WSP-3262 Inside Plant Installation and Construction Standards
Transcript of WSP-3262 Inside Plant Installation and Construction Standards
Version 1.3 - 02/01/2013
Windstream Proprietary and Confidential
WSP-3262
Inside Plant Installation and Construction Standards
Version 1.3 - 02/01/2013
Inside Plant Installation and Construction Standards WSP-3262 Version 1.3 - 02/01/2013
Windstream Proprietary and Confidential ii
Copyright Notice
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You may print and download portions of material from this document for your own internal, non-commercial use. For any other copying, redistribution, retransmission or publication of any downloaded material; you must have the express written prior consent of Windstream Incorporated.
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Misuse of the trademarks or any other content in this publication is strictly prohibited.
Inside Plant Installation and Construction Standards WSP-3262 Version 1.3 - 02/01/2013 Table of Contents
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Table of Contents
List of Figures ............................................................................................................................................... vi
List of Tables ................................................................................................................................................ vi
Document Purpose ...................................................................................................................................... vii
Revision History ........................................................................................................................................... vii
Areas Affected ............................................................................................................................................ viii
Approval ...................................................................................................................................................... viii
1. OVERVIEW ....................................................................................................................... 1
1.1. Disclaimer........................................................................................................................................ 1
1.2. Intended Users ................................................................................................................................ 1
1.3. Contractor Responsibilities........................................................................................................... 1
1.4. Document Revisions ...................................................................................................................... 1
1.5. Proprietary Information .................................................................................................................. 1
1.6. Hazardous Material ......................................................................................................................... 1
2. GENERAL REQUIREMENTS ................................................................................................ 2
2.1. Access to Premises ........................................................................................................................ 2
2.2. Unauthorized devices .................................................................................................................... 2
2.3. Smoke-free Environment ............................................................................................................... 2
2.4. Protective Equipment ..................................................................................................................... 2
2.5. Removal of Hazardous Material, Packing Materials and Scrap ................................................. 3
2.6. Waste Disposal ............................................................................................................................... 3
2.7. Power Tools .................................................................................................................................... 3
2.8. Insurance ......................................................................................................................................... 3
2.8.1. Minimum Insurance Coverage.......................................................................................................... 3
2.8.2. Certification ....................................................................................................................................... 3
3. GENERAL INSTALLATION GUIDELINES ................................................................................ 5
3.1. Compliance with Laws and Ordinances ....................................................................................... 5
3.2. Regulations and Ordinances ......................................................................................................... 5
4. PREVENTING SERVICE INTERRUPTION ............................................................................... 6
4.1. Responsibility ................................................................................................................................. 6
4.2. Reporting Service Interruptions.................................................................................................... 6
4.3. Preventing Service Interruptions .................................................................................................. 6
5. METHOD OF PROCEDURE (MOP) ...................................................................................... 7
5.1. Required information ..................................................................................................................... 7
5.2. MOP Approval ................................................................................................................................. 7
5.3. MOP .................................................................................................................................................. 8
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6. JOB EXECUTION ............................................................................................................... 9
6.1. Statement of Work (SOW) or Project Scope Agreement (PSA) ................................................. 9
6.2. Job Progress Photographs ........................................................................................................... 9
6.3. Quality Audits and Job Completion Walk-Through .................................................................... 9
6.4. Revisions to the Installation Schedule ....................................................................................... 10
6.5. Insulated tools .............................................................................................................................. 10
6.6. Metallic Objects in Work Area ..................................................................................................... 10
6.7. Equipment Installation ................................................................................................................. 10
7. WORKMANSHIP .............................................................................................................. 12
7.1. Earthquake Bracing ...................................................................................................................... 12
7.2. Fire Stopping................................................................................................................................. 13
7.3. Fire Stop Labeling ........................................................................................................................ 14
7.4. Rack Relocation ............................................................................................................................ 14
7.5. Cable Installation (See Cabling Standard or associated engineering standard for more detail on cable installation) ......................................................................................................... 14
7.5.1. Blocked Cable Runs ....................................................................................................................... 15
7.5.2. Cable Protection ............................................................................................................................. 16
7.5.3. Securing Cables with Twine ........................................................................................................... 16
7.5.4. Nylon Cable Ties ............................................................................................................................ 16
7.5.5. ISP Cable Bending Radius ............................................................................................................. 17
7.6. Cable Routing and Segregation on Cable Tray ......................................................................... 18
7.6.1. Mixing Cable On Cable Tray .......................................................................................................... 18
7.6.2. Cable Pile-up on Cable Tray .......................................................................................................... 19
7.7. Cable Routing and Segregation within Equipment Racks ....................................................... 19
7.7.1. Switchboard Cable ......................................................................................................................... 19
7.7.2. DS1 Cable ...................................................................................................................................... 19
7.7.3. Coaxial Cable ................................................................................................................................. 19
7.8. Power and Grounding Cable ....................................................................................................... 19
7.8.1. Cabling Requirements .................................................................................................................... 20
7.8.2. Repairing Cable Damage ............................................................................................................... 21
7.9. Cable Termination Tools .............................................................................................................. 21
7.10. Cable Verification ......................................................................................................................... 21
7.11. Cable Preparation and Termination ............................................................................................ 21
7.11.1. Wire Wrapping ................................................................................................................................ 21
7.11.2. Soldered Connections .................................................................................................................... 22
7.11.3. Coaxial Cable ................................................................................................................................. 22
7.11.4. Connectors and Terminations ........................................................................................................ 22
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7.11.5. Making Energized Power Connections .......................................................................................... 23
8. BONDING AND GROUNDING (SEE GROUNDING STANDARDS THAT APPLY TO THE JOB) ...... 24
8.1. Inside Plant Grounding Systems ................................................................................................ 24
8.2. Grounding Bays, Frames and Line-ups ..................................................................................... 24
8.3. Outside Plant Cable Entry Points ............................................................................................... 25
8.4. Fiber Optic Cable Grounding ...................................................................................................... 25
8.5. Shielded Cable Grounding .......................................................................................................... 25
9. EQUIPMENT LABELING .................................................................................................... 26
10. ELECTROSTATIC DISCHARGE (ESD)................................................................................ 27
10.1. Worker Certification ..................................................................................................................... 27
10.2. Tools .............................................................................................................................................. 27
10.3. Protection ...................................................................................................................................... 27
11. FIBER CABLES ............................................................................................................... 28
11.1. OSP Cable Route Diversity .......................................................................................................... 28
11.2. ISP Pigtail Route Diversity ........................................................................................................... 28
11.3. ISP Jumper Route Diversity ........................................................................................................ 28
11.4. Installation ..................................................................................................................................... 28
11.5. Jumpers ......................................................................................................................................... 28
12. EQUIPMENT REMOVAL .................................................................................................... 30
12.1. Removing DC Power Connections ............................................................................................. 30
12.2. Removing Equipment from Bays ................................................................................................ 30
12.3. Cable Mining ................................................................................................................................. 31
13. DEFINITIONS .................................................................................................................. 32
14. REFERENCES ................................................................................................................. 33
15. APPENDIX A ................................................................................................................... 34
Inside Plant Installation and Construction Standards WSP-3262 Version 1.3 - 02/01/2013 List of Figures
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List of Figures
Figure 1 - SBC Seismic Zone Map .............................................................................................................. 12
Figure 2 - NEHRP Hazard Map ................................................................................................................... 13
Figure 3 - Bolted Connection Assembly ...................................................................................................... 23
List of Tables
Table 1 - ISP Cable Bending Radius ........................................................................................................... 17
Table 2 - Signal Cable Pile-up ..................................................................................................................... 19
Table 3 - Cable Repair Methods.................................................................................................................. 21
Table 4 - Wire wrap Skinning Lengths......................................................................................................... 22
Inside Plant Installation and Construction Standards WSP-3262 Version 1.3 - 02/01/2013 Document Purpose
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Document Purpose
The purpose of this document is to provide standards for the installation or rearrangement of Windstream
facilities.
