San Juan School District Buildings & Grounds Department 36 West 200 North Blanding, UT 84511 435-678-1340 γ fax 435-678-1256
Douglas E. Wright Superintendents of Schools
Clayton H. Holt, CPA Business Administrator
Colby Davis Buildings & Grounds Director
May 24, 2013
Dear Vendor: San Juan School District is now soliciting Bids for Data Wiring work at Albert R. Lyman Middle School, San Juan High School, Blanding Elementary School, Zenos L. Black Vocational Building; all located in Blanding, Utah and Navajo Mountain High School located in Navajo Mountain, Utah. Vendor Bid must be submitted on or before 2:00 P.M. on June 18, 2013. Sincerely,
________________________ Colby Davis Buildings & Grounds Director San Juan School District
INTENT OF REQUEST FOR BID The intent of this invitation for bid is to solicit competitive bids from qualified vendors that furnish and install Data Wiring. SUBMISSION LOCATION AND DATE Bids must be submitted by 2:00 p.m. on June 18, 2013. Bids must be delivered to the San Juan School District Buildings & Grounds Department at 36 West 200 North, Blanding, Utah 84511. Bids must be clearly marked on the outside of the envelope “SEALED BID.” Emailed bids will be accepted and subject line must contain; Data Wiring. Email submissions to
[email protected]. VENDOR INQUIRIES All inquiries, including requests for site inspection, should be submitted in person, in writing, by telephone, by FAX or email to: Colby Davis Buildings & Grounds Supervisor San Juan School District 36 West 200 North Blanding, Utah 84511 Phone: (435) 678-1340 FAX: (435) 678-1256
[email protected] REQUEST FOR BID ADDENDA In the event that modifications, clarifications or additions to the request for bid become necessary, all vendors will be notified and receive written addenda. ACCEPTANCE OF BIDS San Juan School District reserves the right to accept or reject any or all bids. VENDOR SELECTION Vendor selection will be based on Data Wiring certified and qualified lowest bidder. NOTIFICATION OF VENDOR SELECTION Vendors will be notified of bid results. Bids will remain on file at the Buildings and Grounds Office for review by interested parties for seven days after award of contract. BID PREPARATION COSTS All costs incurred in the preparation and presentation of the bid shall be wholly absorbed by the vendor. All supporting documentation and manuals submitted with this bid will become the property of San Juan School District unless requested otherwise by the vendor at the time of submission.
SITE VISIT There will be a non-mandatory bid walk through on June 10, 2013 at 1:00 p.m. It will start at Albert R. Lyman Middle School, 535 North 100 East, Blanding, Utah 84511. This will be the only time owners representative will walk the site with bidders. It is strongly encouraged that all bidders visit the site to familiarize themselves with the scope of work based on the bid documents. No exceptions will be given to vendors that do not familiarize themselves with the scope of work.
SCOPE OF WORK Navajo Mountain High School - see drawing Albert R. Lyman Middle School – see drawing San Juan High School – see drawing Blanding Elementary School – see drawing Zenos L. Black Vocational Building – see drawing Bidders responsible for all work outlined in documents Vendor is responsible for measurements and existing conditions
The following package covers the supply and installation of: • •
Data Wire install/termination Support hardware
SPECIFICATIONS DOCUMENT Specifications for Data Wiring work for San Juan School District (Hereafter referred to as SJSD) Buildings and Grounds Department. Quality Assurance a. Installer’s Qualifications: Installer must be certified by listed manufacturer(s). b. Contractor must be prepared, willing and accommodating to random on-site inspections of all work, at any time, by SJSD’s representative during job progress. Insurance/Liability/Safety/Security a. The contractor must secure and maintain liability insurance (General and Auto) of an adequate amount, against claims for injuries to persons or damages to property which may arise from or in connection with the performance of the work hereunder. Insurance must be maintained for the duration of the project. Contractor must provide proof of insurance upon demand by SJSD (endorsement or policy) and agrees to, at all times, protect, indemnify, defend and hold harmless SJSD and SJSD employees from any and all claims. b. SJSD will assume no liabilities for the contractor including any of the contractor’s representatives, employees or properties. c. Contractor shall, at all times, keep the work area in a neat, clean, safe and secure condition to avoid the risk of loss, theft, vandalism or sabotage. d. Any damages occurring during the completion of this project, incidental or otherwise, to SJSD or adjacent properties must be repaired at the contractor’s expense and to the owner’s satisfaction. Notice to Proceed a. Notice to proceed will be in the form of a Purchase Order or Letter of Acceptance from SJSD Buildings and Grounds Department. Do not proceed without a Purchase Order or Letter of Acceptance. Payment a. Payments will be made as work is completed, and after SJSD representative approves of the work. Five percent (5%) of the total project costs will be retained until project completion, clean-up, inspection, warranty and approval is made by district representative. Pre-Installation Conference a. Prior to scheduled commencement of the Data Wiring installation and associated work, a meeting at the project site with the installer, SJSD’s representative, and any other persons directly involved with the performance of the work will be held. Purpose of meeting is to review foreseeable methods and procedures related to Data Wiring work.
Regulatory Requirements a. All work shall be performed in a safe, professional manner, conforming to all federal, state and local codes. Delivery, Storage, and Handling a. Follow manufacturer’s written guidelines. Schedule a. Date of completion: August 30, 2013 b. Liquidated damages will be $200 per day for every day after the completion date of each facility. Completion means the Data Wiring is terminated and tested at which point, manufacturer will produce cable system warranty. c. Start Date for All Buildings: June 24, 2013 d. Completion Date as Follows: a. Navajo Mountain High School - June 29, 2013 b. Zenos L. Black Vocational Building – July 6, 2013 c. San Juan High School - July 20, 2013 d. Albert R. Lyman Middle School – August 3, 2013 e. Blanding Elementary School – August 17, 2013
MONTICELLO ELEMENTARY SCHOOL SAN JUAN SCHOOL DISTRICT
MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
SECTION 271300 - COMMUNICATIONS BACKBONE CABLING
PART 1 - GENERAL
1.1
RELATED DOCUMENTS A.
1.2
Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section.
SUMMARY A.
1.3
Section Includes: 1. Pathways. 2. UTP cable. 3. 62.5/125-micrometer, optical fiber cabling. 4. Coaxial cable. 5. Cable connecting hardware, patch panels, and cross-connects. 6. Cabling identification products.
DEFINITIONS A.
BICSI: Building Industry Consulting Service International.
B.
Cross-Connect: A facility enabling the termination of cable elements and their interconnection or cross-connection.
C.
EMI: Electromagnetic interference.
D.
IDC: Insulation displacement connector.
E.
LAN: Local area network.
F.
RCDD: Registered Communications Distribution Designer.
G.
UTP: Unshielded twisted pair.
1.4
BACKBONE CABLING DESCRIPTION A.
Backbone cabling system shall provide interconnections between communications equipment rooms, main terminal space, and entrance facilities in the telecommunications cabling system structure. Cabling system consists of backbone cables, intermediate and main cross-connects, mechanical terminations, and patch cords or jumpers used for backbone-to-backbone crossconnection.
B.
Backbone cabling cross-connects may be located in communications equipment rooms or at entrance facilities. Bridged taps and splitters shall not be used as part of backbone cabling.
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PERFORMANCE REQUIREMENTS A.
