The Hashemite Kingdom of Jordan Ministry of Information and Communications Technology (MoICT) JORDAN NATIONAL BROADBAND NETWORK NBN IMPLEMENTING THE CIVIL WORKS AND FIBER OPTIC WORKS OF THE NATIONAL BROADBAND NETWORK (NBN ) IN THE NORTH REGION OF THE KINGDOM VOLUME III REQUIREMENTS ,TECHNICAL SPECIFICATIONS AND DRAWINGS MINISTRY OF INFORMATION AND COMMUNICATIONS TECHNOLOGY P.O.BOX 9903 AMMAN 11191 JORDAN PROPOSAL DEADLINE: 20/12/2015 TENDER NO: 1/NBN/2014 PPaaggee 11 ooff 114422 Contents Table of Contents 1- PROJECT OVERVIEW ________________________________________________________________ 4 1.1 INTRODUCTION __________________________________________________________________ 4 1.1.1 Initial network design_______________________________________________ 6 1.2 1.3 THE WINNING BIDDER SHALL : _______________________________________________________ 7 SCOPE OF WORK _________________________________________________________________ 7 2 2.1 TECHNICAL REQUIREMENTS. ______________________________________________ 10 DESIGN AND ENGINEERING PHASE: __________________________________________________ 10 Obtaining Detailed Information about Connection Points: ______________________ 10 2.2 Obtaining and Preparing GIS Base Maps: ______________________________ 10 2.2.1 Preliminary Network Design Phase: __________________________________ 11 2.2.2 Prepare an Initial Network Architecture Design: _________________________ 11 2.2.3 Analysis and application of all Applicable Codes and Standards:____________ 11 2.2.4 Acquire Required Rights Of Way: ____________________________________ 12 2.2.5 Detailed Design Phase _____________________________________________ 12 2.2.6 Develop a Diagram of the Network: __________________________________ 13 2.3 IMPLEMENTATION PHASE__________________________________________________________ 15 2.3.1 Preparation of Implementation plan ___________________________________ 15 2.3.2 Route Engineering Finalization ______________________________________ 15 2.3.3 Obtaining Required Permission ______________________________________ 16 2.4 CIVIL, FIBER AND EQUIPEMENT WORKS: ______________________________________________ 17 2.4.1 2.4.2 2.4.3 2.4.4 2.4.5 2.4.6 2.4.7 2.5 Civil Works Construction __________________________________________ 17 Manholes: _______________________________________________________ 20 Hand Holes: _____________________________________________________ 20 Pull Boxes: ______________________________________________________ 21 Archaeological Sites ______________________________________________ 21 Fiber Works (Supply and Installation of Optical Fiber Cables and Accessories) 22 Obtaining Required Permissions _____________________________________ 22 ACCEPTANCE TESTING____________________________________________________________ 23 2.5.1 Fiber works Acceptance Test : _______________________________________ 23 2.5.2 Civil works Acceptance Test: _______________________________________ 24 2.6 TRAINING ______________________________________________________________________ 24 2.6.1 Training Program _________________________ Error! Bookmark not defined. 2.7 PROJECT MANAGEMENT __________________________________________________________ 25 Requirements: ________________________________________________________ 25 2.8 DOCUMENTATION _______________________________________________________________ 25 ALL DOCUMENTATION WILL BE MAINTAINED IN ENGLISH AND SHALL BE SUBJECT TO DOCUMENT CONTROL PROCESSES. 25 2.9 QUALITY ASSURANCE ____________________________________________________________ 25 2.10 2.11 2.12 2.13 Requirements: ___________________________________________________ 25 REPORTING ____________________________________________________________________ 26 SUPPLY OF AS-BUILT INFORMATION _________________________________________________ 26 Network As-built information _______________________________________ 26 DEFECT LIABILITY WARRANTY _____________________________________________________ 27 MANUFACTURER’S WARRANTY: ____________________________________________________ 28 SUPPORT PROGRAMS & DELIVERABLES_______________________________________________ 28 2.13.1 3 3.1 Network Infrastructure Design Assistance __________________________ 28 TECHNICAL DETAILS ______________________________________________________ 28 GENERAL ____________________________________________________________________ 28 PPaaggee 22 ooff 114422 3.1.1 Related Documents _______________________________________________ 28 3.1.2 System Description _______________________________________________ 28 3.1.3 Submittals _______________________________________________________ 29 3.1.4 Regulations and Standards __________________________________________ 31 3.1.5 Quality Assurance ________________________________________________ 31 3.1.6 Warranty________________________________________________________ 32 3.1.7 Commissioning __________________________________________________ 33 3.2 EXECUTION ____________________________________________________________________ 35 3.2.1 Installation ______________________________________________________ 35 3.2.2 On Site Tests and Inspection ________________________________________ 38 4. ANNEXES__________________________________________________________________ 40 ANNEX A : WILL BE DELIVERED TO THE WINNING BIDDER __________________________________________ 41 ANNEX B-1: TECHNICAL SPECIFICATIONS OF OPTICAL FIBER CABLE - DUCT TYPE ______________________ 42 ANNEX B-2: TECHNICAL SPECIFICATIONS OF OPTICAL FIBER CABLE - AERIAL TYPE _____________________ 50 ANNEX B-3: TECHNICAL SPECIFICATIONS OF OPTICAL DISTRIBUTION FRAME __________________________ 59 ANNEX B-4: TECHNICAL SPECIFICATIONS OF MINI OPTICAL DISTRIBUTION FRAME______________________ 62 ANNEX B-5: TECHNICAL SPECIFICATIONS OF OPTICAL CONNECTORS AND ADAPTERS ____________________ 65 ANNEX B-6: TECHNICAL SPECIFICATIONS OF OPTICAL CABLE SPLICE ENCLOSURES _____________________ 67 ANNEX B-7: TECHNICAL SPECIFICATIONS FOR DUCT CABLE HARDWARE AND SUPPORT ACCESSORIES _______ 71 ANNEX B-8: TECHNICAL SPECIFICATIONS FOR AERIAL CABLE HARDWARE AND SUPPORT ACCESSORIES _____ 72 ANNEX C: TEST AND ACCEPTANCE SPECIFICATIONS______________________________________________ 76 ANNEX D: DUCT SPECIFICATIONS : ________________________________ المواصفات الفنية لمواسير البالستيك84 ANNEX E: CHAMBERS SPECIFICATIONS ________________________________________________________ 86 ANNEX F: ROUTE CROSSING ________________________________________________________________ 90 ANNEX G: TRENCH SPECIFICATIONS __________________________________________________________ 92 ANNEX H-1: ELECTRONIC IDENTIFIERS: _______________________________________________________ 95 ANNEX H-2: WARNING TAPE : ______________________________________________________________ 96 ANNEX I: SHOP DRAWINGS \ AS-BUILT SPECIFICATIONS FOR FIBER INSTALLATION _____________________ 97 (GIS & AUTOCAD)ANNEX K-1: ELECTRICAL COMPANIES REQUIREMENTS. _________________________ 104 ANNEX K-2: MOPWH SPECIFICATIONS FOR ROUTE REINSTATEMENT ______________________________ 124 ANNEX L: COMMUNICATION PLAN _________________________________________________________ 128 ANNEX Z SITE SURVEY REPORT _________________________________________________________ 132 ANNEX Z2 : MAINTENANCE SLA _________________________________________________________ 139 ABREVIATIONS------------------------------------------------------------------------------------------------------------ 141 PPaaggee 33 ooff 114422 1- PROJECT OVERVIEW 1.1 Introduction The network envisioned for the National Broad Band Network owned by the Ministry of Information and Communication Technology (MoICT) is an optical fibre network which is scalable, affordable, simple to manage, reliable. The objective of the National BroadBand Network (NBN) is to connect all Public schools, Governmental entities, Health entities, Community colleges, and Knowledge stations).This RFP is dedicated for and concentrated on connecting the Public schools, Govermental entities and Health entities in the North region The network design is based on point-to-point Gigabit Ethernet (GE) over fibre technology to reach the connection points, in addition to the wireless technology where it is impossible to serve the entities by duct or ADSS fiber ,this wireless connection must be approved by the MOICT engineer at the time of the initial design. QRC Datacenter NITC Agregate point POP School Lab Cisco 3550 switch METRO RING OVERLAY NETWORK School Lab DISTRIBUTION NETWORK Figure 1. National Broadband Network structure Moat through its National Broadband Network Program has implemented parts of the NBN Network in Amman (middle phase 1) & North Region (north phase1), and parts of south region (in Aqaba) (south phase 1), and currently we are in the Awarding processes to implement the south phase 2( Karak, Maan and Tafelah) and Middle phase 2 (Amman, Balqa’, Madaba and Zarqa) Where Middle phase I in Amman Governorate is currently deployed and contains a metro ring with 10 aggregate points connecting Schools and PPaaggee 44 ooff 114422 Government entities. The data centre is located at the Queen Rania Data Centre (QRC) owned by the Ministry of Education. The QRC also serves as an aggregation point for connection points in the same area. In parallel South phase I and the Secure Government Network (SGN) are currently deployed with two Aggregate Points to connect 62 connection points in the Aqaba Governorate. south phase I contains two aggregate points located respectively in Aqaba City and Queira that are linked to the National Data Centre (QRC) located in Amman through the Amman-Aqaba overlay route. Amman-Aqaba overlay route is also deployed with four Aggregation points & 3 NEPCO substations starting from the MoICT in Amman to Aseza in Aqaba North Phase I is also deployed with a 17 aggregate points located between Irbid, Ramtha and Al-Mafraq. South Phase 2 will contain a 27 aggreate points located between Karak, Maan and Tafelah Middle Phase 2 will contain 38 agreagate points located between Amman, Balqa’ Madaba and Zarqa. the network has been broken up into 3 phases, Middle phase , North phase and South phase1. These phases are connected to each other by an Overlay Network which will provide physical connectivity between the Pops for each module and the National Data Centres. These connections will be via 10GE connections on the Ethernet Switch. The required optical devices have to support the ITU standard G.652 D (Single Mode Optical Fibre Cable). The overlay network is based on DWDM optical ring structure to provide a high availability and sufficient scalability for future. The Overlay ring is a combination between the optical fibre network of the National Electric Power Company (NEPCO) and the NBN own routes. Bidders shall take notice of the network architecture of the overlay network and the access points to this overlay network at the substations of NEPCO MoICT is now soliciting proposals from contractors to connect a total of ( 664 ) sites, (Schools ,Governmental entities , medical centres, hospitals ,health entities and the aggregate sites ), including ( 29 ) Aggregate points in the north region( Irbed, Ramth, Mafraq, Jarash, Ajloun and northen Ghour) . A number of sites have been selected as main sites (Aggregates) to serve surrounding sites. Where: MoICT has entered into agreements with NEPCO, EDCO and IDECO to enable the successful bidder to use the poles of medium and low voltage distribution networks. The winning bidder is responsible to coordinate with these companies to meet their requirements. Bidders are informed that the winning bidder will be responsible to present accurate information about the actual linear distance planned as in the initial proposed design prepared by MOICT prior to the implementation and used on the network of the electricity distribution companies to MoICT and the Engineer for verification purposes and the cost of providing this information to the Engineer and MoICT shall be included in the unit price submitted by the bidder to the MoICT. The actual linear distance will be used to reimburse the distribution companies for the use of their respective networks.by the MoICT PPaaggee 55 ooff 114422 The National Broadband Network is comprised of six basic building blocks as presented in: Connection points Aggregation Sites Metro ring networks National Pop National overlay ring network Hub / Data Centres and the Network Operation Centre (NOC ) . The NBN connection points consist of (Schools, Governmental entities, Health entities, Community colleges, and Knowledge stations). In each school, there will be some local LAN infrastructure not being part of the NBN and fully under the responsibility of the Ministry of Education. In order to provide network connectivity for the school, a network access switch is installed. This represents the demarcation point between the school and the NBN. Each school will be connected by a Gigabit Ethernet (GE) via single mode fibres to the Aggregation site. Any other entity except the schools, there will be some local LAN infrastructure not being part of the NBN and fully under the entity responsibility. The Demarcation point is the switch . The Aggregation site is comprised of a fully redundant Ethernet Switch/Router with a Firewall and an Intrusion Prevention which will be used to provide a highly secure environment. This Ethernet switch/Router can aggregate up to 64 connection points in the surrounding area. DWDM technology will be implemented at the overlay network level and at the metro rings and will be used to provide 10 GB connectivity to the Data Centre. 10 GB connectivity will be the only allowed speed between aggregate sites and the national POP Aggregate sites will be hosted in schools or any other place based on the needs of connection and must have the minimum data centre needs as it will be illustrated later on. In Case of a metro ring the aggregation points will be connected with dual 10 GB in each direction to the next aggregates in a physical ring / logically ring connection DWDM is needed in the over relay network. 1.1.1 Initial network design The network will use fiber optic cables and technology to provide connection between sites, the initial design shall include but not limited to ;Equipment installation and configuration ,site preparation ,integration with existing network ,and the NOC installation . The network design will be as the following: 1.1.1.1 CE ( Customer equipment) sites: - Will be connected to the PE sites (Provider edge) with 1GB speed with a max of 64 CEs per PE PPaaggee 66 ooff 114422 1.1.1.2 PE (Provider Edge) sites: - Will be connected to CEs with 1GB speed - Will be connected to other PEs in the metro Ethernet network with a dual 10 GB speed in a ring manner - Will be hosted in aggregate sites (Small Data Centres) 1.2 The winning bidder shall : Use GIS tools that will be used throughout the routing design and engineering phase, implementation and handed over to the GIS unit . The winning bidder shall provide the GIS unit at MoICT with software, perform data entry, training. Perform the required works for hanging cables on electrical poles, excavation and civil works, ducts supply and installation, all required work to make the transition and extend the fiber from the pole to a termination location inside each entity ( for example : A computer center inside the entity ) Supply and install all optical fiber cables, the supply and installation of required accessories including but not limited to cable mounting accessories, ODF, splicing enclosures, splicing boxes, and optical patch panels, etc… The splicing of the cables, the end-to-end testing of installed optical network sections in addition to the delivery of the as-built documentation, Quality Control/Assurance and Project Management The duration of implementation of this project is ( 730 ) calendar days and the total distance of the required civil works is around ( 436 Km ) , and the total length of the fiber cables is around( 672 Km )of In-Duct and around ( 717 Km ) Aerial cables (ADSS). This Contract is a FIDIC based Contract and it is a re-measured contract based on actual quantities implemented. The list of sites to be connected is attached in Annex ( J ). MOICT has the right to add, remove or shift sites during the implementation of the project as needed and the winning bidder is not entitled to request any additional charges to his rates in the Bills of Quantities because of such changes. 1.3 Scope of Work The project aims to: Implement supply, install Duct fiber cable inside pipes and hanging cables on poles of fiber optic cables and accessories for connecting schools , health centres ,hospitals ,MOH Directorate , MOE directorates , and governorment entities in the north of the Kingdom as per annex J and any other entity proposed by the MOICT within the program of the national fiber optic network and NBN . work includes supply, install the fiber optic cables (on electrical poles and inside the pipes) in addition to all needed accessories, tools and equipment necessary for the suspended cables on the poles or extended within the pipes and regardless of the quantity and type as well as the supply in addition to all detailed technical design, site survey, installation, training and testing of the network. In addition to all the civil works ( excavations , manholes and covers , installation of pipes of all diameters and types, all accessories , reinstate of the terrain to what it was) and coordination with all concerned authorities according to their requirements, including the Electricity Distribution PPaaggee 77 ooff 114422 Company (EDCO) , National Electricity Company (NEPCO) , municipalities , Ministry of Public Works and Housing and related state companies or institutions or ministries. As shown in the Technical Specifications and drawings and approval of the Engineer so as to accomplish the work of building the network in an integrated manner and with the definitive procedure the necessary tests. The MOICT Engineer will determine where to ue the metal or the concret covers for the manhole ,handhole ,and the pullboxes according to many issues and policies that the MOICT follow . This scope of work describes the supply and installation of a broadband communications system consisting of: 1. Approximately ( 436 Km) of excavating and execution of all required civil works, the supply & installation of manholes, hand-holes, pull-boxes and accessories as per specifications. Additionally the supply & installation of the required ducts. The ducts consist of FOUR (1 ¼ inch) UPVC tubes inside ONE (4 inch) UPVC tube or Two (1 ¼ inch) UPVC tubes inside ONE (4 inch) UPVC tube, installed between manholes, handholes and pull boxes , or One (1 ¼) UPVC tubes inside ONE (4 inch) UPVC tube, installed between, handholes and pull boxes to make the transition from aerial to duct type cable. 2. The supply, installation, and termination of approximately ( 672 Km ) of optical fiber cables in ducts installed within the project scope, supply and installation of required accessories (ODF, splicing enclosures, splicing boxes and optical patch panels, pigtails, etc…), splicing of the cables, and end-to-end testing of installed optical network. Sufficient spare fiber cable shall be installed within selected manholes. 3. The supply, installation, and termination of approximately ( 717 Km) of aerial optical fiber cables with all related accessories and fittings on existing Electrical (and new) poles medium and low voltage electricity poles as per agreement with the concerned authority. 4. Fiber jointing with existing aerial or duct fiber cables for ring completion. Figure 2: Aerial Fiber Optic Cable Installation on Electricity Poles PPaaggee 88 ooff 114422 The total amount of civil work and fiber installation will be divided into the following lots according to the two technologies to be used: All project deliverables will have to be considered as the project standard and all their related costs, expenses, over heads, fees, taxes and profits incurred by the winning bidder for the execution of items under this RFP are deemed to be included in the Contractor unit prices. Lot # 1 2 3 Technology Civil works & Ducts In Duct Cables Aerial (On Poles) All Dielectric Self Supporting Cable ( ADSS ) Estimated Quantities 436 Km 672 Km 717 Km ADSS Routes Transferring Winning Bidder shall provide proposals for any required transferring on the ADSS cables that may be needed during implementation . The contractor shall comply in his proposal with the attached Service Level Requirements (SLR) stated in Annex Z1 for the time needed for any transferring work on the routes. The winning bidder must be responsible for keeping the executed Network available 100 % all the time, the maintenance for the Network through the Operation Centre (NOC) Payment to the contractor shall be based on a re-measured actual quantities executed for fiber installed and other related items in accordance with related unit rates mentioned in the Bill of Quantities (BOQ) in Volume 5, noting that all costs incurred by the bidder for all other related items shall be included in the bidder’s unit rate. All supplied materials shall be 100 % new, unused , of high quality , of recent technology and to be approved by the MoICT’s Representative. Therefore the contractor shall submit samples of the supplied materials to the MOICT Engineer to get the approval. The period of the Defect Liability maintaining the network is two years starting from the date of issuance the Taking Over Certificate. PPaaggee 99 ooff 114422 The winning bidder shall perform the scope of work defined in this section including the preparation of detailed engineering designs, the coordination with all concerned entities, making the route surveys, acquire the right of way (where applicable), the supply, and transportation, the delivery, the installation, the testing, the commissioning, the setting to work, training, maintenance till the issuance of Taking Over Certificate, liability defect warranty services, including quality control/ and capability of managing the allocated lot(s) as a project according to project management international standards that will be mandatory. The initial route map of the ducts for the optical fiber and the related civil and fiber optics works are shown in Annex A. The winning bidder shall survey and verify all routes within the scope of the contract. The winning bidder shall also recommend alternate routes & less expensive route that comply with both MOICT and MoPWH, municipalities, and other authorities or Electrical Companies, etc.., requirements. It shall be the responsibility of the winning bidder to finalize the route designs after he gets all required approvals. 2 TECHNICAL REQUIREMENTS. 2.1 Design and Engineering Phase: The winning bidder shall perform the following: Obtaining Detailed Information about Connection Points: 1. Prepare a full list of all connection points as requested by the MoICT. 2. Survey all connection points to determine location(in Jordan Transverse Mercator (JTM) coordinates) and collect accurate information and status of the entities as per survey templates that have to be approved by the Engineer 3. The MoICT will provide the winning bidder with locations for most of the connection points and aggregation points in JTM projections but this will be considered only as indicative locations and has to be verified and surveyed by the winning bidder. 4. Collect accurate information regarding connection points as the address, type of location (hospital , health centre , school, governmental site ,etc…), address . 5. Throughout the preparation of this tender and the execution of the project ,it is expected that changes regarding connection points will occur, the winning bidder shall continue to deal with any changes and include them within the database and as recommended by the MOICT Engineer. 6. All the above mentioned data shall be provided to the MoICT in a GAP report. 2.2 Obtaining and Preparing GIS Base Maps: The winning bidder shall obtain and prepare GIS (in ESRI format) maps with accuracy less than one metre compared to reference points obtained from the Department of Land and Survey . The maps shall contain the following information: 1. Connection points as point data (point shall refer to entrance of facility) 2. Connection points with footprint data 3. Street centrelines with street names if available 4. Street edge lines or street width information. PPaaggee 1100 ooff 114422 5. Cadastral map covering all governarates in north (Irbid , Ajloun , Jarash , Mafraq) 6. Railways. 7. All layers minthioned in Annex I attached All layers must be compatible with no discrepancies, data shall always be verified and checked over real situation through the surveys, any discrepancy shall be corrected Quality assurance plan and methods to check and verify the data accuracy shall be prepared by the winning bidder and discussed and approved by the Engineer before the commencement of this task. The winning bidder will also consult the National GIS strategy that is being implemented currently in Jordan to ensure compliance of the strategy standards. The winning bidder shall document all related information regarding the sources of the data sets and all procedures and processes that were applied to them in the Meta data catalogue attached to these data sets. The winning bidder shall obtain at is own cost any DLS structural mabs and drawings any survay data required to prepare the shop and As-Biult drawings 2.2.1 Preliminary Network Design Phase: Based on the high level fibre network design performed by the MoICT shown in the RFP the winning bidder shall prepare a preliminary design within 30 days from the Letter to Proceed LTP, this period is part of the implementation of the whole project . The proposed fibre routing shall be optimised in feasibility and lowest cost routing (reducing distances of optical fibre cabling and cost of civil works). A full engineering report shall be prepared with the complete preliminary network architecture and fibre routes. The designs and engineering report shall be presented to and be approved by the Engineer. 2.2.2 Prepare an Initial Network Architecture Design: 1. The Winning bidder shall Develop fibre routing diagram in terms of optimal compromise between budget, technical capabilities and achievability this routing diagram is subject to the approval by the MOICT engineer . 