Revision History
Version: 1.3 Release Date: 2/1/13
Summary of Changes: Updated NOC contact number
Author: Standards Committee
Editor: James Ellis
Subject Matter Expert:
File Name: WSP3262_1-3.doc
Version: 1.2 Release Date: 11/29/12
Summary of Changes: Added Lug Crimping Standard
Author: Standards Committee
Editor: James Ellis
Subject Matter Expert: Aaron Poole
File Name: WSP3262_1-2.doc
Version: 1.1 Release Date: 9/10/2012
Summary of Changes: approve VOA use in Windstream
Author: Standards Committee
Editor: James Ellis
Subject Matter Expert: Aaron Poole
File Name: WSP3262_1-1.doc
Version: 1.0 Release Date: 8/15/2012
Summary of Changes: Initial Release
Author: Standards Committee
Editor: James Ellis
Subject Matter Expert: n/a
File Name: WSP3262_1-0.doc
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Areas Affected
Areas affected by this document are Transport Engineering, Network Engineering, Facilities Engineering,
Installation, and Network Operations.
Approval
Technical Standards Development Committee which is made up of members from Engineering,
Installation, and Operations review and approve all WSPs.
List of approvals available upon request.
Inside Plant Installation and Construction Standards WSP-3262 Version 1.3 - 02/01/2013 Overview
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1. OVERVIEW
This WSP provides standards for the installation or rearrangement of equipment at Windstream
facilities. These guidelines define the minimum installation standards in order to maintain the
highest possible quality of performance and appearance.
1.1. Disclaimer
This document should be used as a guideline; it may not be applicable to all circumstances.
Unless specifically noted, it is not intended to replace, but rather be used in conjunction with
manufacturer, industry and Bellcore/Telcordia standards.
Windstream assumes no liability for consequential, incidental, special or punitive damages
resulting from application of this document.
1.2. Intended Users
This guideline is applicable to Contractors and Installers who provide services and install
products for Windstream. It also applies to Windstream personnel performing installation,
rearrangement or removals at Windstream facilities.
1.3. Contractor Responsibilities
The Contractor must read and fully understand this and other related Windstream documentation
prior to commencement of any work.
Windstream assumes no responsibility for any additional costs incurred by any Contractor in
conforming to the requirements of this guide.
Contractors must immediately notify the Windstream Project Manager of quality defects or
unsuitability of the supplied materials.
The Contractor must determine rights of access to LEC/CLEC/IXE/ILEC/OCC spaces used by
Windstream and shall observe all rules for access.
1.4. Document Revisions
Windstream reserves the right to revise this publication and without prior notice.
1.5. Proprietary Information
A non-disclosure agreement will be provided by Windstream and signed by the Contractor's
Corporate Officer prior to releasing proprietary information to the Contractor of products or
services.
1.6. Hazardous Material
Materials that are deemed hazardous by Windstream, OSHA, EPA, or other controlling agency
shall be disposed of according to prevailing rules and regulations of local, state, federal or of
Windstream.
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2. GENERAL REQUIREMENTS
The following information is intended to provide Contractors with the general requirements for
facilities access and service needs to be met prior to and during construction efforts.
A joint review of the installation activity schedule and Scope of Work shall be scheduled in
advance of the actual installation. Windstream and the Contractor must agree on the
installation/service schedule prior to deploying staff to the site(s).
If significant changes are required in the installation schedule or Scope of Work, the Contractor
may provide a written request for a decrease or increase in the value of the contract.
2.1. Access to Premises
Windstream will determine the Contractor’s site access hours prior to entering a contract. Access
may be further limited in some areas due to security restrictions imposed by building manager.
The Contractor shall not access the work site until the Windstream Representative confirms that
Network Operations has been advised of the work included in the Method of Procedure.
Contractors shall not work in Windstream facilities on weekends or observed holidays without
prior approval from Windstream.
Contractors are to contact Windstream’s NOC at 1-800-345-4484 Option1 , Option5 before
entering a Windstream facilities.
The Contractor shall be responsible for the actions of the Contractor’s employee’s,
representatives, or subcontractors while they are on Windstream’s premises. The Contractor may
be denied access to premises if it’s considered in the best interest of Windstream.
Short-term storage and administrative areas will be defined in the Method of Procedure (MOP)
document.
Unless previously agreed upon, the work area shall not be used for long-term equipment storage.
The Contractor shall provide temporary off-site storage space.
2.2. Unauthorized devices
The Contractor must not bring unauthorized devices to the work area. Typical unauthorized
devices are:
• Firearms, incendiary or explosive devices.
• Radios or other non-work related noise-producing devices.
• Flash cameras in areas where flash photography is not permitted.
2.3. Smoke-free Environment
The Contractor's employees and representatives will not smoke while within Windstream
facilities. Smoking is not permitted in public areas and is permitted only in areas where a
“Smoking Area” sign is posted.
2.4. Protective Equipment
The Contractor is responsible for providing his workers with personal safety equipment.
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2.5. Removal of Hazardous Material, Packing Materials and Scrap
The work area must be kept free of packing crates, packing material, cable scraps and other debris
that may contribute to personnel accidents.
The Contractor is responsible for the proper handling and disposal of hazardous material
generated by his construction activities. The Contractor must adhere to all federal, state, and local
laws as well as any of Windstream directives related to the handling and disposition of hazardous
material.
The Contractor must maintain a safe and clean work area at all times by daily removing packing
crates, packing material, scrap wire, concrete dust, excess tools and equipment from the work
area as they accumulate.
2.6. Waste Disposal
The Contractor shall maintain the work and storage areas that are provided by Windstream in a
trash-free and dust-free condition during the entire installation period. Unless previously agreed
to by Windstream, the Contractor shall dispose of trash at his own expense, using a contract
Dumpster or disposal service.
2.7. Power Tools
Electric power tool shall only be plugged into properly grounded or designated outlets and not
into outlets on equipment, frames, or cabinets. These outlets are provided for test equipment only.
The contractor shall verify with the onsite personal as to which outlets are available for their use
and the verification of routing of extension cords from the outlet to the work location may be
required
When power tools, such as heat guns, drills, saws...etc, are used inside a Windstream facility the
Contractor shall be aware of fire-detection heads and shall review with Windstream the disabling
of the fire-detection head and protect the fire detector from contamination. . The fire-detection
head should be put back in service as soon as possible once the work is completed.
2.8. Insurance
Contractors who perform services at Windstream facilities shall provide the following minimum
insurance.
2.8.1. Minimum Insurance Coverage
Contractors shall purchase and maintain minimum insurance requirements as stated in the Master
(Contractor or Services or Integrator) Agreement for Network Services.
Disclaimer: These insurance coverage limits are subject to change and all contractors
must be approved by Windstream Supply and meet the insurance requirements set forth by the
Master Agreement for Network Services. A new contractor must complete a Contractor Initiation
form and be approved by Windstream Supply before working in the Windstream Network.
2.8.2. Certification
The Contractor shall name “Windstream Incorporated”, Windstream Telecommunications
Services, Inc.” and “Windstream Network Services, Inc.” as additional insured’s, on all
required insurance policies, at Contractor’s expense, for all liability coverage. Prior to
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commencing any work or operation, Contractor shall furnish Windstream with a certificate from
an insurance carrier acceptable to Windstream stating that policies of insurance have been issued
by it to Contractor providing for the insurance coverage listed above and that such policies are in
force. Such certificates shall state that insurance carrier will give Windstream thirty (30) days
prior written notice for any cancellation or material changes in such policies. Failure to maintain
such insurance at any time shall constitute a material default of this Agreement but shall not
relieve Contractor or its subsidiaries from any liabilities assumed under this Agreement.
The Contractor shall permit any authorized representative of Windstream to examine Contractor’s
original insurance policies if Windstream should so request. Should the Contractor at any time
neglect or refuse to provide the insurance required herein, or should such insurance be canceled,
Windstream shall have the right to purchase such insurance, and the cost thereof shall be
deducted from monies due the Contractor.
The Contractor shall also ensure that all its subcontractors comply with this provision prior to
performing any work on the project. Subcontractors shall provide the Contractor a certificate of
insurance naming the Contractor as an additional insured and providing the Contractor with thirty
(30) days’ notice prior to any change or cancellation of such coverage.
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3. GENERAL INSTALLATION GUIDELINES
The information contained on this section provides Installation Contractors with guidelines for
compliance with federal, state, and local laws, ordinances, regulations, and building codes.
The Contractor is solely responsible to ensure compliance with all pertinent laws. Where there are
questions about the applicability of any portion of this document, the Contractor shall request a
review and coordination meeting prior to or during, the actual installation/removal activity.