1.6
General Performance: Backbone cabling system shall comply with transmission standards in TIA/EIA-568-B.1, when tested according to test procedures of this standard.
ACTION SUBMITTALS A.
Product Data: For each type of product indicated. 1. For coaxial cable, include the following installation data for each type used: a. Nominal OD. b. Minimum bending radius. c. Maximum pulling tension.
B.
Shop Drawings: 1. System Labeling Schedules: Electronic copy of labeling schedules that are part of the cabling and asset identification system of the software. 2. Cabling administration drawings and printouts. 3. Wiring diagrams to show typical wiring schematics including the following: a. Cross-connects. b. Patch panels. c. Patch cords. 4. Cross-connects and patch panels. Detail mounting assemblies, and show elevations and physical relationship between the installed components. 5. Cable tray layout, showing cable tray route to scale, with relationship between the tray and adjacent structural, electrical, and mechanical elements. Include the following: a. Vertical and horizontal offsets and transitions. b. Clearances for access above and to side of cable trays. c. Vertical elevation of cable trays above the floor or bottom of ceiling structure. d. Load calculations to show dead and live loads as not exceeding manufacturer's rating for tray and its support elements.
1.7
INFORMATIONAL SUBMITTALS A.
Qualification Data: Forqualified layout technician, installation supervisor, and field inspector.
B.
Source quality-control reports.
C.
Field quality-control reports.
D.
Maintenance Data: For splices and connectors to include in maintenance manuals.
1.8
CLOSEOUT SUBMITTALS A.
Software and Firmware Operational Documentation: 1. Software operating and upgrade manuals. 2. Program Software Backup: On magnetic media or compact disk, complete with data files. 3. Device address list. 4. Printout of software application and graphic screens.
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MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
QUALITY ASSURANCE A.
Installer Qualifications: Cabling Installer must have personnel certified by BICSI on staff. 1. Layout Responsibility: Preparation of Shop Drawings and Cabling Administration Drawings by an RCDD. 2. Installation Supervision: Installation shall be under the direct supervision of Registered Technician Level 2 Installer, who shall be present at all times when Work of this Section is performed at Project site. 3. Testing Supervisor: Currently certified by BICSI as an RCDD to supervise on-site testing.
B.
Surface-Burning Characteristics: As determined by testing identical products according to ASTM E 84 by a qualified testing agency. Identify products with appropriate markings of applicable testing agency. 1. Flame-Spread Index: 25 or less. 2. Smoke-Developed Index: 50 or less.
C.
Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.
D.
Telecommunications Pathways and Spaces: Comply with TIA/EIA-569-A.
E.
Grounding: Comply with ANSI-J-STD-607-A.
1.10 A.
1.11 A.
1.12 A.
1.13
DELIVERY, STORAGE, AND HANDLING Test cables upon receipt at Project site. 1. Test optical fiber cable to determine the continuity of the strand end to end. Use optical fiber flashlight or optical loss test set. 2. Test each pair of UTP cable for open and short circuits.
PROJECT CONDITIONS Environmental Limitations: Do not deliver or install cables and connecting materials until wet work in spaces is complete and dry, and temporary HVAC system is operating and maintaining ambient temperature and humidity conditions at occupancy levels during the remainder of the construction period.
COORDINATION Coordinate layout and installation of telecommunications pathways and cabling with Owner's telecommunications and LAN equipment and service suppliers.
SOFTWARE SERVICE AGREEMENT
A.
Technical Support: Beginning with Substantial Completion, provide software support for two years.
B.
Upgrade Service: Update software to latest version at Project completion. Install and program software upgrades that become available within two years from date of Substantial Completion. Upgrading software shall include operating system. Upgrade shall include new or revised licenses for use of software.
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MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
Provide 30 days' notice to Owner to allow scheduling and access to system and to allow Owner to upgrade computer equipment if necessary.
PART 2 - PRODUCTS
2.1
PATHWAYS A.
General Requirements: Comply with TIA/EIA-569-A.
B.
Cable Support: NRTL labeled for support of Category 6 cabling, designed to prevent degradation of cable performance and pinch points that could damage cable. 1. Support brackets with cable tie slots for fastening cable ties to brackets. 2. Lacing bars, spools, J-hooks, and D-rings. 3. Straps and other devices.
2.2
UTP CABLE A.
2.3
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. See Specification section 271500 Communication Horizontal Cabling
UTP CABLE HARDWARE A.
2.4
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. See Specification section 271500 Communication Horizontal Cabling
OPTICAL FIBER CABLE A.
2.5
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. See Specification section 271500 Communication Horizontal Cabling
OPTICAL FIBER CABLE HARDWARE A.
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. See Specification section 271500 Communication Horizontal Cabling
B.
Cross-Connects and Patch Panels: Modular panels housing multiple-numbered, duplex cable connectors. 1. Number of Connectors per Field: One for each fiber of cable or cables assigned to field, plus spares and blank positions adequate to suit specified expansion criteria.
C.
Patch Cords: Factory-made, dual-fiber cables in 36-inch lengths.
D.
Cable Connecting Hardware: 1. Comply with Optical Fiber Connector Intermateability Standards (FOCIS) specifications of TIA/EIA-604-2, TIA/EIA-604-3-A, and TIA/EIA-604-12. Comply with TIA/EIA-568-B.3.
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2. 3.
2.6
MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
Quick-connect, simplex and duplex, Type SC connectors. Insertion loss not more than 0.75 dB. Type SFF connectors may be used in termination racks, panels, and equipment packages.
COAXIAL CABLE A.
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Alpha Wire Company. 2. Belden CDT Inc.; Electronics Division. 3. Coleman Cable, Inc.. 4. CommScope, Inc. 5. Draka USA.
B.
General Coaxial Cable Requirements: Broadband type, recommended by cable manufacturer specifically for broadband data transmission applications. Coaxial cable and accessories shall have 75-ohm nominal impedance with a return loss of 20 dB maximum from 7 to 806 MHz.
C.
RG-11/U: NFPA 70, Type CATV. 1. No. 14 AWG, solid, copper-covered steel conductor. 2. Gas-injected, foam-PE insulation. 3. Double shielded with 100 percent aluminum polyester tape and 60 percent aluminum braid. 4. Jacketed with sunlight-resistant, black PVC or PE. 5. Suitable for outdoor installations in ambient temperatures ranging from minus 40 to plus 85 deg C.
D.
RG59/U: NFPA 70, Type CATVR. 1. No. 20 AWG, solid, silver-plated, copper-covered steel conductor. 2. Gas-injected, foam-PE insulation. 3. Triple shielded with 100 percent aluminum polyester tape and 95 percent aluminum braid; covered by aluminum foil with grounding strip. 4. Color-coded PVC jacket.
E.
RG-6/U: NFPA 70, Type CATV or CM. 1. No. 16 AWG, solid, copper-covered steel conductor; gas-injected, foam-PE insulation. 2. Double shielded with 100 percent aluminum-foil shield and 60 percent aluminum braid. 3. Jacketed with black PVC or PE. 4. Suitable for indoor installations.
F.
RG59/U: NFPA 70, Type CATV. 1. No. 20 AWG, solid, copper-covered steel conductor; gas-injected, foam-PE insulation. 2. Double shielded with 100 percent aluminum polyester tape and 40 percent aluminum braid. 3. PVC jacket.
G.