2.2.3 Analysis and application of all Applicable Codes and Standards: The winning bidder shall Locate , analyse and apply the applicable Jordanian codes, standards and specifications including, but not limited to, the electrical codes, civil works codes for buried infrastructure, construction codes, overhead cabling and equipment installation, specifications and requirements for existing utilities and Infrastructure. The application of all codes and standards required for this project shall be implemented in all the design phases of the project and specified in procedure related documents. In case of violation of these codes, standards and specifications the winning bidder will remain liable for any consequential costs. PPaaggee 1111 ooff 114422 2.2.4 1. 2. 3. 4. 5. 6. The winning bidder shall conduct its own research and determine in detail all the documentation required by the municipal, national roads authorities, utility companies to obtain the rights of way. Right of Ways are defined as the necessary set of permits, authorizations and private agreements allowing for the construction and installation of the optical fibre infrastructure including handholes, manholes, wireless infrastructure and other required ancillary items on public or private terrain along the routes in accordance with all legal conditions applicable. The winning bidder shall Comply with all laws, regulations applicable in Jordan in addition to other requirements of different governmental entities. The winning bidder shall Establish RoW work plan based on local lead times for each procedure involved. Any delays in the implementation of the work plan will impose penalties on the winning bidder and in accordance with the contract. The winning bidder shall determine what telecommunications regulations may apply to obtain the Rights of Way. The winning bidder shall Set up documentation system for all Right of Ways to be obtained throughout the entire duration of the Project. The winning bidder shall Perform the RoW applications and obtain the required permits and authorizations for the proposed route as developed in the design documents. 2.2.5 1. 2. 3. 4. 5. 6. 7. 8. 9. Acquire Required Rights Of Way: Detailed Design Phase The winning bidder shall Perform Detailed Survey and Optimization of Routes: The winning bidder shall Perform Designs that shall always comply with the standard design criteria. The winning bidder shall perform detailed surveys of the connection points (site surveys) and of the possible routes for connecting fibre to the connection points (route surveys). Survey forms will be prepared by the winning bidder and approved by the engineer. The winning bidder shall perform a detailed survey of the aggregation points as in Annex J. The winning bidder shall assess optimal path taking into consideration various construction approaches, the utilization of available infrastructure (existing ducts, existing overhead cabling of the electric distribution companies, etc.) and constraints imposed by the relevant authorities from the Rights of Way applications. The winning bidder shall Execute final Fibre routing planning, showing detailed position of ducts, manholes, hand holes ,pull boxes and splice boxes, position of connection points at parcel level, and fibre allocation tables in coordination with the developed initial network equipment architecture design. Obtain all required permits for the proposed final route. The winning bidder shall Develop Detailed Designs for the Fiber Optics Cable Infrastructure, Equipment and including any needed Civil Works Detailed Designs,: The winning bidder shall prepare key plans for each fibre route, showing the complete route design, including the locations' interconnections and their respective distances. The winning bidder shall execute fibre routing in terms of optimal compromise between budget, technical capabilities and achievability. Routing shall be performed with GIS tools and full compliance with the topological and connectivity rules. Fibre routing shall show detailed position of ducts, manholes, hand holes, pull boxes and PPaaggee 1122 ooff 114422 10. 11. splice boxes, position of connection points at parcel level, and fibre allocation table. In case of existing infrastructure (ducts or overhead cabling) is proposed, the existing infrastructure shall be mapped in detail. Detailed drawings for any proposed wireless infrastructure shall be included including the logical routing of any wireless device. The winning bidder shall provide floor plans showing the cable routing inside each connection point, tray The winning bidder shall allocation, ODF position and the cable connections to the ODF frame. 2.2.6 Develop a Diagram of the Network: The Winning bidder shall develop a fibre topology for the network showing routes diversity, segment by segment fibre counts and fibre allocation table per segment and install tools at the assigned MoICT offices to keep track of fibre allocation, wireless link parameters, equipment installation and usage. 1. 2. 3. 4. Prepare a Splicing Diagram, The Winning bidder shall prepare a detailed diagram of each splice point showing how the fibres will be connected throughout the complete network. Fiber Optic Cable Procurement, The Winning bidder shall Detail the quantities of all components required for the installation of the fibre optics cable, and the complete execution of the related civil works. This will include, but not be limited to, each type of fibre optic cable required (aerial & duct) and the quantities of hand holes, manholes, HDPE duct, cable trench digging per terrain category (asphalt, pavement, open terrain, rocky terrain, etc.). These bills shall be coordinated and approved by the Engineer. The installation includes all passive equipment like splice boxes, ODF, optical termination panels, cable supports, ADSS cable mounting accessories/fittings, etc. It shall be the responsibility of the winning bidder to supply and install those and all other items related to and required to construct the fiber network and unless shown as a Pay Items in the Bill of Quantities, the costs of these items, shall be deemed to be included in the Contract unit rates and prices. The Winning bidder will be responsible to execute the testing of the installed passive optical fiber network between all optical termination points. PPaaggee 1133 ooff 114422 Figure 3: Fiber Optic Cable Arrangement - Access Network Figure 4: Fiber Optic Cable Arrangement - Connection to Overlay Network PPaaggee 1144 ooff 114422 2.3 Implementation Phase 2.3.1 Preparation of Implementation plan The Winning bidder must prepare a detailed implementation plan for the execution of all civil works, fibre optic cable installation and testing , installation and testing in coordination with all relevant parties. The plan shall contain a detailed project plan including a detailed work breakdown structure with all dependencies, risk analysis and resource description including required competencies in Project Plan software. 2.3.2 Route Engineering Finalization The fiber network design will include both ring and linear topology. Each ring consists of a number of sites called Aggregate points. All Aggregates within a ring connected together via 144 Optic Fiber cable to constitute a ring, where fiber cables enter and exit the site through completely physically separate paths. Each Aggregate serves a number of smaller sites called Access point. A 24 Optic Fiber cable will be terminated at each access point with only Two fibers spliced all the way to the Aggregate point that serves it. At certain points, a number of access points may share the same cable to reach the Aggregate. The Winning bidder shall perform the following tasks in connection with the engineering finalization of the fiber route: 1. Survey the planned path for the fiber route and termination sites 2. Hold discussions with private and public entities regarding the planned path for the fiber and termination points. Execute the permit application process. 3. Prepare and submit the final path of the Route for the Engineer's approval for the installation of the optical fiber cables. In addition, the Winning bidder shall contact the authorities (e.g. Police, Municipalities, Ministries, electrical companies and all concerned authorities) and meet their requirements to obtain permission for executing the works on scheduled dates. 4. The Winning bidder shall, as soon as reasonably feasible, inform the Engineer of any proposed modification of the planned route thereby indicating the reason for the modification, the potential consequences of the additional length or reduced length of the route, charges, fees and/or relocation costs , and the Engineer will respond to any such proposal based on confirmation from the MOICT team . 5. The Winning bidder shall deliver detailed drawings “Plan-to-build”/“shop Drawings” to perform the installation works. (14 days in advance of execution). The electronic format of these drawings shall be in GIS format, GIS (ESRI format) and AoutoCAD format . These detailed drawings shall also form the basis for the As-Built drawings. The drawings shall show the locations of the fiber (including duct-identification), manholes, splice/joint boxes, ODFs , Mini ODFs, and patch panels at termination points, etc. PPaaggee 1155 ooff 114422 2.3.3 Obtaining Required Permission Winning bidder shall provide the following services in connection with obtaining the permissions to install the optical fiber cables (in duct and aerial on electricity poles): 1. At the commencement of the Contract, the winning bidder shall examine the site and identify /verify all utilities within the right-of-way above or below ground, and shall record all such information on suitable site drawings which shall be submitted to the Engineer and MoICT. The winning bidder shall for this purpose excavate trial pits ( on his own responsibility ) on site or take any other measures needed as may be necessary for identification and verification of existing utilities. 2. The Winning bidder shall file, with all competent authorities and private (nongovernmental) persons, complete and accurate applications for all permissions (in this paragraph) necessary or appropriate to enable the Employer to obtain the permits for the installation of optical fiber cables, including splice boxes and other required ancillary equipment along the route in accordance with the legal conditions applying to the permits. All applications shall be finalized in due time to ascertain the installation of the optical fiber cable before the stated end of Contract date, including the Aggregate and Access sites connectivity. Copies of the permit applications for the whole route must be forwarded to MoICT and the Engineer. 3. The Winning bidder shall reasonably feasible inform the Engineer and MoICT of any proposed modification of the planned Route thereby indicating the reason for the modification, the potential consequences of the additional length or reduced length of the Route for the right of way, and the engineer shall respond to such proposal accordingly. 4. The Winning bidder shall duly follow up on such applications and to the extent necessary or appropriate, meet with competent authorities or persons (both prior to and, if necessary, after the filing of the applications), assist at any level of the procedure (e.g. take recourse against possible refusal, etc.) and revise or file new applications as a consequence of comments or suggestions received from competent authorities, the Engineer or private landowners. The Winning bidder shall provide the Engineer with the permits which comprise any forms of legal co-operation (including without limitation easements, servitudes, leases, access rights) by third (non-governmental) persons and all permits, licenses and other approvals or authorizations of any municipal or administrative agency or authority (including such forms of legal co-operation, collectively, permits) necessary or appropriate to enable the Winning bidder to install the optical fiber cable and all related telecommunications infrastructure along the route in accordance with the legal conditions applying to the permits. The permits shall meet the requirements to install fiber optic cables. The permits will enable to install splice boxes, hand-holes, etc. and fiber optic cables along the whole route. Copies of the granted permit documents shall be forwarded to MoICT and the Engineer within 3 working days after receipt of the grant. PPaaggee 1166 ooff 114422 2.4 Civil, Fiber and Equipement works: 2.4.1 Civil Works Construction The civil works described in this section are required to construct the so called solutions or in cases where the overhead cabling on the infrastructure of the electricity distribution companies cannot be used. The Winning bidder will construct in one trench a single system of fiber optic network consisting of ONE main UPVC duct 4 inches in diameter & 3.2mm thickness containing four , Two (or single ) UPVC sub-ducts (32mm in diameter & 1.8mm thickness) according to the specifications and drawings. Flanges shall be installed at the ends where the main duct enters the manholes, handholes or pull boxes to separate and organize the sub ducts. Each duct will conform to the technical specification for duct material given in Annex D and for chambers (manholes) in Annex E. The specification document shall be forwarded to the Engineer for official approval upon receipt of the Instruction to Proceed (ITP). No construction work can commence prior to receipt of the approval issued by the Engineer. All construction works shall apply to good engineering standards and in agreement with the most recent civil and architectural construction specifications issued by Ministry of Public Works and Housing and the requirements of concerned authorities. 1. The Winning bidder will supply all materials required for the construction of the system. The Winning bidder is fully responsible for the quality of the supplied materials. This includes and not limited to duct materials, chambers, covers, joints, duct labels, cover labels, detection/warning tape, etc. 2. The Winning bidder is fully responsible for the construction site and safety on the construction site. The Winning bidder shall apply for any permit required (e.g. road blockage, police permission, electrical company’s permission and all concerned authorities) for executing the works and shall be fully compliant with the regulations of all local and governmental authorities. 3. The Winning bidder shall maintain a daily progress report and incident report. 4. In case of an excavation site or storage of materials existing close to roads and passages used by public, then the following must be taken into consideration: i. The Winning bidder must present a list of his employees that will be guarding the sites. ii. The Winning bidder must provide the employees with ID badges showing their names and responsibilities to be presented to different security authorities. iii. The Winning bidder must inform the police department of the commencement date of the works and the expected date of completing the works by providing a list of his employees for the purpose of distributing it to police cars on shifts for verification when necessary. PPaaggee 1177 ooff 114422 5. The Winning bidder does not have the right to claim the working space excavations in addition to re-instate these excavations. The Winning bidder does not have the right to claim for any additional cost related to supporting the trench walls. 6. The execution of trench excavation for fiber optics cables 50cm wide and 100cm deep regardless of the type of the soil, and the terrain has to be reinstated to its original status. The longitudinal excavation has to be as close to the sidewalks as possible, or as directed by Governmental/local laws and the Engineer. 7. The trench constructions will be executed according to the specifications in Annex G. In case where the proposed cross section as detailed in the afore mentioned specifications, cannot be achieved and the cover of sand and pavement above the ducts is less than 60 cm, concrete protection plates or slabs shall be used (concrete with a minimum cube crushing strength of 200 kg/cm2 after 28 days and 20cm thickness without additional cost to MoICT) . 8. In case where the trench’s route crosses flood’s routes or valleys, concrete protection shall be used (concrete with a minimum cube crushing strength of 200 Kg/cm2 after 28 days and 40 cm thickness without additional cost to MoICT)) to cover and protect the ducts from potential damages. 9. The trenches shall be excavated in lines as far as possible. The trench shall be leveled as much as possible and sharp objects (stones, glass, etc.) shall be avoided or removed from the trench. Other cables or infrastructure shall be under passed as far as possible. The security distance dictated by Electricity or infra-structure companies in trenches to underground High or Medium Voltage power lines shall be respected. 10. Backfilling with Sweileh sand to protect the pipes, not less than 30cm high. 11. In Urban Areas defined by the Engineer, refill of the trench shall be free of stones or other sharp objects, and shall not contain polluted sand or organic materials. The excavated material shall never be used in backfilling. Single size material shall be used on top of the Sweileh sand, in accordance with the requirements of the authorities and related specifications. (This specification related in the Bill Of Quantities). 12. In Non-Urban Areas defined by the Engineer, refill of the trench in one layer (using the excavated materials with maximum size of aggregate not more than 10 cm), with intensive compacting, in accordance with the requirements of the authorities and related specifications. (This specification related in the Bill Of Quantities). 13. Asphalt cutting shall be executed rectilinear by using special machines according to the specificatons of the MOHPW and Ministry of Municipallties 14. For Asphalted surfaces, a base course layer of 30cm shall be applied above the single size at a compaction rate of not less than 97 % . The Asphalt layer shall be not less than 7cm thick after compaction, and the compaction degree shall not be less that 98% according to Marshall Test. A layer of MC-70 shall be applied PPaaggee 1188 ooff 114422 on the base course prior to Asphalting, at 1.5 kg/m2, to protect the base course, including the sides of the trench. 15. The following shall be applied on the complete road crossings: a). Well compacted cement treated base course layer (120kg of cement/m3), or concrete layer (as required by the responsible authorities) with 40cm thickness shall be applied underneath the Asphalt. 16. The warning tape must be of yellow color with the text given in Annex H-2 and such text is repeated every 1m. Its width shall be 15cm. the material of the warning tape shall be submitted to the Engineer for approved prior to the ordering process and shall be placed at a distance not more than 30 cm from the finish floor level or as directed by the Engineer. 17. A plastic rope of 6mm diameter shall be installed in each sub duct, using different colors for each sub duct, for cable pulling purposes. The rope shall be one continuous peace from manhole to manhole, no knots are allowed. 18. Bridge crossing will be implemented after permission from the concerned authorities by installing the ducts inside 6 inch protective galvanized steel pipe along the edge of the bridge as shown in Annex F and as required by the responsible authorities. 19. Railways crossing shall be implemented after permission from railway authorities by installing ducts inside 6 inch protective galvanized steel pipe according to the specifications of the national railways company (Jordan) as shown in Annex F Installation of the ducts shall be executed rectilinear and in the centre of trench. The ducts shall be joined together using adhesive approved by the Engineer. The ducts and sub-ducts will be sealed at each end of chamber to avoid the entry of dirt. The identification label printed on exposed ducts every one meter and will contain the text “MoICT-NBN”. 20. 21. 22. 23. The chambers shall be installed free of dirt and water on the inside. Covers shall fit correctly and metal covers shall be locked. The ducts shall be terminated flush to the chamber structure. Chamber label shall be marked on the inside. The route length between chambers shall be verified and will be compared with the plan-to-build/shop drawings. Significant changes will be indicated and the Winning bidder shall specify the differences in length. Major deviations can lead to non-acceptance of the route or parts of the route. At the commencement of the Contract, the winning bidder shall examine the site and identify /verify all sites within the right-of-way above or below ground, and shall record all such information on suitable site drawings which shall be submitted to the Engineer within one month of commencement of the works. The winning bidder shall for this purpose excavate trial pits ( on his PPaaggee 1199 ooff 114422 responsibility ) on site or take any other measures needed as may be necessary for identification and verification of existing utilities. 24. Pre-cast chambers or manholes shall be installed according to the technical specifications in Annex E. The trench for the manhole will be excavated 20cm deeper at the position of chambers and this 20cm will be filled with stabilization sand. In Urban Areas, the cover of the chambers needs to be leveled with the pavement, road or surrounding terrain, and the backfill around chambers shall be of single size materials. In Non-Urban Areas the cover of the chambers shall be 20cm above the ground level according to the specifications of the MOHPW. The distance between chambers/manholes shall not exceed 300m. 25. The winning bidder shall submit 20 pulling and 20 locking keys for manholes and hand holes on his own expense. 2.4.2 Manholes: a). In urban areas : The pre-cast manholes (120cm(L)* 68cm(W)* 82cm(D)) as internal dimensions with a base and walls of 15 cm thickness, with a fair-face surface finish made from reinforced concrete with minimum cube crushing strength of 250 kg/cm2 and 7Ø10 mm/m steel bars in both directions for walls and base. b). In non-Urban areas : The pre-cast manholes (100cm(L)* 100cm(W)* 100cm(D)) as internal dimensions with a base and walls of 20 cm thickness, with a fair-face surface finish made from reinforced concrete with minimum cube crushing strength of 250 kg/cm2 and 7Ø10 mm/m steel bars in both directions for walls, base and cover. c). The two types of manholes shall be equipped with terminators, galvanized pulling eyes, step, cable support , brackets, marker plates in addition to frame, and all accessories required to fix the splicing enclosures and spare cable loop mounting. d). The MOICT Engineer will determine the type of the manhole cover( concret or metal ) according to the policies followed by the ministry . e). The metallic covers shall be of the heavy duty cast iron type with a label stating “MoICT-NBN”. The covers shall be lockable, and bear a 40 tons load, a Lab test certificate should be presented. f). For the concrete cover, Aluminium plate of dimensions 20x10 cm with a label stating "MoICT-NBN" shall be applied and fixed to the cover. 2.4.3 Hand Holes: a). The pre-cast Hand holes (91.5*46*82 cm) as internal dimensions with a base and walls of 15 cm thickness, with a fair-face surface finish made from reinforced concrete with a Minimum cube crushing strength of 250 kg/cm2 and 7Ø10mm/m steel bars in both direction for walls and base. b). The Hand holes shall be equipped with terminators, galvanized cable support and bracket, marker plate, frame and all accessories required for splicing enclosures and spare cable loop mounting. c). The MOICT Engineer will determine the type of the manhole cover( concret or metal ) according to the policies followed by the ministry . PPaaggee 2200 ooff 114422 d). The cover shall be of the heavy duty cast iron or concret cover type ,The metal cover shall be lockable, water tight. 2.4.4 Pull Boxes: a). The pre-cast pull boxes (50*25*48.5 cm) as internal dimensions with a 10 cm thickness for the base and walls, and 10cm for the cover with a fair-face surface finish made from reinforced concrete with a Minimum cube crushing strength of 200 kg/cm2. b). The cover shall be of reinforced concrete type. c). The pull boxes include: the cover, a marker plat (fixed on the entity's wall near the Pull Box), and finishing. 26. Ducts shall be terminated flush to manholes, hand holes, and pull boxes; edges shall be leveled off. Ducts entering manholes, hand holes, and pull boxes shall be plugged and watertight. The plugging mechanism or material shall be readily removable to allow for future cable installation. Ducts shall enter manholes, hand holes, and pull boxes at 90 degree to the structure's wall. After the installation of the cable inside the sub duct, the sub duct shall be tightly sealed with foam. 2.4.5 Archaeological Sites 1. The Winning bidder shall take note of the fact that a representative from the Department of Antiquities will be appointed on site during construction operations at the potential archaeological sites. 2. Prior to any work on or around the potential archaeological locations, the Winning bidder shall coordinate with the Engineer and the representative of the Department of Antiquities on site to ensure that adequate measures specified by the said Department are taken to protect these sites, including prohibiting work within 100 m. from these sites. 3. The Winning bidder shall inform the Department of Antiquities of the planned commencement of work in new areas to allow the Department to carry out a survey before construction begins. 4. The Winning bidder shall consider in his program of work the presence of any identified sites and the need for the Department to inspect these sites during construction. 