3.1. Compliance with Laws and Ordinances
The Contractor’s employees and representatives will comply with all applicable federal, state,
county and local laws, ordinances, regulations and codes.
The Contractor will comply with regulations of the Occupational Safety and Health
Administration (OSHA), state and federal regulations involving hazardous waste material and
personnel safety.
The Contractor shall immediately notify the Windstream representative of any OSHA inspection
or visit.
The Installation Supplier shall notify the Windstream representative promptly, in writing, of any
OSHA citations issued while on Windstream premises.
All work performed by the Contractor must comply with the National Electric Code (NEC) and
applicable state, county and local codes.
3.2. Regulations and Ordinances
The costs of all permits, certificates, etc. required for compliance with applicable federal, state,
and local codes, laws, ordinances, and regulations shall be the responsibility of the Contractor.
The costs associated with failure to follow federal, state, or local codes, laws, ordinances, or
regulations shall be the sole responsibility of the Contractor.
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4. PREVENTING SERVICE INTERRUPTION
This section covers precautions to be taken to prevent service interruptions and degradation of
service.
The prevention of service interruptions is the joint responsibility of Windstream and the
Contractor/Installer.
Service interruptions can be prevented only with full and continued cooperation between
Windstream and the Contractor/Installer. Preventative and corrective measures shall be jointly
performed to safeguard personnel, buildings, equipment and service.
4.1. Responsibility
Prior to installation activities, the Contractor/Installer and Windstream may jointly inspect the
facilities and equipment to identify personnel safety hazards and conditions that may result in
service interruption.
The Contractor/Installer shall inform its employees of identified hazards and mitigating actions
required to minimize the risk of personal injury, property damage or service interruption.
If a hazard is identified during construction, the Contractor/Installer shall promptly reduce the
exposure to the hazard, report the hazard, and risk reduction activities to Windstream.
No Contractor/Installer will be permitted to work on the premises if said Contractor/Installer
exhibits signs of intoxication, drug abuse, or is otherwise impaired by any substance legal or
illegal.
4.2. Reporting Service Interruptions
The Contractor's/Installer’s first responsibility during an installation is to prevent service
interruptions and degradation. If service interruption should occur, the Contractor/Installer shall
be prepared to restore service promptly as directed by Windstream.
The Windstream on-site representative shall promptly report service Interruptions to the
appropriate Windstream’s Network Operations Center (NOC).
4.3. Preventing Service Interruptions
The Windstream or a designated representative shall prepare a Method of Procedure (MOP) from
the information provided in the scope of work prior to installation/removal activities that may
impact working equipment.
When installation activity is near working equipment, adequate protection shall be provided for
the working equipment. The working equipment shall be protected against impact damage,
disruption to working power and circuits, and protected from exposure to wire clippings or other
debris that may cause equipment malfunctions.
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5. METHOD OF PROCEDURE (MOP)
Windstream must approve a written Method of Procedure (MOP) and Back-Out Procedure prior
to any work being scheduled. An approved MOP is NOT an approval for work to begin. All work
related to an approved MOP must be scheduled prior to any work beginning.
The Contractor shall provide a written MOP (Method of Procedure) statement with Installation
Package (I-PACK) or scope of work, including the Remedy tracking number, to the Windstream
Representative at least 10 business work days prior to requested work schedule and site access.
The Windstream representative is responsible for getting MOP approval, scheduling work and
site access scheduled. Site access is to be scheduled through and approved by the Local
Operations Manager or Network Manager for that office.
No work shall start or be performed without a properly signed Method of Procedure (MOP)
within a Competitive Local Exchange Carrier (CLEC) Colocation; this will apply to a Caged
Location area or a Cageless location space or carrier hotel, or end user site.
When working within a leased facility (Qwest, Level 3, etc) such as a COLO, JUCO, leased
space, etc it will be the responsibility of the Windstream Representative and/or its contractor to
have a current copy of the required site documentations required by the landlord to perform work
in the leased facility
5.1. Required information
The following information is required for a MOP:
• Personnel Doing the Work.
• Day/Month/Year of MOP preparation.
• Date and time work to commence.
• Date and time to be completed.
• Windstream Job Number/Work Order Number.
• Physical location of site(s) where Contractor will perform installation/removal services.
• Comprehensive statement of work to be performed.
• Affirmation that locations of replacement parts (fuses, modules, etc.) are known in case
of service interruption.
• Affirmation that all precautions for safety, service interruptions, etc. have been taken.
• Sequential step-by-step procedure for work to be performed – This must include:
� NOC notification procedures.
� Detailed Back-Out Procedure.
� Bay numbers.
� Circuit descriptions.
� Fuse and/or Circuit Breaker identifications.
� Date of acceptance and signature of Windstream Manager/Representative.
� Date of acceptance and signature of Contractor and Contractor’s Title.
5.2. MOP Approval
Windstream Engineering, local Network Operations and NOC must review and approve the MOP
prior to the beginning of installation services.
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5.3. MOP
Copies of the MOP shall be posted in the work area where they will be readily available to the
installer and all local personnel
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6. JOB EXECUTION
This section covers Contractor responsibilities and Windstream acceptance procedures for Inside
Plant equipment (ISP).
The procedures outlined in this section help the Contractor and Windstream to install equipment
according to specifications.
6.1. Statement of Work (SOW) or Project Scope Agreement (PSA)
The Contractor must obtain an installation agreement from Windstream prior to beginning
construction activities.
The SOW or PSA will define:
• The work to be done
• The equipment to be installed
• The expected start date
• The expected completion date
Upon acceptance of the SOW or PSA, Windstream will issue a written authorization to proceed
with construction.
6.2. Job Progress Photographs
If flash photography is permitted by the LEC/ILEC/IXE/OCC, the Contractor will take digital
photographs and E-mail them to the Windstream Project Manager upon request or as specified in
the scope of work.
If flash photography is not permitted, the Contractor must provide temporary incandescent spot
lighting as required obtaining well-lit photos.
Photographs must be taken using a resolution of at least 800x600-dpi, and must be of sufficient
detail to clearly show the construction methods. The “JPG” (Joint Photograph Expert Group)
format should be used for all photographs. Photographs should show the stage of work
completion, areas that may represent a problem, or provide insight to problems encountered on
the job. The images must be void of flares and dark shadows in the area of interest in the photo.
6.3. Quality Audits and Job Completion Walk-Through
Windstream performs audits on the installation contractor to insure all Windstream requirements
are met. Windstream will determine the quantity and frequency of audits of any given installation
contractor. Prior notice of an audit is at the discretion of Windstream.
The Contractor shall not request a Job Completion Walk-through with Operational Assessment
and Network Operations until all provisions of the Installation Agreement are completed.
The Contractor shall notify the Windstream upon completion of the installation and request a Job
Completion Walk-through.
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The construction listed in the Installation Specification and MOP will be verified during the
Walk-through.
Windstream will also perform a Quality Audit during the Job Completion Walk-through and
provide a list of construction discrepancies and quality defects to the Contractor to insure all
Windstream requirements are met and the job is considered conforming.
Any discrepancies/non-conformances listed shall be corrected by the installation contractor not to
exceed 30 days for minor and major defects.
Critical defects must be fixed immediately. A critical defect is defined as a condition which is
likely to cause injury, property damage or service outage. All critical defects must be reported
immediately to Windstream.
Invoices will not be approved if defects are outstanding.
Upon correcting the discrepancies/non-conformances items, the Contractor shall request a Final
Acceptance Walk-through.
Upon Windstream accepting the discrepancies/non-conformances listed in the Final Acceptance
Walk-through, the Contractor may submit contract completion documentation to Windstream.
If I-PACK is supplied, upon completion Contractor will submit a corrected I-PACK to the
Windstream Project Manager and/or other, as specified in the I-PACK.
6.4. Revisions to the Installation Schedule
Conditions may arise at any time to impact the scheduled completion date of any Windstream
project. These conditions which may be the responsibility of either the Contractor or Windstream
or resulting from of damaged equipment, shipping delays or revisions to the job.
If it is determined that the completion date cannot be met, Windstream and the Contractor shall
agree on a new completion date and make the necessary changes to the Installation Agreement.
Extra work items caused by the revised installation schedule shall be negotiated and included in
the revised agreement.