RG59/U (Plenum Rated): NFPA 70, Type CMP. 1. No. 20 AWG, solid, copper-covered steel conductor; foam fluorinated ethylene propylene insulation. 2. Double shielded with 100 percent aluminum-foil shield and 65 percent aluminum braid. 3. Copolymer jacket.
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H.
2.7
MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
NFPA and UL compliance, listed and labeled by an NRTL acceptable to authorities having jurisdiction as complying with UL 1655 and with NFPA 70, "Radio and Television Equipment" and "Community Antenna Television and Radio Distribution" Articles. Types are as follows: 1. CATV Cable: Type CATV. 2. CATV Plenum Rated: Type CATVP, complying with NFPA 262. 3. CATV Riser Rated: Type CATVR, complying with UL 1666. 4. CATV Limited Rating: Type CATVX.
COAXIAL CABLE HARDWARE A.
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Aim Electronics; a brand of Emerson Electric Co. 2. Leviton Voice & Data Division. 3. Siemon Co. (The).
B.
Coaxial-Cable Connectors: Type BNC, 75 ohms.
2.8
GROUNDING A.
Comply with requirements in Division 26 Section "Grounding and Bonding for Electrical Systems." for grounding conductors and connectors.
B.
Comply with ANSI-J-STD-607-A.
2.9
IDENTIFICATION PRODUCTS A.
2.10
Comply with TIA/EIA-606-A and UL 969 for a system of labeling materials, including label stocks, laminating adhesives, and inks used by label printers.
SOURCE QUALITY CONTROL
A.
Factory test cables on reels according to TIA/EIA-568-B.1.
B.
Factory test UTP cables according to TIA/EIA-568-B.2.
C.
Factory test multimode optical fiber cables according to TIA/EIA-526-14-A and TIA/EIA-568-B.3.
D.
Cable will be considered defective if it does not pass tests and inspections.
E.
Prepare test and inspection reports.
PART 3 - EXECUTION
3.1
ENTRANCE FACILITIES A.
Coordinate backbone cabling with the protectors and demarcation point provided by communications service provider.
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MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
WIRING METHODS A.
Wiring Method: Install cables in raceways and cable trays except within consoles, cabinets, desks, and counters and except in accessible ceiling spaces, in attics, and in gypsum board partitions where unenclosed wiring method may be used. Conceal raceway and cables except in unfinished spaces. 1. Install plenum cable in environmental air spaces, including plenum ceilings. 2. Comply with requirements for raceways and boxes specified in Division 26 Section "Raceway and Boxes for Electrical Systems."
B.
Wiring within Enclosures: Bundle, lace, and train cables within enclosures. Connect to terminal points with no excess and without exceeding manufacturer's limitations on bending radii. Provide and use lacing bars and distribution spools.
3.3
INSTALLATION OF PATHWAYS A.
Cable Trays: Comply with NEMA VE 2 and TIA/EIA-569-A.
B.
Comply with requirements for demarcation point, pathways, cabinets, and racks specified in Division 27 Section "Communications Equipment Room Fittings." Drawings indicate general arrangement of pathways and fittings.
C.
Comply with TIA/EIA-569-A for pull-box sizing and length of conduit and number of bends between pull points.
D.
Comply with requirements in Division 26 Section "Raceway and Boxes for Electrical Systems" for installation of conduits and wireways.
E.
Install manufactured conduit sweeps and long-radius elbows whenever possible.
F.
Pathway Installation in Communications Equipment Rooms: 1. Position conduit ends adjacent to a corner on backboard where a single piece of plywood is installed, or in the corner of room where multiple sheets of plywood are installed around perimeter walls of room. 2. Install cable trays to route cables if conduits cannot be located in these positions. 3. Secure conduits to backboard when entering room from overhead. 4. Extend conduits 3 inches above finished floor. 5. Install metal conduits with grounding bushings and connect with grounding conductor to grounding system.
G.
Backboards: Install backboards with 96-inch dimension vertical. Butt adjacent sheets tightly, and form smooth gap-free corners and joints.
3.4
INSTALLATION OF CABLES A.
Comply with NECA 1.
B.
General Requirements for Cabling: 1. Comply with TIA/EIA-568-B.1. 2. Comply with BICSI ITSIM, Ch. 6, "Cable Termination Practices." 3. Install 110-style IDC termination hardware unless otherwise indicated. 4. Terminate all conductors; no cable shall contain unterminated elements. Make terminations only at indicated outlets, terminals, cross-connects, and patch panels.
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5.
6. 7.
8.
9. 10. 11.
MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
Cables may not be spliced. Secure and support cables at intervals not exceeding 30 inches and not more than 6 inches from cabinets, boxes, fittings, outlets, racks, frames, and terminals. Install lacing bars to restrain cables, to prevent straining connections, and to prevent bending cables to smaller radii than minimums recommended by manufacturer. Bundle, lace, and train conductors to terminal points without exceeding manufacturer's limitations on bending radii, but not less than radii specified in BICSI ITSIM, "Cabling Termination Practices" Chapter. Use lacing bars and distribution spools. Do not install bruised, kinked, scored, deformed, or abraded cable. Do not splice cable between termination, tap, or junction points. Remove and discard cable if damaged during installation and replace it with new cable. Cold-Weather Installation: Bring cable to room temperature before dereeling. Heat lamps shall not be used for heating. In the communications equipment room, install a 10-foot- long service loop on each end of cable. Pulling Cable: Comply with BICSI ITSIM, Ch. 4, "Pulling Cable." Monitor cable pull tensions.
C.
UTP Cable Installation: 1. Comply with TIA/EIA-568-B.2. 2. Do not untwist UTP cables more than 1/2 inch from the point of termination to maintain cable geometry.
D.
Optical Fiber Cable Installation: 1. Comply with TIA/EIA-568-B.3. 2. Cable may be terminated on connecting hardware that is rack or cabinet mounted.
E.
Open-Cable Installation: 1. Install cabling with horizontal and vertical cable guides in telecommunications spaces with terminating hardware and interconnection equipment. 2. Suspend UTP cable not in a wireway or pathway, a minimum of 8 inches above ceilings by cable supports not more than 60 inches apart. 3. Cable shall not be run through structural members or in contact with pipes, ducts, or other potentially damaging items.
F.
Outdoor Coaxial Cable Installation: 1. Install outdoor connections in enclosures complying with NEMA 250, Type 4X. Install corrosion-resistant connectors with properly designed O-rings to keep out moisture. 2. Attach antenna lead-in cable to support structure at intervals not exceeding 36 inches.
G.
Group connecting hardware for cables into separate logical fields.
H.
Separation from EMI Sources: 1. Comply with BICSI TDMM and TIA/EIA-569-A recommendations for separating unshielded copper voice and data communication cable from potential EMI sources, including electrical power lines and equipment. 2. Separation between open communications cables or cables in nonmetallic raceways and unshielded power conductors and electrical equipment shall be as follows: a. Electrical Equipment Rating Less Than 2 kVA: A minimum of 5 inches. b. Electrical Equipment Rating between 2 and 5 kVA: A minimum of 12 inches. c. Electrical Equipment Rating More Than 5 kVA: A minimum of 24 inches. 3. Separation between communications cables in grounded metallic raceways and unshielded power lines or electrical equipment shall be as follows: a. Electrical Equipment Rating Less Than 2 kVA: A minimum of 2-1/2 inches. b. Electrical Equipment Rating between 2 and 5 kVA: A minimum of 6 inches. c. Electrical Equipment Rating More Than 5 kVA: A minimum of 12 inches.
