-
Building Management System (BMS)
New ACC Project
TABLE OF CONTENETS 1.0
INTRODUCTION.
2.0
SCOPE OF WORK.
-
3.0
REGULATIONS.
4.0
ENVIRONMENTAL CONDITIONS.
5.0
TECHNICAL SPECIFICATION SPECIFI CATION OF THE BMS SYSTEM.
6.0
TECHNICAL DOCUMENTATIONS.
7.0
TRAINING.
8.0 9.0
INSTALLATION, INSTALLATIO N, TESTING AND COMMISSIONING. COMMISSIONING . SPARE PARTS.
10.0 MAINTENANCE TOOLS AND EQUIPMENTS.
1.0
INTRODUCTION This specification covers the functional requirements for the design, manufacture, installation, test and commissioning of the BMS system for the operation of New ACC Building.
2.0
SCOPE OF WORK CONTRACTOR shall be responsible for the design, supply, delivery, manufacture, quality control, testing and commissioning of the BMS system for New ACC Building.
-
3.0
REGULATIONS.
4.0
ENVIRONMENTAL CONDITIONS.
5.0
TECHNICAL SPECIFICATION SPECIFI CATION OF THE BMS SYSTEM.
6.0
TECHNICAL DOCUMENTATIONS.
7.0
TRAINING.
8.0 9.0
INSTALLATION, INSTALLATIO N, TESTING AND COMMISSIONING. COMMISSIONING . SPARE PARTS.
10.0 MAINTENANCE TOOLS AND EQUIPMENTS.
1.0
INTRODUCTION This specification covers the functional requirements for the design, manufacture, installation, test and commissioning of the BMS system for the operation of New ACC Building.
2.0
SCOPE OF WORK CONTRACTOR shall be responsible for the design, supply, delivery, manufacture, quality control, testing and commissioning of the BMS system for New ACC Building.
-
CONTRACOR shall be responsible for all site installation supervision, testing and commissioning. CONTRACTOR shall also coordinate and be responsible for all the interfaces work and supply of materials to ensure completion and functionality of the system.
3.0 REGULATIONS The system should be compliant with the standard specification specificati on of the Building Management Systems and cope with airports Building Management Systems international requirements .
4.0
ENVIRONMENTAL ENVIRONMENT AL CONDITIONS Maximum ambient temperature: 50º c Storage temperature: 70º c. Minimum ambient temperature: 10ºc. Relative humidity: 20% to 95%. Equipments shall be protected to prevent corrosion and operation failure. All outdoor equipment shall have weather proof enclosure with IP65 or better.
5.0
TECHNICAL SPECIFICATION SPECIFI CATION Building Management System shall monitor and manage: 1. Electrical Distribution Panels 2. Lighting Control 3. Air Conditioning System 4. Fire Alarm & Fire Fighting 5. Public Address 6. CCTV System Monitoring 7. Elevators
-
8. Access Control, Parking Access, Intrusion Detection 9. PABX 10. UPS 11. Water Consumption
6.0
TECHNICAL DOCUMENTATIONS The operations/user manuals for the system shall be provided. The manuals, schematics, wiring drawing installation drawings, etc. shall comprehensively describe all operation aspect of the systems provided so that a complete understanding of all features and operations is made available.
The technical manuals of the BMS system should cover the following:Operating instructions. • • Installation diagrams and procedures. Maintenance instructions. • Technical specification. • Electrical drawings with relevant parts list. •
7.0
TRAINING •
• •
Training should be provided by the Supplier for the OWNER′S personnel. Maintenance and operation training at the factory. On- the job training shall be conducted on site.
-
8.0
Installation, Testing and Commissioning CONTRACTOR shall install, test and commissions the system. CONTRACTOR shall provide all the necessary tools, test equipment, consumable, installation, testing and commissioning of the system. Testing of the system shall include all cables and cable pairs. CONTRACTOR shall provide a detailed installation plan including installation procedures and schedules for accomplishing the work to address various phases of the implementation activities.
9.0
Spare Parts CONTRACTOR shall provide commissioning and Start-Up Spares, at least the critical modules/cards to maintain system high availability.
10.0
Maintenance Tools and Equipment CONTRACTOR shall provide maintenance tools and equipment as recommended by manufacturer to provide field maintenance on the equipment and for making field repairs of the system and related accessories.