6.5. Insulated tools
Installers shall use insulated tools when working near energized equipment. Wrenches that have
more than one working end shall have the non-working end insulated. The installer is responsible
to verify the insulation of insulated tools has not been damaged and is still within manufactures
specification.
6.6. Metallic Objects in Work Area
While working on live equipment, the Installer shall not wear rings, metallic wristwatch bands,
key chains, metallic eyeglass frames, metallic skin piercings or other metallic objects.
6.7. Equipment Installation
The Contractor shall protect equipment and personnel from injury when installing or removing
equipment.
Heavy equipment bays, tools, boxes, crates, etc., shall be lifted or transported only properly sized
lifting or hauling devices.
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The Contractor shall protect adjacent equipment from impact damage or dust accumulation when
drilling anchor holes for placement of new equipment. A vacuum equipped with a fine particle
filter (0.3 - 0.5 micron) is to be used to prevent dust while drilling.
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7. WORKMANSHIP
The information found in this section will be the basis for the Quality Assurance inspection at job
completion.
Since this document is generic in nature, the Contractor shall consider this document as a
minimum construction standard. If questions arise about the intent of any part of this document,
the Contractor shall notify the Windstream representative and request a resolution and directions.
7.1. Earthquake Bracing
According to the 1996 Southern Building Code, earthquake zones in the lower 48 states were as
illustrated below.
• Zone 1 – No requirements
• Zone 2 – Minor requirements
• Zone 3 – Major requirements
• Zone 4 – Disaster requirements
Figure 1 – SBC Seismic Zone Map
Graphic provided by NEHRP (Superceded, for Reference only)
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The revised code will be based upon the seismic motion map provided by the USGS’ National
Earthquake Hazard Reduction Program (NEHRP). The new data is shown in Figure 2.
Provided by
the NEHRP
Figure 2 - NEHRP Hazard Map
Consult with the Local Building Inspection Division to determine the local seismic zone
assignments and specific requirements for equipment bracing.
When earthquake bracing is required, special engineering, material and installation criteria apply.
The Windstream Engineer responsible for bracing in each state shall be consulted about
appropriate specifications for securing of the appropriate equipment frames per the seismic zone
and equipment load, anchoring devices, support for cable trays, battery stands, etc. Earthquake
bracing procedures shall be followed to satisfy the Windstream job completion and acceptance
requirements.
7.2. Fire Stopping
All cable openings through floors, ceilings, walls and/or firewalls shall be closed with the
appropriate intumescent method at the end of each working day or completion of cabling
activities. Bundled cables shall be fully compacted and laced prior to fire stopping.
The recommended method of fire / smoke stopping is accomplished with approved intumescent
and endothermic materials and high temperature caulking compound.
Occupied cable holes utilizing wool bag type firestop materials shall be upgraded to the preferred
materials when opened for a cabling addition or as soon as practical..
Cable holes shall not be filled beyond ¾ capacities to allow for firestop operating effectively.
Cable holes nearing or surpassing capacity shall be brought to the attention of Engineering.
When working within Qwest / AT&T facilities all personnel completing the 3M fire-stopping
seminar will be deemed certified to properly provide cable hole, penetration, and fire / smoke
protection fire stopping.
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7.3. Fire Stop Labeling
At the end of operations in a cable opening, the installer shall install a 3" x 6" pressure sensitive
label such that the label will tear when the fire stop brick and/or cover plate is removed. The label
shall include the Plate or Brick installer’s name, telephone number, project number or job number
and the date that the hole was fire-stopped.
All fire stop material shall be installed per the manufacturer’s recommendations.
7.4. Rack Relocation
When equipment bays or racks are removed or relocated, the floor shall be repaired to like-new
condition as follows:
• Remove the anchor insert.
• Fill the hole with epoxy based floor patch. When the floor patch has sufficiently cured,
smooth the patches down to match the surrounding surface.
• Seal the patched areas with sealer to match the seal on the existing floor.
• Replace any floor tile that has a hole that is greater than 2 inches in diameter.
• Screw Terminal Connectors for Circuits within a Rack
• Connections made to screw terminals with #14 through #22 gauge stranded, tinned
copper wire shall be made using the correct color insulated type terminal, such as the
T&B STA-KON or Burndy VINYLUG.
• Terminal lugs shall be UL approved. All terminal connectors shall be made of tin-plated
copper, have a welded seam with inspection hole and insulated barrel.
• Only ring terminal lugs are to be used. Spade lugs will not be allowed.
• The terminal shall have a single crimp applied by a ratcheting crimp tool that provides a
complete crimp before the tool can be removed.
• The correct tool and die shall be used to make the crimp per the manufacturer’s
recommendation.
• Every effort shall be made to use the FAP fuses to serve devices within the rack. If a
device must be located in an adjacent rack, then label the fuse feeding the adjacent rack
with its amperage rating, the type of device it serves, the location of the device outside
the rack (e.g. 0102.02.23) and the connection point on the device.
7.5. Cable Installation (See Cabling Standard or associated engineering standard for more detail on cable installation)
This section covers the general requirements for installing switchboard, DS1, coaxial, LAN, and
power cable, misc wire, and the routing of cable and cable segregation.
The Contractor shall provide all reel jacks, connector installation tools and other equipment
necessary to complete the cable installation. All cable installation material and tools shall be kept
away from existing equipment during pulling operations.
When new runs are being installed, the cables shall be protected from abrasion damage by use of
sheet protection or by use of pulling horns. Where the new cables may contact existing cables,
hanger rods and other points of contact, sheet protection shall be installed.
Wire with rubber or neoprene outer jackets must be protected with fiber before securing with
lacing cord at each point the cable is secured on the cable ladder and vertical supports.
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Cable that is run unsecured, can only be Signal or Alarming cables installed, on cable tray must
lie reasonably flat at in the center of the tray. The cable tray must be equipped with
nonconductive panning sized to fit properly in the cable ladder. Side horns or supports must be
installed to the cable ladder and cable may NOT lie above the height of the side horn. The side
horn may not be any longer than half the width of the cable ladder. Cables shall occupy the same
relative position on the tray at turns or bends. Power cables can never run unsecured in a
Windstream office
Additional lacing shall be installed, with Windstream approval, at locations where it appears that
the cable may curl, droop, spread, or where the wire will not stay parallel.
Use temporary blanketing material to protect all existing equipment from falling dirt during the
cable pulling process or drilling into the ceiling.
Where cables turn corners, the cables shall be temporarily secured with enough slack to permit
cable grooming during final securing.
During pulling operations, the ends of every cable shall be taped to protect the installer from cuts
and abrasions and to prevent electrical contact with energized equipment. There shall be enough
personal to safely handle and control large cable during installation.
All cables shall be installed with adequate temporary restraints to prevent injuries or equipment
damage from falling cable.
Cables that are to remain un-terminated shall be neatly coiled in the cable tray above the
destination equipment rack. Apply a temporary label identifying the source and final destination
of the un-terminated cable. Power cables fuse must not be installed, the circuit breakers must be
in the OFF positions, and tagged “DO NOT TURN ON”
At no time should cables or wire be supported by, threaded rod or conduit, two-bar or any support
material. All threaded rod must have cable protection tubing on the threads above the cable ladder
the width of the cable ladder at a minimum to prevent damage to the cable insulation.
Cable trays and other unapproved elevated work surfaces shall not be used to support installation
personnel or pulling equipment.
Unless otherwise stated by the Windstream Project Engineer a service loop of at least 12 inches,
which must be neatly dressed in, be maintained in all cables after connecting operations are
completed so that they may be removed and reconnected if necessary.
Wire shall be dressed in such a manner as to avoid excessive strain and congestion, to ensure
accessibility for maintenance and future applications, and to maintain clearance between
terminals.
Cables should not be twisted or bent in such a way that might cause damage to the cable. No
cable is to be installed with sharp 90 degree bends, installation of cables shall have shallow
bending radius and the bend radius chart in section 7.5.5 shall be the standard.
All cable in a relay rack must run vertically up to the ladder rack or fiber tray and over to the next
relay rack. Under no circumstances can cable be run directly between relay racks. When going
up to the ladder rack cable must come up over the side and never between ladder rack rungs.
7.5.1. Blocked Cable Runs
If a blocked cable run is encountered, contact Windstream for instructions.
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7.5.2. Cable Protection
Cables shall be protected from damage due to abrasion or compression at points of contact with
cable trays, hanger rods, cable falls to equipment, within equipment and all other locations where
the cable may become damaged.