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5. 6.
3.5
MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
Separation between communications cables in grounded metallic raceways and power lines and electrical equipment located in grounded metallic conduits or enclosures shall be as follows: a. Electrical Equipment Rating Less Than 2 kVA: No requirement. b. Electrical Equipment Rating between 2 and 5 kVA: A minimum of 3 inches. c. Electrical Equipment Rating More Than 5 kVA: A minimum of 6 inches. Separation between Communications Cables and Electrical Motors and Transformers, 5 kVA or HP and Larger: A minimum of 48 inches. Separation between Communications Cables and Fluorescent Fixtures: A minimum of 5 inches.
FIRESTOPPING A.
Comply with requirements in Division 07 Section "Penetration Firestopping."
B.
Comply with TIA/EIA-569-A, Annex A, "Firestopping."
C.
Comply with BICSI TDMM, "Firestopping Systems" Article.
3.6
GROUNDING A.
Install grounding according to BICSI TDMM, "Grounding, Bonding, and Electrical Protection" Chapter.
B.
Comply with ANSI-J-STD-607-A.
C.
Locate grounding bus bar to minimize the length of bonding conductors. Fasten to wall allowing at least 2-inch clearance behind the grounding bus bar. Connect grounding bus bar with a minimum No. 4 AWG grounding electrode conductor from grounding bus bar to suitable electrical building ground.
D.
Bond metallic equipment to the grounding bus bar, using not smaller than No. 6 AWG equipment grounding conductor.
3.7
IDENTIFICATION A.
Identify system components, wiring, and cabling complying with TIA/EIA-606-A. Comply with requirements for identification specified in Division 26 Section "Identification for Electrical Systems." 1. Administration Class: 1. 2. Color-code cross-connect fields and apply colors to voice and data service backboards, connections, covers, and labels.
B.
Comply with requirements in Division 09 Section "Interior Painting" for painting backboards. For fire-resistant plywood, do not paint over manufacturer's label.
C.
Paint and label colors for equipment identification shall comply with TIA/EIA-606-A for Class 2 level of administration.
D.
Comply with requirements in Division 27 Section "Communications Horizontal Cabling" for cable and asset management software.
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MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
E.
Cable Schedule: Install in a prominent location in each equipment room and wiring closet. List incoming and outgoing cables and their designations, origins, and destinations. Protect with rigid frame and clear plastic cover. Furnish an electronic copy of final comprehensive schedules for Project.
F.
Cabling Administration Drawings: Show building floor plans with cabling administration-point labeling. Identify labeling convention and show labels for telecommunications closets, backbone pathways and cables, terminal hardware and positions, horizontal cables, work areas and workstation terminal positions, grounding buses and pathways, and equipment grounding conductors.
G.
Cable and Wire Identification: 1. Label each cable within 4 inches of each termination and tap, where it is accessible in a cabinet or junction or outlet box, and elsewhere as indicated. 2. Each wire connected to building-mounted devices is not required to be numbered at device if color of wire is consistent with associated wire connected and numbered within panel or cabinet. 3. Exposed Cables and Cables in Cable Trays and Wire Troughs: Label each cable at intervals not exceeding 15 feet. 4. Label each terminal strip and screw terminal in each cabinet, rack, or panel. a. Individually number wiring conductors connected to terminal strips and identify each cable or wiring group being extended from a panel or cabinet to a buildingmounted device with name and number of particular device as shown. b. Label each unit and field within distribution racks and frames. 5. Identification within Connector Fields in Equipment Rooms and Wiring Closets: Label each connector and each discrete unit of cable-terminating and connecting hardware. Where similar jacks and plugs are used for both voice and data communication cabling, use a different color for jacks and plugs of each service.
H.
Labels shall be preprinted or computer-printed type with printing area and font color that contrasts with cable jacket color but still complies with requirements in TIA/EIA 606-A, for the following: 1. Cables use flexible vinyl or polyester that flexes as cables are bent.
3.8
FIELD QUALITY CONTROL A.
Perform tests and inspections.
B.
Tests and Inspections: 1. Visually inspect UTP and optical fiber jacket materials for NRTL certification markings. Inspect cabling terminations in communications equipment rooms for compliance with color-coding for pin assignments, and inspect cabling connections for compliance with TIA/EIA-568-B.1. 2. Visually inspect cable placement, cable termination, grounding and bonding, equipment and patch cords, and labeling of all components. 3. Optical Fiber Cable Tests: a. Test instruments shall meet or exceed applicable requirements in TIA/EIA-568-B.1. Use only test cords and adapters that are qualified by test equipment manufacturer for channel or link test configuration. b. Link End-to-End Attenuation Tests: 1) Horizontal and multimode backbone link measurements: Test at 850 or 1300 nm in 1 direction according to TIA/EIA-526-14-A, Method B, One Reference Jumper.
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MHTN PROJECT NO 2011557.00 BID PACKAGE No. 02
Attenuation test results for backbone links shall be less than 2.0 dB. Attenuation test results shall be less than that calculated according to equation in TIA/EIA-568-B.1.
C.
Data for each measurement shall be documented. Data for submittals shall be printed in a summary report that is formatted similar to Table 10.1 in BICSI TDMM, or transferred from the instrument to the computer, saved as text files, and printed and submitted.
D.
Remove and replace cabling where test results indicate that they do not comply with specified requirements.
E.
End-to-end cabling will be considered defective if it does not pass tests and inspections.
F.
Prepare test and inspection reports.
END OF SECTION 271300
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COMMUNICATIONS HORIZONTAL CABLING
PART 1 - GENERAL
1.1
RELATED DOCUMENTS A.
1.2
Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section.
SUMMARY A.
Section Includes: 1. UTP cabling. 2. Multiuser telecommunications outlet assemblies. 3. Cable connecting hardware, patch panels, and cross-connects. 4. Telecommunications outlet/connectors. 5. Cabling system identification products. 6. Cable management system.
B.
Related Requirements: 1. Division 27 Section "Communications Backbone Cabling" for voice and data cabling associated with system panels and devices.
1.3
DEFINITIONS A.
BICSI: Building Industry Consulting Service International.
B.
Consolidation Point: A location for interconnection between horizontal cables extending from building pathways and horizontal cables extending into furniture pathways.
C.
Cross-Connect: A facility enabling the termination of cable elements and their interconnection or cross-connection.
D.
EMI: Electromagnetic interference.
E.
IDC: Insulation displacement connector.
F.
LAN: Local area network.
G.
MUTOA: Multiuser telecommunications outlet assembly, a grouping in one location of several telecommunications outlet/connectors.
H.
Outlet/Connectors: A connecting device in the work area on which horizontal cable or outlet cable terminates.
I.
RCDD: Registered Communications Distribution Designer.
J.
UTP: Unshielded twisted pair.
COMMUNICATIONS HORIZONTAL CABLING
1
SAN JUAN SCHOOL DISTRICT
1.4
ADMINISTRATIVE REQUIREMENTS A.
Coordinate layout and installation of telecommunications telecommunications and LAN equipment and service suppliers.
B.
Coordinate telecommunications outlet/connector locations with location of power receptacles at each work area.
1.5
cabling
with
Owner's
ACTION SUBMITTALS A.