-
Building Management System Bill of Quantities
NO. 1
ITEM Complete System Floating Contacts for Connecting Subsystems with DI (Digital Input), DA (Digital Output), AI (Analog Input), AO (Analog Output) UP to 48 DI for Electrical Distribution Panels UP to 24 DI for Lighting Control DIs, DAs , AIs . AOs for Central Air Contitioning System 10 DI Fire Alarm & Fire Fighting 5 DI , 5 DA Public Address 2 DI for CCTV System Monitoring 2 DI , 2 DA Elevators 20 DI Access Control, Parking Access, Intrusion Detection 1 DI PABX 1 DI UPS 1 DI for Water Consumption
QTY. 1
-
CCTV System
Technical Specification
TABLE OF CONTENTS 1.0
INTRODUCTION--------------------------------------------------------------------2
2.0
ABREVIATIONS AND TERMINOLOGY---------------------------------------2
3.0
CODES AND STANDARDS------------------------------------------------------3
4.0
ENVIRONMENTAL CONDITIONS----------------------------------------------4
5.0
SYSTEM DESIGN-------------------------------------------------------------------4
5.1
Cameras--------------------------------------------------------------------------------5
5.2
Transmission--------------------------------------------------------------------------6
-
53
CCTV Cabinets-----------------------------------------------------------------------6
5.4
Other Features------------------------------------------------------------------------6
60
POWER SUPPUES------------------------------------------------------------------7
7.0
DOCUMENTATION------------------------------------------------------------------7
8.0
Factory Acceptance Test-----------------------------------------------------------7
9.0
SPARES---------------------------------------------------------------------------------8
10.0
TRAINING-------------------------------------------------------------------------------8
1.0
INTRODUCTION This specification defines the minimum requirements for design, manufacture, inspection and testing of a Closed Circuit Television (CCTV) system for the New ACC Building Project in Khartoum SUDAN. . This specification shall include the design, supply, test and commissioning of the complete CCTV system including indoor and outdoor cameras, video servers, digital video management. Recording/playback server, remote controllers, back-up facilities, viewing and control equipment and network equipment for the successful implementation of the CCTV in accordance with this specification. This shall include all hardware, software and associated accessories.
2.0
ABREVIA11ONS AND TERMINOLOGY CCTV
Closed Circuit Television
CCD
Charged coupled device
CCIR
Committee Consultants International Radio Communication European Standard)
CODEC
Coder— Decoder
FAT
Factory Acceptance Test
-
HMI
Human Machine Interface
IFAT
Integrated Factory Acceptance Test
IAT
Internal Acceptance Testing
LCD
Liquid Crystal Display
LAN
Local Area Network
MPEG
Motion Picture Export Group
MTBF
Mean Time Between Failures
MTTF
Mean Time to Fail
MTTR
Mean Time to Repair
NTSC
National Television Standard Committee
PAL
Phase Alternating Time
RCZ cameras
Cameras that can be zoomed, tilted, panned and focused onto PTZ cameras one object
RGB
Red I Green I Blue
SAT
Site Acceptance Testing
SPIR
Spare Parts Interchangeability Records
UPS
Uninterruptible Power Supply
V/J
VECO Engineering IJPPDI Joint Venture
VENDOR
Manufacturer/CONTRACTOR of the
equipment
-
3.0
CODES AND STANDARDS The following applicable International codes and standards and other relevant engineering codes and standards practices not listed herein shall be observed and conformed with: 1 RS 422
Electrical Characteristics of Balanced Voltage Digital Circuits
EN 50081-2
Radio Frequency Immunity Requirements
EN 300 386
Electromagnetic compatibility and radio spectrum
Telecommunication network equipment Electromagnetic compatibility requirements 4.0
ENVIRONMENTAL CONDIT1ONS Minimum Temperature
:
7.6°C
Maximum Temperature
:
47.5°C
Relative Humidity
:
23— 78%
maximum Seismic Zone
5.0
:
135km/hr :
Zone I Z = 0.25
SYSTEM DESIGN Monitors depending on the selection from the control panels. Connection to each camera is to be via coaxial cable with video returned to the central cabinet with little or no compression. The CCTV system shall be designed to meet the specific requirements for New ACC Project. The system shall be designed for continuous Operation.
-
The system and its transmission facilities shall provide a clear and sharp picture on the monitor. The design of the system shall be state of the art digital technology and employ Local Area Network (LAN) data information sharing and distribution architecture The video standard shall be CCIR (625lines) PAL and the mains supply 230V 50Hz (+1-10% Voltage, + frequency). The CCTV system shall be based on a centralized processing unit integrated with cameras, operators keyboard, monitors and the time-lapse video recorder.
5.1
cameras
Digital Video recorders shall be provided to record continuous video images. High capacity discs shall be installed with sufficient recording space so that overwriting will not occur in less than 24 hours. The Cameras shall have pan-tilt -zoom (PTZ) features. The ratio between the maximum and minimum focal length shall be at least 6. The PTZ shall allow a minimum rotation of 355° in the horizontal plane and 900 up and 90° down. The orientation of the camera shall not be affected by strong winds. Solid-state CCTV cameras utilizing charge-coupled devices (CCD) capable of producing high definition color video images shall be provided.