Use sheet or formed fiberboard (sometimes-called fish paper) at all points where cable damage
may occur. The tube shall be at least as long as the cable may be stacked.
Use two sheets of 1/64" or one sheet of 1/32" thick fiber at all pressure points along the cable.
Secure the fiber to the contacting surface with twine.
7.5.3. Securing Cables with Twine
All temporary labels shall be removed prior to final sewing, and all temporary supports shall be
removed as cables are secured in.. Cables that are installed in trays with retaining brackets need
not be stitched except where cables exit the tray.
Use 9 or 12-ply waxed nylon cord for all sewing and banding operations.. The installer is to use
the correct number of strands of 9 or 12-twine to properly secure the cable being installed. Cables
will be laced using the Kansas City stitch and/or Chicago stitch.
Twine shall be tensioned just tight enough to hold cables in-place but not so tight that the outer
insulation of the cables is deformed. Cables damaged by improper lacing will be replaced at the
contractor’s expense.
Secure cables and wire run on horizontal tray type cable trays at the first, last, and alternate rung
so that the cable is lay uniform the length of the run, also additional laces may need to be added
to achieve proper installation. Secure cables and wire run on vertical trays and inverted horizontal
cable trays at every rung.
The unsupported wire or cable shall not sag greater than 0.5"between supports.
7.5.4. Nylon Cable Ties
Nylon cable ties may be used for securing of cables in the Windstream network but their use must
meet Windstream standards. The use of Nylon cable ties in any Windstream facility must have
the Windstream Project Engineer’s approval and may require higher Windstream management
approval BEFORE installing them. Application of nylon ties shall not cause deformation of the
cable insulation or jacket. Nylon cable ties may never be used to permanently secure any DC
Power cables to the cable ladder or nylon cable ties are not to be used for banding or securing
fiber optic jumpers or cables.
Note: Fiber optic jumpers that need to be secured outside of the fiber protection will be
secured with Velcro ties.
Cable Ties shall be tensioned just tight enough to hold cables in-place but not so tight that the
outer insulation of the cables is deformed. Cables damaged by improper uses of cable ties will be
replaced at the contractor’s expense.
Cable Ties used for banding and securing of cable, fiber protection, PVC protection etc., shall be
of adequate size, type, strength, etc., for the particular application. Cable ties shall not exceed the
manufacture’s specification for minimum or maximum inside diameters and/or tension
requirements. Tensioning and cutting of cable ties shall be accomplished using an approved
tensioning and cutting tool (example: Greenlee Cable Tie Installation Gun). The tool shall be a
continuous variable tension type to accommodate variable size ties.
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CAUTION: Diagonal wire cutters or cutting devices, other than the approved
tool, shall not be used for cutting the end of cable ties since this may result in exposing
hazardously sharp ends
The cut end of a cable tie shall not protrude past the locking head. Under no circumstances shall a
cable ties have a sharp or jagged cut ends protruding from the locking head. A cable tie is
considered to have sharp or jagged ends when it is sharp to the touch
Secure cables and wire run on horizontal tray type cable trays at the first, last, and alternate rung.
Secure cables and wire run on vertical trays and inverted horizontal cable trays at every rung.
The unsupported wire or cable shall not sag greater than 0.5"between supports.
7.5.5. ISP Cable Bending Radius
Cables shall not be installed with bending radii less than recommended by the cable manufacturer
or as required by the LEC/ILEC/CLEC/OCC or other providers or as shown in the following
table, whichever is greater.
Table 1 - ISP Cable Bending Radius
Cable Power Cable Ground Cable Diameter Bend Radius
14 Stranded 1/2” N/A N/A N/A
14 Solid 3/4” N/A N/A N/A
#12 - #10 2” N/A N/A N/A
#8 - #4 4” 12" N/A N/A
#2 – 1/0 6” 12" N/A N/A
2/0 – 4/0 10” 12" N/A N/A
300 MCM - 500 MCM 12” 18" N/A N/A
600 MCM – 750 MCM 14” 24" N/A N/A
Type 720 Coax N/A N/A N/A 1.6"
Type 734 Coax N/A N/A N/A 2½"
Type 735 Coax N/A N/A N/A ¼"
RG-59 Coax N/A N/A N/A 2½"
Fiber N/A N/A N/A 10 times the diameter of jacket
Round N/A N/A Up to 0.5" 3"
Round N/A N/A 0.51" to 1.0" 4"
Round N/A N/A Over 1.0" 6"
Oval bend on flat face N/A N/A Any 2"
Oval bend on round face
N/A N/A Any 3"
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Minimum Fiber Bending Radius
Lightguide Bending Radius
Single Fiber 2 Inches
Dual Fiber 2 Inches
Quad 2 Inches
Ribbon Fiber 2 Inches
7.6. Cable Routing and Segregation on Cable Tray
The sequence of cable installation should be planned to minimize crossovers and undesired
stacking of cables. Placement of cables on the cable tray should produce an evenly stacked and
evenly dispersed cable run along the cable tray.
Cables shall be uniformly placed when making turns in the cable tray. Short cuts will not be
allowed.
At sites where the cable tray is located over the equipment, the front side will be used for express
cables since most cables terminate on the rear. Waterfall the cable over the edge of the tray for
units in the lower rack spaces.
At sites where cable tray is located over the wiring aisle, the center of the tray will be used for
express cables. Cables to equipment on either side of the aisle will be routed down the
appropriate side of the tray. Waterfall the cables over the edges of the tray and not through the
tray.
Cables shall exit the cable tray over the side of the stringer. Cables shall not exit the tray through
the cable tray rungs.
All cable shall be protected at break-off points, cable tray stringers, etc., with formed fiber paper
or two layers of sheet fiber, tied into place with lacing cord.
Cables shall be laced to each tie bar on the vertical run in the equipment bay. Nylon cable ties
will not be used to secure cables. Nylon cable ties may be used to assist in the placement of
cables as long as all cable ties are removed upon completion.
Wire shall be carefully formed to avoid excessive strain and congestion, to insure accessibility for
maintenance, and to maintain clearance between terminals.
Spares and unused pairs will be left long enough to reach any circuit served by that cable, folded
back, and laced into the existing form.
7.6.1. Mixing Cable On Cable Tray
Switchboard, DS1, coaxial, and LAN cable along with misc wire can be run and mixed on a
common cable tray. Power cable including misc wire for small amperage fusing shall be run on a
separate cable tray dedicated to power. No un-fused/battery power cable is to be run with
fused/protect cables, no exceptions. All power cables pairs -48 VDC and Return shall be run
together.
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7.6.2. Cable Pile-up on Cable Tray
Based upon 5-foot intervals between supports, the permissible pile-up for cabling on horizontal
cable tray is as follows:
Table 2 - Signal Cable Pile-up
Width of Tray Pile-up, Secured Cable Pile-up, Unsecured Cable
6" – 12" 5" Width of tray
13" – 24" 12" 15"
25" – 36" 12" 15"
7.7. Cable Routing and Segregation within Equipment Racks
7.7.1. Switchboard Cable
Switchboard cable, also referred to as Unshielded Twisted Pair – (UTP) cable and tightly twisted
LAN cable shall be evenly distributed in the right and left equipment rack cable ducts or on cable
tie bars based on the equipment termination location and/or supplier documentation to minimize
cable congestion.
7.7.2. DS1 Cable
DS1 cable, also referred to as Shielded Twisted Pair – (STP) cable shall be evenly distributed and
separated into transmit and receive groups wherever possible. Transmit cables should be routed
up one side of the equipment rack and receive cables routed up the other side of the rack based on
the equipment termination location and/or supplier documentation to minimize Near End
Crosstalk – (NEXT).
7.7.3. Coaxial Cable
Although Near End Crosstalk – (NEXT) is not a concern for DS3 circuits due to individual
conductor shielding, separate coax cables including separate multi-conductor coax cables for
transmit and receive shall be maintained wherever possible for ease of installation and
maintenance.
Combining transmit and receive within the same multi-conductor coax cable shall be limited to
applications where the appropriate cable is not available through CR inventory.