5. If a new site is discovered by the Winning bidder, he shall inform the Department immediately. In this case, the Winning bidder may have to adjust and/or re-schedule his activities around such site, and/or use other sources of materials if the site falls within a borrow area or a quarry to allow the Department of Antiquities to carry out survey and emergency salvage excavation. PPaaggee 2211 ooff 114422 2.4.6 Fiber Works (Supply and Installation of Optical Fiber Cables and Accessories) The winning bidder shall submit for the Engineer's approval samples and specification documents, datasheets & catalogues for all components of the passive optical fiber network upon receipt of the ITP (Instruction to Proceed). No construction work can commence prior to receipt of the approval issued by the Engineer or by delegated authority by the Engineer. All construction works shall apply to good engineering standards. The Winning bidder is responsible for the quality of the supplied materials and shall present samples and data sheets of the materials for approval by the Engineer. (This includes optical fiber cable, pigtails enclosure, splice boxes, ODFs, shelves for ODF, optical patch panels, ADSS cable accessories etc.. ) Accessories shall be purchased from the cable manufacturer or purchased from vendors specialized in manufacturing such accessories.. 1. The Winning bidder shall install all optical fiber and optical passive components to deliver optical connectivity from termination to termination point. In addition, the Winning bidder shall test and verify the connectivity between the optical termination points as stated in Section 2.4. 2. The Winning bidder shall be fully responsible for the construction site and safety on the construction site. The Winning bidder will apply for any permit required (e.g. road blockage by police) for executing the works and will be fully compliant with the regulations of local authorities (e.g. police permits). All fees and costs incurred by the Winning bidder for the permits shall be borne by the Winning bidder and shall be deemed to be included in the unit rates and prices in the Contract. 3. The winning bidder shall be fully responsible for labeling all the provided materials in the connection points including but not limited to ODF, Aggregation cabinets and ODFs and all costs incurred by the Winning bidder for labeling shall be borne by the Winning bidder and shall be deemed to be included in the unit rates and prices in the Contract. 4. Fiber optic cables and Enclosures installed inside the chambers shall be labeled as will be provided in this document Annexe E. The name convention for the ODFs, cables and Enclosures will be provided to the winning bidder by the MoICT Engineer. 2.4.7 Obtaining Required Permissions The Winning bidder shall provide the following services in connection with obtaining the permissions to install the optical fiber cables (in duct and aerial on electricity poles): 1. The Winning bidder shall file, with all competent authorities and private (nongovernmental) persons, complete and accurate applications for all permissions (as defined in sub-paragraph 2 below) necessary or appropriate to obtain the permits for PPaaggee 2222 ooff 114422 the installation of optical fiber cables, including splice boxes and other required ancillary equipment along the route in accordance with the legal conditions applying to the permits and any required permits for the wireless equipment ( Such as the TRC permits ) . All applications shall be finalized in due time to ascertain the installation of the optical fiber cable before the end of Contract duration, including the PoP , entity and School connectivity. Copies of the permit applications for the whole route must be forwarded to the Engineer and MoICT. 2. The Winning bidder shall duly follow up on such applications and to the extent necessary or appropriate, meet with competent authorities or persons (both prior to and, if necessary, after the filing of the applications), assist at any level of the procedure (e.g. take recourse against possible refusal, etc.) and revise or file new applications as a consequence of comments or suggestions received from competent authorities, the Employer or private landowners. The Winning bidder shall provide the Employer with the permits which comprise any forms of legal co-operation (including without limitation easements, servitudes, leases, access rights) by third (non-governmental) persons and all permits, licenses and other approvals or authorizations of any municipal or administrative agency or authority (including such forms of legal co-operation, collectively, permits) necessary or appropriate to enable the installation of the optical fiber cable and all related telecommunications infrastructure along the route in accordance with the legal conditions applying to the permits. The permits shall meet the requirements to install in the fiber optic cables. The permits will enable to install splice boxes, hand-holes, etc. and fiber optic cables along the whole route. Copies of the granted permit documents will be forwarded to the Engineer within 3 working days after receipt of the grant. 2.5 Acceptance Testing 2.5.1 Fiber works Acceptance Test : The Winning bidder shall invite the Engineer in advance to witness the acceptance testing of the installed fiber route or parts of the fiber route. Invitation for acceptance testing shall only be forwarded to the Engineer after the Winning bidder has successfully executed internal acceptance tests. Acceptance test will be carried out between optical termination points (ODF, patch panels) and witnessed by the Engineer. 1. 2. 3. The length between optical termination points shall be verified and will be compared with the ”plan-to-build”/”shop drawings”. Significant changes will be indicated and the Winning bidder shall specify the differences in length. Major deviations can lead to non-acceptance of the route or parts of the route. The optical attenuation between the termination points shall be measured in accordance with the procedure and acceptance criteria of Annex C. Optical time domain measurements shall be carried out to verify the quality of splicing of optical fiber cables. This will be executed in accordance with the procedure and acceptance criteria of Annex C. PPaaggee 2233 ooff 114422 4. 5. 6. 7. Optical dispersion and Polarization Mode Dispersion (PMD) measurements (factory sheet) of each cable drum used for the optical network shall be presented to the Engineer for verification. The acceptance criteria are specified in Annex C. Optical termination points shall be protected by removable high quality caps. Duct and cable terminations into buildings shall be properly sealed and protected. Sealing shall be of high quality and ultra violet-light resistant. Cable terminations or cable transitions shall be clearly labeled with weather and UV-resistant labels in accordance with the fiber allocation table supplied by the Engineer. 2.5.2 Civil works Acceptance Test: Acceptance test for Civil Works will be carried out between chambers and witnessed by the Engineer: 1. 2. 3. Chambers shall be of the same type as indicated in the technical specifications and drawings and approved by the Engineer. The chambers shall be installed free of dirt and water on the inside.. The ducts shall be terminated flush to the chamber structure. Chamber label shall be marked on the inside. The route length between chambers shall be verified and will be compared with the plan-to-build/shop drawings. Significant changes will be indicated and the Winning bidder shall specify the differences in length. Major deviations can lead to non-acceptance of the route or parts of the route. The Winning bidder shall execute the tests and provide an acceptance test report to the Engineer to summarize the test results from chamber to chamber for each system and duct. This acceptance report will be signed by representatives from the Winning bidder and the Engineer only in case of successful acceptance. 2.6 Training The bidder shall provide the following training course totally on his expense for the specific number of trainees mentioned below : 1. ADSS installation , splicing ,testing and maintenance for five trainees at certified training center . PPaaggee 2244 ooff 114422 2.7 Project Management Requirements: 1. The project management shall be according to the PMI standards throughout the project phases 2. All the knowledge areas shall be covered while managing the project. 3. A charter shall be defined in the beginning of the project 4. The schedule shall be submitted showing the critical activities 5. A project management plan shall be prepared by winning bidder and including: a). A communication plan: shall be prepared in the beginning of the project to define all the means and time of project communication and responsibilities . b). A quality assurance plan shall be defined in which all quality assurance activities during the project is well defined and the roles & responsibilities are clear, the acceptance criteria and procedure shall also be defined. c). A risk management plan shall be defined that takes in to consideration the prioritization, impact, and probability of risks d). A change management plan shall be defined to manage the scope changes 2.8 Documentation All documentation will be maintained in English and shall be subject to document control processes. In addition, the documented operations plans, procedures and processes will further facilitate the availability of knowledge to all current and future staff and facilitate transition to MOIC after the managed services term. The Managed Services operations team will complete all relevant operations logs and document activities undertaken. 2.9 Quality Assurance Requirements: 1. All works shall be executed and controlled by a quality management system in accordance with the requirements of ISO 9001. 2. This system comprises all the participants to the contract within the Winning bidder’s teams . 3. The Quality Assurance Plan is based on quality manuals of the Winning bidder. 4. The Winning bidder nominates from the beginning of the Project, the person in charge of quality assurance of the whole project, who is directly linked to the Project Director. 5. The Winning bidder shall establish from the beginning of the project, the Quality Assurance Plan based on Winning bidder’s quality system that shall define: a. Scope of Quality Assurance Plan, with conditions of validity and revision, b. Approach and structure of the Winning bidder's quality management system to fulfil the requirements of the Contract and ISO 9001, PPaaggee 2255 ooff 114422 c. d. e. Organization retained for the project with subwinning bidders list, Details of how the Winning bidder proposes to manage subwinning bidders and to ensure that the relevant quality system requirements of ISO 9001are observed and implemented by winning bidders in the execution of the works subcontracted, The quality plans of Winning bidder. 2.10 Reporting The Winning bidder shall report regularly on a weekly basis (or when requested by the Engineer in connection with a potential default or force majeure) on the progress in obtaining the permits and installation progress for the route. Such reports shall contain: number of permits required for the route or sections of the route, authority responsible per permit, distance related per permit, date of submission for application of permit, expected date of permit to be granted, date of permit granted, outstanding actions, responsible for file or outstanding actions, responsible winning bidder for installation, distance per winning bidder or subwinning bidder, projected progress per subwinning bidder, actual progress per week per subwinning bidder, splice positions and numbers of splices executed per section, test and acceptance status between optical connector panels and/or ODFs, any deviations from contractual requirements. The Engineer will get more closely involved in the permit application process and installation progress where it deems necessary or when requested by the Winning bidder. In case of any imminent or actual delay in the performance of any part of the provision of the permits, the Winning bidder shall, as soon as reasonably feasible, inform the Engineer of the occurrence or potential occurrence of a delay, thereby indicating the reason of the delay, the potential consequences of the delay for the scheduled dates and the measures the Winning bidder proposes to take to prevent, overcome, or limit to the maximum extent possible of such a delay. All reports shall be handed to the Engineer on a hard copy at an agreed day or sent by e-mail in case where handing is not applicable, in addition to an electronic copy of all the (OTDR) optical time-domain reflectometer tests along with the required Software programs to open them. 2.11 Supply of As-Built Information The Winning bidder shall supply to the Engineer a full set of as-built drawings of the Route no later than four (4) weeks after the completion of the installation. Such drawings shall be in accordance with the Specifications set forth in Annex I and shall be delivered in electronic format compatible with GIS (ESRI format) on CD-ROM. Such drawings shall be in accordance with the specifications set forth in Annex I Network As-built information The supplier will update the Technical Detailed Design with as-built and as-is configuration information. All equipment installation drawings shall be updated with as-built information. All As-built documents will be presented to MoICT for a formal approval and will be part of the provisional acceptance. PPaaggee 2266 ooff 114422 Drawings will comply with the following: 1. Indicate passive equipment layout, wiring diagrams, and dimensions. 2. Locate devices as shown on Drawings. 3. Submit drawings for approval including, but not limited to the following: a. Detailed system schematic diagram, 4. Complete system wiring diagrams, size and type of cables, enclosures, and terminal, splice boxes etc., and routing plans of any wiring or cabling system. All Design Development drawings, Construction drawings, and As-Built drawings shall be submitted in hard copy format as well as in electronic format in the quantities specified below. Quantity of Submittals: a. Electronic Files: b. Reproducible hardcopies: c. Prints: 2.12 1 set. 1 set. 3 sets. Defect Liability Warranty The Winning bidder warrants that the materials supplied under the contract are new, unused, of the most recent or current models and those that incorporate all recent improvements in design and materials unless provided otherwise in the Contract. The Winning bidder further warrants that all materials supplied shall have no defects, arising from design, materials, or workmanship or from any act or omission of the Supplier that may develop under normal use of the supplied materials in the conditions prevailing in Jordan. This warranty shall remain valid for twenty four months ( 24 MONTHS ) starting from the issuance of the Acceptance Certificate (Taking-Over Certificate) and shall be provided by the Winning bidder duly filled and signed by him and endorsed by a Notary Public on a form similar to the attached format. The Engineer shall promptly notify the Winning bidder in writing of any claims arising under this warranty. Upon receipt of such notice, the Winning bidder shall, within the specified period and with all reasonable speed, repair or replace the defective materials or parts, without additional cost to the Employer. If the Winning bidder, having been notified, fails to remedy the defect(s) within the period specified in, the Employer may proceed to take such remedial action as may be necessary, at the Winning bidder's risk and expense and without prejudice to any other rights which the Employer may have against the Winning bidder under the Contract. PPaaggee 2277 ooff 114422 During the Warranty Period, the Winning bidder shall provide, at no additional cost, all required spare parts needed to replace existing faulty components and perform all works required to do the replacement, unless it is proved that the component to be replaced was damaged by abuse Manufacturer’s Warranty: Provide written warranty, signed by the Manufacturer and the Installer agreeing to replace system devices and equipment that fail in materials or workmanship through specified .warranty period ( two years). 2.13 Support Programs & Deliverables 2.13.1 Network Infrastructure Design Assistance Advanced Services engineers to consult with MoICT networking staff in a series of face-toface and remotely conducted meetings to develop a thorough understanding of the network infrastructure design requirements and review existing network design. 3 TECHNICAL DETAILS 3.1 GENERAL 3.1.1 Related Documents 1. Drawings and general provisions of the Contract, including Conditions of Contract, apply to this Section. 2. In particular, refer to these documents for all elements related to costs and responsibility for the delivery, storage, and rollout phase. 3. It is the Winning bidder's responsibility to coordinate the work of his various subwinning bidders. 3.1.2 System Description 3.1.2.1 Purposes The Tender document describes the Fiber Optic Cable Network to be installed as part of the National Broadband Network. PPaaggee 2288 ooff 114422 3.1.2.2 Coordination Meet jointly with representatives of concerned organizations and the Engineer representatives to exchange information and agree on details of network components arrangements and installation interfaces. Record agreements reached in meetings and distribute record to other participants. 3.1.2.3 Variant and Options The Winning bidder shall propose no variant. Options resulting in additional provisions to the basic system may be submitted to the Engineer for approval, with specifications, characteristics, purpose and full particulars of calculations and components selections. 3.1.3 Submittals 3.1.3.1 Design Submission The winning bidder shall submit network design in addition to the following: 1. Datasheets: These must include (at least) the following information: a. Features, b. Standardized tests passed and results and available product certificates, c. Product compatibility matrix with other manufacturers/vendors (specify level of testing in operation, lab test, declarative or theoretical), 2. Product Certificates: Signed by Manufacturers certifying that products furnished comply with requirements. 3. Test Plan: a. The Winning bidder shall provide Test Plan on the testing methodologies used for various tests involved throughout different stages of the Works. This shall also include the plan for integrated tests for interface with other systems. The Winning bidder shall submit the vendor’s recommended Test Plan for approval by the Engineer. b. Test schedule and required test equipment shall be determined within the plan. c. In establishing the test schedule, the Winning bidder and Engineer shall agree which activities the Engineer will attend. d. After Approval, the Test Plan may be amended as required during the life of the Project to reflect changes in system design and the identification of additional testing requirements that shall be borne by the winning bidder. 3.1.3.2 Shop Drawings The winning bidder shall submit for approval shop drawings that include the following: PPaaggee 2299 ooff 114422 1. Indicate layout, cabling diagrams, and dimensions. 2. Detailed layout of fiber optic cable 3. Detailed and splicing diagrams for fiber, 4. Complete electrical and physical characteristics of fiber optic cable and accessories, etc. 5. Complete system wiring diagrams, size and type of cables, enclosures and terminal, splice enclosure, ODFs, etc., and routing plans of fiber optic cable system. 6. Typical details. 7. Submittals 3.1.3.3 Manufacturer's Installation Instructions and product certificate: 1. Manufacturer's installation instructions. 2. Certificates signed by manufacturers of the cables and accessories certifying that the provided products comply with contract specified requirements. 3.1.3.4 Tests and Certificates The winning bidder shall submit the following 1. Test Specifications as defined in the Test Plan shall be submitted for Approval. 2. Submit complete certified Manufacturer’s type and routine test records, in accordance with the Standards specified in "Quality Assurance" Plan. 3. It will specify test results for compliance with contract's performance requirements. 3.1.3.5 Field Test Reports As specified in "On-site tests and Inspections" of this Section, the Winning bidder shall indicate and interpret test results for compliance with system description and performance requirements on both hard and soft copies along with the required software programs to open them. 3.1.3.6 Record (As-Built) Drawings Ensure that all changes to the approved design either implemented during or instructed by the Engineer or its representatives are formally and accurately recorded on As-Built documentation. This shall cover all the sites and locations where installations, as detailed on approved drawings, are being carried out. All as-built drawings shall be in accordance with Annex I and shall be submitted to the Engineer for review and approval PPaaggee 3300 ooff 114422 3.1.4 Regulations and Standards 3.1.4.1 Regulations 1. The supply shall conform to requirements of referenced industry standards, applicable Sections. 2. The winning bidder shall comply with Local Requirements, applicable local regulations and code requirements of authorities having jurisdiction. These will have precedence over other codes and standards indicated, unless otherwise approved by Engineer, in writing. 3.1.4.2 Standards 1. System components, parts and installation are to comply with the corresponding recommendations of the Electronic Industries Association (EIA), and the International Electro technical Commission (IEC). 2. Codes and Standards: Comply with the latest issue of several material and test standards, which have been developed and published by Institute of Electrical and Electronics Engineers (IEEE) for Data communications industry. 3. Compliant with both ITU-T recommendations and US standards. The above list is a partial list issued from standard organizations. Additional consideration may be required to issue satisfactory operation of the network. 3.1.5 Quality Assurance 3.1.5.1 Requirements 1. All work shall be executed and controlled by a quality management system in accordance with the requirements of ISO 9001 and any other applicable standards. 2. The Quality Assurance Plan shall be based on quality manuals of the Winning bidder, where Engineer has the right to explore the quality manual. 3. This plan shall include all the participants to the Contract within the Winning bidder’s teams and if applicable its sub winning bidders. PPaaggee 3311 ooff 114422 4. The Winning bidder nominates from the beginning of the Project, the person in charge of quality assurance of the whole project, who is directly linked to the Project Director. 5. The Winning bidder shall establish from the beginning of the project, the Quality Assurance Plan based on Winning bidder’s quality system that shall define: 6. a. Scope of Quality Assurance Plan, with conditions of validity and revision, b. Approach and structure of the Winning bidder's quality management system to fulfil the requirements of the Contract and ISO 9001, c. Organization retained for the project with subwinning bidders list, d. Details of how the Winning bidder proposes to manage subwinning bidders and to ensure that the relevant quality system requirements of ISO 9001/2 are observed and implemented by the subwinning bidders in the execution of the works subcontracted, e. The quality plans of Winning bidder. f. Description of all tests and inspections that shall be completed in the project. All records out-coming from the Quality Assurance Plan shall be sent to MoICT for approval. 3.1.5.2 Materials and Workmanship They shall conform to the latest issue of all industry standards, publications, or regulations referenced in this Section, including the following, as applicable: 1. Regulations and Standards: System components, parts and installation are to comply with the corresponding recommendations of the Electronic Industries Association (EIA), and the International Electro technical Commission (IEC). 2. Compliance with Local Requirements: Comply with applicable local regulations and code requirements of authorities having jurisdiction. These will have precedence over other codes and standards indicated, unless otherwise approved by the Engineer, in writing. 3. Conform to requirements of referenced industry standards, applicable Sections. 3.1.6 Warranty 3.1.6.1 Special Warranty Manufacturer’s Warranty: Provide written warranty, signed by the Manufacturer and the Installer engineer to replace the components that fail in materials or workmanship within the specified warranty period. PPaaggee 3322 ooff 114422 3.1.6.2 Warranty Period 1. two years from the Date of issuance of the Taking-Over Certificate. 2. During the Warranty Period for all the works , the Winning bidder shall provide, at its own cost, all required spare parts needed to replace existing components unless it is proved that the component to be replaced was damaged by abuse. 3.1.7 Commissioning 3.1.7.1 Purpose The purpose of this Section is to outline Acceptance Testing requirements and procedures. This Section shall form basis of the tests to be carried out, and specifies the minimum requirements to be followed. 3.1.7.2 Acceptance Testing Requirements 1. The Winning bidder is responsible for the fiber optic cable and related accessories installation in the system, so that the system stays globally functional. Therefore the cable and associated components commissioning must be done through demonstration of product capability and compliance with requirements when wired and configured as a system. 2. The Winning bidder shall be required to perform a factory acceptance test and a range of Site Acceptance Tests for each individual subsystem to demonstrate that all items have been correctly installed and adjusted on a location by location basis and that the subsystem operates in every respect in accordance with the Specification. 3. The tests have to cover every aspect related to the specifications of Civil works and Fiber work components; including visual inspections, measurements, and operation. 4. The site acceptance tests shall be performed by the Winning bidder and witnessed by the Engineer. 5. Any defects, which may become apparent during the course of these tests, shall be immediately rectified by the Winning bidder at his expense. 6. The Site Acceptance Test Specifications shall be prepared by the Winning bidder on both hard and soft copies and submitted to the Engineer for Approval 7. All Site Acceptance Tests shall be carried out in the presence of the Engineer or his representatives who shall sign off the testing documentation on satisfactory completion of the tests. PPaaggee 3333 ooff 114422 8. If modifications are required as a result of the tests, all affected parts of the Site Acceptance Tests, as determined by the Engineer, shall be retested by the Winning bidder at his expenses. 