-
The system shall be designed based on the minimum illumination level required for operation of the cameras. In case the illumination levels are a concern, infrared lighting shall be provided during hours of darkness to give a dear image. Infrared lighting shall be switched on automatically by photocells during hours of darkness. The beam width of the lighting shall be matched to the focal length and coverage of the camera. The system provides necessary arrangements to switch off power to the camera in the vicinity of the unit. The camera assembly including pan and tilt heads, wash and wiper system and heater shall be supplied completely pre-wired to suit external cable connections. All part of the camera station and of the system shall be modular in construction for ease of repair, maintenance and installation. Solid-state CCTV cameras utilizing charge-coupled devices (CCD) capable of producing high definition color video images shall be provided. The cameras affected by changing light levels shall have lenses equipped with auto iris control facilities. 5.2 Transmission Cabling from the camera to the monitors shall be provided based on the plot plan. This shall include video and all power and control signal cables. All cables required for hookups of the system shall be provided. The maximum distance from the monitors shall be noted while placement of the cameras. Additional signal boosters shall be provided for the distances if required. 5.3
CCTV Cabinets A CCTV control cabinet shall be provided, as required, to house the various components. The cabinet shall be suitably designed to terminate all field cables and cables from the monitors. The cabinet components shall be modular in design and sufficient space shall be provided for future addition of cameras and monitors.
5.4
Other Features
-
The system shall automatically restart on power supply return after failure. Video recording facilities shall be provided in the form of high density recording media. Recording functions shall have both automatic and manual modes. A dup recording terminal shall be installed for provision of system redundancy. Any other accessories required, not explicitly stated herein, but required for reliable operation of the unit shall be provided. The system shall have provision for future expansions. 6.0
POWER SUPPLIES The system shall be suitable for operation on 230V, 50Hz, 1 phase uninterruptible power supply source.
7.0
DOCUMENTATION The following documentation shall be provided: 1. Technical details of cameras, projector, cabinets, cables, etc. 2. Drawing indicating the camera field of view and the quantity of cameras required. 3. Detailed installation and hook-up drawing. 4. Deviations from the specification, if any. 5. Additional features offered. 6. Power Supply requirements. 7. Detailed wiling drawings. 8. Installation, operation, and maintenance manual.
8.0
Factory Acceptance Test Prior to the FAT, VENDOR shall prepare and submit FAT procedure for OWNER’s approval. The procedures shall contain the system
-
description, instrument equipment checklist, test methods, procedures and calibration certificates, one month in advance prior to tests commencement. All test result and calibration certificates shall be made available to OWNER for review.
9.0
SPARE PARTS The VENDOR shall provide start up and commissioning spares. Recommended spares shall take into account related factors of equipment reliability, cost of spare parts, time of procurement, MTTR and availability of equipment service facilities.
10.0
TRAINING CONTRACTOR shall provide training for the Client personnel FACTORY TRAINING and on SITE TRAINING.
CCTV
-
NO.
ITEM
QTY.
IP Cameras 1
Fixed Indoor IP Dome Camera, 30 fps
15
Smoked Colour Dome Camera 100 Mbs for Network Interface 2
Outdoor Dome Camera,PTZ 30 fps, Whether Proof Housing
5
Weather proof with IP NO. 54 3
Pan/Tilt/Zoom IP Dome Camera Colour
8
Auto focus lens + 12x digital zoom Pan, tilt, zoom network camera with built-in 26x optical zoom Recording & Storage 4
Network Storage Device 8 drives
1
Records video from up to eight network cameras with megapixel resolution Recording started by alarm from a camera or by a trigger 160 GB hard disk with anti-vibration Network Equipment 5
Outlet for CCTV with Cable Link
28
Surveillance Software 6
CCTV Management PC with 42'' LCD Monitor
1
7
CCTV Management PC with 21'' LCD Monitor
2
Surveillance Software 8
Surveillance software for up to 36 Cameras
1
FIRE ALARM SYSTEM
-
SPECIFICATIONS
New ACC Project
TABLE OF CONTENTS
GENERAL----------------------------------------------------------------------------------3
1.0
SCOPE--------------------------------------------------------------------------------------3
2.0
CODES AND STANDARDS-----------------------------------------------------------3
3.0
ENVIRONMENTAL CONDITIONS---------------------------------------------------4
4.0
GENERAL REQUIREMENTS---------------------------------------------------------4
5.0
Use of Standard Products--------------------------------------------------------------4
5.1
FAS Architecture -------------------------------------------------------------------------4
5.2
ELECTRICAL REQUIREMENTS-----------------------------------------------------5
6.0
Electrical Protection----------------------------------------------------------------------5
6.1
-
Power Systems ---------------------------------------------------------------------------6
6.2
HARDWARE REQUIREMENTS------------------------------------------------------6
7.0
DETECTORS AND OUTPUT DEVICES--------------------------------------------7
8.0
General Requirements of Detectors--------------------------------------------------7
8.1
Optical Smoke Detectors ---------------------------------------------------------------7
8.2
Heat Detectors-----------------------------------------------------------------------------8
8.3
H2 Detectors -------------------------------------------------------------------------------8
8.4