Example applications:
Three (3) DS3’s Six (6) conductor 73406 or 73506 is acceptable
Six (6) DS3’s Twelve (12) conductor 73512 is acceptable
Twelve (12) DS3’s Twenty-four (24) conductor 73524 is acceptable
7.8. Power and Grounding Cable
Power cable shall be run in dedicated cable trays. All Grounding cables shall be run on separate
cable ladder sidebar supports and NEVER run intermingled with other office cables.
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It is preferred that each Equipment Rack or Frame have a dedicated Fuse Panel/Circuit Breaker
Panel for powering equipment loads. With Managers approval equipment installed in relay racks
immediately adjoining the relay rack that has the fuse panel may be powered from that fuse panel.
7.8.1. Cabling Requirements
Power cables shall be laced to the cable tray with a minimum of waxed 9 ply lacing cord using a
doubled power stitch. Larger cables (250 MCM or larger) require doubling the power stitch again.
The smallest allowable power cable on a cable ladder is a 14 AWG stranded or solid cable.
Planning the sequence of power cable placement is essential to prevent crossovers. Crossovers in
power cable runs should be minimized.
All H-Taps shall be made with the correct die and tool. All H-Taps for power cables should be
done in the cable ladder never in the uprights of the rack. Under no circumstances should H-Tap
splices be left free hanging.
The battery and battery return leads are paired circuits and must be run together on a dedicated
cable tray.
Wire and cable turning off or passing over cable tray stringers require protection by formed fiber
or two layers of sheet fiber tied into place with lacing cord. Power cables shall exit a cable tray
over the side only. Power cable shall not exit through the cable tray rungs.
Heat shrink used on all power and ground connectors should be clear. Black shall not be used in a
Windstream site. The heat shrink shall extend up the cable pass the lug barrel the length of the lug
barrel and cover the whole lug barrel. All power lugs shall be two-hole with inspection window in
the end of the barrel. A light coat of No-ox is to be applied to the bare cable end before the lug is
crimped on the cable.
The Contractor shall initiate and maintain a Lockout-Tagout process for all electrical work.
The Contractor shall attach 145C tags (Graybar # 100393156) using a P-Touch label maker and
black on clear tape. See WSP-3039 for details.
Wire size #8 and larger requires that a proper connector and crimp tool be used. The connector
shall be marked to indicate the following information:
• The UL approved wire size and stranding
• The proper size die code (identified by either stamp or by color code)
• The UL and manufacturer's trademark embossed on the connector
• The number and location of crimps by color code stamped or embossed on the connector.
• Acceptable connectors are manufactured by Thomas & Betts (T&B) and Burndy.
• All connectors shall be constructed of tin plated copper. Aluminum or tin plated
aluminum connectors are not acceptable
• All bonding and grounding connectors shall be the ANSI 2 hole crimp type (#12 AWG
stranded and larger) except when the equipment specification requires a one-hole
connector.
• Lock washers sized to match the bolt will be used on all connectors.
• Mechanical (setscrew compression) connectors shall not be used in any circumstances for
grounding or power.
• Non-reversible H-Taps will be constructed of tin plated copper and shall be UL listed. A
hydraulic crimp tool will crimp H-Taps with a minimum 9-ton crimp capability and a
circular die. H-Taps shall be installed with a UL approved insulating cover that is secured
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on each end by waxed cord. C-Taps shall not be used to make power and ground
connections.
7.8.2. Repairing Cable Damage
Cable damage shall be repaired as follows:
Table 3 - Cable Repair Methods
Cable Type Damage Repair Method
PVC Cable Scuffs, abrasions and marks Can be repaired with electrical tape.
PVC Cable Major damage to outer jacket but without inner conductor insulation damage.
Replace the cable.
PVC Cable Major damage with inner conductor insulation damage.
Replace the entire cable.
Power Cable Scuffs, abrasions, and marks. Can be repaired with electrical tape.
Power Cable Exposed conductors. Replace the entire cable.
7.9. Cable Termination Tools
Tools used in the preparation of cables for wiring shall be of the type specified by the cable and
connector manufacturers and approved by Windstream.
7.10. Cable Verification
Verify that all conductors are routed correctly between termination points prior to termination.
The test equipment may be a volt-Ohm-meter or other suitable test device that does not cause
conductor damage.
Cabling Change Approval
Windstream must approve all changes in connections from those shown in the construction
drawings. All changes made to connections shall be identified in the “As Built” job package.
7.11. Cable Preparation and Termination
7.11.1. Wire Wrapping
Wire wrapped connections shall be installed and removed with an approved tool. The quality of
the connection is based on the proper number of turns, clearances, tolerances, and tension that the
connection was made with. A turn shall begin at the insulation and continue through a minimum
of 5 turns (see Table 4). Shiners/fish tails should be reconnected.
An unacceptable wire wrapped connection must be re-skinned and re-terminated.
For smaller conductors, 26, 28, 30, 32 AWG, one full wrap of insulation is required in addition to
the required number of wraps. The number of turns is counted from the point where the skinned
wire touches the first terminal corner.
Insulation must be within 1/16 inch (0.0625") of the wiring terminal.
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Table 4 - Wire wrap Skinning Lengths
Gage Pin Type Skinning Length Minimum Wraps
24 Embossed 0.009 or 0.10 inch 1 1/2 inches 6
20 - 24 Square, Rectangle or Embossed 1 5/8 inches 22 - 5, 24 – 6
22 - 24 Twisted, Coined, or Serrated 1 5/8 inches 22 - 5, 24 – 6
26 - 30 Square, Rectangle or Embossed 2 inches 7
26 – 30 Square 0.025 inch 1 1/8 inches 7
26 Embossed 0.009 / 0.10 inch 1 5/8 inches 7
7.11.2. Soldered Connections
Soldered connections are not permitted in Windstream facilities.
7.11.3. Coaxial Cable
Coaxial connectors shall be placed on the cable at the point of termination and shall be free of
strain and twists when attached to the mating connector. Refer to WSP 3444 (Wire Connections
Standard).
Coaxial cable shall not be spliced except for temporary restoration of service.
Coax connectors shall be the crimp type and be attached to the coax cable by crimping the center
pin as well as the sleeve with the approved crimp tool and die. Screw on and non-sleeve type
connectors are not permitted in Windstream facilities.
All coaxial cables terminating with a BNC, TNC, Mini-WECO, or WECO connection shall be
purchased from Trompeter Electronics Inc. Use of other after-market connectors is not permitted
due to the unreliability of those connectors. Connectors for coaxial cables should only be
terminated by individuals who have been certified by Trompeter, Windstream or other reputable
organization on the operation of all crimp tools and cutters involved in the cable termination
process. All tools associated with the termination of coaxial cable will be purchased from the
manufacturer or other approved vendor. The center conductor crimper will be no less than a 12-
point center contact crimper.
When terminating coaxial cable, verify the following:
• Center pin height
• Ensure that no shielding is showing above the crimp sleeve
• Use all available inspection holes as intended
• Cutting tool was set properly and cutting depth is correct
• Integrity of all connectors using appropriate testing tools
7.11.4. Connectors and Terminations
Connectors shall be of the type and size specified in the construction documents. Only connectors
that are listed by a nationally recognized laboratory shall be installed.
Copper bus bar connection surfaces shall be burnished with “3M” industrial scouring pads prior
to treating with a thin coat of No-Ox-Id or Penetrox E grease. Sandpaper, emery cloth and other
abrasive material that contains corundum-type particles shall not be used on copper. Plated
connection surfaces shall not be burnished prior to connection.
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If the equipment manufacturer has a written procedure for making connections, the Contractor
shall follow that procedure. If no written procedure is available, the order of assembly shall be as
shown below for conventional lock washers and for Belleville washers.
Figure 1 - Bolted Connection Assembly
7.11.5. Making Energized Power Connections
Every effort shall be made to avoid making connections to energized circuits. If the work cannot
be rearranged to eliminate the necessity for an energized connection, then the MOP shall provide
detailed instruction for completing the connection.
Prior to making any live power connection, the installer shall verify that the polarity of the
components to be connected is correct and the voltage differential between energized sources is
less than 0.5 VDC.
Belleville Washer
Hard flat Washer
Conventional Lock Washer
Flat Washer
Lug or Bus
Flat Washer
Lock Washer
Hex Nut
Bus bar
No-Ox-IdLug or Bus
Hex Nut
Bus bar
No-Ox-Id
Belleville Washer
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8. BONDING AND GROUNDING (SEE GROUNDING STANDARDS THAT APPLY TO THE JOB)
This section covers installation requirements for Contractor-installed bonding and grounding
elements in Windstream facilities.