Product Data: For each type of product. 1. For cable, include the following installation data for each type used: a. Nominal OD. b. Minimum bending radius. c. Maximum pulling tension.
B.
Shop Drawings: 1. System Labeling Schedules: Electronic copy of labeling schedules that are part of the cabling and asset identification system of the software. 2. Cabling administration drawings and printouts. Provide the cable administration and labeling drawings as early on in the project as possible so the Owner can configure the patch panels and equipment racks for installation. 3. Wiring diagrams to show typical wiring schematics, including the following: a. Cross-connects. b. Patch panels. c. Patch cords. 4. Cross-connects and patch panels. Detail mounting assemblies, and show elevations and physical relationship between the installed components.
1.6
INFORMATIONAL SUBMITTALS A.
Source quality-control reports.
B.
Field quality-control reports.
1.7
CLOSEOUT SUBMITTALS A.
Maintenance Data: For splices and connectors to include in maintenance manuals.
B.
Software and Firmware Operational Documentation: 1. Software operating and upgrade manuals. 2. Program Software Backup: On magnetic media or compact disk, complete with data files. 3. Device address list. 4. Printout of software application and graphic screens.
1.8
QUALITY ASSURANCE A.
Installer Qualifications: Cabling Installer must have personnel certified by BICSI on staff. 1. Layout Responsibility: Preparation of Shop Drawings and Cabling Administration Drawings by an RCDD.
COMMUNICATIONS HORIZONTAL CABLING
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SAN JUAN SCHOOL DISTRICT
2.
3.
1.9
Installation Supervision: Installation shall be under the direct supervision of Registered Technician Level 2 Installer, who shall be present at all times when Work of this Section is performed at Project site. Testing Supervisor: Currently certified by BICSI as an RCDD to supervise on-site testing.
DELIVERY, STORAGE, AND HANDLING A.
Test cables upon receipt at Project site. 1. Test optical fiber cables to determine the continuity of the strand end to end. Use optical fiber flashlight or optical loss test set. 2. Test optical fiber cables while on reels. Use an optical time domain reflectometer to verify the cable length and locate cable defects, splices, and connector; including the loss value of each. Retain test data and include the record in maintenance data. 3. Test each pair of UTP cable for open and short circuits.
PART 2 - PRODUCTS
2.1
HORIZONTAL CABLING DESCRIPTION A.
Horizontal cable and its connecting hardware provide the means of transporting signals between the telecommunications outlet/connector and the horizontal cross-connect located in the communications equipment room. This cabling and its connecting hardware are called a "permanent link," a term that is used in the testing protocols. 1. Horizontal cabling shall contain no more than one transition point or consolidation point between the horizontal cross-connect and the telecommunications outlet/connector. 2. Bridged taps and splices shall not be installed in the horizontal cabling. 3. Splitters shall not be installed as part of the optical fiber cabling.
B.
The maximum allowable horizontal cable length is 295 feet. This maximum allowable length does not include an allowance for the length of 16 feet to the workstation equipment or in the horizontal cross-connect.
2.2
PERFORMANCE REQUIREMENTS A.
General Performance: Horizontal cabling system shall comply with transmission standards in TIA/EIA-568-B.1 when tested according to test procedures of this standard.
B.
Surface-Burning Characteristics: Comply with ASTM E 84; testing by a qualified testing agency. Identify products with appropriate markings of applicable testing agency. 1. Flame-Spread Index: 25 or less. 2. Smoke-Developed Index: 50 or less.
C.
Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.
D.
Grounding: Comply with J-STD-607-A.
COMMUNICATIONS HORIZONTAL CABLING
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SAN JUAN SCHOOL DISTRICT
2.3
UTP CABLE A.
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. CommScope, Inc. Uniprise 6E CMP 2. Leviton NextLAN Category 6+
B.
Description: 100-ohm, four-pair UTP, formed into 25-pair, binder groups covered with a blue thermoplastic jacket. 1. Comply with ICEA S-90-661 for mechanical properties. 2. Comply with TIA/EIA-568-B.1 for performance specifications. 3. Comply with TIA/EIA-568-B.2, Category 6E/+. 4. Listed and labeled by an NRTL acceptable to authorities having jurisdiction as complying with UL 444 and NFPA 70 for the following types: a. Communications, General Purpose: Type CM or CMG. b. Communications, Plenum Rated: Type CMP, complying with NFPA 262. c. Communications, Riser Rated: Type CMR, complying with UL 1666. d. Communications, Limited Purpose: Type CMX. e. Multipurpose: Type MP or MPG. f. Multipurpose, Plenum Rated: Type MPP, complying with NFPA 262. g. Multipurpose, Riser Rated: Type MPR or MPP, complying with UL 1666.
2.4
UTP CABLE HARDWARE A.
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. CommScope, Inc. UNJ600 2. Leviton Extreme 6+
B.
General Requirements for Cable Connecting Hardware: Comply with TIA/EIA-568-B.2, IDC type, with modules designed for punch-down caps or tools. Cables shall be terminated with connecting hardware of same category or higher and allowed by the cable manufacturer for warranty purposes.
C.
Patch Panel: Modular panels housing multiple-numbered jack units with IDC-type connectors at each jack for permanent termination of pair groups of installed cables. 1. Number of Jacks per Field: One for each four-pair conductor group of indicated cables, plus spares and blank positions adequate to suit specified expansion criteria.
D.
Jacks and Jack Assemblies: Modular, color-coded, eight-position modular receptacle units with integral IDC-type terminals. Terminations will be determined at site walkthrough, and finalized through addendum.
E.
Patch Cords: Factory-made, four-pair cables in appropriate lengths; terminated with eightposition modular plug at each end. 1. Patch cords shall have bend-relief-compliant boots and color-coded icons to ensure Category 6 performance. Patch cords shall have latch guards to protect against snagging.
2.5
CONSOLIDATION POINTS A.
Manufacturers: following:
Subject to compliance with requirements, provide products by one of the
COMMUNICATIONS HORIZONTAL CABLING
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SAN JUAN SCHOOL DISTRICT
1. 2. B.
2.6
CommScope, Inc. Leviton
Description: Consolidation points shall comply with requirements for cable connecting hardware. 1. Number of Terminals per Field: One for each conductor in assigned cables. 2. Number of Connectors per Field: a. One for each four-pair UTP cable indicated. b. One for each four-pair conductor group of indicated cables, plus 25 percent spare positions. 3. Mounting: Recessed in ceiling and Walls. 4. NRTL listed as complying with UL 50 and UL 1863. 5. When installed in plenums used for environmental air, NRTL listed as complying with UL 2043.
MULTIUSER TELECOMMUNICATIONS OUTLET ASSEMBLY (MUTOA) A.
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. CommScope, Inc. 2. Leviton
B.
Description: MUTOAs shall meet the requirements for cable connecting hardware. 1. Number of Terminals per Field: One for each conductor in assigned cables. 2. Number of Connectors per Field: a. One for each four-pair UTP cable indicated. b. One for each four-pair conductor group of indicated cables, plus 25 percent spare positions. 3. Mounting: Recessed in ceiling and Walls. 4. NRTL listed as complying with UL 50 and UL 1863. 5. Label shall include maximum length of work area cords, based on TIA/EIA-568-B.1. 6. When installed in plenums used for environmental air, NRTL listed as complying with UL 2043.