Ultra Sensitive Smoke Detectors -----------------------------------------------------8
8.5
Beacon Lights (Strobe Lights) ---------------------------------------------------------9
8.6
Sirens ----------------------------------------------------------------------------------------9
8.7
Manual Alarm Call Points (MACP)--------------------------------------------------10
9.8
FIRE ALARM CONTROL PANEL--------------------------------------------------10
9.0
INTERFACE MODULES ------------------------------------------------------------11 10.0 MIMIC PANEL ---------------------------------------------------------------------------12
11.0
SPARES ----------------------------------------------------------------------------------12
12.0
TEST AND CALIBRATION EQUIPMENT----------------------------------------12 13.0 INSPECTION ANDTESTING--------------------------------------------------------13 13.0 DOCUMENTATION--------------------------------------------------------------------14
14.0
-
GENERAL
1.0
This specification defines the minimum functional requirements for the supply of a Building Fire Alarm System (FAS) for use within New ACC Project project. This specification defines the minimum basic requirements of Fire Alarm System including detectors to be employed for the airport building. The FAS shall be a real-time monitoring system monitoring any break out of fire in these buildings and activate the personnel warning system. SCOPE
2.0
The scope of the SUPPLIER includes the design, engineering, Manufacturing, fabrication, assembly, inspection, supply, installation, testing, commissioning ,training and documentation of the FANS. The intended wiring shall be “Class A” type with ground detection and sensor fault diagnostic facilities. CODES AND STANDARDS The FAS shall meet but not be limited to the latest edition or revision of the Following codes and standards. BS EN 54-1 Fire Detection and Fire Alarm Systems. BS 4505 Digital Data Transmission. BS CECC00111 General Requirements for Electronic Components of Assessed Quality. BS EN 55014-1 Electromagnetic Compatibility. IEC 1508 Functional Safety - Safety Related Systems. IEEE 488.1 Surge Protection. IEEE 488.2 Standard Codes, Formats, Protocols and Commands for use with IEEE. 488.1. NFPA 72 National Fire Alarm Code. IEC 60331 Test of Electric Cables under fire conditions. IEC 60332 Test of Electric Cables under fire conditions.
3.0
-
ENVIRONMENTAL CONDITIONS
4.0
All the equipment of the FAS shall be suitable for continuous operation under the following environmental conditions: Minimum Ambient Air Temperature : 10 o C Maximum Ambient Air Temperature : 50 o C Relative Humidity : 20 – 80% Electrical equipment design temperature : 55 o C The maximum acceptable noise level for the equipment installed in the buildings shall be 55dBA measured at a distance of 1metre with a sound level meter using the “A Weighted” sound level scale. GENERAL REQUIREMENTS Use of Standard Products
5.0 5.1
All the equipment used in the FAS shall be of the manufacturer’s standard hardwire and firmware, which shall meet the stated requirements. FAS Architecture
5.2
The system shall be based on a microprocessor-based architecture with dedicated detectors and interface control modules. Consideration shall be taken for the use of addressable system. The system shall include the required hardwire to perform all the logic functions and provide the required output to activate personnel warning. The FAS including the central control unit and alarm components shall be electrically supervised with self-diagnostic features. The FAS shall consist of redundant central processing units, visual displays and mimic displays. The Interface modules shall be microprocessor based with non-volatile memory. The interface modules shall have the facility to process input signals from the detectors and manual call points.
14
The FAS shall have at least 20% expansion capabilities to add more loops when required the detectors shall be located to cover the buildings in the facilities. Signal inputs from the Smoke Detectors (SD), Heat Detectors (HD), H2 Detectors (H2D), Manual Alarm Call Points (MACP) and signal outputs to
-
sirens and strobe lights shall be wired directly to the FAS located in an electrically unclassified (safe) area. The Panel rooms shall be provided with an Ultra Sensitivity Smoke Detection (USSD) system. The control unit of the USSD system shall provide hardwired outputs to the FAS to realize the required personnel warning outputs. The FAS components shall not suffer damage or performance degradation during prolonged failure of air conditioning up to 14 days when the ambient temperature 50ºC and relative humidity of 95% non-condensing may be reached. All the FAS components shall be suitable for indoor environment. However, the strobe lights and the horns shall be suitable for outdoor environment. ELECTRICAL REQUIREMENTS
6.0
Electrical Protection
6.1
All electrical equipment shall be provided with transient / surge and fault protection as well as electrostatic discharge protection and EMI protection. EMI compatibility shall be as defined in IEC 801.
Power System AC power 230V, 50Hz, 1 phase shall be provided from the power distribution board of an uninterrupted power supply system. The FAS shall include all the required power distribution, power conditioning, power supplies, bus bars, power wiring, shall also include a 24V DC UPS with 48 hours backup battery. The batteries shall be of Ni-Cd type.
6.2
Earthing
6.3
A non-insulated earth bus bar shall be provided within the FAS for the “Safety Earth” and an insulated earth bus bar shall be provided for the “Instrument Earth”. HARDWARE REQUIREMENTS The SDs, HDs, H2Ds and the MACPs shall be of the two wire addressable low voltage type. Additional devices shall be capable of being added to the circuit by multi-drop (parallel node) connections in the required manner from any point in the circuit and without affecting any existing device or function.
