, and recording projection.
• User-friendly graphical interface (GUI) and clear, multilingual menu.
• Two recording modes (time or event).
• Recording and playing sound.
• Signal joints enclosing: input, output and reboot input.
• Built-in signal.
• Access a recorded image or actual recording using an Ethernet network or an external modem.
1.4. components of the cable television system
All devices and materials used for installation of the designed system must comply with the current norms and regulations of the Republic of Ukraine and have the necessary tolerances and certificates. All deviations from the project instructions should be agreed in writing with the contract engineer.
1.4.1. end sockets
Subscriber impassable slot - with a small amount of signal distortion intended for application at the end of each subscriber line.
1.4.2. ANTENNAS
Antenna system:
• one or two satellite antennas with a 90cm dish,
• two terrestrial television antennas:
• one per VHF III band,
• one per UHF band.
1.4.3. main station
The main station is designed to receive the following signals:
• terrestrial television,
• digital satellite television,
• analog satellite television
RACK 19 "cabinet is equipped with power supply unit, controller and mounting elements for the station.
Ability to receive coded programs - through digital tuners with a CI module (variant),
• Reception and transmission of teletext signal in the channel,
• Simple replacement of digital receiver software and station control panel if it needs to be updated.
1.4.4. AMPLIFIERS
A local internal amplifier, the last in the signal row of a cable television network, transmitting a signal directly to subscribers, which is not intended to operate in a cascade.
1.4.5. system cable network
Signal paths from antennas on the roof must be carried out in a teletechnic room to connect to the main station. The signal shall be transmitted by coaxial wires with 75 Ohm wave impedance through the SAT coupler network to the shafts on the respective floors where the floor amplifiers will be located. Connections should be made with a low-voltage trunk cable. The following connections from subscriber couplers on these floors to subscriber sockets should be made by coaxial wire with 75 Ohm impedance with copper core.
1.5. telephone network system components
All devices and materials used for installation of the designed system must comply with the current norms and regulations of the Republic of Ukraine and have the necessary tolerances and certificates. All deviations from the project instructions should be agreed in writing with the contract engineer.
БЛОКОВАЯ СХЕМА ДОМОФОННОЙ СЕТИ_RUS.dwg
БЛОКОВАЯ СХЕМА КАБЕЛЬНОГО ТЕЛЕВИДЕНИЯ_RUS.dwg
БЛОКОВАЯ СХЕМА КОНТРОЛЯ ДОСТУПА_RUS.dwg
БЛОКОВАЯ СХЕМА СИГНАЛИЗАЦИИ ПРОТИВ ВЗЛОМА И НАПАДЕНИЯ_RUS.dwg
БЛОКОВАЯ СХЕМА ТЕЛЕФОННОЙ СЕТИ_RUS.dwg
ПЕРВАЯ СТРАНИЦА_RUS.dwg
ПЛАНЫ ЭТАЖЕЙ_RUS.dwg
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