The Contractor is responsible for maintaining the integrity of the grounding systems and for
providing the necessary tools and miscellaneous supplies to complete the grounding system per
the construction documents.
8.1. Inside Plant Grounding Systems
Grounding systems are described in WSP-3263 (Inside Plant Grounding and Bonding Standard)
and additional information is listed below.
The Grounding elements in a Windstream facility are identified as follows:
• Master System Ground Bar (MSGB) located in the central office near the primary
grounding electrode.
• Cable Entrance Ground Bars (CEGB) usually located inside the building near the cable
entry point.
• Floor Ground Bars (FGB), located at a central point in the office to be convenient to
connect to central office equipment bays.
• Isolated Ground Bars (IGB), located near switches and other equipment that require
electrical and mechanical isolation from other equipment.
• Non-isolated Ground Bars (NGB), located centrally to equipment not required to be
isolated.
The wire size used to interconnect these ground bars will be determined by Windstream in accord
with the Inside Plant Ground Bond standard currently under development. All grounding cables
must be labeled as defined by Windstream labeling standards (see WSP-3039; Equipment and
Cable Labeling Standards) and shall be clearly marked “Grounding Cable. Do Not Remove”.
Ground wires shall not be run in cable troughs; they must be installed on cable support brackets
hanging below the cable tray. Vertical runs shall be supported to the side of the cable tray with
waxed lacing cord at 8 to 12 inch intervals. AC conduits or raceways shall not be used to support
grounding conductors.
Ground conductor mounting hardware shall not completely encircle the conductor.
Nylon tie wraps shall not be used to secure ground conductors.
8.2. Grounding Bays, Frames and Line-ups
Each lineup requires an aisle ground feeder. The rear aisle feeder shall connect to the main aisle
feeder or to the central office ground bar. The main aisle feeder shall connect to the Central
Office Master Ground Bar or the Floor Ground Bar.
Each frame or equipment bay requires a #6 AWG to the aisle feeder. A two hole-#6 compression
connector shall be used for the frame ground connection. Paint must be removed from the contact
surface area that can be verified after the connector is in place. A thin coat of No-Ox-Id or
Penetrox E grease must be applied to the contact surface.
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The #6 ground conductor must be neatly curved and routed to the aisle feeder so that the feeder
end is pointing in the electrical direction of the Floor Ground Bar. The minimum bending radius
shall be 6 inches.
8.3. Outside Plant Cable Entry Points
Each outside plant cable entry point shall have a CEGB (Cable Entry Ground Bar). The CEGB
shall be grounded to the building Master Ground Bar.
Sheathed cables or cables with metal strength members shall have these metal conductors
grounded and terminated on the CEGB. A minimum of 3 inches of sheath or conductive strength
member must be removed from the cable between the CEGB ground point and the central office
equipment room.
The isolated metallic portion of the sheath between the CEGB and the ISP termination cabinet
shall be bonded to the ISP termination cabinet ground bar.
8.4. Fiber Optic Cable Grounding
Fiber optic cable containing a conductive strength member or metal sheathing shall be grounded
at the CEGB or first point of entry into the space. Non-metallic cables need not be grounded.
Metallic talk pairs in a fiber cable must be terminated at a protection block near the CEGB.
8.5. Shielded Cable Grounding
Shielded cables that are run within the central office shall be grounded only at the active
(transmit) equipment end. This ground connection is to prevent cross talk and ground loops rather
than to provide fault protection.
The shielded cable sheath drain wire can be bonded to the frame ground using wire wrap or by
attaching a crimp lug.
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9. EQUIPMENT LABELING
Equipment and cable labels must be at the proper locations, legible and must conform to the
construction documents.
The Contractor shall ensure that all equipment added, rearranged or modified is properly
installed. Labels, designations or other markings shall comply with Windstream installation
specifications.
See WSP-3039 (Equipment and Cable Labeling Standards) for detailed labeling instructions.
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10. ELECTROSTATIC DISCHARGE (ESD)
This section covers the requirements for Contractors performing services at Windstream
locations. The Contractor is responsible for providing necessary apparatus for following
practices, which present the risk of Electrostatic Discharge damage to sensitive devices.
The installation Contractor shall ensure that all equipment added, rearranged or modified is
properly installed and in conformance with Windstream installation specifications and WSP-3025
(Electrostatic Discharge (ESD) Standards).
10.1. Worker Certification
The Contractor must provide only Windstream ESD-certified workers to perform any task in or
near equipment that is subject to damage from electrostatic discharge. The Contractor shall
provide copies of Windstream certification statements for each worker. The Certification process
and required forms are found in WSP-3025.
10.2. Tools
Installation Contractors must supply and use the following devices to insure an adequate
Electrostatic Discharge protection program:
• Each installer handling ESD sensitive devices shall wear an ESD wrist strap.
• Portable static-free workstation as required by the installation.
• Anti-static cushioning or void-filling material for packaging.
10.3. Protection
Contractors must insure that employees conform to the following procedures:
• ESD sensitive devices must be kept inside its anti-static bag and box during storage. It
should be opened in front of the bay in which it is going to be used. Prior to removing the
contents, installers must wear an ESD strap.
• Installers must keep ESD generating items away from the ESD protected work area.
These items include common plastics, coffee cups, cigarette packages, food wrappers,
adhesive tape and labels.
• Installers must not use plastic tools or a plastic solder sucker in the ESD protected area.
• Soldering irons should be isolated from the AC source with the tip ground at the same
potential as the static-free work station.
• Test equipment must be at the same ground potential as the ESD sensitive device being
tested.
• Installers must handle bare circuit pack devices by the latch, or ground, or around the
edge, never touching the components, connector pins or leads. Bare circuit packs must be
handled inside the static-free workstation.
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11. FIBER CABLES
This section covers Windstream requirements for running, terminating and grounding fiber optic
cables and jumpers.
11.1. OSP Cable Route Diversity
“East” and “West” OSP fiber optic cables shall be brought into the fiber entrance cabinet (FEC)
or Splice Panel in separate conduits. Metallic members of OSP fiber optic cables shall be
terminated on the Cable Entrance Ground Bar (CEGB) as soon as possible after entering the
building. Metallic members from OSP cable shall not extend into the central office environment
beyond the CEGB.
11.2. ISP Pigtail Route Diversity
Within the central office environment, the “East” and “West” fiber pigtails between the FEC and
the Fiber Distribution Bay (FDB) shall be installed in diverse route fiber optic ducts.
11.3. ISP Jumper Route Diversity
Within the central office environment, the “East” and “West” fiber jumpers between the Fiber
Distribution Panel (FDP) and the end equipment (with the exception of Line Amplifiers and
Regenerators on Ring Systems) shall be installed in diverse route fiber optic ducts.
Fiber jumpers shall be run in dedicated fiber guide of sufficient size to prevent congestion and
allow access for maintenance.
11.4. Installation
When possible, slack in OSP cables shall be stored in the cable vault so that cable may be pulled
back and re-terminated or spliced.
When slack in fiber optic cable is required, slack shall be stored in a fire retardant box of
sufficient size to prevent damage from excessive bending radii.
11.5. Jumpers
• Fiber optic jumpers shall have a minimum-bending radius of 2 inches. Fiber jumpers
shall not make any sharp bends, cross over metal edges.
• Fiber optic jumpers shall be placed in the Fiber Guide without restraint. Jumpers shall not
be laced or tie-wrapped at any point in its run.
• Fiber optic jumpers that need to be secured outside of the fiber protection will be secured
with Velcro ties.
• Fiber optic warning labels, usually provided by equipment manufacturers, shall be placed
on fiber trough runs.
• When running fiber in a Windstream site, it is important to maintain good fiber
management in order to increase system reliability and reduce human error. While
working with fiber can at times be tedious, extreme care should always be taken when
fiber is involved.
• Never look into the end of a fiber. Typical wavelengths are not in the visible light
spectrum. The intensity of the beam from many of the amplifiers and transmitters is
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enough to damage the retina of the eye. Since it is often difficult to be sure whether a
fiber is connected to a transmitter or not, it is best to be safe and use a meter to determine
if light is present.