9. The results of the Site Acceptance Tests, together with any retesting as a result of failure, shall be recorded and signed by the authorized personnel of the Winning bidder and the Engineer or his representatives. PPaaggee 3344 ooff 114422 3.2 Execution 3.2.1 Installation 3.2.1.1 General A- Scope of Work: a. Acceptance of works shall be restricted to the material and installations complying with Contract specifications, the approved submittals, approved shop drawings, and the Engineer’s approvals. b. The Winning bidder has to carry out any site works under direct supervision of qualified, well trained technicians with manufacturer experience. c. Site workmanship of any network component has to be limited to the layout and fixation, and inter wiring of various items of the readymade components. d. In addition to the above, the Winning bidder shall perform and supply the following: 1) Coordination meeting with the Project authorities, 2) Progress reports and Progress reviews, 3) Insurance for the Transport of the equipment and material in addition to other insurances specified in the Contract 4) Quality Assurance setup and management, 5) Document Management, 6) Configuration Management for the duration of the project, 7) User documentation, 8) Worksite Setup and removal of temporary offices, Worksite vehicles, Site offices computers, printers, desks, etc., 9) Archival. And photos for each site. B- Site Survey a. Examine all sites, routes, existing Manholes, Handholes, existing routes, poles, existing Equipment etc. and all locations where all the fiber optic cables and the related components will be deployed. b. Identify component and material location, c. Identify links on patch panels, d. Procure premises environment characteristics, PPaaggee 3355 ooff 114422 e. Confirm feasibility for each technical room before starting to deploy. f. Confirm and finalize fiber routes including all electrical poles within the route that will be utilized. g. Any other surveys required to collect information for the purpose of performing the installation or obtaining permits from authorities. h. Proceed with installation only after unsatisfactory conditions have been corrected. 3.2.1.2 Coordination 1. It is under the Winning bidder responsibility to carry out any coordination between its own installations and other works. 2. The layout shop drawings have to be used as a guideline and must be approved by the Engineer before implementation starts. 3. The layout shop drawings shall also reveal the measures taken therein, and every fixation principle, and are to be approved by the Engineer. 4. For this purpose any starting of work will be subject to the Engineer / Engineer representative's approval. 5. The approved drawings shall take into account existing and future utilities and plans for the area - if such information is available. This consideration does not absolve the winning bidder from the responsibility of obtaining the necessary releases and permits to implement the works. 3.2.1.3 1. Installation Instructions Installation of network components and materials shall comply with industry construction standards and Manufacturer's written instructions. More precisely: a. Install cable using techniques, practices, and methods that are consistent with applicable Standards. b. Install cable without damaging conductors, shield, or jacket. c. Do not bend cable during handling or during installation to smaller radius than minimum recommended by Manufacturer. d. Secure and support cable at intervals not exceeding 750 mm and not less than 150 mm from cabinets, boxes, fittings, outlets, racks, frames, and terminals, etc.. e. Wiring within technical rooms: Provide adequate length of cables. Train cables to terminal points with no excess. Use lacing bars to restrain cables, to prevent straining connections, and to prevent bending cables to smaller radii than minimums recommended by Manufacturer. PPaaggee 3366 ooff 114422 2. Cleaning: after completing system installation, inspect premises. Remove burrs, dirt, and construction debris and repair damaged finish, including chips, scratches, and abrasions. 3.2.1.4 1. Identification of Cables Identify system components complying with applicable requirements and the following: Use a unique hierarchical alphanumeric designation for labelling. 3.2.1.5 Weatherproof Components Install units that are mounted outdoors, in damp locations, or where exposed to weather consistent with weatherproof rating requirements as IP45 at least. 3.2.1.6 Supervision 1. Installation shall be supervised and tested by specialized personnel of the Winning bidder organization. 2. The work shall be performed by skilled technicians under the direction of experienced engineers, all of whom shall be properly factory trained and qualified for this work. 3.2.1.7 Safety 1. The contractor shall Coordinate with the Engineer to procure general safety conditions during implementation. 2. Check that drain conductors and components are grounded to eliminate shock hazard and to minimize ground loops, common mode returns, noise pickup and other impairments. 3. Patch wiring must be traceable; Keep a database of patches installation up to date. 4. Warning signs, fencing, traffic barriers, accesses. shall be provided and maintained by the Winning bidder so as to safeguard and cause minimum inconvenience to the public. Flashing amber warning lights shall be operated at night. Local authority directions shall be followed if so required. Pedestrian accesses shall be provided at 100 m intervals, and cross roads shall have decking provided to permit the passage of vehicular traffic. 5. The installer's name, emergency contact address and telephone number shall be prominently posted at the site in both the Arabic and English languages. 6. Since a clean, dry cable has surface resistance of approximately 10 to 10 ohm/m and 9 3 11 5 a dirty, wet cables have a surface resistance of 10 to 10 ohm/m, DO NOT INSTALL CABLES ON ACTIVE TOWERS DURING WET ENVIRONMENTAL CONDITIONS. PPaaggee 3377 ooff 114422 7. Careful selection of the suspension position of the ADSS aerial cable prevents dangerous flashovers. These flashovers can occur mainly near the suspension position of the cable. Therefore, the minimum clearance between the cable and phase conductors shall be followed according to the specifications of the electric companies ( EDCO and IDECO) . This is done by considering the ADSS aerial cable to be a conductor which is grounded, and using currently accepted methods for determining its placement. 8. All debris shall be removed from the site. 3.2.2 On Site Tests and Inspection 3.2.2.1 On Site Verification 1. The purpose of this phase is to check the fiber optic cable and associated components and materials. 2. Any verification may result in a punch list item either because of an anomaly or a nonconformity with the Tender documents. 3. The punch lists are collated for each of the network components and the phase report is only released when all the stipulations on the punch lists are cleared. 3.2.2.2 Test Specifications 1. The Winning bidder shall submit a Test Plan according to the Test Specifications for approval. The winning bidder shall follow the methodology presented in the approved Test Plan. 2. The tests shall cover every aspect related to the specification of the system and its operation; including visual inspections, measurements, and operation. 3.2.2.3 On Site Cable Tests Cables are to be tested to ensure that no damage have occurred to them during transportation to site and/or during the course of pulling and laying. 3.2.2.4 Inspection Verify that cables, units, and components are properly labled and identified. 3.2.2.5 1. Pre-Testing Align and adjust system and perform pre-testing of all components to verify compliance with specified requirements. PPaaggee 3388 ooff 114422 2. Correct all deficiencies by replacing malfunctioning or damaged items with new items. 3.2.2.6 Procedure 1. Notify the Engineer not less than 30 days in advance, of proposed schedule, procedures and tests to be used in testing. 2. Conduct tests only with the Engineer present. Report 1. Prepare a written report of observations, inspections, tests and results, including: A complete listing of every cable and device, a. Date of each test and retest, and by whom, b. Results of each test and, if failure occurred, corrective action taken prior to retest. 3.2.2.7 Operational Tests 1. Schedule tests after pre-testing has been successfully completed. 2. Perform operational system tests to verify compliance with Specifications. 3. Test all modes of system operation; including: 4. a. Functional operation of each field mounted cable . b. Inspection: Verify that cables, units, and components are properly labelled and identified. The winning bidder shall submit to the Engineer tests' Schedule with at least seven days’ advance notice of test performance. PPaaggee 3399 ooff 114422 4. Annexes The contractor shall provide a compliance list for each and every item and specification mentioned in this RFPsupported by the manufacturer documents (data sheets ) PPaaggee 4400 ooff 114422 Annex A : will be delivered to the winning bidder PPaaggee 4411 ooff 114422 Annex B-1: Technical Specifications of Optical Fiber Cable - Duct Type 1. General Considerations The cable shall be designed for applications inside protective UPVC sub-ducts of 32mm diameter. This specification describes the cable design, properties of the fibers and the cable, the testing and the quality assurance during manufacturing, the final acceptance tests and the packaging. Single mode optical fiber cables which are optimized for use in both wavelengths windows of 1310 nm and 1550 nm are required. The optical fiber cables shall meet the requirements stated in ITU-T Rec. G.652 D The cable shall be new, unused and of current design and manufacturing. 2. Standards The specification refers to the following standards: IEC60793-1: Optical Fibers - Part 1: Generic Specification. IEC60793-2: Optical Fibers - Part 2: Product Specifications. IEC60794-1: Optical Fiber Cables - Part 1: Generic Specification. EIA/TIA 492-CAAB. EIA/TIA 598: Color Coding of Fiber Optic Cables. 3. Fiber Characteristics 3.1. General Fiber Specifications The fibers shall meet all requirements according to IEC 60793-2 Category B1. All optical fibers shall be sufficiently free of surface imperfections and inclusions to meet the optical, mechanical, and environmental requirements of this specification. Factory made optical fiber splices are not allowed. Each optical fiber shall consist of a SiO2 core doped with GeO2 and a fused SiO2 cladding (matched clad) giving a fiber with a step profile of the refractive index. The coating shall be easily strippable by means of a mechanical stripping tool without damaging the fibers. No chemicals shall be required. The fibers shall be completely phosphorus free. PPaaggee 4422 ooff 114422 3.2. Optical and Mechanical Characteristics of Standard Single Mode Fibers Single-mode Low Water Peak fiber shall be utilized in these optical fiber cables and shall meet the ITU recommendation G.652D, “Characteristics of a Single-Mode Optical Fiber Cable”. This requirement defines standard single-mode fibers for use across the full broad wavelength range including NOT LIMITED TO the extended band (1360 nm - 1460 nm). These fibers shall have the specified performance and geometry values except as noted below: Mode field diameter (1310 nm): 9.2 µm 0.4 µm Mode field diameter (1550 nm): 10.4 µm 0.5 µm Cladding diameter: 125 µm 0.7 µm Mode field concentricity error: 0.5 µm Cladding non circularity: as per ITU G.652.D type Refractive index profile: step Design: matched cladding Effective group index of refraction Neff (at 1310nm): To be provided by manufacturer. Effective group index of refraction Neff (at 1550nm): To be provided by manufacturer. Cut off wavelength of cabled fiber: 1260 nm Attenuation at 1310 nm: 0.35 dB/km Attenuation at 1383 nm: 0.35 dB/km Attenuation at 1550 nm: 0.22 dB/km Attenuation at 1625 nm: 0.24 dB/km PPaaggee 4433 ooff 114422 Attenuation vs. Wavelength Range (nm) Ref. λ (nm) Max. Difference α (dB/km) 1285 – 1330 1525 – 1575 1310 1550 0.03 0.02 The attenuation in a given wavelength range does not exceed the attenuation of the reference wavelength (λ) by more than the value α. Zero dispersion Wavelength (λ0): 1302 nm λ0 1322 nm Zero dispersion Slope (S0): 0.089 ps/(nm2.km) The attenuation measurements shall be made after finally winding the cable on its shipping drum.Cable ends shall then be hermetically seale Each fiber in each cable delivery length shall have a zero-dispersion over the range 1300 1324 nm. Maximum dispersion at the wavelength 1550 nm shall not exceed 18 ps/nm.km or as pair ITU-T recommendation G.652 D. 3.3. Core Material The core of the optical fiber, with a higher refractive index compared to the cladding, is made of SiO2 (Silicon dioxide) doped with GeO2 (Germanium dioxide). 3.4. Cladding Material The cladding of the optical fiber is made of SiO2 (Silicon dioxide). 3.5. Type of Primary Coating The primary coating is made of an UV-curable acrylate. It is applied in two layers, each of a different Young's modulus. The inner layer is somewhat softer than the outer one. This makeup protects the fiber against micro bending losses and against abrasion. 3.6. Dimension of Primary Coating The dimension of the primary coating is 245 5 µm. 3.7. Mechanical Characteristics of the Primary Coating The primary coating is easily strippable by means of a mechanical stripping tool. No chemicals shall be used. 3.8. Mechanical Characteristics of Fiber PPaaggee 4444 ooff 114422 A non metallic central core shall be provided which may constitute the strength member designed to withstand all longitudinal stresses or its strength may be supplemented by an additional stress sharing sheath. The core shall be of a non-hygroscopic material. Proof test stress: 8 N for 1 second; strain: 1 %. Each optical fiber shall be proof tested by the fiber manufacturer at a minimum of 100 kpsi (0.7 GN/m2). The tube of the cable shall be able to contain 12 colored fibers. Fiber Color Coding: fiber-# fiber-# fiber-# fiber-# fiber-# fiber-# 1 2 3 4 5 6 : Blue : Orange : Green : Brown : Slate : White fiber-# 7 fiber-# 8 fiber-# 9 fiber-# 10 fiber-# 11 fiber-# 12 : Red : Black : Yellow : Violet : Pink : Turquoise The binders of the fibers bundles shall be distinguishable by means of color coding in accordance with TIA/EIA-598-B, "Optical Fiber Cable Color Coding". The central buffer tube shall be filled with a non-hygroscopic, non-nutritive to fungus, electrically non-conductive, homogenous gel in order to prevent water penetration and migration. The gel shall be free from dirt and foreign matter. The gel shall be readily removable with conventional non-toxic solvents. The central tube shall be surrounded by a high density polyethylene (HDPE) jacket. The jacket shall not promote the growth of fungus. The jacket shall be free of holes, splits, and blisters. The minimum nominal thickness of the outer jacket shall be 1.5mm. Cable jackets shall be marked with manufacturer’s name, month and year of manufacture, sequential meter markings, a telecommunication handset symbol and “MOICT-NBN” as required by Section 350G of the National Electrical Safety Code® (NESC®), fiber count, and fiber type. The actual length of the cable shall be within +/- 1 % of the length markings. The print color shall contrast with the cable jacket. The size of the marking letters shall be approximately 2.5 mm. If the initial marking fails to meet the specified requirements (i.e., improper text statement, color, legibility, or print interval), the cable may be remarked using a contrasting alternate color. The numbering sequence will differ from the previous numbering sequence, and a tag will be attached to both the outside end of the cable and to the reel to indicate the sequence of remarking. The cable shall withstand a 2700 N during installation. PPaaggee 4455 ooff 114422 The shipping and storage temperature range of the cable shall be -30C to +70C. The operating temperature range of the cable shall be -30C to +70C. The installation temperature range of the cable shall be -5C to +50C. 4. General Cable Performance Specifications The cable shall fulfil the following mechanical, thermal and electrical characteristics. If applicable, during and after the tests, the attenuation shall be monitored at the operating wavelength. 4.1. Tensile Performance The cable shall be tested in accordance with IEC 60794-1-E1. The cable shall be subjected to a load of 2700N. No fibers shall exhibit a measurable change in attenuation after load removal. 4.2. Crush Resistance The cable shall withstand a compressive load of 30 kN/m - 50 kN/m for duration of 15 minutes. The load shall be applied uniformly over the length of the compression plate. The cable shall be tested in accordance with IEC 60794-1-E3. No fibers shall exhibit a measurable change in attenuation after load removal. 4.3. Cable Bend The minimum bending radius of the cable shall be less than or equal 15 times the outer diameter. It shall be tested in accordance with IEC 60794-1-E11. After the test there shall be no change in fiber attenuation greater than the uncertainty of measurement. 4.4. Temperature Cycling The cable shall be subjected to a minimum temperature of -30°C and a maximum temperature of +70°C. The test shall be performed in accordance with IEC 60794-1-F1. The change in fiber attenuation shall not be greater than the uncertainty of measurement 0.05 4.5. Water Penetration A 1 m sample of the cable shall be subjected to a water penetration test according to IEC 60794-1-F5. After duration of 24 hours no water shall be detected at the open end of the cable core. 5. Testing 5.1. Type Test The type tests given in Section 6 shall be performed on the fiber optic cable. PPaaggee 4466 ooff 114422 5.2. Factory Acceptance Test The cable performance shall be proved by showing detailed test reports of the optical attenuation (if applicable) during and after the test and all relevant test parameters of the type test. MOICT representatives will witness the Factory Acceptance Test. 5.3. Routine Test The optical attenuation coefficient as required in Section 3.2 shall be verified at 1550 nm on all production cable lengths. The test shall be performed according to IEC 60793-1-C1C (Backscattering technique). 6. Quality Assurance Provision The manufacturer shall carry out quality inspection and keep a record of the test results to an extent agreed. The manufacturer shall also keep track of the materials used, and of the production steps, used in the manufacturing of the cable to an extent agreed. The supplier shall provide details of his quality control procedures that shall include the methodical recording of the results of production measurements. Test result shall include the following: 1. Cable designation. 2. Number of fibers. 3. Fiber type. 4. Refractive index. 5. Drum no. 6. Length of cable. 7. Data of measurements. 8. Attenuation for every fiber at 1310 nm. 9. Attenuation for every fiber at 1550 nm. 10. Zero-dispersion wavelength for every fiber. 11. Zero-dispersion slope for every fiber. 12. Maximum and minimum value of mode field diameter of fibers in the cable. 13. Maximum and minimum value of cut-off wavelength in the cable. 14. A core-concentricity error of fibers in the cable. 15. Dispersion. 16. The test results shall be attached on the drum. 7. Packaging Cables shall be uniformly wound with no gaps between successive turns. Cable ends shall be effectively sealed against physicals damage, the ingress of water and loss of jelly filling, opening and re-sealing being possible at least ten times. PPaaggee 4477 ooff 114422 Identification of the cable drum shall include the following parameters: 1. 2. 3. 4. 5. 6. Name of manufacturer and year of production. Cable designation and content. Cable ID numbers. Length of cable and start and finish mark. Order no. Any other useful information. Drum size shall be suitable for cable lengths of at least 4000 m as one piece. Longer pieces are preferable. Tenderers shall state the maximum drummed cable length of each cable type offered and the size and gross weight of loaded drums. The cables shall be supplied on a wooden drum. Each length of cable shall be wound on a separate drum. The diameter of the drum barrel shall be large enough to prevent damage to the cable during reeling or unreeling. The diameter of the barrel shall not be smaller than 40 times the outer diameter of the cable. The drum shall be durable and constructed such as to prevent damage to the cables during shipment and handlings. Lags or other suitable means of protection shall be applied to the drum to prevent damage to the cables during shipment and storage. Nails and staples used in the construction of the drum must not be placed in a position where they can damage the cables. The drums shall be nonreturnable. Drums with a ramp shall be used. For test purposes a length of approx. 4 - 5 m of the inner end shall be accessible. The cable ends shall be sealed with shrinking caps and fastened tightly. A protective wrap shall be applied over the outer layer of the cable on each reel. The wrap shall be weather resistant and shall not be removed until the cable is installed. Marking plates, containing following information shall be securely attached to the outer side on each drum flange : PPaaggee 4488 ooff 114422 Type and size of cable. Cable length in meters. Gross weight in kilograms. Reel number. Manufacturer’s name. Year of manufacture. Project name and number. Arrow showing roll direction. The plates shall be made of an all weather resistant non-corrosive material. 8. Miscellaneous The cable manufacturer shall introduce and maintain a quality system according to ISO 9001. All optical fibers in each manufactured length shall be tested for attenuation according to Section 5.3. The measured attenuation coefficients (in dB/km) shall be provided with each cable reel. For lengths less than one kilometer, in consideration of test limitations, values that are within 0.05 dB of the specified end to end attenuation may be reported as the specification limit coefficient. At the request of the Engineer, the cable manufacturer shall provide installation procedures, all necessary equipment for the installation process and technical support concerning the items contained in this specification. PPaaggee 4499 ooff 114422 Annex B-2: Technical Specifications of Optical Fiber Cable - Aerial Type 1. General Considerations All aerial optic fiber cables shall be of All-Dielectric Self Supporting (ADSS) type and have the configuration shown below. The aerial optic fiber cable shall be designed for stable optical performance at extreme temperatures where thermal expansion or contraction is negligible over a wide temperature range. The cable shall be ready to be installed on medium and low voltage electricity poles. The cable shall be installed on utility structures without interrupting power. The cable jacket shall be resistant to UV-radiation, and to degradation in high electrical fields. All-Dielectric Self Supporting Optic Fiber Cable Components This specification describes the cable design, properties of the fibers and the cable, the testing and the quality assurance during manufacturing, the final acceptance tests and the packaging. Single mode optical fiber cables which are optimized for use in both wave lengths windows of 1310 nm and 1550 nm are required. The optical fiber cables shall meet the requirements stated in ITU-T Rec. G.652 D. The cable shall be new, unused and of current design and manufacture. 2. Standards The specification refers to the following standards: IEC60793-1: Optical Fibers - Part 1: Generic Specification. IEC60793-2: Optical Fibers - Part 2: Product Specifications. PPaaggee 5500 ooff 114422 IEC60794-1: Optical Fiber Cables - Part 1: Generic Specification. IEC60794-4: Optical Fiber Cables - Part 4: Sectional Specifications for OCEPL. EIA/TIA 598: Color Coding of Fiber Optic Cables. 3. Fiber Characteristics 3.1. General Fiber Specifications The fibers shall meet all requirements according to IEC 60793-2 Category B1. The ADSS cable shall withstand wind velocity of 160 km/hr and to cover spans of approximately 160 meters . All optical fibers shall be sufficiently free of surface imperfections and inclusions to meet the optical, mechanical, and environmental requirements of this specification. Factory made optical fiber splices are not allowed. Each optical fiber shall consist of a SiO2 core doped with GeO2 and a fused SiO2 cladding (matched clad) giving a fiber with a step profile of the refractive index. The coating shall be easily strippable by means of a mechanical stripping tool without damaging the fibers. No chemicals shall be required. The fibers shall be completely phosphorus free. 3.2. Optical and Mechanical Characteristics of Standard Single Mode Fibers Single-mode Low Water Peak fiber shall be utilized in these optical fiber cables and shall meet the ITU recommendation G.652D, “Characteristics of a Single-Mode Optical Fiber Cable”. This requirement defines standard single-mode fibers for use across the full broad wavelength range including the extended band (1360 nm - 1460 nm). These fibers shall have the specified performance and geometry values except as noted below: Mode field diameter (1310 nm): 9.2 µm 0.4 µm Mode field diameter (1550 nm): 10.4 µm 0.5 µm Cladding diameter: 125 µm 0.7 µm PPaaggee 5511 ooff 114422 Mode field concentricity error: 0.5 µm Cladding non circularity: as per ITU G.652 .D type Refractive index profile: step Design: matched cladding Effective group index of refraction Neff (at 1310nm): To be supplied by manufacture Effective group index of refraction Neff (at 1550nm): To be supplied by manufacture Cut off wavelength of cabled fiber: 1260 nm Attenuation at 1310 nm: 0.35 dB/km Attenuation at 1383 nm: 0.35 dB/km Attenuation at 1550 nm: 0.22 dB/km Attenuation at 1625 nm: 0.24 dB/km Attenuation vs. Wavelength Range (nm) Ref. λ (nm) Max. Difference α (dB/km) 1285 - 1330 1525 - 1575 1310 1550 0.03 0.02 The attenuation in a given wavelength range does not exceed the attenuation of the reference wavelength (λ) by more than the value α. Zero dispersion Wavelength (λ0): 1302 nm λ0 1322 nm Zero dispersion Slope (S0): 0.089 ps/(nm2.km) The attenuation measurements shall be made after finally winding the cable on its shipping drum. Cable ends shall then be hermetically sealed. PPaaggee 5522 ooff 114422 Each fiber in each cable delivery length shall have a zero-dispersion over the range 1300 - 1324 nm. Maximum chromatic dispersion at the wavelength 1330 nm shall not exceed 3.2 ps/nm.km or as pair ITU-T recommendation G.652 D 3.3. Core Material The core of the optical fiber, with a higher refractive index compared to the cladding, is made of SiO2 (Silicon dioxide) doped with GeO2 (Germanium dioxide). 