2.7
TELECOMMUNICATIONS OUTLET/CONNECTORS A.
Jacks: 100-ohm, balanced, twisted-pair connector; four-pair, eight-position modular. Comply with TIA/EIA-568-B.1.
B.
Workstation Outlets: Four-port-connector assemblies mounted in single or multigang faceplate. 1. Metal Faceplate: Stainless steel, complying with requirements in Division 26 Section "Wiring Devices." 2. For use with snap-in jacks accommodating any combination of UTP, optical fiber, and coaxial work area cords. a. Flush mounting jacks, positioning the cord at a 45-degree angle. 3. Legend: Factory labeled by silk-screening or engraving for stainless steel faceplates. 4. Legend: Machine printed, in the field, using adhesive-tape label. 5. Legend: Snap-in, clear-label covers and machine-printed paper inserts.
COMMUNICATIONS HORIZONTAL CABLING
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SAN JUAN SCHOOL DISTRICT
2.8
GROUNDING A.
Comply with requirements in Division 26 Section "Grounding and Bonding for Electrical Systems" for grounding conductors and connectors.
B.
Comply with J-STD-607-A.
2.9
IDENTIFICATION PRODUCTS A.
Comply with TIA/EIA-606-A and UL 969 for labeling materials, including label stocks, laminating adhesives, and inks used by label printers.
B.
Comply with requirements in Division 26 Section "Identification for Electrical Systems."
2.10
CABLE MANAGEMENT SYSTEM
A.
Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. iTRACS Corporation, Inc. 2. TelSoft Solutions.
B.
Description: Computer-based cable management system, with integrated database capabilities.
C.
Document physical characteristics by recording the network, TIA/EIA details, and connections between equipment and cable.
D.
Information shall be presented in database view, schematic plans, or technical drawings. 1. AutoCAD drawing software shall be used as drawing and schematic plans software.
E.
System shall interface with the following testing and recording devices: 1. Direct upload tests from circuit testing instrument into the personal computer. 2. Direct download circuit labeling into labeling printer.
2.11
SOURCE QUALITY CONTROL
A.
Factory test UTP cables on reels according to TIA/EIA-568-B.1.
B.
Factory test UTP cables according to TIA/EIA-568-B.2.
C.
Cable will be considered defective if it does not pass tests and inspections.
D.
Prepare test and inspection reports.
PART 3 - EXECUTION
3.1
ENTRANCE FACILITIES A.
Coordinate backbone cabling with the protectors and demarcation point provided by communications service provider.
COMMUNICATIONS HORIZONTAL CABLING
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SAN JUAN SCHOOL DISTRICT
3.2
WIRING METHODS A.
Install cables in pathways and cable trays except within consoles, cabinets, desks, and counters and except in accessible ceiling spaces and in gypsum board partitions where unenclosed wiring method may be used. Conceal pathways and cables except in unfinished spaces. 1. Install plenum cable in environmental air spaces, including plenum ceilings.
B.
Conceal conductors and cables in accessible ceilings, walls, and floors where possible.
C.
Wiring within Enclosures: 1. Bundle, lace, and train conductors to terminal points with no excess and without exceeding manufacturer's limitations on bending radii. 2. Install lacing bars and distribution spools. 3. Install conductors parallel with or at right angles to sides and back of enclosure.
3.3
INSTALLATION OF CABLES A.
Comply with NECA 1.
B.
General Requirements for Cabling: 1. Comply with TIA/EIA-568-B.1. 2. Comply with BICSI ITSIM, Ch. 6, "Cable Termination Practices." 3. Install 110-style IDC termination hardware unless otherwise indicated. 4. MUTOA shall not be used as a cross-connect point. 5. Consolidation points may be used only for making a direct connection to telecommunications outlet/connectors: a. Do not use consolidation point as a cross-connect point, as a patch connection, or for direct connection to workstation equipment. b. Locate consolidation points for UTP at least 49 feet from communications equipment room. 6. Terminate conductors; no cable shall contain unterminated elements. Make terminations only at indicated outlets, terminals, cross-connects, and patch panels. 7. Cables may not be spliced. Secure and support cables at intervals not exceeding 30 inches and not more than 6 inches from cabinets, boxes, fittings, outlets, racks, frames, and terminals. 8. Install lacing bars to restrain cables, to prevent straining connections, and to prevent bending cables to smaller radii than minimums recommended by manufacturer. 9. Bundle, lace, and train conductors to terminal points without exceeding manufacturer's limitations on bending radii, but not less than radii specified in BICSI ITSIM, "Cabling Termination Practices" Chapter. Install lacing bars and distribution spools. 10. Do not install bruised, kinked, scored, deformed, or abraded cable. Do not splice cable between termination, tap, or junction points. Remove and discard cable if damaged during installation and replace it with new cable. 11. Cold-Weather Installation: Bring cable to room temperature before dereeling. Heat lamps shall not be used for heating. 12. In the communications equipment room, install a 10-foot- long service loop on each end of cable. 13. Pulling Cable: Comply with BICSI ITSIM, Ch. 4, "Pulling Cable." Monitor cable pull tensions.
C.
UTP Cable Installation: 1. Comply with TIA/EIA-568-B.2. 2. Do not untwist UTP cables more than 1/2 inch from the point of termination to maintain cable geometry.
COMMUNICATIONS HORIZONTAL CABLING
7
SAN JUAN SCHOOL DISTRICT
D.
Open-Cable Installation: 1. Install cabling with horizontal and vertical cable guides in telecommunications spaces with terminating hardware and interconnection equipment. 2. Suspend UTP cable not in a wireway or pathway a minimum of 8 inches above ceilings by cable supports not more than 60 inches apart. Building structure is not an acceptable support. 3. Cable shall not be run through structural members or in contact with pipes, ducts, or other potentially damaging items.
E.
Installation of Cable Routed Exposed under Raised Floors: 1. Install plenum-rated cable only. 2. Install cabling after the flooring system has been installed in raised floor areas. 3. Coil cable 6 feet long not less than 12 inches in diameter below each feed point.
F.
Group connecting hardware for cables into separate logical fields.
G.
Separation from EMI Sources: 1. Comply with BICSI TDMM and TIA-569-B for separating unshielded copper voice and data communication cable from potential EMI sources, including electrical power lines and equipment. 2. Separation between open communications cables or cables in nonmetallic raceways and unshielded power conductors and electrical equipment shall be as follows: a. Electrical Equipment Rating Less Than 2 kVA: A minimum of 5 inches. b. Electrical Equipment Rating between 2 and 5 kVA: A minimum of 12 inches. c. Electrical Equipment Rating More Than 5 kVA: A minimum of 24 inches. 3. Separation between communications cables in grounded metallic raceways and unshielded power lines or electrical equipment shall be as follows: a. Electrical Equipment Rating Less Than 2 kVA: A minimum of 2-1/2 inches. b. Electrical Equipment Rating between 2 and 5 kVA: A minimum of 6 inches. c. Electrical Equipment Rating More Than 5 kVA: A minimum of 12 inches. 4. Separation between communications cables in grounded metallic raceways and power lines and electrical equipment located in grounded metallic conduits or enclosures shall be as follows: a. Electrical Equipment Rating Less Than 2 kVA: No requirement. b. Electrical Equipment Rating between 2 and 5 kVA: A minimum of 3 inches. c. Electrical Equipment Rating More Than 5 kVA: A minimum of 6 inches. 5. Separation between Communications Cables and Electrical Motors and Transformers, 5 kVA or HP and Larger: A minimum of 48 inches. 6. Separation between Communications Cables and Fluorescent Fixtures: A minimum of 5 inches.