• Fiber cable should not be exposed. Fiber should be run in yellow or orange fiber guide
duct management system. Spit duct may be used at downspout drop locations to optical
equipment bays. Where fiber MUST be exposed (i.e. where the fiber terminates on the
equipment), it should be done in a manner that protects the fiber as much as possible.
• All fiber should be cleaned per WSP 6009 (Fiber Cleaning Standard).
• All Fiber storage should be done at the FDP slack storage. Slack storage should NEVER
be done on the equipment end. If the fiber lengths exceed the amount of storage available
in the slack storage at the FDP, new jumpers should be ordered.
• A minimum bend radius of 4" should be maintained at all times in order to avoid
attenuation of the fiber. Conduit and fiber duct sweeps should be engineered to meet the
4" bend radius at all times.
• Attenuators should be fixed in-line attenuators and applied at the FDP or network
equipment only. Variable attenuators (VOA) are acceptable in the Windstream network
in existing networks that currently have VOA deployed. All new network deployments
must have managers or higher approval before deployment of VOA and the VOA
manufactory and type must be approved by the Windstream engineer.
The requirements for splicing and handling Fiber Optic Cable can be found in WSP-3018 (Fiber
Splicing Standards).
The fiber optic jumper standards can be found in WSP-3204
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12. EQUIPMENT REMOVAL
This section covers the procedures to be followed when mining cable or when equipped circuits,
apparatus, frames, bays, units or batteries are removed or made spare.
When removing shelves or equipment bays, cable, etc., it is the responsibility of the Contractor to
maintain the integrity of the central office grounding system.
The Contractor shall ensure that all equipment added, rearranged, modified or removed is in
conformance with the installation agreement and Windstream standards.
A MOP may be required prior to the start of a removal project.
12.1. Removing DC Power Connections
When removals include disconnecting power from a MPD or BDCBB or BDFB (Main Power
Distribution, Battery Distribution Circuit Breaker Bay, or Battery Distribution Fuse Bay), fuse
panel or circuit breaker panel, the Contractor shall:
• Coordinate removal activities with Windstream. Power work on a live system will require
a maintenance window in addition to the MOP. No work on a live system should be done
outside the maintenance window.
• Before powering down any equipment, verify that all traffic has been groomed from the
system. When removing power from a bay, it is imperative to verify the breaker or fuse
positions to be turned off. Once every effort has been made to verify the fuse/breaker
locations, turn off the “B” side first and verify that the correct circuit has been turned off.
Repeat the procedure for the “A” side. Remove fuse designation information from the
panel.
• Verify that no voltage is present on the battery or battery return conductor. If the cable is
to be mined out later, insulate the exposed ends and ensure that the cables are labeled
with its termination point. Remove any breaker associated with the cable.
• Change drawings and documentation as necessary.
12.2. Removing Equipment from Bays
Before removing any bays or equipment, the contractor should verify that the equipment or rack
has been powered down. Additionally, the contractor must ensure that the equipment is not longer
service effecting and that its removal will not cause customer circuit interruption. Any cables that
are to be mined out at a later date should be labeled with termination points and the ends
sufficiently insulated.
• A MOP must be created and followed for all equipment removals in a Windstream site.
Always double check removal assignments to ensure that the correct piece of equipment
is being removed.
• The Contractor shall tag all equipment removed from the bay by equipment name,
number of the bay equipment was removed from and disposition of equipment as directed
by Windstream.
• Equipment shelves to be reused shall be prepared by removing wire connections and
labels denoting its previous use. Far end termination and identification labels shall also be
removed.
• When removing frames and bays from under auxiliary framing, pipe stanchions must
support the framing approximately at 5-foot intervals
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12.3. Cable Mining
When it is determined that power cable and other cable types as outlined in section 7.6.1 are not
to be reused, the abandoned cables shall be removed per the approved statement of work.
• Cable mining requires a MOP prior to cable removal activities.
• A cable is considered dead when both ends have been disconnected and cut at the top of
the removed bay.
• Cable mining operations shall be conducted from ladders or platforms so the removal
area is visible.
• Cable shall be removed in short runs of no more than 4 feet lengths to prevent rubbing or
abrasive damage to the insulating jackets of other cables by pulling long sections of cable
from the stack.
• No cable shall be cut unless one end of the cable is clearly visible and verification is
assured. Preferred method of verification is to hold an open end of the cable in one hand
while the cut is made. No cable shall be cut in the middle. Only cable cutters equipped
with a Ring guard are to be used.
• After cable mining is complete, the cable run must be restored. The remaining cable shall
be inspected for damage. Any tears or abrasions to any cable must be repaired and re-
laced.
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13. DEFINITIONS
Term/Acronym Definition
BDFB Battery Distribution Fuse Board. A BDFB is generally an intermediate
power frame at sites with an upstream MPD.
CEGB Cable Entrance Ground Bar
DC Direct Current. Obtained from the battery plant and distributed
through fuses or circuit breakers from the MPD (or to a BDFB) to
local or rack mounted Fuse and Alarm Panels (FAP).FAP.
FAP Fuse and Alarm Panel. Distributes DC via fuses or circuit breakers
within any equipment rack.
FDP Fiber Optic Distribution Panel
FEC Fiber Entrance Cabinet. A fireproof enclosure for terminating diverse
OSP routes and providing diverse routes for ISP cables.
ISP Inside Plant.
MGB Master Ground Bar
MOP Method of Procedure
MPD Main Power Distribution. A MPD is the first distribution point
normally located within the rectifier lineup in a site with BDFB. If
there is no distribution equipment between the MPD and the
downstream loads, then the MPD may be called a BDFB/BDCBB.
OSP Outside Plant
SMD Scheduled Maintenance Process Document.
STP Shielded Twisted Pair
UTP Unshielded Twisted Pair
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14. REFERENCES
The following define the minimum standards for construction, operation and maintenance of
Windstream facilities.
WSP-3263 Inside Plant Grounding and Bonding Standard
WSP-3204 Fiber Optic Patchcord and Attenuator Standard
WSP-3018 Fiber Splicing Standard
WSP-3025 Electrostatic Discharge (ESD) Standards
WSP-3039 Windstream Equipment and Cable Labeling Standards
WSP-3444 Wire Connection Standard
WSP-6009 Fiber Cleaning Standard
WSP-3685 DC Power Standards
ANSI/NFPA 70. National Fire Protection Association, National Electrical Code (NEC),
1999 Edition
ANSI/NFPA 101. National Fire Protection Association, Code for Safety to life from Fire in
Buildings and Structures. (Life Safety Code).
IEEE Std 142-1991. Institute of Electric and Electronic Engineers, IEEE Recommended
Practice for Grounding and Bonding of Commercial Power Systems.
IEEE Std 1100-1992. Institute of Electric and Electronic Engineers, IEEE Recommended
Practice for Powering and Grounding Sensitive Electronic Equipment.
ANSI C2-1997. American National Standards Institute, National Electrical Safety Code.
7 CFR 1751F-810. Code of Federal Regulations, Electrical Protection of Digital and
Lightwave Telecommunications Equipment.
GR-1502-CORE Central Office Environment Detail Engineering Generic Requirements
GR-1275-CORE Central Office Environment Installation/Removal Generic Requirements.
29 CFR 1910.268 Telecommunications, Subpart R, Special Industries
Except where application of other codes are mandated by local code authorities, the Telcordia
Technologies documents shall prevail. In all cases, the fire safety and life safety codes shall be
the basis for design.
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15. APPENDIX A
Approved Lug Manufacturers - Thomas & Betts - Burndy
Proper techniques for installing compression lugs:
1. Determine proper Connector for the cable size being used.
2. Cut and Strip the Insulation
a. Use a Ratcheting Cable Cutter to yield minimum conductor distortion
b. Take care to avoid nicking or cutting conductors (wire brush if required).
c. Only strip enough insulation required to fully insert the conductors into the connector barrel of the lug. See fig. 2.
3. Select the proper installing die and appropriate tool per lug manufacture specifications. a. Die and tool shall have the same manufacturer as lug unless stated otherwise by
lug manufacturer.
4. Locate tool with correct die in proper position on connector and activate tool.
a. When making multiple crimps, make the first crimp nearest the tongue and work towards the barrel end.
5. Place properly sized clear heat-shrinkable tubing at conductor connection.
a. Ensure that connector die code number is legible to allow for easy inspection.