3.4. Cladding Material The cladding of the optical fiber is made of SiO2 (Silicon dioxide). 3.5. Type of Primary Coating The primary coating is made of an UV-curable acrylate. It is applied in two layers, each of a different Young's modulus. The inner layer is somewhat softer than the outer one. This make-up protects the fiber against micro bending losses and against abrasion. 3.6. Dimension of Primary Coating The dimension of the primary coating is 250 15 µm. Mechanical Characteristics of the Primary Coating The primary coating is easily strippable by means of a mechanical stripping tool. No chemicals shall be used. 3.7. Mechanical Characteristics of Fiber A non metallic central core shall be provided which may constitute the strength member designed to withstand all longitudinal stresses or its strength may be supplemented by an additional stress sharing sheath. The core shall be of a non-hygroscopic material. Proof test stress: 8 N for 1 second; strain: 1 %. Each optical fiber shall be proof tested by the fiber manufacturer at a minimum of 100 kpsi (0.7 GN/m2). The loose buffer tube of the cable shall be able to contain 12 colored fibers. Fiber Color Coding: fiber-# fiber-# fiber-# fiber-# 1 2 3 4 : Blue : Orange : Green : Brown fiber-# 7 fiber-# 8 fiber-# 9 fiber-# 10 : Red : Black : Yellow : Violet PPaaggee 5533 ooff 114422 fiber-# 5 : Slate fiber-# 6 : White fiber-# 11 : Pink fiber-# 12 : Turquoise The loose buffer tube of the fibers shall be distinguishable by means of color coding in accordance with TIA/EIA-598-B, "Optical Fiber Cable Color Coding". The buffer tube shall be filled with a non-hygroscopic, non-nutritive to fungus, electrically nonconductive, homogenous gel in order to prevent water penetration and migration. The gel shall be free from dirt and foreign matter. The gel shall be readily removable with conventional nontoxic solvents. The central strength member shall be surrounded by a high density polyethylene (HDPE) jacket which shall have a bright color (e.g. orange, red, blue). The nominal jacket thickness shall be minimal 1.5 mm. The jacket shall not promote the growth of fungus. The jacket shall be free of holes, splits, and blisters. The cable shall have two jackets, i.e. inner and outer jackets. Cable jackets shall be marked with manufacturer’s name, month and year of manufacture, sequential meter markings, a telecommunication handset symbol, as required by Section 350G of the National Electrical Safety Code® (NESC®), fiber count, and fiber type. The actual length of the cable shall be within +/- 1 % of the length markings. The print color shall contrast with the cable jacket. The size of the marking letters shall be approximately 2.5 mm. If the initial marking fails to meet the specified requirements (i.e., improper text statement, color, legibility, or print interval), the cable may be remarked using a contrasting alternate color. The numbering sequence will differ from the previous numbering sequence, and a tag will be attached to both the outside end of the cable and to the reel to indicate the sequence of remarking. The shipping and storage temperature range of the cable shall be -40C to +70C. The operating temperature range of the cable shall be -40C to +70C. The installation temperature range of the cable shall be -5C to +50C. 4. General Cable Performance Specifications The cable shall fulfil the following mechanical, thermal and electrical characteristics. If applicable, during and after the tests, the attenuation shall be monitored at the operating wavelength. 4.1. Tensile Performance PPaaggee 5544 ooff 114422 The cable shall be tested in accordance with IEC 60794-1-E1. The cable shall be able to withstand a permanent load (10 min) of > 9000 N, a short term load (1 min) of > 13000 N, and a breaking tensile load of > 17000 N. No fibers shall exhibit a measurable change in attenuation after load removal. Also, the cable shall not have evidence of jacket cracking or splitting. The maximum allowable pulling tension is 20000 N. The contractor shall be comply ( or comply and better ) with the followings specifications of the ADSS cable in his proposal : 1 2 3 4 5 6 # Specification Rated Tensile Strength ( RTS) Maximum Operation Stress Every Day Stress ( EDS) Ultimate Operation Stress ( UOS) E-Midulus Thermal Expansion Coefficient 4.2. Crush Resistance Measuring Unit 20 KN 8 KN 5 KN 12 KN 13 KN /mm2 5.3 * 10-6 /°C The cable shall withstand a compressive long term load of 5000 N for duration of 10 minutes and a short term load of 6000 N for duration of 1 minute. The load shall be applied uniformly over the length of the compression plate. The crush resistance for the aerial optic fiber cables shall be 3000 N/100mm2. The cable shall be tested in accordance with IEC 60794-1-E3. No fibers shall exhibit a measurable change in attenuation after load removal. 4.3. Cable Bend The minimum static bending radius of the cable shall be mor than 10 times the outer diameter. The minimum dynamic bending radius of the cable shall be less than 20 times the outer diameter. It shall be tested in accordance with IEC 60794-1-E11. After the test there shall be no change in fiber attenuation greater than the uncertainty of measurement. 4.4. Temperature Cycling The cable shall be subjected to a minimum temperature of -40°C and a maximum temperature of +70°C. The test shall be performed in accordance with IEC 60794-1-F1. The cable shall meet the temperature cycling test without exhibiting an average increase in fiber attenuation greater than 0.1 dB/Km for single mode fiber. This value includes the repeatability of the measurement system, which shall not be greater than +/- 0.05. 4.5. Water Penetration PPaaggee 5555 ooff 114422 A 1 m sample of the cable shall be subjected to a water penetration test according to IEC 607941-F5. After duration of 24 hours no water shall be detected at the open end of the cable core. 5. Testing 5.1. Type Test The type tests given in Section 6 shall be performed on the fiber optic cable. 5.2. Factory Acceptance Test The cable performance shall be provided by showing detailed test reports of the optical attenuation (if applicable) during and after the test and all relevant test parameters of the type test. MOICT representatives will witness the Factory Acceptance Test. 5.3. Routine Test The optical attenuation coefficient as required in Section 3.2 shall be verified at 1550 nm on all production cable lengths. The test shall be performed according to IEC 60793-1-C1C (Backscattering technique). 6. Quality Assurance Provision The manufacturer shall carry out quality inspection and keep a record of the test results to an extent agreed. The manufacturer shall also have a trace ability of the materials used, and of the production steps, used in the manufacturing of the cable to an extent agreed. The supplier shall provide details of his quality control procedures that shall include the methodical recording of the results of production measurements. Test result shall include the following: 1. Cable designation. 2. Number of fibers. 3. Fiber type. 4. Refractive index. 5. Drum no. 6. Length of cable. 7. Data of measurements. 8. Attenuation for every fiber at 1310 nm. 9. Attenuation for every fiber at 1550 nm. 10. Zero-dispersion wavelength for every fiber. 11. Zero-dispersion slope for every fiber. PPaaggee 5566 ooff 114422 12. Maximum and minimum value of mode field diameter of fibers in the cable. 13. Maximum and minimum value of cut-off wavelength in the cable. 14. A core-concentricity error of fibers in the cable. 15. Dispersion. 16. The test results shall be attached on the drum. 7. Packaging Cables shall be uniformly wound with no gaps between successive turns. Cable ends shall be effectively sealed against physicals damage, the ingress of water and loss of jelly filling, opening and re-sealing being possible at least ten times. Identification of the cable drum shall include the following parameters: 1. 2. 3. 4. 5. 6. Name of manufacturer and year of production. Cable designation and content. Cable ID numbers. Length of cable and start and finish mark. Order no. Any other useful information. Drum size shall preferably be suitable for cable lengths of at least 4000 m as one piece. Longer pieces are preferable. Tenderers shall state the maximum drummed cable length of each cable type offered and the size and gross weight of loaded drums. The cables shall be supplied on a wooden drum. Each length of cable shall be wound on a separate drum. The diameter of the drum barrel shall be large enough to prevent damage to the cable during reeling or unreeling. The diameter of the barrel shall not be smaller than 40 times the outer diameter of the cable. The drum shall be durable and constructed such as to prevent damage to the cables during shipment and handlings. Lags or other suitable means of protection shall be applied to the drum to prevent damage to the cables during shipment and storage. Nails and staples used in the construction of the drum must not be placed in a position where they can damage the cables. The drums shall be non-returnable. PPaaggee 5577 ooff 114422 Drums with a ramp shall be used. For test purposes a length of approx. 4 - 5 m of the inner end shall be accessible. The cable ends shall be sealed with shrinking caps and fastened tightly. A protective wrap shall be applied over the outer layer of the cable on each reel. The wrap shall be weather resistant and shall not be removed until the cable is installed. Marking plates, containing following information shall be securely attached to the outer side on each drum flange: Type and size of cable. Cable length in meters. Gross weight in kilograms. Reel number. Manufacturer’s name. Year of manufacture. Project name and number. Arrow showing roll direction. The plates shall be made of an all weather resistant non-corrosive material. 8. Miscellaneous The cable manufacturer shall introduce and maintain a quality system according to ISO 9001. All optical fibers in each manufactured length shall be tested for attenuation according to Section 5.3. The measured attenuation coefficients (in dB/km) shall be provided with each cable reel. For lengths less than one kilometer, in consideration of test limitations, values that are within 0.05 dB of the specified end to end attenuation may be reported as the specification limit coefficient. At the request of the Engineer, the cable manufacturer shall provide installation procedures, all necessary equipment for the installation process and technical support concerning the items contained in this specification. PPaaggee 5588 ooff 114422 Annex B-3: Technical Specifications of Optical Distribution Frame 1. Scope This specification covers the requirements for Optical Distribution Frames (ODF) to be used for termination of optical fiber cables in Technical Rooms where a large number of optical fibers are expected to be involved (Aggregate Points and PoPs). 1.1. Definitions For the purpose of this specification the following definitions are applicable: Optical Distribution Frame (ODF) The system required for the termination and/or through connection of optical fiber cables in an orderly, systematic and flexible way in order to gain simple and reliable access to the optical fibers. Patch Cord A specified length of tight-buffered optical fiber, with or without a strength member of aramid yarns stranded around the fiber and covered by an outer sheath, fitted with optical connectors at both ends. Pig-tail 1 meter of tight-buffered optical fiber, with or without a strength member of aramid yarns stranded around the fiber and covered by an outer sheath, fitted with optical connectors on one end only. 2. General Principles The ODF shall be given a dedicated location within an equipment area to facilitate an orderly collection and termination of optical fiber cables. Each optical fiber is terminated with an optical connector and accessed from a patch-panel at the ODF. It shall be possible to access each incoming optical fiber at the ODF and redistribute further to their final destination by the means of optical patch cords. Thus the ODF provides the flexibility point for all the optical cables involved, from where all fibers can be distributed, re-routed or cross-connected in a simple way, depending on the requirements and needs at any particular time. PPaaggee 5599 ooff 114422 3. Design 3.1. The ODF shall have a flexible and modular design, with provisions for future expansions, possibility to add new cables, or to remove existing ones. The parts and components shall be pre-assembled, as far as possible, in order to minimize the amount of work to be carried out at site when the ODF is installed. 3.2. The ODF shall comprise a system of racks, panels, etc. which shall be possible to order in units according to requirements, any other design arrangement may be offered. Suppliers may offer for wall mounted ODF with explanation to be provided. 3.3. The design of the ODF system shall take into account the handling properties of the optical indoor cable with special regard to the minimum allowed bending radius of the cable. At no place may the optical fibres be bent below a minimum allowed bending radius of 35 millimetres, and provisions shall be made in order to prevent the fibres from being squeezed anywhere in the rack. 3.4. It shall be reasonably simple to add new optical cables to the ODF and to install the corresponding patch-panels, etc. It shall be possible to carry out the work with a minimum of manpower using only common place tools. 3.5. The overall design shall be such that each optical connector is easy to access, connect or disconnect. Provisions shall be made to prevent accidental disconnection of optical connectors as well as physical damage to optical fibers due to unintentional mechanical influence (e.g. a ladder accidentally hitting the rack or patch panel). 3.6. Immediate access to the optical connectors shall be prevented by means of doors or panels. It shall be possible to lock or secure these to prevent unauthorized tampering with the connectors. 3.7. The ODF system shall include facilities for systematic and safe storage of excess lengths on optical patch cords. The minimum requirement is that it shall be possible to store at least 4 meters of excess length on each 3 mm diameter optical patch cord without causing excessive strain on the fibres. 3.8. The design and materials used for the ODF shall be compatible for use in a protected environment with controlled temperature and humidity and only occasional exposure to the temperature and humidity of a tropical coastal environment. 3.9. The ODF shall be of rack mounted type. Suppliers may offer as an option for wall mounted type. 3.10. The ODF shall be capable of operating over a full temperature range of (-30ºC to +70ºC), without any damage or significant change in performance. PPaaggee 6600 ooff 114422 4. Optical Connectors The optical connectors to be used shall be of high-grade SC/PC type as described below. 4.1. SC/PC Connector Plug and Adapter The optical fibers shall be terminated with PC-polished optical connector plugs of SC type. 4.2. SC/PC Adapter The patch panels of the ODF shall be furnished with adapters for optical connectors. 5. Splices Where splicing of pigtails is required by the ODF design the following shall apply: 5.1. Facilities for Splicing For the protection and management of the fibers the ODF shall be furnished with splice trays or fiber organizers where the fiber joint shall be secured and excess fiber from the joint is stowed away. The splice tray design shall take into account the minimum allowed bending radius of 30 mm for the fiber. The strength member of the indoor cable shall be secured safely to the same shelf (unit, box, etc.) where the splice trays are installed. Unprotected primary coated fiber is not allowed anywhere in the rack except inside the protective cover of the splice trays. Tight buffered 0.9 mm fibers without additional protection shall also be protected and may only be used inside the patchpanels. 5.2. Method of Splicing The optical pigtails, whether they are bare 0.9 mm tight-buffered fibers or have aramid yarn protection, shall be jointed by the means of fusion splicing, and the splices shall be protected by splice protection sleeve. 5.3. Splice Loss The maximum allowed splice loss shall be ≤ 0.1 dB @ 1310 nm and, ≤ 0.07 dB @ 1550 nm PPaaggee 6611 ooff 114422 Annex B-4: Technical Specifications of Mini Optical Distribution Frame 1. Scope This specification covers the requirements for Mini Optical Distribution Frames to be used for termination of optical fiber cables in Technical Rooms where a smaller number of optical fibers are expected to be involved (Connection Points). 1.2. Definitions For the purpose of this specification the following definitions are applicable: Mini Optical Distribution Frame The system required for the termination and/or through connection of optical fiber cables in an orderly, systematic and flexible way in order to gain simple and reliable access to the optical fibers. Patch Cord A specified length of tight-buffered optical fiber, with or without a strength member of aramid yarns stranded around the fiber and covered by an outer sheath, fitted with optical connectors at both ends. Pig-tail 1 Meter length of tight-buffered optical fiber, with or without a strength member of aramid yarns stranded around the fiber and covered by an outer sheath, fitted with optical connectors on one end only. 2. General Principles The Mini ODF shall be given a dedicated location within an equipment area to facilitate an orderly collection and termination of optical fiber cables. The Mini ODF shall be placed into standard rack mount, it's depth shall not exceed 32 cm, and shall be suitable for most connectors and cable types. Additionally, the Mini ODF shall serve as a termination-splice fiber management tray that provides termination for 6 fibers in an all-front-access design. This unit shall have space for pigtails, splice trays, adapters, etc.. as shown in the figure below. PPaaggee 6622 ooff 114422 Mini Optical Distribution Frame Thus the Mini ODF provides the flexibility point for all the optical cables involved, from where all fibers can be distributed, re-routed or cross-connected in a simple way, depending on the requirements and needs at any particular time. 3. Design Mini ODF is used for applications in shared or growing networks. It is designed for splicing and cross-connecting fibers. The splicing function is handled by one or two cassettes, accommodating fusion splices protected by heat shrink sleeves. Connection and cross-connection are done by using any standard connector. The Sliding Patch & Splice Panel provides easy access to connections from the front of the frame, and accommodates left or right patch cord exit. The Mini ODF is ideal for use where networks may change more frequently or become complex. 3.1. The design of the Mini ODF system shall take into account the handling properties of the optical indoor cable with special regard to the minimum allowed bending radius of the cable. At no place may the optical fibers be bent below a minimum allowed bending radius of 35 millimeters, and provisions shall be made in order to prevent the fibers from being squeezed anywhere in the rack. 3.2. The overall design shall be such that each optical connector is easy to access, connect or disconnect. Provisions shall be made to prevent accidental disconnection of optical connectors as well as physical damage to optical fibers due to unintentional mechanical influence (e.g. a ladder accidentally hitting the rack or patch panel). 3.3. Immediate access to the optical connectors shall be prevented by means of doors or panels. It shall be possible to lock or secure these to prevent unauthorized tampering with the connectors. 3.4. The design and materials used for the ODF shall be compatible for use in a protected environment with controlled temperature and humidity and only occasional exposure to the temperature and humidity of a tropical coastal environment. 3.5. The Mini ODF shall be capable of operating over a full temperature range of (-30ºC to +70ºC), without any damage or significant change in performance. PPaaggee 6633 ooff 114422 4. Optical Connectors The optical connectors to be used shall be of high-grade SC/PC type as described below. 4.1. SC/PC Connector Plug and Adapter The optical fibers shall be terminated with PC-polished optical connector plugs of SC type. 4.2. SC/PC Adapter The patch panels of the Mini ODF shall be furnished with adapters for optical connectors. 5. Splices Where splicing of pigtails is required by the Mini ODF design the following shall apply: 5.1. Facilities for Splicing For the protection and management of the fibers the Mini ODF shall be furnished with splice trays or fiber organizers where the fiber joint shall be secured and excess fiber from the joint is stowed away. The splice tray design shall take into account the minimum allowed bending radius of 35 mm for the fiber. The strength member of the indoor cable shall be secured safely to the same shelf (unit, box, etc.) where the splice trays are installed. Unprotected primary coated fiber is not allowed anywhere in the rack except inside the protective cover of the splice trays. Tight buffered 0.9 mm fibers without additional protection shall also be protected and may only be used inside the patchpanels. 5.2. Method of Splicing The optical pigtails, whether they are bare 0.9 mm tight-buffered fibers or have aramid yarn protection, shall be jointed by the means of fusion splicing, and the splices shall be protected by splice protection sleeve. 5.3. Splice Loss The maximum allowed splice loss shall be ≤ 0.1 dB @ 1310 nm and, ≤ 0.07 dB @ 1550 nm PPaaggee 6644 ooff 114422 Annex B-5: Technical Specifications of Optical Connectors and Adapters 1. Scope This document specifies the requirement of optical connector sets of SC/PC-type to be used in single-mode optical fiber telecommunication systems. A connector set is: "The complete set of connector components required to provide demountable coupling between optical fibers". The length of fiber or cable on each side of the connector set shall be 3 meters (minimum). 2. Design 2.1. General The ferrule of the optical connector shall be made of zirconia stabilized ceramic. When the connector is mounted on a cable (or a tight buffered fiber) the fiber shall be fixed with epoxy in the cavity of the ferrule. Then the end face of the ferrule with the fiber shall be polished. In order to ensure physical contact the shape of the ferrule shall be spherical. The cable (jacket and strength members) shall be fixed to the connector by means of a crimp sleeve. Mating with another connector shall be accomplished by the means of an adapter with a split sleeve. 2.2. Material The supplier shall give details of the materials used in different parts of the proposed connector. The connector housing shall be of an all-metal design. 2.3. Ferrule The ferrule end face shall be PC-polished and meet the following requirements: Ferrule end face curvature (r) 10 < r < 25 mm Vertex offset of ferrule tip (convex vertex eccentricity < 50 µm from ferrule centre ) Fiber undercut from ferrule end face: 0.05 µm Fiber protrusion from ferrule end face: 0.10 µm PPaaggee 6655 ooff 114422 Outside diameter (A) Tolerance of cavity diameter Concentricity error C.E. of cavity Angular misalignment 3. Performance Requirements 3.1. Visual Inspection 2.4990 ± 0.0005 mm +1, -0 µm < 1.4 µm < 0.2º 3.1.1. Overall Inspection of Connectors Each connector shall be properly packed. The package shall be marked with, the name of the manufacturer and the manufacturing date. The connector itself shall be legibly and durably marked with the identity mark of the manufacturer and the manufacturing date code. 3.1.2. Inspection of the End Face The end face shall be clean and free from residues of glue. Using a microscope with a maximum magnification of 200x no scratches or break out of glass pieces shall be seen. 3.2. Insertion Loss Requirements: Allowable attenuation: 3.3. Mean 0.25 dB Maximum 0.50 dB Return Loss Requirements: Allowable return loss: 4. 40 dB Temperature The connector shall be capable of operating over a full temperature range of (-30ºC to +70ºC), without any damage or significant change in optical performance. PPaaggee 6666 ooff 114422 Annex B-6: Technical Specifications of Optical Cable Splice Enclosures 1. Scope This specification covers the requirements of splice enclosures to be used for splicing of all types of optical cables. Thus it is applicable for both duct and aerial cables. 2. General The design of the splice closure shall consider ITU-T recommendation L.13 “Sheath joints and organizers of optical fiber cables in the outside plant” and the requirements of this specification. It shall be possible to use the splice closure installed in manholes, in handholes, on poles, in cable vault, etc. It is the intention to use the splice closure to be installed in chambers or on poles. The closure shall be re-enterable, i.e. possible to open and close several times, without wear or impairment of its water tightness and/or other essential features. The enclosure shall be equipped with fiber cassettes and organizers that are easy to use and which provide full protection to the fibers. 3. Handling Aspects 3.1. The splice closure shall have a robust and reliable design and well adapted to the conditions in the field. It has to work even if minor un-intentional deviations at the installation procedure are made. 3.2. The splice closure shall have as few parts as possible. 3.3. Tools that require calibration shall not be required for work with the closure. 3.4. The use of melt resin or glue shall be avoided if possible. 3.5. Work with the closure shall be possible in a cramped room, e.g. manholes. 3.6. Work with the closure shall be possible without bending the fibers below their minimum allowed bending radius at any stage of work. 3.7. Work with the closure shall not require extensive training. 