7.0
-
Construction and performance of the smoke and heat detectors shall meet the requirements of European standard EN 54. All detectors shall be provided with rising plate screw terminals for positive termination of up to 2.5sq.mm wire. Blanking caps complete with continuity contacts shall be provided to enable detectors or detector bases to be protected prior to commissioning. The quantities of the various devices connected to the FAS shall be determined during the detailed engineering phase. The FAS, detectors and output devices shall include all essential accessories required to make the system fully functional to this specification.
DETECTORS AND OUTPUT DEVICES
8.0
General Requirements of Detectors
8.1
The detectors shall be of the type to reduce false alarm and shall provide the best level of detection for each potential fire or smoke hazard. All detectors shall be mounted on a common socket type base to facilitate the changing of detector type if building conditions change. Each detector shall contain a LED, which shall remain ‘ON’ when an alarm condition occurs .A test meter to check detector calibration and sensitivity shall be provided. The smoke& heat detectors will need special consideration near to the air supply unit or ducts unit or ducts. Optical Smoke Detectors Optical smoke detectors shall be applied for detection of incipient and Smouldering. fires in enclosed spaces and buildings such as offices, archives, Store rooms, etc. The smoke detectors shall be of the scattered light optical type. The smoke chamber design shall effectively manage light dissipation and extraneous reflection from dust particles or other air borne contaminants in such a way so as to maintain a stable, consistent detector operation. The detectors shall be provided with a plug in head, which mounts to a twist lock base with no electronics on the detector’s base. All external wiring shall terminate in the base of the detectors. The detectors shall operate on a twowire circuit. The detectors shall operate on a nominal supply voltage of 24V DC with the minimum and maximum voltage levels being 18V DC and 30V DC
8.2
-
respectively. It shall be possible to connect the detectors in a series loop configuration.
Heat Detectors
8.3
Heat Detectors shall be addressable design, fixed temperature or rate of rise compensated detector type (with temperature setting for 58 deg C and +10 deg C/ minute). Heat detector shall be provided with mounting accessories suitable for installation. Heat detectors shall be applied for the detection of fire, which is expected to build up quickly and generate much heat. The heat detectors shall be of the fixed temperature type or the rate compensated type. The detectors shall be provided with a twist lock base or an integral junction box. The temperature setting of the detectors shall be based on the maximum ambient temperature and codes. H2 Detectors
8.4
For monitoring of the hydrogen emission from the battery room, if any, catalytic type gas sensors shall be provided. The sensing element shall include a catalytic Sensing element and a reference element for environmental compensation. Both these element shall be encased in a ceramic housing. The detector shall be supplied complete with the required accessories. Ultra Sensitive Smoke Detectors For rapid detection of incipient fires in system cabinets, unattended and normally unmanned equipment rooms and UPS rooms an Ultra Sensitive Smoke Detection(USSD) system shall be provided. This shall be based on an aspirated system. The typical construction of an aspirating type smoke detector shall employ a detector cabinet containing up to 4 detectors connected to sample points via sample lines. The detectors shall share a common aspirating fan, drawing the sample through the lines to the detector.
The USSD system shall be supplied complete with all the necessary sample tubes and other accessories along with the Monitoring and Control Unit (MCU) required for early detection of smoke. The MCU shall be programmable. The programming tool shall be either integral to the MCU or portable. It shall be possible to program as a minimum the following functions • Smoke threshold alarm values; • Alarms; • Fault levels including airflow, detector monitoring, power, etc.;
8.5
-
• Relay outputs for alarms and faults; • Aspirator speed control. The SUPPLIER shall be responsible for the design of the piping/tubing network to ensure a balanced air transport and sampling in the detection system. The main sampling pipes shall be non-metallic. The MCU shall contain the detector, which shall be laser based with an obscuration sensitivity in the range of 0.005% to 4%obs/meter. Beacon Lights (Strobe Lights)
8.6
The optical beacons shall be of the stroboscopic type with a color glass dome. The power supply to the beacons shall be derived from the FAS. The color of the beacon light shall be “Red” for fire. The beacon shall be a high quality, reliable, field proven device suitable for industrial application. The beacons shall be located in open areas and outside of buildings so that they are clearly visible to personnel. The beacons shall have an ingress protection of IP65.Field strobe shall be driven via the Safety System. Sirens
8.7
The sirens shall be of the motorised type, red color and 200mm in diameter. The power supply to the sirens shall be derived from the FAS. The sound level shall be a minimum of 90dB. The sirens shall be provided with a fixing base and suitable terminals for cable connections. The sirens shall be provided with an ingress protection of IP 65.