3.4
FIRESTOPPING A.
Comply with requirements in Division 07 Section "Penetration Firestopping."
B.
Comply with TIA-569-B, Annex A, "Firestopping."
C.
Comply with BICSI TDMM, "Firestopping Systems" Article.
3.5
GROUNDING A.
Install grounding according to BICSI TDMM, "Grounding, Bonding, and Electrical Protection" Chapter.
COMMUNICATIONS HORIZONTAL CABLING
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SAN JUAN SCHOOL DISTRICT
B.
Comply with J-STD-607-A.
C.
Locate grounding bus bar to minimize the length of bonding conductors. Fasten to wall allowing at least 2-inch clearance behind the grounding bus bar. Connect grounding bus bar with a minimum No. 4 AWG grounding electrode conductor from grounding bus bar to suitable electrical building ground.
D.
Bond metallic equipment to the grounding bus bar, using not smaller than No. 6 AWG equipment grounding conductor.
3.6
IDENTIFICATION A.
Identify system components, wiring, and cabling complying with TIA/EIA-606-A. Comply with requirements for identification specified in Division 26 Section "Identification for Electrical Systems." 1. Administration Class: 1. 2. Color-code cross-connect fields. Apply colors to voice and data service backboards, connections, covers, and labels.
B.
Using cable management system software specified in Part 2, develop Cabling Administration Drawings for system identification, testing, and management. Use unique, alphanumeric designation for each cable and label cable, jacks, connectors, and terminals to which it connects with same designation. At completion, cable and asset management software shall reflect as-built conditions.
C.
Comply with requirements in Division 09 Section "Interior Painting" for painting backboards. For fire-resistant plywood, do not paint over manufacturer's label.
D.
Paint and label colors for equipment identification shall comply with TIA/EIA-606-A for Class 2 level of administration.
E.
Cable Schedule: Post in prominent location in each equipment room and wiring closet. List incoming and outgoing cables and their designations, origins, and destinations. Protect with rigid frame and clear plastic cover. Furnish an electronic copy of final comprehensive schedules for Project.
F.
Cabling Administration Drawings: Show building floor plans with cabling administration-point labeling. Identify labeling convention and show labels for telecommunications closets, backbone pathways and cables, entrance pathways and cables, terminal hardware and positions, horizontal cables, work areas and workstation terminal positions, grounding buses and pathways, and equipment grounding conductors. Follow convention of TIA/EIA-606-A. Furnish electronic record of all drawings, in software and format selected by Owner.
G.
Cable and Wire Identification: 1. Label each cable within 4 inches of each termination and tap, where it is accessible in a cabinet or junction or outlet box, and elsewhere as indicated. 2. Each wire connected to building-mounted devices is not required to be numbered at device if color of wire is consistent with associated wire connected and numbered within panel or cabinet. 3. Exposed Cables and Cables in Cable Trays and Wire Troughs: Label each cable at intervals not exceeding 15 feet. 4. Label each terminal strip and screw terminal in each cabinet, rack, or panel. a. Individually number wiring conductors connected to terminal strips, and identify each cable or wiring group being extended from a panel or cabinet to a building-
COMMUNICATIONS HORIZONTAL CABLING
9
SAN JUAN SCHOOL DISTRICT
5.
6.
H.
3.7
mounted device shall be identified with name and number of particular device as shown. b. Label each unit and field within distribution racks and frames. Identification within Connector Fields in Equipment Rooms and Wiring Closets: Label each connector and each discrete unit of cable-terminating and connecting hardware. Where similar jacks and plugs are used for both voice and data communication cabling, use a different color for jacks and plugs of each service. Uniquely identify and label work area cables extending from the MUTOA to the work area. These cables may not exceed the length stated on the MUTOA label.
Labels shall be preprinted or computer-printed type with printing area and font color that contrasts with cable jacket color but still complies with requirements in TIA/EIA-606-A. 1. Cables use flexible vinyl or polyester that flex as cables are bent.
FIELD QUALITY CONTROL A.
Perform the following tests and inspections with the assistance of a factory-authorized service representative: 1. Visually inspect UTP and optical fiber cable jacket materials for NRTL certification markings. Inspect cabling terminations in communications equipment rooms for compliance with color-coding for pin assignments, and inspect cabling connections for compliance with TIA/EIA-568-B.1. 2. Visually confirm Category 6, marking of outlets, cover plates, outlet/connectors, and patch panels. 3. Visually inspect cable placement, cable termination, grounding and bonding, equipment and patch cords, and labeling of all components. 4. Test UTP backbone copper cabling for DC loop resistance, shorts, opens, intermittent faults, and polarity between conductors. Test operation of shorting bars in connection blocks. Test cables after termination but not cross-connection. a. Test instruments shall meet or exceed applicable requirements in TIA/EIA-568-B.2. Perform tests with a tester that complies with performance requirements in "Test Instruments (Normative)" Annex, complying with measurement accuracy specified in "Measurement Accuracy (Informative)" Annex. Use only test cords and adapters that are qualified by test equipment manufacturer for channel or link test configuration. 5. UTP Performance Tests: a. Test for each outlet and MUTOA. As required by manufacturer for cable performance and warranty. 1) Wire map. 2) Length (physical vs. electrical, and length requirements). 3) Insertion loss. 4) Near-end crosstalk (NEXT) loss. 5) Power sum near-end crosstalk (PSNEXT) loss. 6) Equal-level far-end crosstalk (ELFEXT). 7) Power sum equal-level far-end crosstalk (PSELFEXT). 8) Return loss. 9) Propagation delay. 10) Delay skew. 6. Final Verification Tests: Perform verification tests for UTP and optical fiber systems after the complete communications cabling and workstation outlet/connectors are installed. a. Voice Tests: These tests assume that dial tone service has been installed. Connect to the network interface device at the demarcation point. Go off-hook and listen and receive a dial tone. If a test number is available, make and receive a local, long distance, and digital subscription line telephone call.
COMMUNICATIONS HORIZONTAL CABLING
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SAN JUAN SCHOOL DISTRICT
b.
Data Tests: These tests assume the Information Technology Staff has a network installed and is available to assist with testing. Connect to the network interface device at the demarcation point. Log onto the network to ensure proper connection to the network.
B.
Document data for each measurement. Data for submittals shall be printed in a summary report that is formatted similar to Table 10.1 in BICSI TDMM, or transferred from the instrument to the computer, saved as text files, and printed and submitted.
C.
End-to-end cabling will be considered defective if it does not pass tests and inspections.
D.
Prepare test and inspection reports.
3.8
SOFTWARE SERVICE AGREEMENT A.
Technical Support: Beginning with Substantial Completion, provide software support for two years.
B.
Upgrade Service: Update software to latest version at Project completion. Install and program software upgrades that become available within two years from date of Substantial Completion. Upgrading software shall include operating system. Upgrade shall include new or revised licenses for use of software. 1. Provide 30 days' notice to Owner to allow scheduling and access to system and to allow Owner to upgrade computer equipment if necessary.