3.8. Work with the closure shall be possible to be carried out by one man alone. 3.9. Work with the closure shall not involve any risk of injury to the working personnel. PPaaggee 6677 ooff 114422 3.10. The method of work shall be described in an easy to understand installation instruction or manual enclosed with each closure in English and Modern Standard Arabic. 3.11. All the parts of the splice closure, except for the materials required for jointing of the fibers, shall be packed in one package, with a clear marking of its contents if required. If the storage time is limited that shall be stated on the package. 4. Design The winning bidder shall furnish and install fiber optic splice closures in locations where splices require protection as shown on the plans and as ordered by the Engineer. The fiber optic splice closure shall meet all requirements stated in the following specification: 4.1. The splice closure shall provide a good mechanical protection. 4.2. The splice enclosure shall incorporate a mechanical compression and/or mastic tape sealing system to maintain a barrier against water and moisture penetration. 4.3. The splice enclosure shall be reasonably resistant against unauthorized tampering, vibration and wear, as well as against biotic attack (rodents, termites, etc.). 4.4. The splice enclosure shall be resistant against corrosion. 4.5. The splice enclosure shall be resistant against UV-radiation. 4.6. The splice enclosure shall be made of materials, which are mutually compatible. 4.7. The size of the splice enclosure shall be in proportion to the number of cables, fibers in each cable and to the number of splices. 4.8. It shall be easy to re-enter the splice enclosure and close it again several times. Also the closure shall be capable of accepting additional cables without removal of the sheath retention or strength member clamping hardware on previously installed cables or disturbing existing splices. 4.9. The design of the enclosure must be such that the fibers are never bended below their minimum allowed bending radius of 35 mm during any phase of the splicing work. 4.10. A splice enclosure, which shall be used for a branching joint, shall be possible to assemble without the necessity to cut all the fibers. 4.11. The fiber optic enclosure shall be available in distinct sizes to accommodate a variety of cable entries. A fiber optic enclosure shall be capable of accommodating up to four cables in a butt or branch configuration. 4.12. It shall be possible to split and branch groups of 12 fibers from the splice enclosure. PPaaggee 6688 ooff 114422 4.13. Inside the splice enclosure there shall be space enough for an excess length of fiber of at least 2 meters. This length is based on expected future needs for maintenance or redistribution of fibers. 4.14. The splice enclosure shall contain, or have the space for, fiber organizers for storage of fiber joints as well as the excess lengths on fibers. 4.15. The fiber organizers shall provide good protection to the fibers and their joints, and have space for identification of each fiber. 4.16. The splice enclosure together with the fiber organizer shall facilitate easy access to any optional fiber within the enclosure for work without affecting the service on the other fibers. 4.17. In the splice enclosure it shall be possible to terminate any possible metallic conductor in the optical cable in such a way that they are easily accessible and possible to equip with over voltage protection devices. 4.18. The splice enclosure shall be possible to use on cables with basically a circular crosssection and shall be adapted to the dimensions of the cables to be connected. 4.19. The splice enclosure shall provide satisfactory anchorage of the jackets, armoring and strength members of the cables. 4.20. The splice enclosure shall allow metallic parts of the cables, if any, to be bridged over so that a satisfactory electrical connection between them is achieved. It shall be possible to ground metal parts of the cable, and it shall also be possible to separate all the metal parts. 4.21. For manhole installation it shall be possible to attach the splice closure to a manhole wall by the means of attachment devices, as shown in the figure below, all necessary materials for fixing shall be included in the offer. Example of a Splice Closures for Duct Cable PPaaggee 6699 ooff 114422 4.22. For pole installation it shall be possible to attach the splice closure to the pole by the means of attachment devices, as shown in the figure below, all necessary materials for fixing shall be included in the offer. Splice Closures for Aerial Cable Example of a Splice Closures for Aerial Cable 4.23. It shall be easy to furnish the splice enclosure with an external marking. 4.24. The splice enclosure shall be capable of operating over a full temperature range of (-30ºC to +70ºC), without any damage or significant change in performance. PPaaggee 7700 ooff 114422 Annex B-7: Technical Specifications for Duct Cable Hardware and Support Accessories 1. Cable U-Guard shall be used to protect the cable at the points of potential abrasion. U-Guard & Galvanized Steel Protector Pipe 2. Cable trays with cover shall be used to protect cables installed on wall. 3. Cable Tray/U-Guard installations shall be carried out with no damage to the wall surface. Side & Front View for Galvanized Steel Cable Ladder with Fixation PPaaggee 7711 ooff 114422 Annex B-8: Technical Specifications for Aerial Cable Hardware and Support Accessories 1. Aerial Cable Storage All slack cable storage locations require the installation of slack cable storage brackets. The fiber cable storage bracket insures a proper bending radius for the stored fiber optic cable and provides for horizontal storage and tie ring for storage of multiple cables and loops. The figures below illustrate possible slack cable storage configurations. Cables shall be secured utilizing weather resistant plastic material or stainless steel. Aerial Cable Storage Configuration for Pass-Through Cables Aerial Cable Storage Configuration for Angled Cables PPaaggee 7722 ooff 114422 2. Aerial Cable Support Hardware There are two general types of aerial cable support hardware: Dead-end and tangent (passthrough) assemblies. 2.1. Dead-end Grip Dead-end bracket is used at the point of cable termination. The figure below shows an aerial cable dead-end Grip. Aerial Cable Dead-end Grip 2.2. Pass-Through Bracket Pass-through bracket is normally installed after the span has been tensioned. The figure below illustrates a front view of a pass-through bracket. To install the cable, the hinged top is opened and the bottom pad is inserted. Then the cable is placed on the pad, the top pad is placed over the cable, the top is closed, and the bolt is tightened to hold the cable in place. Pass-Through Bracket PPaaggee 7733 ooff 114422 3. Cable Mounts Metal cable mounts is normally used to hold the aerial cable on the pole (wooden, steel, concrete). Metal Aerial Cable Mount (for Steel, Concrete, and Wooden Poles) 4. Splice Closures Clamp Strapped clamp is normally used to hold the closures on poles (wooden, steel, concrete) as shown in figure below. Splice closures clamp strapped with metal bends PPaaggee 7744 ooff 114422 5. Galvanized Pipe Holder Galvanized Pipe (Ø 25, 50 mm) Holder 6. Aerial Cable Sag Planning for aerial cable installation includes taking into account proper clearances, cable types and properties, the mechanical stress loading on the cable, and span length. Planning for proper clearances requires knowing the “sag” of the proposed installation. The Winning bidder shall plan aerial cable installation to allow for a minimum clearance of six (6) meters above ground level and three (3) meters from existing medium voltage power cables on electricity poles. Aerial Cable Sag and Clearance PPaaggee 7755 ooff 114422 Annex C: Test and Acceptance Specifications 1. General Requirements Tools and test instruments required for the acceptance shall be provided by the Winning bidder and shall be fully described and identified by: Manufacturer. Type. Option(s) installed. Serial number. Last date and certificate of calibration. The test instruments shall be adequate in both performance and quantity for the required acceptance testing. The offered test instruments shall conform to the O-Series of ITU-T Recommendations. All test instruments shall have a valid calibration label stating calibration institution and expiration date. A copy of the instruction manual shall be provided with each test instrument during the acceptance testing. The manuals shall contain all the relevant information for each type of the test instruments offered, including operation, fault diagnosis and correction, recalibration test, standards and recalibration instruments required. The test instruments shall include all necessary power cords, patch cords, attenuators, test probes an accessories to carry out all the tests. All accessories required for performing the acceptance test shall have been included in the calibration procedure. 2. Tests of Cable and Measurements of Optical Signal Attenuation 2.1. General All adjustments to the costs for the installation of the outside plant fiber optic cables will be performed from physical segment lengths, explicitly excluding losses due to cable installation and or other manipulation. This shall make it possible to validate installed segment lengths against optical lengths from the test equipment. 2.2. Acceptance Tests The optical fiber acceptance tests are comprised of measurements of signal strength through signal reflection (Optical Time Domain Reflectometer, OTDR) and signal insertion and detection. The Winning bidder shall perform all acceptance tests and compile them on the required forms. The Winning bidder shall submit to the Engineer all forms necessary to detail the performance of each fiber. The Winning bidder shall invite the Engineer to witness the PPaaggee 7766 ooff 114422 provisional and final tests. During final acceptance testing, and before the issuance of the Final Acceptence Certificate (Performance Certificate), tests similar to those conducted during the provisional acceptance shall be performed. Laser Source Verification Procedure with Simple Signal Insertion and Detection Tester Site 1 -1 Amman Laser Laser Source Source Site 2 -2 Amman CC A A B B adapter Adapter Optical Optical Power meter Meter Patch Cords -3.5 dBm NOTE: No two laser sources have the same output value. It is necessary to precisely measure this output value in order to determine the signal loss caused by the patch cords and the connectors. In knowing the precise output value, it is then possible to subtract it from the final read out. The readings must be performed on both the transmit (Tx) and receive (Rx) fiber strands, and in both directions by inverting the source and the sensor. This calibration test must be performed prior to any measurement being taken. EXAMPLE: A = Reference signal of the source B = Reference signal of the sensor C = Adaptor Step 1 = First reading composed of: A + C + B = -3.5 dBm Step 2 = Inversion of source and sensor Step 3 = Second reading composed of: B + C + A = -2.8 dBm Step 4 = (-3.5) + (-2.8) = -6.3 dBm divided by 2 = -3.15 dBm Therefore, we have a reference loss of: -3.15 dBm (example value) PPaaggee 7777 ooff 114422 Example of Measurement on a Section (B) The reading from Site 1 to Site 2 = -18.7 dBm -18.7 – (-3.15) (see previous section) = -15.55 dBm The reading from Site 2 to Site 1 = -19.5 dBm -19.5 – (- 3.15) = -16.35 dBm NOTE: Each reading must be performed in both directions. The result is divided by two (2) to obtain the real value. (-15.5) + (-16.35) = -31.85 dBm divided by two = -15.93 dBm Therefore, the real loss on this section (B) is -15.93 dBm (example value) PPaaggee 7788 ooff 114422 Examples of Signal Attenuation Readings Records (loss in dB) These readings shown in the table below have been taken only in one direction and shall be repeated in the other direction. OUTPUT SOURCE POWER: (example) A to B F#1 F#2 F#3 F#4 F#5 F#6 F#7 F#8 F#9 F # 10 F # 11 F # 12 F # 13 F # 14 F # 15 F # 16 At 1310nm = -1dbm At 1550nm = -3dbm Measure at Measure at Real loss at 1310 1550 1310 -15.7 -11.8 -14.7 -15.7 -12.09 -14.7 -15.99 -11.48 -14.99 -15.62 -11.96 -14.62 -15.82 -11.8 -14.82 -15.81 -11.72 -14.81 -15.85 -12.16 -14.85 -15.71 -12.06 -14.71 -15.71 -12.06 -14.71 -15.71 -12.06 -14.71 -15.71 -12.06 -14.71 -15.71 -12.06 -14.71 -15.71 -12.06 -14.71 -15.71 -12.06 -14.71 -15.71 -12.06 -14.71 -15.71 -12.06 -14.71 Real loss at 1550 -8.8 -9.09 -8.48 -8.96 -8.8 -8.72 -9.16 -9.06 -9.06 -9.06 -9.06 -9.06 -9.06 -9.06 -9.06 -9.06 All measurements must be saved on paper and in electronic copy in Microsoft Excel format. The real loss data shall be entered in the attached acceptance sheet (MS Excel spreadsheet). The acceptance criteria for cable loss measurement are detailed on this sheet. 3. Readings with Optical Time Domain Reflectometer (OTDR) When measuring attenuation, it is necessary to consider splices, which increase the signal (positive splices), and splices, which decrease the signal (negative splices). PPaaggee 7799 ooff 114422 Ex: (0.08db) positive and (-0.06db) negative In order to obtain the net loss value of a splice (or total splice losses), it is necessary to run OTDR measurements in both directions, add the two (2) values and divide by two (2). In the aforementioned example, the final result would be: (0.08) + (-0.06) = 0.02 dB divided by two = 0.01 dB Maximum Attenuation of a Fusion The maximum attenuation for a fusion shall be of 0.1 dB at a 1310 nanometer wavelength and of 0.06 dB at a 1550 nanometer wavelength. The total attenuation for a kilometer of network (dB/km) shall correlate with the specifications of the fiber optic cable manufacturer. The true optical distance (including all slack in the cable) must be specified for each measurement; in all attenuation test reports (see Excel spreadsheet). Paper print out of the OTDR measurements showing the complete distance and electronic files (taken from both directions on the fiber section) shall be included in the acceptance report. The electronic files shall be supplied with the software to run on a standard PC to open and read and display the files. 4. Additional Optical and Dispersion Measurements Dispersion measurements shall be made within the dynamic range of the test equipment. Each fiber in each cable delivery length shall have a zero-dispersion over the range 13001324 nm (< 3.5 ps/nm.km). Maximum dispersion at the wavelength 1550 nm shall not exceed 18 ps/nm.km or as pair ITU-T recommendation G.652 D. Polarization Mode Dispersion shall also be verified to guarantee future extreme high bitrate operation (> 10 Gb/s). The PMD shall be less than 0.1 ps/sqrt(km) at 1550 nm. PPaaggee 8800 ooff 114422 In case the tests can not be executed due to test equipment not being available in country, the Factory Acceptance Test sheets of the cable installed shall be provided. 5. Fiber Acceptance Report The fiber acceptance report shall be handed over on 3 paper copies and 3 electronic copies on CD-ROM and prepared for each optical fiber cable section between the optical termination points. The acceptance report shall contain the following items. 5.1. Acceptance Report Components General Test Identification Optical fiber cable section identifier. Start termination point identifier. End termination point identifier. Date of measurement performed. Name of test operator (in English) for start termination point. Name of test operator (in English) for end termination point. Laser Source Specification for Start Optical Termination Point Manufacturer. Type. Option(s) installed. Serial number. Last date of calibration. Laser Source Specification for End Optical Termination Point Manufacturer. Type. Option(s) installed. Serial number. Last date of calibration. Power Meter Specification for Start Optical Termination Point Manufacturer. Type. Option(s) installed. Serial number. Last date of calibration. Power Meter Specification for End Optical Termination Point PPaaggee 8811 ooff 114422 Manufacturer. Type. Option(s) installed. Serial number. Last date of calibration. OTDR Measurement Specifications for Start Optical Termination Point Manufacturer. Type. Option(s) installed. Serial number. Last date of calibration. OTDR Measurement Specifications for End Optical Termination Point Manufacturer. Type. Option(s) installed. Serial number. Last date of calibration. Dispersion and PMD Measurement Specifications (if not supplied with factory drum test sheet) Manufacturer. Type. Option(s) installed. Serial number. Last date of calibration. 5.2. The results of the attenuation and OTDR measurements shall be gathered on the fiber section acceptance form as shown below. This acceptance sheet shall be given as a paper copy and as an electronic copy (Microsoft Excel 2007) on the CD-ROM. 5.3. The print-out of the OTDR measurements in both directions for both 1310 nm and 1550 nm shall be included in the fiber acceptance report and an electronic copy of the measurement files on the CD-ROM including a full copy of the viewer of these measurement files (HP, Siemens, Anritsu or other). PPaaggee 8822 ooff 114422 Example Sheet Section Start optical termination point (A) To cable section ID Start pount ID Fibre No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Averaged Mean End optical tramination point (B) End point ID 1550 nm A to B B to A Difference Average (dB) (dB) Loss (dB) (dB) -5.21 -4.94 0.27 -5.08 -4.98 -4.79 0.19 -4.89 -5.64 -5.28 0.36 -5.46 -4.76 -4.63 0.13 -4.70 -5.13 -4.92 0.21 -5.03 -5.23 -5.10 0.13 -5.17 -5.28 -5.11 0.17 -5.20 -4.99 -4.67 0.32 -4.83 -5.40 -4.96 0.44 -5.18 -5.40 -5.14 0.26 -5.27 -4.92 -4.75 0.17 -4.84 -5.16 -5.01 0.15 -5.09 -5.01 -4.62 0.39 -4.82 -5.60 -5.33 0.27 -5.47 -5.44 -5.27 0.17 -5.36 -5.28 -5.06 0.22 -5.17 -5.21 -4.97 0.24 -5.09 -5.09 0.24 1310 nm A to B B to A Difference Average (dB) (dB) Loss (dB) (dB) -7.36 -7.95 0.59 -7.66 -7.12 -7.71 0.59 -7.42 -7.77 -8.32 0.55 -8.05 -6.77 -7.35 0.58 -7.06 -7.33 -7.82 0.49 -7.58 -7.32 -7.79 0.47 -7.56 -7.58 -7.98 0.40 -7.78 -7.14 -7.79 0.65 -7.47 -7.51 -7.90 0.39 -7.71 -7.51 -8.15 0.64 -7.83 -7.11 -7.39 0.28 -7.25 -7.51 -7.94 0.43 -7.73 -7.06 -7.38 0.32 -7.22 -8.06 -8.62 0.56 -8.34 -7.85 -8.35 0.50 -8.10 -7.57 -7.96 0.39 -7.77 -7.41 -7.90 0.49 -7.66 -7.66 0.49 Physical cable length as obtained by OTDR 20.01 km Number of splices from A to B 9.00 pcs Acceptance criteria 1 all averaged values per fibre (column G and K) below required total allowable loss 2 differences of measurments in both directions may not differ more than 0.5 dB at 1550 nm and not more than 0.7 dB at 1310 nm for each fiber Requirements: Cable Attenuattion per km (dB): Total Physical Cable Length (km): Splice Loss Mean Value (dB): Total Number of Splices: Maximum Connector Loss (dB): Total Number of Connectors: Allowance for short section (dB): Total Allowable Loss (dB): 1550 nm 1310 nm 0.23 20.01 0.05 9 0.50 2 0.00 6.05 0.35 20.01 0.05 9 0.50 2 0.00 8.45 Approved by Contractor Witnessed and signed Accepted and signed Representative: PMC Representative MoICT Representative Signature: Signature: Signature: Name: Name: Name: Date: Date: Date: PPaaggee 8833 ooff 114422 انًىاطفبد انفُُخ نًىاعُش انجالعزُك Annex D: Duct Specifications : The supplied ducts must conform to the specifications below. The color of the main and the sub ducts shall be yellow The print on the outside shall be in resistant black print “MoICT-NBN” at a spacing of every 100 cm, and on 180 degree. انًدبل وَطبق انزطجُك Scope & Field of Application: 3 رخزض هزِ انًىاطفبد انخبطخ ثًىاعُش انجالعزُك غُش انًهذٌ (يزعذد كهىسَذ انفُُم) راد انًمبط االعًٍ ( 32يهى و 110 يهى) وانًغزخذيخ ثًشبسَع شجكبد كىاثم االرظبالد انًذفىَخ رحذ األسع. انخــــىاص. Characteristics : 4 َدت أٌ َزىفش فٍ انًىاعُش انجالعزكُخ (يزعذد كهىسَذ انفُُم) انًغزخذيخ فٍ رًذَذاد شجكبد االرظبالد انًذفىَخ رحذ األسع يب َهـــــٍ: يىاد انزظُُــــع. Materials : أ. أٌ رظُع أعبعب ً يٍ يزعذد فهىسَذ انفُُم غُش انًهذٌ ).(UPVC ()1 أٌ ال رحزىٌ عهً أَخ إضبفبد عذا إضبفخ انهىٌ واإلضبفبد انضشوسَخ نزغهُم عًهُخ رظُُع ()2 انًىاعُش الَزبج يىاعُش عهًُخ ويعزًخ راد أعطح َبعًخ وراد يزبَخ يُكبَُكُخ خُذح (ولذ َضبف أنُهب يشردعبد َظُفخ يٍ َفظ عًهُخ انزظُُع وَفظ انًُزح ورفٍ ثًزطهجبد هزِ انًىاطفخ وال َدىص اعزعًـبل أٌ يشردعبد أخــشي). انًظهش وانحبنخ انعبيـــخ. Appearance : ة. أٌ ركىٌ خذساٌ انًىاعُش يغزمًُخ وراد يمبطع دائشَخ ونىٌ اطفش. ()1 أٌ ركىٌ خذساٌ األَبثُت واألعطح انذاخهُخ وانخبسخُخ َبعًخ خبنُخ يٍ انزشممبد وانشــــشوخ ()2 وانزدبعُذ انحبدح األطشاف وانجمع وانفشاغبد أو أَخ عُىة أخشي أو يىاد غشَجخ (وَغًح ثبنزدبعُذ انخفُفخ انًُجغطخ). انكثبفـــــــخ. Density : خـ. أٌ ال رمم كثبفخ انًىاعُش عٍ 1.35غى /عى 3وال رضَذ عٍ 1.45غى /عى 3عُذ دسخخ حشاسح 23دسخخ يئىَــخ. األثعبد وانزفبورـــبد. Dimensions and Tolerances : د. أٌ َكىٌ انطىل انفعبل (ثذوٌ انًفخ) نهًبعىسح 6يزش وأال َزعذي انزفبود فٍ انطىل عهـــــً ()1 (طفش – )30يى. أٌ َكىٌ انحذ األدًَ نأللطبس انخبسخُخ ونغًك اندذساٌ وانزفبوربد كًب هى يىضح ثبندــــذول ()2 سلــى ( )1و (.)2 خذول سلى ()1 انمطش (يى) انغًبكخ (يى) انًمبط االعًٍ انحذ األدًَ انحذ األعهً انحذ األدًَ انحذ األعهً "1.25 32يى 1.8 2.2 32 32.2 "4 110يى 3.2 3.8 110 110.3 PPaaggee 8844 ooff 114422 خذول سلى ()2 انًمبط األعًٍ "1.25 "4 32يى 110يى طىل انًفخ (يى) انحذ األدًَ انحذ األعهً 88.0 80.0 121 110 انغًبكخ (يى) انحذ األدًَ انحذ األعهً 2.2 1.8 3.8 3.2 َدت أٌ َكىٌ طشف األَجىة انخبنٍ يٍ انًفخ يشطىفب ً Beveledنًغبفخ 3يى عهً انغطح انذاخهٍ ()3 نألَجىة . يمبويخ انظــــذو. Impact Resistance : هـ. أٌ ردزبص انًىاعُش اخزجبس انظذو عُذ دسخخ حشاسح 20دسخخ يئىَخ وال رضَذ انُغجخ انًئىَخ انًكغىسح عهً %10 يٍ يدًىعخ انعُُبد. طشق انفحض واالخزجبس . Methods of Testing : َدت أٌ ردشي االخزجبساد انزبنُخ طجمب ً نهًىاطفبد انمُبعُخ انًجُُخ فٍ اندذول سلى 3أو يب َكبفئهب وعهً َفمخ انًمــبول. انفحض انظبهــشٌ. ()1 لُبط األثعــــبد. ()2 انكثبفـــــــخ. ()3 ايزظبص انًبء. ()4 لىح االَثُــــبء. ()5 يعبيم انهُىَـــخ. ()6 يمبوو انظذو. ()7 انزخضٍَ انحشاسٌ. ()8 ( )9لىح انشذ. خذول سلى ()3 Appearance & Generalانفحض انظبهشٌ Din8061/ Visual Condition لُبط األثعبد Dimensions DIN8061 انكثبفخ Density DIN53479 ايزظبص انًبء Water Absorption DIN8061 لىح االَثُبء Flexural Strength ASTM790 يعبيم انهُىَخ Modulus of Elasticity DIN53-457 يمبوو انظذو Impact Strength DIN8061 انزخضٍَ انحشاسٌ Heat Reversion DIN8061 لىح انشذ Tensile Strength ASTM D638 3 4 رعزجش اإلسعبنُخ يطبثمخ نهًىاطفبد إرا اخزبصد خًُع انعُُبد خًُع االخزجبساد انًجُُخ أعــــــــالِ. PPaaggee 8855 ooff 114422 Annex E: Chambers Specifications It shall be understood by the bidder that it is the MOICT Engineer who decides where to use the metal or concret covers for the manhoels ,handholes and the pull boxes. Prefabricated Manholes with metallic cover The manholes (120*68*82 cm) as minimum internal dimensions with a base of 15 cm thickness, with a refined surface made from reinforced concrete with fracture strength of 250 kg/cm2. The manholes shall be equipped with terminators, galvanized pulling eyes, step, cable support and brackets, marker plates, frame and complete hardware package. The two covers shall be of the heavy type with a label stating “MoICT-NBN”. The covers shall be lockable. And bears 40 ton Manhole Specifications & Dimensions PPaaggee 8866 ooff 114422 Prefabricated Manholes with concrete cover a) The pre-cast manholes (100cm(L)* 100cm(W)* 100cm(D)) as internal dimensions with a base and walls of 20 cm thickness, with a fair-face surface finish made from reinforced concrete with minimum cube crushing strength of 250 kg/cm2 and 7Ø10 mm/m steel bars in both directions for walls, base and cover. b)The manhole shall be equipped with terminators, galvanized pulling eyes, step, cable support and , brackets, marker plate in addition to frame, and all accessories required for splicing enclosures and spare cable loop mounting. c)For the concrete cover, Aluminium plate of dimensions 20x10 cm with a label stating "MoICT-NBN" shall be applied and fixed to the cover from inside. Manhole Specifications & Dimensions PPaaggee 8877 ooff 114422 Prefabricated Han dholes The hand holes (91.5*46*82 cm) as minimum internal dimensions with a base of 15 cm thickness, with a refined surface made from reinforced concrete with fracture strength of 250 kg/cm2. The hand holes shall be equipped with terminators, galvanized pulling eyes, cable support and bracket, marker plate, frame and complete hardware package. The cover shall be of the heavy type with a label stating “MoICT- NBN”. The cover shall be lockable. And bears 10 tons. Handhole Specifications & Dimensions PPaaggee 8888 ooff 114422 Pull Boxes The pull boxes (50*25*48.5 cm) as minimum internal dimensions with a base of 10 cm thickness, with a refined surface made from reinforced concrete with fracture strength of 200 kg/cm2. The cover shall be of steel type. The pull boxes include: the cover, a marker plat (fixed on the entity's wall near the Pull Box), and finishing. Pull box Specifications & Dimensions PPaaggee 8899 ooff 114422 Annex F: Route Crossing The route crossing shall be implemented in accordance with the drawings below and the descriptions as provided in the specification. Bridge Crossing Details PPaaggee 9900 ooff 114422 Railway Crossing Detail PPaaggee 9911 ooff 114422 Annex G: Trench Specifications The trench shall be excavated and backfilled in accordance with the drawing below and the descriptions as provided in the bill of quantities. Trench Specifications for four ducts inside one main duct (In Urban Areas) PPaaggee 9922 ooff 114422 Trench Specifications for one duct inside one main duct. (In Urban Areas) PPaaggee 9933 ooff 114422 Specifications for two ducts inside one main duct (In Un-Urban Areas) PPaaggee 9944 ooff 114422 Annex H-1: Electronic Identifiers: Electronic Identifiers shall be installed over proposed underground networks being Water and Waste Water Utilities, and Telecommunication Utilities according to the following specs: Specifications: - The design and construction of the Electronic Identifier shall be rugged, reliable, and durable. The cross sectional area be small in order to fit in tight places. The following is the required specifications: Utility Telecommunication Color Orange Frequency 101.4 KHZ Accuracy ±1% Depth Range up 150 cm Operating Temp. ċ -40 to +70 Storage Temp. ċ -40 to +85 RLC Circuit Housing Life Expectancy Field Trials Core of the inductor shall be a ferrite core Rugged, with a water proof insulating material to protect the RLC circuit in case the outer casing is broken 45 years min. Required, and cannot be conducted during the execution of the project. Any product to be suggested for use shall pass a filed trial test where a sample of the product is placed in position for 3 months, and tested for operation on monthly basis. Samples shall be submitted by the winning bidder to be approved by the Engineer without any additional costs. Installation: PPaaggee 9955 ooff 114422 Electronic Identifiers shall be installed in the following both manners: - Vertically: Within the top of the soft backfill layer (bedding), over the utility at a depth not exceeding 90 cm from the surface of the ground. - Horizontally: One identifier every 10 meters max. Annex H-2: Warning Tape : PPaaggee 9966 ooff 114422 Annex I: As-Built Specifications for Fiber Installation (GIS & AutoCAD) Shop drawing / As built specification GIS & AutoCAD for fiber installation Requirements for GIS data submitted by Ministry of information and communication technology MOICT GIS data for Broadband is a consistence of integrated GIS layers represents GIS database structure of Broadband Sector, and these data are classified to: 1- Operational GIS Layers ( Duct cables, Arial cable, Duct rout, Connection point, Aggregate, Manhole, Hand hole, Junction, poles, pull box, splice ) 2- Assistant GIS Layers (Administrative Boundaries, Landmarks, Streets, Base Maps…) A set of general requirements and technical rules apply to any submitted GIS data in order to match our needs in this field. 