The sirens shall be located in unclassified areas such as within buildings and shall be activated on detection of fire or smoke. On the activation of the siren the personnel in the building shall be able to identify the cause from the FAS. Field sirens shall be driven via the Safety System Manual Alarm Call Points (MACP)
. 8.8
MACPs shall be of the break-glass, auto-release type suitable for outdoor industrial environment. The ingress protection of the housing shall be weather proof to IP 65. For easier identification they shall be colored RED to RAL 3000 or equivalent. The MACPs shall be provided with the required End of Line resistors. All necessary accessories like mounting brackets, protection flap etc shall be provided. FIRE ALARM CONTROL PANEL The Fire Alarm Control Panel (FACP) shall be a free standing unit and shall be located indoors in an air conditioned atmosphere. All detectors and the HSSD system shall be wired to the associated hardware in the FACP. The required fused knife edged terminals shall be provided for the termination of the cables.
9.0
-
These terminals shall be segregated in separate sections for inputs and outputs with the required identification. All manual alarm call points in the building shall be wired in separate loops from smoke detectors The outputs from the detectors shall be wired to the redundant microprocessor based system for performing the logic operations and generation of alarm signals. The system design shall be based on fail safe principles with inputs to the logic system moving to the open circuit position for an alarm or abnormal condition. Under normal healthy conditions the outputs from the logic shall be energized and any input open circuit shall result in the de-energisation of the output circuits in accordance with the functional logic diagrams.
Inputs shall be designed so that spurious alarms due to contact bounce or any other short time period intermittent condition is eliminated. All the printed circuit boards used in the FACP shall be tropicalised. Power supply to the detectors, strobe light and siren’s shall be derived from the FACP. The panel shall have all nameplates at front and rear back for all control components. The relays, used for contact multiplication, shall be provided with 3 SPDT contacts. The FACP shall include Maintenance Override Switches (MOS) which shall permit individual detectors and output devices to be maintained/serviced. Cables from detectors to FACP and from FACP to the strobe lights / bells shall be Fire Resistant as per to IEC 60331/2 stranded pair copper cables and overall shielded. The signal cable size shall be 1.5mm2 cross section. The power supply cable shall be of suitable cross section as per the load. INTERFACE MODULES 10.0 Interface modules shall be suitable for one-man calibration. The module in addition to the supervision of the individual zones (area) shall also contain as a minimum the following self-diagnostic features: Open loop detection (input and output). • Short circuit (input and output). • Earth faults. • Power supply failure (low battery voltage). • System fault. Any of the above failures shall interrupt the associated hardware output signals from the control module of the FAS, thereby forcing a failure alarm for each affected function.
-
MIMIC PANEL 11.0 A mimic panel shall be provided integral to the FACP for continuous monitoring of the FAS. The mimic shall contain a simplified layout of the buildings, which are to be monitored. The indications on the mimic panel shall be driven through hard wired signals from the FAS. The detector types shall be indicated by means of colored LED’s. The mounting of the LED’s shall be such that they protrude at least 3mm above the surface of the panel to enable easy recognition of an alarm from various angles. In addition common alarms contacts to be connected to the control system for the following shall be provided: • Detector failure; • Ground fault detection in the loop; • FAS failure; • Power failure. Design and construction of the mimic panel shall provide a scratch proof, no reflective plastic surface. The mimic panel shall be provided complete with a lamp test, acknowledge and reset push buttons. SPARES 12.0 The FAS panel shall be provided with 20% installed spare completely wired and a spare space of 15% for future use. The SUPPLIER shall supply 20% spare detectors and output devices. In addition the following list of spares shall be included in the offer: • List of startup & commissioning spares; • List of 2 years operational spares TEST AND CALIBRATION EQUIPMENT 13.0 The scope of the SUPPLIER also includes supply of all the test and calibration equipment that are required for the maintenance, calibration and testing of all the detectors that are used with the system and equipment for trouble shooting maintenance of the system.
INSPECTION AND TESTING 14.0
-
The system shall be thoroughly tested as a pre condition for acceptance. The Acceptance Tests shall include integrated tests in which the panel along with the detectors is tested as a complete system. The Acceptance Tests shall be conducted in two stages as follows: • The Factory Acceptance Test (FAT); • The Site Acceptance Test (SAT). The FAS vendor shall submit for purchaser’s review and approval, a complete plan for the factory and site acceptance testing. This plan must be complete with sufficient detail to indicate the exact nature of each test, time required, expected results and step-by-step procedure . The plan shall be submitted at least four weeks in advance to the FAT. The objective of the FAT is to verify that the FAS as designed for delivery to site meets or exceeds the specified design and functional requirements. During the FAT the complete FAS shall be subjected to functional checks and testing. The objective of the SAT is to verify that the “as installed” FAS meets or exceeds the specified design and functional requirements.
DOCUMENTATION 15.0 The documentation shall include but not be limited to the following: • Cause and Effect charts; • Detection Layout drawings; • FAS architectural drawing; • Functional design specifications; • Bill of material; • Panel GA and layout drawings; • Power supply requirements and distribution; • Grounding details; • Heat load details;
-
• Functional logic diagrams; • System termination details; • Technical Product Literature; • Testing Procedures; • Installation manuals; • Operating manuals; • Maintenance and trouble shooting manuals.