1- General Requirements: 1- All GIS data submitted should be in ESRI format (Geodatabase & Shape File) 2- GIS data should be referenced in the same Coordinate system that is used by MOICT which is the JTM. 3- The extent of submitted data should be covering the concerned area or the projected area. 4- The submitted data should be checked carefully and to be more close to our requirements before delivery. 5- It is preferred to receive a sample copy for checking (one copy in case if more than one copy should be submitted) of As built data until the final ok is given for submitting a final copy. 6- All GIS data that is not produced by contractors should be obtained legally (eg. BaseMaps, Streets…). 7- The digital copy of as built data should be delivered on a DVD. 8- The hard copy should be delivered 2- Technical Rules: PPaaggee 9977 ooff 114422 GIS layers contained from two components (Spatial and Attribute information), so when we use a GIS as a tool to reflect Broad Band network information, we need to apply a set of rules and standards to govern this process. Spatial Information: The spatial information is very important, in ArcGIS, so there are several rules and restrictions govern the behaviours and relationships between features in the same layer or features of different layers. The data should be topologically clean and free from topological errors (e.g., unsnapped dangling nodes, extra nodes, or unnecessary intersections). The main rules and restrictions that should be taken in consideration when we dealing with GIS broadband data are: 1- Connectivity: Lines in networks should be snapped to each other and no dangles should be appeared at connection points of lines. Also nodes (accessories or manhole) should be snapped to lines. 2- Behaviour of Features: Nodes split lines where it is located on and make it two different features. 3- Adjacency: Features mustn't overlap or having gaps (slivers) when we dealing with polygons layers. 4- Coincidence: Broadband lines should be appeared within streets boundaries and in the Wright side (right or left) of street with no crossing of parcels or plots. Attribute Information: Attribute information reflects the description of features (Duct lines, Arial lines, manholes and fittings), so it is very important to be filled correctly as follow: 1- All records of attribute table should be filled completely; any empty values will be meaningless. 2- Fields format should be the same as in GIS database structure of MOICT. 3- Base Map (Polygons) The attribute information should contain DLS Key ٍيخططبد االساض Organizational Maps المخططات التنظيمية 4- Landmarks layer should contain the following fields: (Landmark Type and Landmark Name (English and Arabic)). 5-Streets (Polygons). The attribute information of Streets layer should contain the following fields: (Street Name (English and Arabic)). PPaaggee 9988 ooff 114422 GIS layers used in NBN Program : All layers that will be taken from governmental institutions should be legal for example : DLS, street …. Layer Name Layer Type Layer Description Duct Route Line This layer contains all routes That under ground Arial Cable Line The cable which is over head on poles Duct cable Line The cable which is under ground Aggregate Point This layer represent the place where cables distribute from Aggregate Boundary polygon This layer represent the boundary of each aggregate Manhole Point Cables get through and using for Duct cables Hand Hole Point Cables get through and using for Duct cables Connection Point Point Poles Point School, government and Health entities Where over head cables connect to gather PPaaggee 9999 ooff 114422 Pull Box Points The end place of the cable when entering the connection point Splice Point Where two or more cables connect to gather Streets Polygons Base map DLS Area Parcels of the land (base map) Layer Name Field Type Duct Route Route id Number of duct Available duct Status Measured Length String Integer Integer Text Double Cable id Cable type Cable size Dedicated fiber Measured Length Cable id Cable type Cable size Dedicated fiber Measured length String Text Integer Integer Double String Text Integer Integer Double Aggregate Aggregate id Name (Arabic) ODF _Cable Coordinate String Text String Double Aggregate Boundary Aggregate number Integer Manhole MH id MH number Status String String Text Attribute Data Civil Arial Cable Fiber Duct Cable Fiber PPaaggee 110000 ooff 114422 Coordinate Double Hand Hole HH id HH number Status Coordinate String String Text Double Connection point Connection point id Arabic Name English name Coordinate Fiber-Allocation-Tx Fiber-Allocation-Rx Poles id Poles number Coordinate String Text Text Double String String String String Double Pull Box Coordinate Double Splice Splice id Splice number Splice size Splice type DLS key String String Integer Integer String Arabic Name English name The acquisition of the street Text Text Double Poles DLS Street An electronic copy in GIS (ESRI format) shall be provided. PPaaggee 110011 ooff 114422 As-Built Specifications for Fiber Installation (AutoCAD) “As-Built” is defined as the drawings and document showing the final configuration of optical fiber cables and accessories. 1. For each site (optical termination point) and route “As-Built” Drawing shall be supplied. 2. Two copies of AutoCAD As-Built drawings : - - (Civil work). Civil Work routes, including manholes ,Handholes , Pull Box, Entity location and poles with their numbers. Distance between the manholes and handholes . The distance between the routes and streets edge and the location of the route according to street edge (right or left). Number of ducts in each section. New Entities Locations with their names and numbers and ID. Aggregate points Locations with their numbers and ID ( Label) . Optical fiber distribution plan. Splice Boxes location. Indicate the cable type (Ring or Access) (ADSS or Duct). Cables number, size, and used strands from the main cable (all these data should be applied in each section between two splice boxes or between splice and the ODF. Ex: Between MH.16 & MH.17 Cable No : 5 Cable Size : 48 Used Fiber 28 (1-16),(19-22),(33-40) Cable length : 309 m. Splice No : Sp-08 OTDR or Power Meter test result for each new entity at 1310 and 1550. Cable length according to the OTDR reading in each section between two splice boxes and between the entities and aggregate points Strands spares locations with their numbers and there distance to AGG. Interior details for Manholes and Handholes, showing how each ducts are used and the direction of in and out cable. PPaaggee 110022 ooff 114422 Ex: The length of spare coil inside Manholes and Handholes. All new entities with their id and Name , and used strand for each. All Manholes , handholes ,splice and poles with their numbers and ID (label). Use a special symbol for aggregate point clarifying existing ODFs with their strands (The Aggregations cabinets Interior details) . 3. Detail of each Sides of Manhole or Hand hole specified the used sub duct 4. “As-Built” drawings and documents shall be provided in soft and hard copy on (A1) paper size. 5. Two hard copy should be delivered for each Civil and Fiber drawing . 6. The symbols used by the Contractor on As-Built drawings shall comply with the legend and symbols and layer mapping as shown in the specification provided or to be approved by the Engineer. 7. Samples of the As-Built drawings and documents are to be submitted to the Engineer for approval prior to production of the final As- Built. 8. Sufficient identification marks and information are to be used to facilitate and indicate the exact location of the manholes, joints and the cable routes. 9. Manholes, handholes, and pull boxes offset is to be clearly shown in the As-Built documents. PPaaggee 110033 ooff 114422 )Annex J: List of Entities and Aggregate sites Attached Annex K-1: Electrical Companies Requirements. IDCO’sSpecifications شركت تىزيع انكهرباء املساهمت انعامت إدارة انشؤون انفنيت قسم انسالمت انعامت التعميمات التنظيمية الخاصة بقواعد السالمة العامة والصحة المهنية لتشغيل وصيانة المعدات الكهربائية. املقـــذمت: إن أنظمة وتعلٌمات السالمة هذه ،أعدذ ت لؽذإط إ ذالر وإإكذا ااعذة العذاملٌن المعنٌٌن عً الكإاة من أجل سالمتهم أوالً وسالمة المع ات والمنكآت. PPaaggee 110044 ooff 114422 وحٌث أن أدمال كإاة توزٌع الاهإباء تتصذؾ بذالو وإو وصذعوبة العمذل عذال ب من اتواه ألصى االحتٌا ات عً جمٌع األولذات للولاٌذة والحذ مذن الحذوا ث التذً تإ ي إلى إصذابات العمذل والتذً تذإ ي لصذحة العامذل وهذً إأا مالذع الذهي ٌعتمذ دلٌع عً حٌاتع د ا التاالٌؾ الما ٌة التً ٌ عع لٌمتها ال من المصاب والكإاة. ومن واجب العاملٌن الجذ اط ذالر دلذى هذه ،التعلٌمذات واسذتٌعابها عذً أسذإر ولت ممان ومما ٌستحك الهاإ أننا ننظإ إلى هه ،التعلٌمات دلى أنها لٌست نهابٌذة وسذذذٌعمل دلذذذى تحذذذ ٌنها وسذذذتاون لٌذذذ المإاجعذذذة والتمحذذذٌ عذذذً ضذذذوء الوبذذذإات الماتسبة. تعهيمــاث عامت ومهمـــت ٌ -1موم بعملٌات الصٌانة والتكؽٌل أكوا سلٌمً الجسم والتفاٌإ ول ت إبوا دلى أنظمة السالمة من لبل أناا مإهلٌن ولهم إاٌة ااعٌة بعملٌات اطسعاؾ األولً من حٌذث إنمذاه المصذاب مذن الصذ مة الاهإبابٌة و إق إجإاء التنفا الصنادً واطسعاعات األولٌة . -2التمٌ بلباا السالمة العامة وهو: أ -أعإهول واسع وعضفاط نسبٌا ً وٌاون لع جٌوب تساد ،دلى العمل وال تعٌك حإاة الفنً. ب -اإت اء ووه ،والٌة من الص مات للولاٌة من سمو األكٌاء دلى الإأا. ج -اإت اء حهاء سالمة مجهز بإأا ح ٌ ي بالمم مة ٌمً أ ذإاؾ األصذابع مذن سذمو أي نمذل باطضاعة إلى دزل م ا ً أو بالستٌاً. اإت اء افوؾ دمل اتان أنناء العمل. -،دلى إبذٌا الوإكذة الموذول أن ٌاذون بحوزتذع افذوؾ م ا ٌذة دازلذع صذالحة لالسذتعمال ووالٌة من النموب وٌموم بفحصها باستمإاإ . و -استو ام حزام األمان وٌاون سلٌما ً ومفحوصا ً ووالً من التآال والعم وٌتناسذب مذع حجذم الكو العامل. PPaaggee 110055 ooff 114422 -3 -4 -5 -6 د م االنفإا ٌة عً العمل. التمٌ التام بالصالحٌات الممنوحة للعاملٌن ود م تجاوزها حسب كها ات التووٌل الممنوحذة لذع مذن لبل الكإاة. إن الجهل بالتعلٌمات الصا إو أو تجاوز الصالحٌات عً مماإسة العمل ال ٌعفً صاحب العاللة من المسإولٌة. عً حال ح وث حالة تاهإب ألح العاملٌن ٌحك للجمٌع التصإؾ بفصذل التٌذاإ الاهإبذابً مباكذإو وإبالغ المسإول دن العمل عوإاً. ودن العمل دلى مع ات الفول ٌة المتوس ة (6.6/11/33ن.ؾ) الب من معإعة ما ٌلً: أ -إن الكو مسإول وموذول للمٌذام بالعمذل ودلذى معإعذة و إاٌذة تامذة ب بٌعذة العمذل التذً سٌموم بع وأن ال ٌموم بالعمل إها اان ؼٌإ وانك من مم إتع دلى مواجهتع حتذى لذو اانذت كها و التووٌل الممنوحة لع تإهلع نظإٌا ً ولانونٌا ً بهلن. ب -إن المع ات (الكباات المح ات .....إلخ) مٌتة. ج -إن هه ،المع ات مستعزلة تماما ً ومفصولة الٌا ً اهإبابٌذا ً ومٌاانٌاٌذا ً دذن أٌذة معذ ات حٌذع أو معإضة لإلحٌاء ب ون دلم المابم بالعمل. أنع ل تم اتوذاه جمٌذع اطجذإاءات الممانذة لمنذع إماانٌذة الوصذول إلذى األجذزاء الحٌذة أننذاءالعمل سوا ًء من لبل األكوا أو األ وات و الموا المستعملة عً العمل . -،إن المع ات مإإضة تماما ً وبافاءو اهإبابٌة ومٌاانٌاٌة دالٌة وأن التؤإٌط ل تم عً النما التً تتصل دا و ً مع المع ات الحٌة والتً ٌوكى أن تاون معإضة لذهلن وعذً الكذباات ٌذتم التؤإٌط من جهتً العمل. و -إن دالمات التحهٌإ والو إ ل تم تنبٌتها عً األماان المناسبة. ز -إن الحواجز ووسابل الحجب والتنبٌع واصة عً أدمذال الاذابالت األإضذٌة لذ وضذعت عذً الموالع الصحٌحة. ح -أنع تم الحصول حسب األصول دلى إهن دمل. تعهيمــاث إصذار وقبىل وإنغاء وإبراء إرن انعمم إذن العمــل: وذإ هو كها و وتمإٌإ ماتوب ٌص إ من لبل كو مسإول ٌحمل كها و التووٌل الممنوحذة إلذى كذو مسإول وموول وحسب إجة التووٌل الممنوحة لع ٌبٌن عٌها األول للنانً مجال العمل المإا تنفٌذه ،وهلذن بع عصل التٌاإ الاهإبابً ودزلع وتؤإٌضع حسب األصذول وتاذون عتذإو أمذإ العمذل ناعذهو المفعذول حتذى انتهاء تنفٌه العمل وحسب اطجإاءات. شهادة اإلبراء: هً كها و أو تمإٌإ ٌص إها كو مسإول وموول اان ل لام بعمل معٌن بموجب إهن العمذل ٌبذٌن عٌهذذا إامذذال العمذذل أو تؤجٌذذل العمذذل وأن جمٌذذع المعنٌذذٌن بإعمتذذع عذذً من مذذة منذذة وبعٌذ و دذذن المعذ ات الاهإبابٌة وبإماانع إدا و الوضع إلى ما اان دلٌع لبل إص اإ إهن العمل. شهادة اإللغاء PPaaggee 110066 ooff 114422 وذإ مسذإول كها و أو تمإٌإ ٌص إها كو موول ومسإول اان ل لام بإصذ اإ إهن العمذل لكذو وموول للمٌام بعمل معٌن وبع إ الدع دلى مولع العمل وأن المع ات والكباة وموضور العمل صالحع ألن تعو إلى وضعها ال بٌعً لبل ص وإ إهن العمذل أو إلذى وضذع ج ٌذ ٌواعذك دلٌذع جمٌذع األ ذإاؾ المعنٌة وال ٌمان إجإاء أي أدمال أوإى إالّ بموجب إهن دمل ج ٌ . بدء العمل لبل ب ء ومباكإو العمل ٌجب العلم بما ٌلً: -1دلى المسإول تفم أدضاء الفإلة وم ابمة األدضاء مع الاكوعات الصا إو بؤسماء أدضذاء الفإلذة الفنٌة وأن الع ااعً للمٌام بالمهمة المواولة لها. -2تعإٌؾ أدضاء الفإلة ب بٌعذة العمذل والتؤاذ مذن أن التٌذاإ الاهإبذابً مفصذول وأن الوذ معذزول ومإإط وٌاون التؤا من التٌذاإ مفصذول بواسذ ة أجهذزو الفحذ ولذٌا المإكذإات الموجذو و دلى اللوحات أو دن المكتإاٌن المجاوإٌن. -3أن ٌموم مسإول العمل بإدالم ااعة أدضاء الفإلة بالمنا ك الماهإبة لع م تجاوزها وأن ٌتم دمل الحواجز الالزمة. مراقبة سير العمل -1 -2 -3 -4 -5 -6 -7 -8 عً حذال البذ ء بالعمذل ٌاذون المإالذب أو إبذٌا الفإلذة أو الفنذً الموذول مسذإوالً دذن تنفٌذه العمذل وسالمة العاملٌن معع ود م اطوالل بالتعلٌمات الصا إو وٌمنع منعا ً باتا ً أن ٌاذون أي دضذو مذن أدضذذاء الفإلذذة ومذذن ضذذمنهم المإالذذب أو الفنذذً الموذذول مذذن البمذذاء بمفذذإ ،عذذً ؼإعذذة األجهذذزو أو لوحات التوزٌع والتً تاون ماهإبة. إها اض إ مسإول العمل أن ٌؽا إ مولع العمل وال ٌوج أح مذن أدضذاء الفإلذة موذول ومصذإح لع بالعمل ولا إ دلى اطكإاؾ دلى إتمام العمل عٌجب تؤجٌل العمل إلى الٌوم التالً. ال ٌجوز لمسإول العمل أن ٌموم بؤدمال أوإى جانبٌة ال تمانع من اطكإاؾ دلى العمل. دلى المسإول أو المهن ا المعنً أن ٌتحمك من إتبار أدضاء الفإلة ألنظمة السذالمة وإها وجذ أن أدضاء الفإلة ؼٌإ متمٌ ٌن بتعلٌمات السالمة وأن هنان و إ ٌه سالمة العمال دن هلذن ٌجذب ولذذؾ العمذذل لحذذٌن االلتذذزام بمواد ذ السذذالمة أو إزالذذة العذذاإط المح ذ لسذذالمة العمذذال وال ٌماذذن الإجور إلى العمل إالّ بع مواعمة المسإول الهي منعهم من إتمامع. ال ٌجذذوز لمسذذإول الفإل ذة أن ٌمذذوم مذذن تلمذذاء نفسذذع بتؽٌٌذذإ بٌعذذة العمذذل المواذذل لذذع إالّ بمواعمذذة المسإول األدلى بحٌث ال ٌتعاإط مع لواد وأنظمة السالمة. دن ا لتولؾ دن العمل ٌجب إبعا جمٌع أدضذاء الفإلذة والعمذال مذن مولذع العمذل الو ذإ (لوحذات التوزٌع مح ات التحوٌل الموا ع ...إلخ). ٌمنع منعا ً باتا ً لٌام مهن ا المإالبة أو مهن ا مح ات التحوٌل من إدا و الوذ مذا لذم ٌذتم إبذإاء أو إلؽاء إهن العمل. ٌجب تنظٌؾ المولذع وإوذالء الممذإات بعذ انتهذاء سذادات العمذل واذهلن تسذلٌم كذها و اطبذإاء إلذى المسإول دن االنتهاء من العمل. PPaaggee 110077 ooff 114422 -9 -11 -11 -12 ٌمان استبناؾ العمل عً الٌوم التالً بع اوه إهن دمل ج ٌ و وٌتم تفتٌش المولع والتؤا من ت بٌذك أنظمة السالمة العامة من ج ٌ . بعذ االنتهذاء مذذن العمذل ٌجذب دلذذى الفإلذة إدذا و تنظٌذذؾ المولذع ودلذى الكذذو المسذإول تفتذذٌش المولع بع مؽا إو الفإلة والتؤا من دذ م وجذو أجسذام ؼإٌبذة اذؤ وات الصذٌانة التذً لذ تإاذت سهوا ً عً مولع العمل وتكال و وإو بع إدا و التٌاإ. ٌمان أن ٌتم إإجار التٌاإ الاهإبابً من لبل مهن ا المإالبة والتحام أو مهن ا مح ذات التحوٌذل أو المهن ا المعنً (دلى مع ات الضؽ المتوس ) بع عصل مفاتٌح التذؤإٌط عذً المح ذة وإزالذة التؤإٌط اطضاعً دلى الكباة وإزالة السٌاج المإلت ودالمات التحهٌإ. تحفظ أهونات العمل عً ملؾ وا بالصٌانة. التأريض هو دباإو دن توصٌل المعذ ات بواسذ ة موصذل نحاسذً مذإن ومعذزول دذزالً مناسذبا ً للعمذل موصذوالً مباكإو باألإط ب ون وجو مصهإات أو مفتاح أو لوا ع عً هها االتصذال األإضذً والؽذإط منذع حماٌة األعإا من الص مة الاهإبابٌة وحماٌة المع ات من التلؾ وٌمسم إلى نودان-: األرضي الرييسي :وهذو األإضذً المإاذب دلذى المعذ ات (المح ذات الموا ذع) وٌذتم توصذٌلع بواسذ ة لوا ع أو ساااٌن وب ونع ال ٌمان إص اإ إهن دمل. األرض اإلضاف :وهو اإضً من نور معتم ٌوضع عً األماان المح و للعمل لبل وبع من مة العمل وال ٌمل مساحة مم عذع دذن (25ملذم )2نحذاا ومذزو بوسذابل إبذ ولام ذات تضذمن سالمة التوصٌل اهإبابٌا ً ومٌاانٌاٌاً. دفتر السجل هو عتإ أ وأوإاق موجو و اول مح ات التحوٌذل الإبٌسذٌة أو الفإدٌذة أو المعذ ات الاهإبابٌذة وٌمذوم المسإول الموول بتسجٌل ااعة دملٌات التكؽٌل وتفاصٌل وحٌنٌات العمل التً تمت دلى هه ،المع ات مع هاإ األولات والتواإٌخ لٌاون ونٌمة إسمٌة ال ٌجوز العبث بها. انعمم عهى معذاث انفىنطيت املنخفضت مالحظــات عامة: لبل مباكإو العمل ٌجب مإاداو ما ٌلً: -1أنع كو موول وٌحمل إجة تووٌل ال تمل دن النالنة عً دملٌات التكؽٌل. ً -2أنع دلى إ الر تام ب بٌعة العمل ومعإعذة ونٌمذة بمصذ إ تؽهٌذة هذها المولذع وم لذع تمامذا دلذى العمذل المإا تنفٌه.، -3أن ٌاون بحوزتع ااعة التجهٌزات الالزمة من د ومع ات السالمة. PPaaggee 110088 ooff 114422 -4دذ م مماإسذة العمذل إها لذذم ٌاذن وانمذا ً مذذن مم إتذع دلذى مواجهتذذع حتذى لذو اذذان ٌحمذل كذها و التووٌذذل المسموح بها. -5د م االنفإا ٌة بالعمل بحٌث ال تمل دن كوصٌن بع أوه المواعمات دلى هلن. الشبكات الهوايية المعراة: بع -1 -2 -3 -4 -5 -6 -7 -8 أوه التالٌؾ الالزم من المسإول األدلى بالعمل ومعإعة بٌعة العمل ال ب من مإاداو ما ٌلً: التؤا من أن الكباة المإا العمل دلٌها ومعإعة إٌمة تؽهٌتها. ال وول إلى لوحة التوزٌع أو مولع مص إ التؽهٌة وعصل المؽهي المإا العمل دلٌع. تعلٌك دالمة تحهٌإ (ال تت ول) عً ماذان واضذح سذهل الإإٌذة وتعنذً بذ دوو جمٌذع العذاملٌن باسذتنناء الكو الموول الهي لام بوضع العالمة إلى د م الت ول عً المع ات أو تؽٌٌإ الوضع المابم أو إإجار التٌاإ الاهإبابً. تمفٌل اللوحة الإبٌسٌة أو السٌاج أو ماان الفصل نفسع. الههاب إلى مولع العمل المإا إنجاز ،وتإتٌب التجهٌزات الالزمة. بواس ة جهاز عح الفول ٌة ٌتم التؤاذ مذن صذالحٌتها أوالً وبعذ ها عحذ الكذباة والتؤاذ أن الوذ مفصول وٌولو من التٌاإ الاهإبابً وٌتم الفح دلى جمٌع األ واإ وو ذو اطنذاإو واذهلن ٌجذب أن تجإي دملٌة الفح من عنٌذٌن موذولٌن ومذزو ٌن بافذوؾ م ا ٌذة ٌمنذع اسذتو ام جهذاز عحذ الفول ٌة إها لم ٌتم التؤا من سالمتع واهلن ٌمنع منعا ً باتا ً االدتما أو االدتما بانع ام التٌاإ الاهإبابً. وضع السلم ب إٌمة سلٌمة بحٌث ٌتم إب ع من األدلى ودلذى أن تتذوعإ عذً السذلم كذإو السذالمة مذن حٌث د م وجو كموق أو نتوءات وان باق عإ تً السلم ب إٌمة سلٌمة تتناسب مع ول األدم و. بع التؤا من أن التٌاإ الاهإبابً مفصول دن الكباة ولؽاٌات ادتباإ الكباة مإهلة للعمل دلٌها ٌجب إتبار ما ٌلً: تفإٌػ ال اإو من الكحنة الاهإبابٌذة التذً لذ تاذون متإاامذة دلٌهذا بواسذ ة دصذا التذؤإٌط أوالتفإٌػ . توصٌل لام ات التؤإٌط أوالً بماهإ التؤإٌط وبع هلن توصل إلذى الكذباة المذإا تؤإٌضذهاابت اءا ً من و األإط المحاٌ وو اطناإو ومن نم بالً األ واإ (النالث النذانً األول) وٌتم التؤإٌط من جهتً ماان العمل. -9لؽاٌات تملٌل االنم ادذات دذن المكذتإاٌن وعذً حذاالت واصذة عإنذع ال بذ مذن تجزبتذع المؽذهي وإدذا و التٌاإ ألابإ د من المكتإاٌن وٌجب اتواه اطجإاءات التالٌة: اتواه جمٌع اطجإاءات المهاوإو أدال ،دن دملٌة الفصل. عتح الجنابإ عتحا ً ونٌما ً من جمٌع نما التؽهٌة. تؤإٌط الكباة المٌتة وإدا و التٌاإ لب اٌة الو . -11بع االنتهاء من العمل ٌموم الكو الموول بإتبار الو وات التالٌة عً إدا و التكؽٌل: التؤا من د م وجو أي من األكوا عً من مة العمل. إزالة التؤإٌط وٌاون داا ما تم تإاٌبع. إبعا أٌة مع ات أو دوابك لإٌبة من الو . إؼالق ال ابإو.PPaaggee 110099 ooff 114422 الشبكات الهوايية المجدولة: -1 -2 -3 -4 -5 -6 -7 التؤا من أن المؽهي المإا العمل دلٌع ومعإعة مص إ التؽهٌة . ال وول إلى مص إ التؽهٌة وعصل المؽهي المعنً. تعلٌك العتة تحهٌإ "ال ت ت ول" عً ماذان واضذح وسذهل الإإٌذة وتعنذً بذ دوو جمٌذع العذاملٌن باسذتنناء الكو الموول الهي لام بوضع العالمة إلى د م التذ ول أو تؽٌذإ الوضذع المذابم أو إإجذار الوذ إالّ عً الحاالت االستننابٌة والتً ٌستحٌل إدا و الوضع إلى ما اان دلٌع من لبل الكو المعنذً ألسذباب وإ موول ومسإول وهو معإعة عً العمل المنجز . واصة ودلٌع ٌجب أن ٌموم بالعلمٌة كو تمفٌل اللوحة الإبٌسٌة أو السٌاج أو ماان الفصل. الههاب إلى مولع العمل المإا إنجاز.، إوتٌاإ ألإب مولع جنبذإ للتؤاذ مذن أن الوذ مفصذول بواسذ ة جهذاز عحذ الفول ٌذة بعذ التؤاذ مذن صالحٌتها. بعذ التؤاذ مذذن أن الاٌبذذل مفصذذول وبواسذ ة مذذم التذذؤإٌط الوذذا بالاوابذذل المج ولذذة ٌذذتم التذذؤإٌط حسب األصول. العمل على الكيبالت والموصالت األرضية: بع التمٌ بجمٌع التعلٌمات العامة والواصة الصا إو بوصذو التعامذل مذع المعذ ات الاهإبابٌذة مذن حٌذث إص اإ أهونات العمل ودملٌات الفصل والفح والتفإٌػ والتذؤإٌط ٌمذوم بالعملٌذة كذو موذول وافذإ ومسإول من ال إجة المناسبة للعمل ودلٌع أن ٌتمٌ باألموإ التالٌة: -1ال ٌجوز العمل دلى الاوابل األإضٌة أو الوصالت سذواء اانذت م عونذة تحذت األإط أو عذً مجذاإي لنوات أو لنوات ب ون تواج مو ح ٌث ومعتم ٌبٌن مساإات الاوابل وموالع الوصذالت وأدمالهذا بؤلصى إجات ال لة. -2ال ٌجذذوز الاكذذؾ دلذذى الاوابذذل الم عونذذة تحذذت األإط باسذذتعمال ا ت حفذذإ مٌاانٌاٌذذة بذذل ٌجذذب أن ٌاون هلن ٌ وٌاً. -3دلى الكو الموول المسإول أن ٌح مولع العمل ب لذة متناهٌذة لبذل السذماح لفإٌذك العمذل بمباكذإو دملهم وصوصذا ً دنذ ما ٌاذون اوذل الحفإٌذة أانذإ مذن اٌبذل وعذً هذه ،الحالذة ٌجذب اسذتو ام جمٌذع الوسابل المتاحة من سٌاإو عح الاوابذل أو أجهذزو تح ٌذ أمذاان األد ذال أو أجهذزو تح ٌذ مسذاإات الاوابل ودن تح ٌ الاٌبل المإا العمل دلٌع ٌتم استو ام جهاز الضإب دن بع (.)GUN -4دنذ تح ٌ ذ الاٌبذذل المذذإا العمذذل دلٌذذع (أو ماذذان الع ذذل) البذ مذذن التمٌذ بمذذا ٌلذذً (عذذً حذذال الاوابذذل الماهإبة أصالً): أٌ -تم دمل تذؤإٌط إبٌسذً عذً المح ذة دلذى الاٌبذل المعنذً وعذً ألذإب مولذع للعمذل (مح ذات مجمعة (.)RMU ب -بعذذ التؤاذذ مذذن أن الاٌبذذل مٌذذت بااعذذة الوسذذابل المتاحذذة ٌتمذذ م الكذذو الموذذول المسذذإول وبواس ة مسذ ا الضذإب إلذى الاٌبذل المعنذً وٌذؤإط جهذاز الضذإب ( )Gunومذن نذم ٌمذوم بضإب الاٌبل عً المولع المناسب وعً حاالت الوصالت ٌتم الضإب لبل الوصلة مباكإو. PPaaggee 111100 ooff 114422 جٌ -موم الكو المسإول بإدالم جمٌع أدضاء الفإٌك العامل ب بٌعة العمل والحهإ دن المباكإو عً ل ع الاٌبل. عذذً حذذال اوابذذل الضذذؽ المتوسذ عذذإن الكذذو الموذذول المسذذإول وبموجذذب إهن دمذذل ععلذذًمص إ إهن العمل أن ٌموم باطجإاءات السابمة من تح ٌ الاٌبل ضإب الاٌبل. -،بع ل ع الاٌبل ٌتم تعلٌم األ واإ وصوصا ً عً حاالت الوصالت والتؤاٌذ دلذى إدذا و الوضذع إلى ما اان دلٌع لبل العمل. العمل على الشبكات الهوايية المعراة (6.6،11،33ك.ف): أ -فحص وتفقد الخطوط: ٌ -1تم تفم الو و من لبل كو لع معإعة بالو و و ب ون إص اإ أهونات دمل. -2دن تفم الو و ٌجب أن تعتبإ ابما ً أن هه ،الو و ماهإبة حتى ولو أن الكذو ٌعلذم بؤنها ؼٌإ ماهإبة حٌث ٌمان اهإبتها بؤٌة لحظذة إمذا ألؼذإاط الفحذ أو التكذؽٌل الذ ابم واهلن ٌجب تفم الو من األإط وب ون التسلك دلى األدم و واألبإاج. -3دن مالحظة الكو المتفم لهه ،الو و أي ل ع أو اسذإ أو وذ ش ٌجذب دلٌذع إبذالغ المسإولٌن بهلن واهلن اتواه اطجإاءات الالزمة لتالعً الو إ دلى الساان وٌتم االستعانة بذذالموا نٌن لوضذذع الحإاسذذة الالزمذذة دلذذى هذذه ،الو ذذو المم ودذذة والتذذً تكذذال و ذذإا ً حٌث ٌجب د م لمسها واالبتعا دنها مساعة منة وعً حال وجو الو ذإ عذً من مذة ؼٌذإ سذانٌة ٌجذذب وضذذع إكذذاإات تحهٌإٌذذة بذذالو إ وتإوذذه هذذه ،اطكذذاإات مذذن ألذذإب أدمذ و أو مح ات تحوٌل عإدٌة وتوضع دلٌها . -4عً حالة ولور حا ث لكو ما ٌسمح بفصل التٌاإ مباكإو ون الحصول دلى المواعمذات الالزمة وبع دملٌة الفصل ٌتم إدالم الكو المسإول بهلن. ب -إجراءات العمل وعمليات التشغيل على الشبكات: -1الحصول دلى إهن دمل من المهن ا المعنً وأن ٌاون الكو الذهي سذوؾ ٌمذوم بالعمذل ٌحمل تووٌل ال ٌمل دن ال إجذة الإابعذة ومسذإول دذن العمذل وٌعذإؾ بٌعتذع بكذال جٌذ وب ون مالبسات وال ٌجوز العمل نهابٌا ً أنناء العواصؾ الإد ٌة. -2عً حاالت واصة ٌمان الحصول دلى إهن العمل دن إٌك الهاتؾ ولان بع إدا و لإاءو إهن العمل من لبل منفه العمل. ٌ -3تم ال لب من مإاز المإالبة أو مهن ا مح ات التحوٌل إ فاء الو ودزلع وتؤإٌضع عً المح ة الإبٌسٌة. -4تنبٌت إكاإات تحهٌإٌة عً جمٌع النما التً ٌمان أن ٌعا إحٌاء الو منها وتمفٌذل لوا ذع ال ابإو وتحفظ المفاتٌح مع الكو المسإول دن إص اإإهن العمل. -5الههاب إلى مولع العمل والتؤا من أن الو مفصول بواس ة دصى عح عول ٌة مالبمة لفول ٌة الو ومفحوصة مسبما ً . -6عتح الساااٌن الهوابٌة الموجو و دلى الو . -7السماح للفإٌك بإجإاء دملٌات التفإٌػ والتؤإٌط اطضاعً مباكإو لبل وبع مولع العمل وٌمنع تح ٌ ولتا ً مسبما ً وتح ٌ سادات معٌنة لعزل الو . -8السماح للعاملٌن بمباكإو العمل وتحت إكإاؾ من كو إبٌسً واح . PPaaggee 111111 ooff 114422 -9دن التولؾ دن العمل لسبب أو وذإ أننذاء سذادات الذ وام ٌجذب دذ م إعذع التذؤإٌط وإها تإن بعط العمال لفتإو معٌنة عً المولع مع وجو حفإٌات أو أدمذ و أو معذ ات اهإبابٌذة ته بو إ السذالمة دلذى األعذإا عإنذع ٌجذب تعٌذٌن حذإاا للمولذع ودلذى الحذإاا مإالبذة مولع العمذل ومنذع األكذوا والحٌوانذات مذن الذ وول إلذى المولذع ومنذع والعبذث بمعذ ات التؤإٌط ودن استبناؾ العمل دلى المسإول دن الفإٌك تفم سالمة توصذٌالت األإضذً الهي تم تإاٌبع لبل مباكإو العمل. -11بع االنتهاء من العمل ٌموم الكو الموول المسإول بإتبار الو وات التالٌة: التؤا من د م وجو أي من األكوا عً من مة العمل.ً إزالة التؤإٌط اطضاعً لبل وبع مولع العمل حٌث تتم اطزالة دن الكباة أوال ومذن نذممن األإضً. إبعا المع ات والكوابب دن الكباة وإزالة الساللم دن األدم و. إإجار الساااٌن الهوابٌة التً تم عتحها. إبإاء إهن العمل وال لب من مإاذز المإالبذة أو مهنذ ا مح ذات التحوٌذل إإجذار الوذبع إزالة التؤإٌط الإبٌسً حسب إهن العمل الصا إ بهها الوصو . ج -أعمال الصيانة على الخطوط المكهربة: جمٌع األدمال التً ال تت لب التسلك دلى األدم و وتكمل ضب صوامٌل وبإاؼً المك اتلٌاا مماومة أإضً األدم و تعزٌز أإضً األدم و تعلٌك العتات تحذهٌإ وتذإلٌم األدمذ و واألبإاج واستب ال ل ع األإلام تنظٌؾ األإط تحت األدم و وجمٌع هه ،األدمال ٌجب أن ٌموم بها كوصان وب ون إهن دمل. األدمال التً تت لب التسلك دلى األدم و ودلى مساعة ال تمل دن متإٌن دن الوذ الماهذإبٌجب إص اإ بها إهن دمل. األدمذذال التذذً تت لذذب مذ وك ذ الو ذذو تحذذت أو عذذوق الو ذذو الماهإبذذة والتذذً ال ٌماذذن أنتتحمل لم ا أو االلتإاب من الو و الماهإبة المجاوإو واتواه اطجذإاءات الااعٌذة لمنذع منذل هها االحتمال وإها التضت الضإوإو سالمة العاملٌن عإنع ٌجب عصل الو بكال اإئ . تؤإٌط المع ات التً تعمل تحت الو وٌحتمل لما أو االلتذإاب مذن الوذ منذل (الإاععذاتا لٌات الونكات). السماحات المسموح بها مساعة السماح الاهإبابً بالنسبة لو و التوزٌع الاهإبابٌة الؽٌإ معزولة دن ألصى انحناء لها: الــوصــف 33.11.6.6ك.ف السماحات األفقية: السماحات األعمٌة دن المنكآت -السماحات األعمٌة لألإاضً واإج التنظٌم 3متإ 2متإ السماحات العامودية: االإتفار دن مستوى أإط الفضاءPPaaggee 111122 ooff 114422 6أمتاإ اإتفار التما عات دن مستوى ال إق االإتفار دن و و أوإى دن التما ع االإتفار دن لمم األكجاإ -االإتفار دن سمؾ المنكآت المابمة 7أمتاإ 2متإ 2متإ 3أمتاإ مسافة السماح الكهرباي :ألل مساعة ٌسمح بها بٌن الموصالت الاهإبابٌة الحاملة للتٌاإ الاهإبابً وأي منكؤ ،لإٌب منها بحٌث ال ٌإنإ التٌاإ الاهإبابً بكال ضاإ دلذى هه ،المنكؤو. العمل على محطات التحويل: محطات التحويل الرييسية 6.6/11 ،11/33ك.ف -1دلى الكو المسإول والموول من ال إجة الإابعة دلى األلذل أن ٌاذون حاصذالً دلذى إهن دمذل من المسإول األدلى موضحا ً عٌع العمل الم لوب ودملٌات العزل والتؤإٌط. -2دلى الكو المسإول إماتة جمٌع األجزاء المذإا العمذل دلٌهذا الٌذا ً وإن لذم ٌاذن هنذان إماانٌذة لهلن عإنع ال ب من تح ٌ المسذاحة التذً سذٌتم العمذل دلٌهذا بواسذ ة أحبذال أو كذإاب أو أدذالم أو حواجز واهلن ٌجب تح ٌ الولو األ نى الالزم توعإها بٌن الجسم الحً و ماان العمل. -3عذذً حذذال اسذذتو ام الإاععذذات أو الونكذذات أو أٌذذة لذذة مٌاانٌاٌذذة عإنذذع ٌت لذذب الحذذهإ الزابذ دنذذع عذذً الحاالت العا ٌذة وصوصذا ً مذن ناحٌذة الولذو الاهإبذابً وإن الجذ ول المعذ للولذو ٌاذون عذً حاالت العمل العا ٌة. -4تؤمٌن مستوى إناإو جٌ للعمل اول المح ة من حٌث إصذالح اطنذاإو االحتٌا ٌذة (المكذحونة) أو إحضاإ مصابٌح إناإو إضاعٌة وتاون هه ،اطناإو ؼٌإ مزدجذة وأن تبمذى وسذابل اطضذاءو جذاهزو لالستعمال عً جمٌع األولات. -5إزالة العوابك من اول ممإات المح ة وإبماء مواإج المبنذى مفتوحذة أننذاء العمذل ودمذل التهوٌذة الالزمة دن وولها. -6تفم جاهزٌة مع ات اط فاء بصوإو مستمإو. -7توعٌإ مع ات السذالمة المناسذبة منذل :لفذازات الم ذا العذ الٌ وٌذة المعزولذة حصذٌإو الم ذا المتنملذذة العصذذا العازلذذة لابضذذات المصذذهإات المعزولذذة دصذذا عح ذ عول ٌذذة دصذذا عح ذ األ واإ مع ضإوإو عحصها واوتباإهذا بصذفة وإٌذة امذا ٌجذب إبمابهذا بحالذة سذلٌمة وأن تاذون مناسبة للجه المستو م. -8توعٌإ مو تكؽٌلً مح ث عً المح ذة ٌبذٌن عٌذع الوضذع التكذؽٌلً المذابم وموالذع عذتح المؽذهٌات وإجإاءات التصإؾ دن ح وث أد ال واهلن وضع لوابم بؤسماء المكتإاٌن الإبٌسٌٌن دلى ال مؽهي. -9د م تعإط جسم اطنسان إلى لما زٌوت المحوالت ل إ اطماان. -11السٌإ عً إجإاءات عصل المؽهٌات: ً إها اانت المح ة مإبو ة مع مإاز المإالبة عإنع ال ب من ال لب منهم عتح الو أتوماتٌاٌا أوٌموم مهن ا المح ات بتحوٌل المح ة إلى وضع Attendedودلٌع ٌفتح الو حسب المود الممإإ لهلن. PPaaggee 111133 ooff 114422 - إزالة دإبة الما ع من مولعها إلى الواإج. تاإٌط المؽهي إما بعإبة تؤإٌط أو بساٌن التؤإٌط الموجو و اول حجإو الما ع. اطٌعاز للكو الموول بمباكإو العمل باستامال إجإاءات السالمة دلى المؽهي. وضع إكاإات التحهٌإ الالزمة وتمفٌل الموا ع بمفاتٌح تبمى مع الكو الموول المسإول. البطاريات: -1دن تعببة الب اإٌات باألحماط ٌجب اإتذ اء لفذازات م ا ٌذة واصذة ضذ األحمذاط ونظذاإات والٌة ومإٌول م ا ً وٌل وتجنب لما المحلول ود م الماوث وٌالً عً الؽإعة. -2دن مزج المحلول ٌجب د م إضاعة الماء المم إ للمحلول ووعذا ً مذن تولذ اطنفجذاإات بذل ٌجذب ابما ً إضاعة المحلول للماء. -3د م وضع أٌة ل ع مع نٌة دلى أ إاؾ الب اإٌات لتجنب لصإ ال ابإو. ٌ -4جب وضع الب اإٌات بحٌث تاون عً متناول األكوا المإهلٌن تؤهٌالً ااعٌذا ً وتاذون عذً ؼإعذة منفصلة. ٌ -5جب عتح الكبابٌن وتكؽٌل جهاز علتإ الهواء إن وج دن وول الؽإعة لضمان تهوٌة جٌ و لها. -6تفم الب اإٌة باستمإاإ وٌجب إضاعة الماء المم إ عم عً حالة نم المحلول. -7إزالة العوابك من الممإات وتنظٌؾ الؽإعة ووضذع الب اإٌذات دلذى إعذوؾ جٌذ و مماومذة للتؤاسذ بسبب محلولها. -8دن تعببة الب اإٌة ٌجب أوالً مسح الؽباإ واألوساخ المتواج و حول الفتحات وبع ها ملا ال ولٌة للمنسوب الم لوب بالماء المم إ عم ومن نم تؽلك الفتحات. -9التؤا من سالمة وجاهزٌة فاٌة الحإٌك. محطات التحويل الفرعية ( 0.4/6.6 ، 0.4/11 ، 0.4/33ك.ف): -1د م ال وول إلى سٌاج المح ة ب ون كها و تووٌل ال تمل دن ال إجة النالنة. -2اطلتزام بمالبا السالمة العامة. -3أوه الحٌ ة والحهإ وتجنب االإتجالٌة عً التعامل مع المح ة. -4النظإ وتفم جمٌع أجزاء المح ة بسإدة للاكؾ دن أي مالحظات من ل ع توصذٌالت أو وصذالت أإضٌة أو وجو موالع و إو. -5د م لما اللوحة بالٌ العاإٌة مباكإو. -6الحهإ ال ابم وتجنب المزاح والاالم الهي ل ٌإ ي إلى الؽفلة. -7تجنب عتح ساااٌن الضؽ المتوس إالّ بوجو حصٌإو تؤإٌط واإت اء افوؾ دازلة. -8عً حالة إجإاءات الفصل ٌتم توفٌؾ األحمال دلى الضؽ المنوفط ومن نم عصل الضؽ المتوس والعاا صحٌح عً حالة إإجار التؽهٌة ٌتم إإجار الضؽ المتوس وبع ها المنوفط. -9التؤا من سالمة ونظاعة دصذا نذزر المصذهإات وولوهذا مذن التلذوث والكذموق واألتإبذة مذع تنبٌتهذا ب إٌمة جٌ و. -11وضع اطكاإات التحهٌإٌة الالزمة دن العمل ولفل المح ة بحٌذث ٌمنذع دملٌذة عذتح المح ذة وإدذا و التكؽٌل. -11التؤا من تعلٌم المؽهٌات واتجا ،ال مؽهي إلى من مة معٌنة. -12استعمال جمٌع األ وات الواصذة مذن مفذاتٌح وأٌذ ي نذزر المصذهإات وتجنذب اسذتعمال أي أ او ؼٌذإ مالبمة. -13د م تعإٌط جسم اطنسان إلى لما زٌوت المحوالت ل إ اطماان. PPaaggee 111144 ooff 114422 خدمات المشتركين والعدادات: توصيالت خدمات المشتركين من الشبكات الهوايية (طور واحد ،ثالثة أطوار) -1التمٌ عً التعلٌمات الصا إو عً موالذع أوذإى الواصذة بكذباات الضذؽ المذنوفط والتمٌذ بلبذاا السالمة العامة. -2التؤا من أن التم ٌ ات ال اولٌة مفحوصة وصالحة حسب المواصفات لبل ب ء التإاٌب والتؤا من وجو لضٌب تؤإٌط ولا ع تسإب ا لً. -3التؤا من ماان تإاٌب الع ا بكال سلٌم عً األماان ك ٌ و الؽباإ أو الإ وبة أو األبوإو وما إلذى هلذذن وتإاٌذذب الع ذ ا ات الماكذذوعة باإتفذذار ال ٌمذذل دذذن (1.81-1.6م) دذذن س ذ ح األإط وٌاذذون ماان الع ا سهل الوصول إلٌع وٌتم تجمٌع الع ا وٌنبت دلى الحاب بواس ة بإاؼً التنبٌت. -4تإاٌب وك الاٌبل دلى العامو . -5بع تجهٌز التوصٌالت الالزمة بالع ا اول المنزل ٌتم عصل المؽهي وتإاٌب ال وإ أو األ واإ دلى الكباة بإتبار إجإاءات السالمة دلى كباات الضؽ المنوفط. تركيب خدمات المشتركين (طور أو ثالثة أطوار) للمشتركين ف األبنية متعيددة الطوابي وتغيذع عين طري الكوابل األرضية: -1التمٌ بتعلٌمات بنو تإاٌب الع ا ات السابمة . -2عصل الما ع الإبٌسً المؽهي للوحة توزٌع المبنى أو العماإو أو المنكآت. -3التؤا من صالحٌة تم ٌ ات الكمة . -4توصٌل الع ا ات من المضبان الإبٌسذة عذً لوحذة المبنذى مذن وذالل لوا ذع واصذة وتؽهٌتذع حسذب األصول. عدادات محوالت التيار: -1استو ام تعلٌمات السالمة الصا إو دلى كباات الضؽ المنوفط والمتوس . -2عصل التٌاإ الاهإبابً وتإاٌب محوالت التٌاإ دلى المؽهي المإا تإاٌب الع ا لع. -3توصٌل أسالن محوالت التٌاإ مباكإو أو من والل لوحة الفح وتوصٌل أسالن الفول ٌة حسذب األصول. -4التؤا من أن محوالت التٌذاإ مإإضذة وأن نسذبة التحوٌذل المسذتو مة صذحٌحة وأن جمٌذع أ ذإاؾ محوالت التٌاإ مؽلمة وال ٌوج عتح بٌن األ إاؾ. -5تسجٌل جمٌع المعلومات دن اللوحة اطسمٌة للع ا بما عً هلن لإاءو الع ا ومعامذل الضذإب وٌذتم ت وٌن معامل الضإب عً المن مة الموصصة لع دلى الع ا . -6إدا و وصل التٌاإ الاهإبابً وعح اتجا ،وإان األ واإ. -7التؤا من تؤإٌط محوالت التٌاإ باستو ام جهاز لٌاا التٌاإ وهلذن بتوصذٌل أحذ أ ذإاؾ األمٌتذإ باألإط ومالمسة ال إؾ ا وإ مع ال إؾ مذن أ ذإاؾ محذوالت التٌذاإ وٌذتم مذن وذالل هذها الفح التؤا من أن محوالت التٌاإ مإإضع من إؾ واح وهو ال إؾ الهي ٌسجل لإاءو الل. -8دن دملٌات عح الع ا وعً حال توعإ مصهإات للع ا ٌتم نزر مصهإ واح ا ً واحذ ا ً للتؤاذ مذن لإاءو الع ا (إها توعإت المصهإات) وعً حذال وجذو ماعذب الفحذ عذً لوحذة التوزٌذع ٌذتم أوال PPaaggee 111155 ooff 114422 ومن نم إؼالق الفذاز إؼالق لناات محوالت التٌاإ وعتح لناات الع ا عم للتؤا من تولؾ المإ األول للع ا وعتح لٌنن محول التٌاإ لنفا الفاز وإدا و تإاٌب المصهإ الوا لهها الفاز مذع بمذاء المصذذذذذذذذذذذذذذذذذذذذذذذذذذذذذهإات النذذذذذذذذذذذذذذذذذذذذذذذذذذذذذانً والنالذذذذذذذذذذذذذذذذذذذذذذذذذذذذذث منزودذذذذذذذذذذذذذذذذذذذذذذذذذذذذذة وٌذذذذذذذذذذذذذذذذذذذذذذذذذذذذذتم التؤا من وإان الع ا . -9إدا و الوضع للناات إلى ما اانت دلٌع. الحوادث الكهربايية واإلسعافات األولية: حالة عامة: إن الصفة الإبٌسٌة التً ٌت لبها النجذاح عذً أ اء اطسذعاعات األولٌذة طنمذاه المصذاب هذً سذإدة العمذل وحسن التصإؾ والت إٌب العملً للمنمه وعً جمٌع الحاالت ٌتولؾ إنماه المصاب دلذى سذإدة عصذل التٌاإ الاهإبذابً وإبعذا المصذاب وصذحة ت بٌذك اطسذعاعات األولٌذة وإن التذؤوٌإ عذً أ اء اطسذعاعات األولٌة سٌنتج دنع موت المصاب وعً جمٌع األحوال ٌجب دذ م ادتبذاإ المصذاب أنذع متذوعً بمجذإ اوتفاء دالمات الحٌذاو (اذالتنفا والنذبط) وبذالإؼم مذن اوتفذاء هذه ،العالمذات ٌجذب دمذل اطسذعاعات األولٌة وب ون تؤوٌإ وؼالبا ً أنع دن اوتفاء هه ،العالمات ٌظن أن المصاب ل مات ولان لذم ٌمذت ععذالً وأن الكو الوحٌ الهي ٌمإإ موتع أم ال هو ال بٌب. أ -تخليص المصاب من المالمسة الكهربايية: ٌجب اطسإار بفصل التٌاإ الاهإبابً مباكإو دن المصاب وهلن دن إٌك عصل المذا ع الإبٌسذً أو الفإدً أو ال لب من جهات أوإى هلن ومإاداو د م لما المصاب بٌ ٌن داإٌتٌن الما ظل مالمسا ً للتٌاإ الاهإبابً حتى ال ٌصاب الكو المنمذه بذنفا التٌذاإ الاهإبذابً امذا ٌجذب االنتبذا ،إلذى ماذان وجو المصاب عإها اان دلى اإتفار دالً عٌجب حماٌتع من السمو . وعً الحاالت التً ٌصعب عٌها عصل التٌاإ الاهإبابً دذن المصذاب بالسذإدة الم لوبذة عإنذع ال بذ مذن اتواه اطجإاءات التالٌة. معدات الضغط المنخفض أقل من ( )400فولط:لفصل المصاب دن األجزاء الحاملة للتٌاإ ٌتم استو ام وسابل دزل جاعة ااألوكاب أوالنٌاب وال ٌسذذمح باسذذتو ام أ وات مع نٌذذة أو أ وات إ بذذة وٌنصذذح االبتعذذا دذذن األجسذذام المع نٌذذة المحٌ ذذة بالمصاب ألنها نالذل جٌذ للتٌذاإ وبعذ لٌذام المنمذه بلذبا لفذازات م ا ٌذة دازلذة وؼٌذإ منموبذة أو تؽ ٌة ٌ ٌع بؤي لماش سمٌن وؼٌإ مبلل ٌموم بك المصذاب مذن مالبسذع بعٌذ ا ً دذن السذلن وٌنصذح باستو ام ٌ واح و أنناء إنماه المصاب وٌمان للمنمه دزل نفسع دن األإط بواس ة الولذوؾ دلذى لوح وكبً أو أٌة ما و دازلة وجاعة. على معدات الضغط المتوسط 33 ،11 ،6.6ك.فٌجب استو ام وسابل العذزل التذً تتحمذل الجهذ الم لذوب الذبا المفذازات واألحهٌذة الم ا ٌذة مذع استو ام دصا الضؽ المتوس العازلة طبعا المصاب دن و و الجه المتوس اما ٌمان دمل أإضً دلى و و الجه المتوس وهلن بإب إؾ سلن بنم ة تؤإٌط األدم و نذم إلمذاء إعذع ا وإ دلى الجه المتوس المالما للمصاب وعذً هذه ،الحالذة سٌسذم المصذاب دلذى األإط لذها ٌجب االحتٌا حتى ال تز ا اطصابة سوء نتٌجة الإت امع باألإط دن السمو . PPaaggee 111166 ooff 114422 ب -اإلسعافات األولية للمصاب: بع عصل التٌاإ الاهإبابً دن المصاب ٌتم تالٌؾ بعط األكوا باالتصذال مذع المسذإولٌن والذ عار الم نً مع إتبار ما ٌلً: ٌوضع المصاب بسإدة دلى ظهإ ،ومن األعضل أن ٌاون هلن دلى س ح صلب وجاؾ. ٌفح عم المصاب وتوإج أي ما و تعوق التنفا سوا ًء صلبة أو سابلة وٌصحح وضع الذإأالضمان ولو مجإى التنفا من االنس ا نتٌجة السمو الولفذً للسذان والكذال إلذم (ٌ )1وضذح مجإى التنفا عً الوضعٌن المؽلك والمفتوح. التؤا من تنفا المصاب وهلن بمإالبة اإتفار وهبو ص إ ،من د مع. التؤا من نبط المصاب وهلن بلما الكذإٌان دنذ المعصذم (النذبط الكذإٌانً) أو عذً الإلبذةللتعإؾ دما إها اانت ضإبات الملب ال زالت مستمإو من د مع. مإالبة اتسار ح لة العٌن ألن اتسار ح لة العٌن ٌعنً نم عً وصول ال م للمخ عإها نبت أنالمصاب ال ٌتنفا وال ٌوج بع نبط عفً هه ،الحالة دلى المنمه أن ٌإ ي وظٌفة إبتً وللب المصاب بإجإاء إٌمة التنفا االص نادً مع الت لٌن الواإجً للملب اما ٌلً: -1التنفس االصطناع : ضع المصاب دلى ظهإ ،وأوإج أٌة موا ؼإٌبة من عمع. ضع إح ى الٌ ٌن تحذت إلبذة المصذاب واجعذل الإلبذة مموسذة إلذى أدلذى واضذؽ بالٌذاألوإى دلى جبهة المصاب عً االتجا ،إلى أسفل وهها سٌإ ي إلى عتح عم المصاب وه نفسا ً دمٌما ً لتمأل ص إن واعتح عمن وضعع بإحاام دلى عم المصاب المفتذوح وأؼلذكأنؾ المصاب بسبابة وإبهام ٌ ن التً تضؽ دلى الجبهة وانفخ عً عمذع امٌذة ااعٌذة مذن الهواء لتجعل ص إٌ ،إتفع. أبع عمذن وإالذب انوفذاط صذ إ المصذاب واذإإ دملٌذة الذنفخ بمعذ ل نفوذة اذل أإبعذةنوانً. إها لم ٌان هنان تبذا ل للهذواء بمعنذى أن صذ إ المصذاب ال ٌإتفذع ٌفحذ عذم المصذابوٌنظؾ جٌ ا ً من أي أجسام ؼإٌبة تعوق وول الهواء. وتستؤنؾ دملٌة التنفا من عم لفم بنفخ الهواء بموو بمع ل مإو اذل ( )5-4نذوانً بالنسذبةللبذذالؽٌن وبمع ذ ل ( ) 3نذذوانً بالنسذذبة لأل فذذال وٌإادذذى دن ذ دملٌذذة الذذنفخ إؼذذالق أنذذؾ المصاب ودن الزعٌإ ٌفتح أنفع وتستمإ هه ،العملٌة حتى ٌب أ المصاب بذالتنفا ال بٌعذً بع التنفا الصنادً المتواصل نم ٌإعع عم المنمه دن عم المصاب. ضع ب انٌة أو مع ؾ تحت المصاب وعولع للت عبة ودن ما ٌستعٌ أنفاسع ال ت دع ٌنهطلبل مإوإ سادة دلى األلل وهلن لحٌن حضوإ عإٌك اطسعاؾ أو ال بٌب. -2التدليك الخارج للقلب: استو ام إٌمة الت لٌن الواإجً للملب مع دملٌذة التذنفا الصذنادً مذع مإادذاو دذ م تعذاإطالت لٌن الواإج ً للملب مع دملٌة النفخ عً عم المصاب وأن تاون دملٌة النفخ سإٌعة نم ٌبع المنمه عمع دن المصاب وٌتإاع لتفإٌػ الهواء من اولع مع إجإاء دملٌة تذ لٌن وذاإجً للملذب لضذذمان اسذذتمإاإ مذذإوإ ال ذ م الحامذذل لألاسذذجٌن ألدضذذاء الجسذذم الموتلفذذة ووصوص ذا ً المذذخ والالٌتٌن والملب هها إها اان ٌموم باطجإاءات اطسعاعٌة كو واحذ أمذا إها تذوعإ كوصذان ٌجٌ ان اطسعاعات األولٌة عٌموم أح هما بالتنفا الصنادً وا وإ بت لٌن الملب من الواإج. لعمل ت لٌن الملب من الواإج ٌجب أن ٌاون المصاب ملمى دلى ظهإ ،عوق أإط صلبة.PPaaggee 111177 ooff 114422 تحسا ص إ المإٌط حتى تح الجزء السفلً من المفذ الصذ إي وضذع أحذ أصذابع ٌذ نالٌسإى دلى هها ال إؾ وحإن نهاٌة مفصل الٌ الٌمنى(ولٌا الاؾ) نحو هها اطصبع ضذع الٌ الٌسإى عوق الٌمنى دلى النلث األسفل من دظمة المف الص إي وضع الٌ الٌسإى عوق الٌمنى اإعع أصابع الٌ ٌن دن المصاب. اضؽ لألسفل بسإدة ال تمل دن مإو عً النانٌذة وٌاذون الضذؽ بالتذا الٌذ ٌن واسذتو م لذووااعٌة لتضؽ الٌ السفلى عً النلذث السذفلً للمفذ الصذ إي بحٌذث ٌذنوفط مسذاعة ()5-3سذم وهلن بؤن تبمى هإادٌن مستمٌمتٌن والتننٌهما دنذ المإعذك مسذتو ما ً وزن جسذمن الذع للضذؽ من الاتفٌن وهها مما ٌسهل دلٌذن أ اء منذل هذه ،المهمذة لولذت أ ذول ون تعذب ابٌذإ نذم اإعذع نملن مع بماء وضع افٌذن دلذى صذ إ المصذاب واذإإ هذه ،العلمٌذة بصذفة منتظمذة وٌجذب أن تاإإ هه ،الضؽ ات بانتظام (اضؽ واإعع الضؽ ) وعً ال مإو تضؽ دلى للب المصاب أي أنن تموم بعمل الملب. ٌإادى أن ٌستمإ النفخ عً الفم بحٌث ٌتولل دملٌذة التذ لٌن الوذاإجً للملذب بمعذ ل نفذا واحذال وما ضؽ ات واإجٌذة وإها اذان هنذان كذو واحذ ٌمذوم بعملٌذة التذنفا واطسذعاعات للملب ععلٌع أن ٌنفخ عً عم المصاب بال إٌمذة الصذحٌحة مذإتٌن أو نذالث مذإات متتالٌذة ٌتبعهذا وذإ دمل ت لٌن واإجً للملب لم و ( )12ضؽ ة وٌستمإ هلن بالتناوب أمذا إها تذواعإ كذو عٌتاا هها الكو دن إأا المصاب وٌموم بعملٌة التذنفا الصذنادً بمعذ ل مذإو واحذ و اذل وما ضؽ ات واإجٌذة دلذى الملذب تمذوم بهذا أنذت وٌسذتمإ دمذل هلذن حتذى ٌسذتعٌ المصذاب أنفاسع والملب نبضاتع اما تستمإ هه ،الجهو أنناء نمل المصذاب بسذٌاإو اطسذعاؾ إلذى ألذإب مإاز إسعاؾ أو مستكفى. -3عالمات الحياة: بع دملٌة نفخ وت لٌن صحٌحة وناجحة سٌظهإ دلى المصاب مذا ٌذؤتً مذن مظذاهإ الحٌذاو التالٌة : -1لذذون الوجذذع ٌب ذ أ عذذً التؽٌٌذذإ مذذن اللذذون األزإق إلذذى لذذون ألذذل زإلذذع نذذم ٌمٌذذل نحذذو االحمإاإ. -2التنفا ال بٌعً ٌب أ عً الظهوإ وٌز ا بمإوإ الولت إلذى المعذ ل ال بٌعذً وٌاذون مستمالً دن دملٌة اطسعاؾ ومنتظماً. -3اتسار ح لة العٌن ٌب أ عً الضٌك. وٌإادذذى اسذذتمإاإ دملٌذذة التذذنفا الصذذنادً وتذ لٌن الملذذب حتذذى تبذ أ هذذه ،العالمذذات عذذً الظهوإ وٌمان التؤا منها بظهوإ النبضات ال بٌعٌة وتلمسها بالٌذ امذا ٌجذب اسذتمإاإ إجإاء الع ملٌات اطسعاعٌة للتنفا والملذب بصذوإو صذحٌحة لمذ و سذادة دلذى األلذل حتذى ٌحضإ ال بٌب. PPaaggee 111188 ooff 114422 IDECO’s Specifications Aerial Cable Sag and Clearance Planning for aerial cable installation includes taking into account proper clearances, cable types and properties, the mechanical stress loading on the cable, and span length. Medium Voltage Network Planning for proper clearances requires knowing the “sag” of the proposed installation. The Contractor shall plan aerial cable installation to allow for a minimum clearance of five (5) meters above ground level and three (3) meters from existing medium voltage power cables at the electricity poles, which may be reduced to 2m to guarantee the 5m clearance above the ground. The minimum clearance (Worst Case) of the mid point of the fiber optic cable (max. sag location) shall not be less than one (1) meter from the mid point of electrical cable (max. sag location). Low Voltage Network Clearance distance of the fixing point of fiber optical cable on the pole to IDECO Network (electrical conductors) has been set at one (1) meter. Installation conditions PPaaggee 111199 ooff 114422 In some special cases where the clearance between the fiber optical cables and the ground level is less than five (5) meters conjunctively, the distance of the fixing point of fiber optic cable on the pole to IDECO Network (electrical conductors) is two (2) meters, then poles must be erected at the mid spans or otherwise as required (If technically possible and Landowners, Municipalities, Public works agree for the route) , the newly installed poles shall be erected at an offset of one (1) meter of the alignment of the existing IDECO poles(If the route is available and Landowners, Municipalities, Public works etc…agree for this solution). The new poles will be erected at locations where transformer substations are installed at 33 KV and 11 KV line poles and are envisaged to obstruct the installation of the fiber optic cable within these locations. Clearance > 5m Aerial Cable Sag and Clearance PPaaggee 112200 ooff 114422 PPaaggee 112211 ooff 114422 PPaaggee 112222 ooff 114422 PPaaggee 112233 ooff 114422 Annex K-2: MoPWH Specifications for Route Reinstatement PPaaggee 112244 ooff 114422 PPaaggee 112255 ooff 114422 PPaaggee 112266 ooff 114422 PPaaggee 112277 ooff 114422 Annex L: Communication Plan Project Name Project no. Project Communication Plan Date: / / (Sample) COMMUNICATION PLAN Deliverable/Description Target Audience(s) Delivery Frequency Delivery Method Non Recurring meetings Kickoff Meeting Work Owner Rep. and Project Manager, Contractor Sponsor and Project Manager, Engineer Rep. Quality Assurance and Planning rep. Project team Meeting to review and approve project plan Once per phase PPaaggee 112288 ooff 114422 COMMUNICATION PLAN Deliverable/Description Closure Meeting Recurring Meetings Project Review Meeting Non Recurring Reports Project Plan Target Audience(s) Work Owner Rep. and Manager, Contractor Sponsor and Project Manager, Engineer Rep. Quality Assurance and Planning rep. Delivery Method Review and approve the Closure Report (if applicable) and phase exit checklist Delivery Frequency Once per phase Project Project Manager reviews Managers, Work project status with stakeholders Owner Representative, team leaders, resource managers (when necessary), team members (when necessary) Weekly/ Tuesda 11:00 - 01:00 Work Owner By correspondence Rep.and Rep, MS project format Project Sponsor and Manager, Contractor Sponsor and Project Manager Quality Assurance and Planning rep. Once (to be updated weekly) PPaaggee 112299 ooff 114422 COMMUNICATION PLAN Deliverable/Description Project Closure Report Project Reports Monthly performance Report Weekly Status report Target Delivery Method Audience(s) Work Owner By correspondence Rep. and Rep, Project Sponsor and Manager, Contractor Sponsor and Project Manager Quality Assurance and Planning rep. Delivery Frequency Once Work Owner By correspondence Rep. and Rep, Project Sponsor and Manager, Contractor Sponsor and Project Manager, Work Owner Rep., team leaders. Project By correspondence Managers, Work Owner Rep., team leaders, resource managers (when necessary), team members (when necessary) Monthly Weekly / Sunday PPaaggee 113300 ooff 114422 COMMUNICATION PLAN Deliverable/Description Daily Status report Target Audience(s) Project Manager, Work Owner Rep., team leaders, resource managers (when necessary), team members (when necessary) Delivery Method By correspondence Delivery Frequency Daily Escalation Communication Highly Critical issues and risks Project Managers, Reps, Sponsors Quality Assurance and Planning rep. Any urgent or major issues and As Required risk should be communicated immediately to Project Manager and Project manager Immediately communicates these risks and issues to Audience. Communication must be by correspondence and, where time is of essence, by phone. Project Managers, Reps, Sponsors Quality Assurance and Planning rep. By correspondences Special Reports Quantity measurement (related to prices changes) When material prices changes PPaaggee 113311 ooff 114422 Annex Z lSITE SURVEY REPORT B Site No Candidat e SSR APPROVED SITE SURVEY COORDINATOR NETWORK PLANNING ENGINEER NNaammee SSiiggnnaattuurree DDaattee GENERAL INFORMATION Site Number and Name SSR Issue Date SSR Received Date Manager Responsible Network Designer Name Site Engineer Name Site Engineer Telephone Site Engineer e-mail PPaaggee 113322 ooff 114422 GENERAL SITE INFORMATION Site name Site address street name and house number zip code city municipality Site details Northing JTM Cadastral info Easting Palestine (based on municipality data) Estimated surface for equipment SITE CONTACT PERSONS 1. Contractua l issues Name company / housing corporation / etc. Street name and house number Zip code City Name contact person Telephone number Fax number Function Name person with authority to sign ReRemarks N.A. Proof that above mentioned person(s) is / are authorized to sign contract or agreement. N.A. Documents showing authority to sign for above mentioned person(s) have been attached to this document. PPaaggee 113333 ooff 114422 SITE CONTACT PERSONS (CONTINUED) Name contact person with authority to decide on technical issues 2. Technical / access issues Telephone number Fax number Function Name housekeeper Telephone number ReRemarks Name contact person 3. Administrative issues Telephone number Fax / phone number Function ReRemarks Site Type: primary entity centre school hospital health Directorate MOE directorate Medicine enventory blood bank Government entity Aggregate site MOH directorate Other, describe: PPaaggee 113344 ooff 114422 THE FOLLOWING ITEMS HAVE BEEN DISCUSSED WITH THE DIRECTOR 1. Access to the site 24 hrs access possible? Direction to the site (from nearest main road) Description: yes no Sketch attached not clear From existing 33 kv pole ,install 300 underground duct to feed the building. Access to the proposed equipment room Draft access protocol attached Description: .install 2 Hand Hole near the wall and install u-guard to protect the cable on wall. key-box will be installed access through security company [optional] other: Housekeeper needs to be informed 2. Basic site data Are existing drawings (blue prints) of the building available from Landlord? Clean environment – not in a dusty area, no water leaks, no water or sewage pipes inside the room Easy access – ground floor level is preferred Good lighting of equipment room don’t know Equipment room/Building in non flooding zone Power connection 220V/50Hz available Power connection -48V available Is indoor space available for placing equipment don’t know Is outdoor space available for placing shelter cabinets attached to building Room condition don’t know Height of ceiling minimum 220cm All access doors have minimum width of 82 cm Room floor (equipment room: tiles, datacentre : computer floor) don’t know Wall condition don’t know yes no yes no yes no yes no (214-D0-M8-2) no yes no yes B ……………..kVA max Site No Candidate yes no ……………..A max. yes no if yes: yes no Good yes yes Tiles Good Average Bad no no Concrete Average SITE SURVEY REPORT Wood Computer floor Bad PPaaggee 113355 ooff 114422 Wall material Is there current and / or future presence of other users in the same room ? Name(s) of other users (for datacentre ): Are drawings available from Landlord showing 'as built' or planned positions of other users? Concrete Steel plating yes Concr. Blocks Wood Bricks Other____ no Teachers yes no Is grounding available he is not show yes no (not tested ) Are cable entries allowed for the optical fiber to enter the building and the equipment room yes no PPaaggee 113366 ooff 114422 Site specific agreements with Director after first site visit: PPaaggee 113377 ooff 114422 ATTACHEMENTS Map with site marked Diagram of obstacles Existing of 'as built' positions of other users [if applicable) Pictures showing building, access, and available indoor space (to be delivered in digital format) Copy of documents giving proof of authority to sign Site Map SITE LAYOUT PICTURE OF PROPOSED BUILDING SKETCH OF EQUIPMENT ROOM IN BUILDING PICTURE OF PROPOSED EQUIPMENT ROOM PICTURE OF ACCESS TO BUILDING PPaaggee 113388 ooff 114422 Annex Z2 : Maintenance SLA between contractor & NBN (MOICT) for implementation the civil works and the fiber works in the north area of the kingdom 1. Purpose & Objectives: This agreement is the frame work (relationship and responsibilities) between the two parties which are: - Full open effective communication between the two parties. - Identifying interrelated service areas between the two parties, Responsibilities, under standing with firm supplier- user commitment to deliver customer satisfaction. - Define measurable objectives using periodic analysis and through reports in order to enable service enhancement. - Proper service delivered at the right cost and right time. 2. The scope of SLA: - The scope of the frame is the defect liability for all the works that will be implemented within the scope of this project which includes but not limited to optical fiber cables and all civil work that will be implemented by the contractor and his subcontractors as detailed below : a) The optical fiber and its accessories includes ( Optical termination in buildings, Racks, Indoor and outdoorCables, Joints and splices, Ducts and trenches, Electronic identifiers, manholes,Hand holes/Pits). b) Civil Works (in duct, direct buried) shall include and not limited to excavation, materials, reinstatement, ducts ,manholes,handholes ,pullboxes,galvanized pipes ,upvc pipes , and all needed operations. c) Fiber optics and its accessories on electric poles also need to be maintained that includes but not limited to fiber cables ,termination repairmen and any issue relating to the Arial fiber cables duct fiber cables , poles and fiber route transfer(duct and arial) PPaaggee 113399 ooff 114422 3. Network Availability: 7.1 Metro ring Routes. 7.1.1 7.1.2 . 99% during working hours as per the working hours of the MOICT . 95% after working hours and holidays as per the working hours of the MOICT 7.2 Access routes 7.2.1 98 % during working hours as per the working hours of the MOICT . 7.2.2 95 % after working hours and holidays as per the working hours of the MOICT. 4. Review time scale for signed-off SLA: Last review date of signing Next review each 3 months after signing. 11.Penalties: The penalties is calculated according to the severity of the fault and the reactivity of the contractor as shown in the tables below for the fiber works malfunction with needed civil work For the fiber cables and cable accessories to be replaced with the needed civil work and the bidder to get the right of way : Severity Critical Major Minor Number of entities down 10 or more access links down One or more metro rings is down 3 to 10 access links Up to 2 access links Resolve time ( in hours ) 24 Penalty in JD/24 hour 250 48 72 150 100 Severity definitions: Severity Critical Major Minor Definition Must be done, essential to business Survival. Business can’t continue Shall be done, near essential to business survival Could be done, high benefit to business if time and resources are available. PPaaggee 114400 ooff 114422 Abreviations: Abbreviations ADSS Pop Stands For All Dielectric Self Supporting Point Of Presence IPS MPLS DR NOC ITU Intrusion Prevention System Multiprotocol Label Switching Disaster Recovery Network operation centre International Telecommunications Union RFP MoICT Requested for Proposal Ministry of Information and Communications Technology NEPCO National Electric Power Company EDCO Electricity Distribution Company IDECO Irbid District Electricity Company GIS Geographic Information System UPVC Unplasticised Polyvinyl Chloride ITP Instruction To Proceed ODF TRC SSF NIP NRFU PMD STAC VPN Optical Distribution Frame Token Ring Controller Site Survey Form Network Implementation Plan Network Ready For Use Polarization Mode Dispersion Support Technical Assistance Virtual Private Network SNMP Simple Network Management Protocol NESC HDPE DLS National Electrical Safety Code High Density Polyethylene Department of Lands and Survay PPaaggee 114411 ooff 114422 OTDR Optical Time Domain Reflectometer PPaaggee 114422 ooff 114422