Fire Alarm Bill of Quantity NO. 1 2 3 4 5
ITEM Smoke Sensor Including Relay Contact Alarm Central Unit Indoor Alarm Horn Management PC Network Infrastructure
QTY. 100 7 7 1 1
-
(IT) INFRASTRUCTURE And BULDING ACCESS CONTROL Technical Specifications
NEW ACC PROJECT
TABLE OF CONTENTS
INTRODUCTION. 2.0 3.0 4.0 5.0
1.0
SCOPE OF WORK. ACTIVE COMPONENT.
SURVALENCE SYSTEM.
INSTALLATION, TESTENING and COMMISSIONING. 6.0
SPARE PARTS.
-
7.0
MAINTENANCE TOOLS and EQUIPMENT. 8.0 9.0
1.0
TRAINING.
BILL of QUANTITIES.
INTRODUCTION
A very high quality services are expected by the SUDAN CAA authorities to be provided by the New ACC Building Project. To do this an IT infrastructure should be laid over the airport to provide value added services.
Scope of work The planned design consists of an I.T. infrastructure holding several applications and should be capable of carrying various media signals over the network, providing a multimedia network infrastructure.
2.0
-
The network infrastructure (generic cabling) have to be covering the whole complex serving all the offices, cubicles, counters and public areas, and managed from one point of administration.
The network should be multifunction ( freenet ) using collapsed backbone between the main distributor and sub distributors, and must be designed to ease the administration and control.
•
Cat.6/s (Generic Cabling) is required for the airport, holding all IP based applications.
•
The infrastructure should be modular and expandable up to 50% without the need of additional civil work, as well as having the capability to be linked with other networks (WAN or LAN).
•
All the network cables, patch panels, distributors and other passive components must be quality certified and should comply with the ISO 9001 standards.
•
Physical outlet coding security devices to be installed in order to grant maximum security and to guarantee correct insertion and ensure authorized removal of modular jacks.
•
Each and every cable end should be clearly labeled and identified.
•
Full set of documents must be provided showing the network layout, specification sheets, test results, and warranty.
•
Each and every network point must to be digitally tested and certified using a DIGITAL CABLE ANALYZER.
-
•
A minimum of 10 Years Guarantee must be offered for system installation, in addition of the routine guarantee for the components.
Active Components
3.0
Data Switches •
The network shall be controlled by a Core Switch (layer 3) located at the main I.T. Room and connected to the Edge Switches through Gigabit FO link.
•
The Edge Switches shall be managed switches, supporting V-LANs and granting high level of security and availability.
•
The system should be flexible enough for easy changing and management, and has to be expandable to support future growth.
•
Wireless Access Points to be supplied, covering the whole complex and providing trustworthy wireless link for laptops and other wireless network devices.
PABX System
•
The PABX shall hold a minimum of 300 extensions, and has the capability of being upgraded and expanded.
•
3.1
An optional offer of “IP Telephony” is required.
-
Video (Multimedia)
3.2
TV Network •
The system should serve the public areas.
•
The provided (multimedia) outlets should be within the same “ Data & Voice Network” infrastructure serving other applications and devices.
•
The setup should, at least provide 8 TV channels to each outlet, and controlled from the (I.T. Room).
Public Address
3.3
•
The system shall cover the whole complex.
•
A quite flexible system is required, offering Zone Select and automated announcement facility (scheduling).
•
An optional offer for “IP Based” system is required.
Surveillance System •
4.0
The system should cover all the entrances and exits as well as the public areas and any security critical area.
•
The required system is an I.P. Based system that can be configured, controlled and viewed via software.
•
Power over Ethernet system shall be applied.
•
A recording software is required (recording period must be minimum three days).
•
All the cameras must support “voice recording” and “motion detection”.
-
Page 6 of 10
4.1 Reliability The system equipment shall give a minimum life of 10 years when working in the specified environment.
5.0 INSTALLATION, TESTING AND COMMISSIONING CONTRACTOR shall install, test and commission the system. CONTRACTOR shall provide all the necessary tools, test equipment, consumable, installation, testing and commissioning of the system. CONTRACTOR shall perform the system acceptance test in the presence of the OWNER’s representative. CONTRACTOR shall prepare and submit the installation schedule in advance prior to commencement of work. The schedule shall also include other activities including testing and commissioning. The field acceptance test shall be done after the installation of the IT NTWORK and associated equipment have been completed, in the presence of OWNER’s representative. CONTRACTOR shall submit to OWNER
a comprehensive field acceptance plan prior to commissioning. The plan shall include but not be limited to details oftest to be conducted, test equipment required and test data to be recorded. An acceptance test report complete with details of all tests performed, faults encountered and remedial actions taken shall be submitted to OWNER after the commissioning of the system.
-
CONTRACTOR shall comply with requirements for the Installation, Testing and Commissioning as specified in the CONTRACT.
6.0
SPARE PARTS
CONTRACTOR shall provide the spare pats, at least one spare card/circuit board for each type of circuit board provided for the IT NTWOK for Commissioning and Start-up Spares. CONTRACTOR shall quote as optional items the spare parts of two years operation for all the supplied equipment in unit prices basis.
7.0
MAINTENANCE TOOLS AND EQUIPMENT
CONTRACTOR shall provide maintenance tools and equipment as recommended by manufacturer to provide field maintenance on the equipment and for making field repairs of the IT NTWORK System and related accessories. The maintenance tools shall include a complete set of spare interconnecting cords, test cords, panel and circuit cards "outriggers" (i.e. extension cards for on-site panel maintenance), test adapters, and jigs. The maintenance tools shall be supplied in proper tool-box.
8.0
Training
The training shall be conducted preferably after the installation and commissioning the system or in conjunction with Site Acceptance Test at site. Adequate materials shall be provided to all trainees. Course include: *Installation, testing and commissioning. *Maintenance of equipments.
IT Bill of Quantities Cables & Patch co rds:-
-
NO.
1 2 3 4 5 6 7 8 9
ITEM
QTY.
Fiber Optic FO LT-cable 6x50/125m 200 FO Patch MTRJ - SCD duz 50m 1m 10 FO Patch MTRJ - SCD duz 50m 2m 10 Cat. 5e (Cables & Patch Cords) Inst.Cable Cat.5e,FTP 4P,PVC,BOX 305 30 Patchcord,5e,SF/UTP 4P,1.0m,LSFROH 150 Patchcord,5e,SF/UTP 4P,2.0m,LSFROH 100 Patchcord,5e,SF/UTP 4P,3.0m,LSFROH 60 Cat. 3 (Cables & Patch Cords) MP Cable Cat.3, UTP 100P, LSOH, 24 AWG (300m Drum) 1 Telephone Cord UTP, RJ45/u to RJ11/u, 3m 150 Outlets & Panels:-
NO.
1 2 3 4 4 5
ITEM
QTY.
Outlets & Connection Modules BS Faceplate, 4x1 Port 15 BS Faceplate, 2x1 port 170 Multimeadia Outlet 15 Connection Module,Cat.5e,1xRJ45/u 400 Coding Devices Plug Guard, red 120 Key for Plug Guard 20
NO.
1 2
ITEM
Active Network :- QTY.
Edge Switches (10/100 Ethernet) 48-Ports Managed Switch, 10/100BaseTX, 2 built-in GBIC slots 3 Switch Slot for Gigbit Ethernet Work for Fiber and Cubber 1-port 1000Base Gigabit Interface Converter (GBIC) 6
Cabinets & Panels :NO.
1 2 3 4
ITEM
QTY.
Rack Cabinets & Cable Management Panels 48U, 19" Rack Cabinet 3 Floor Box For Six BS Outlets 30 Cable Tray 30 cm Roof Mounting Per meter 420 19" 1U Jumper Plastic Ring Panel 16
-
5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
19" 2U Jumper Plastic Ring Panel 14 FO Patch Panels & Connectors FO 19" 1U Rack 36 Port 1 FO Cover for 1U 36 Port 6 FO Cable Guide left and righth 75mm 2 FO 19"Fiberliner pre with 6 SC Duplex 6 FO Dummy Plug SC-Duplex 20 FO SC Field terminable 50/125m 40 Cat. 5e Patch Panels & Dust Covers 19" 3U Global P. Panel, 60xRJ45/s Cat5e 7 Hinged Dust Cover, Blue 260 Hinged Dust Cover, Yellow 260 Hinged Dust Cover, Red 120 Cat. 3 Patch Panels & Distributors 19" 3U Rack 16 places VS Standard 2 VS Standard disconnect. module 10 pairs 32 Patch wire V83 2x0,5 mm white/blue 2 Wire guide element 10x2 32 Wiring tool "VS Tool" 1 Test cable 1x2-pole cable lug 2,5 M 1 Test cable 1x4-pole cable lug 2,5 M 1 19" 1U Rack empty 4 Connection Module, 10xRJ45/u 20
Page 10 of 10
Access Control :B of Q
NO.
ITEM
QTY. Reader & Locks
1
Proximity Cards Reader
27
Uses proximity technology for ease of use and cost effectiveness Keypad for added security Suitable for indoor and outdoor installation 2
Proximity & PIN Code Cards Reader
4
In-built database for off-line card validation Supports Entry/Exit configuration for IN/OUT control 4 inputs to monitor alarms s uch as door held/forced conditions and secure side exit push button operation 3
31 Magnetic Door Lock Controllers & Cards
4
Proximity Cards
5
Cards Printer with Software
200 1
-
6
Access Control Management PC Unit including Software
1
Consolidate and monitor functioning of electronic s ystems System failures are rapidly detected and corrected Easily interpreted graphical representation of the status of the system Saves time and resource in fault detection 7
Controller fro 8 Readers
10
Intelligent embedded network device for access control and alarm monitoring Supports two multidrop networks of card readers (32 total) Storage capacity for up to 150,000 card records 8
Outlet for readers & controllers with Cable
PABX System
74