3.9 A.
3.10 A.
Warranty Installer shall provide the district with installed cable system manufacturer’s 20 year system performance warranty.
DEMONSTRATION Train Owner's maintenance personnel in cable-plant management operations, including changing signal pathways for different workstations, rerouting signals in failed cables, and keeping records of cabling assignments and revisions when extending wiring to establish new workstation outlets. Include training in cabling administration software.
END OF SECTION 271500
COMMUNICATIONS HORIZONTAL CABLING
11
Girls Locker Room 12A 180
90
Boys Locker Room 12B
D
Sports Storage 90
Mechanical
Classroom 3
Computer Lab 5
Workroom 5A
"SA"
D
Workroom 2B
Office 2E
Storage
H
P.T.A.
Office 1 2D
Storage
90
Teacher Lounge 2A
Class Room 6
Computer Lab 4
Girls
Classroom 7
Boys
Storage
D Girls
Janitor
Janitor
ATC
Mechanical
3
Wood Storage 13C
P.T.A.
"F"
Office
Boys
Classroom 9
Classroom 8
Office Storage 12C
90
90
"LP2" "SAM" "SA" ATC
ATC
Mechanical 10C Storage 10B Home Economics Lab Office 10 10A 90
90
Media Center 2
Classroom 11
180
Mechanical
H
R.A. 0 18
Janitor
H
P.T.A.
180
Main Office 1
F.A.
Special Education 18
Copy
Stage
Classroom 17
Practice 14D
Sick Room
Office 13B
Practice 14C
Classroom 15
Classroom 16
Classroom 13A
Electrical
Storage
R.A.
90
"LP1" "WA1" "WA2" "WA3"
Gymnasium 12
Office 14B
Wood Shop 13
Repair 14A
DN
90
O
O 90
Paint Booth 13D
Storage
use conduit
Music Room 14
Storage Principal 1B
use conduit P.T.A.
Cafeteria
90
90
90
Vice Principal 1A
Storage
O "D"
Counseling 1C
Storage
110
Counseling 1D
H
109 UP
90
Women
90
"B"
Storage
Boiler Room
Counseling 1E
"A"
90
Men
Use track to go from ceiling to camera as needed. "K"
Blue line to show approximate data wire routing. Run one Cat6 wire per camera.
Janitor Kitchen
Dumb Waiter
2
Basement 1/16" = 1'-0"
H Indicates hard ceiling
Classroom 19
Refrigerator
D Indicates drop ceiling
Main Distribution Panel
O Indicates open to structure ceiling
Janitor Transformer
"C"
DN
4 Storage
Boiler Room below
180
Gas Shutoff "DP"
Storage
Office 20A
Girls
90
"NM" ATC
6
Storage
90
7
90
Classroom 20
Mechanical
O
Indicates data rack for wire termination. leave 15' wire coil at each rack.
90
Locker Room
IQinVision IQD32SV-F1 Alliance-mini H.264 HD1080p Vandal Dome Camera, Wide Lens. IQinVision IQ862NE-V16 Sentinel H.264 HD1080p Camera, Remote Focus, Wide Varifocal Lens.
5 90
use wall track Boys
IQinVision IQ863NE-W2 Sentinel H.264 3.6 MP Camera, Remote Focus, Ultra Wide Varifocal Lens.
90
Janitor
Janitor
H
180
use conduit
Work Room
Classroom 24
Classroom 21
3
90
90
180
Classroom 23
Furnace
2
Storage
H
Locker Room
Storage
Clasroom 25
Office 22A
90
Classroom 22
Storage
Furnace
Office 21A
90
90 90
Level 1 1/16" = 1'-0"
IQinVision IQM32NE-B5 Alliance-mx H.264 HD1080p Exterior Day/Night Vandal Dome Camera, Wide Varifocal Lens Arecont AV8185DN 8MP H.264 Day/Night 180 degree Panoramic Megapixel Camera (Vandal Dome?)
6 Office 23A
1
IQinVision IQA33NI-B5 Alliance-pro H.264 3.6 MP Interior Day/Night Vandal Dome Camera, Wide Varifocal Lens
5/15/2012 4:21:41 PM
2
Gas Meter
Albert R. Lyman Middle School Floor Plan
A1 Issue Date:
12/22/08
Scale: 1/16" = 1'-0" Drawn By: DCH Checked By: CD
Use approximatly 12' of track along wall
90
90
90 90
125 138 143
D
125A
Table of Abbreviations Electrical panel A1 Air handling Floor or pipe tunnel access point Roof access point Storage closet Janitor's Closet Office Faculty men Faculty women
Classroom 11
Classroom 10
Classroom 9
Classroom 8
Classroom 7
Classroom 6
D
122 123
124
Toilet "B2" A.H. 6A "B1" Toilet 120 5A118
119
121
A.H.
137
135
A.H.
134
136
132
A.H.
131
133
129
130
117
"A1","A2"
Second Grade
180
146
148
151
A.H.
J
Classroom 5
First Grade
149
154
A.H.
150
Kindergarten
Multi-Purpose 13
180
"A1" A.H. F.A. R.A. S J O M W
Classroom 12
D
152
A.H.
153
155
147
R.A.
Classroom 14
Classroom 15
Classroom 16
Classroom 17
Computer Lab 18 Classroom 4
139 142
141
S P.E. Storage
D
140
M
144
140A
A.H. Data
1
113
W
156
114
145
115
3
Toilet A.H. 4A Toilet 111 "C" 3A 112
D
126
110
109 108
Pre-School 3
164 165
S 1C
90
90
F.A.
F.A.
174
Classroom 27
Classroom 26
Classroom 25
166
Classroom 24
Classroom 23
Classroom 22
Classroom 21
127
Conference 19
Classroom 20
128
104
167
H
103
M
Use conduit in closet below ceiling
Distribution Panel
169
168
163
162
161
157
160
102
W
Main Office 1
101
90
170
106
90
158
H 171
Toilet 1B
Nurse 1A
90
Supply
A.H.
105
90
S 27A 173
Principal 2
107
180
Fourth Grade
use track in classroom below ceiling
Third Grade
D
159
180
172
190
194
196
90
186
H
202
O 28A
Classroom 32
Classroom 33
Resource 34
204
159A
J
Classroom 35
Workroom 36
Teacher Lounge 37
F.A.
237
208
175
Classroom 28
238
S 33A
F.A.
206 205
2
191 188
189
197
90
195
F.A.
209
198
192
90
S 32A
H
187
199
F.A. 193
S 39E
200
"D"
216
A/V Storage 39D 215
Office 39C
213
Conference 39B
Computer Lab 39A
214
R.A.
185
210 236
235
211
H 212 217
Use track to go from ceiling to camera as needed.
177
Media Center 39
Fifth Grade
Blue line to show approximate data wire routing. Run one Cat6 wire per camera. Indicates hard ceiling
D
Indicates drop ceiling
O
Strategy Library 40
219
H
218
220 221
Counselor 41
Indicates open to structure ceiling
Chair Storage
Tutor B 239
4
Indicates data rack for wire termination. leave 15' wire coil at each rack. 223 222
234
222A
251 90
90
90
90
A.H.
233 90
224
9 "S1"
J
184
90
IQinVision IQD32SV-F1 Alliance-mini H.264 HD1080p Vandal Dome Camera, Wide Lens.
90
IQinVision IQ862NE-V16 Sentinel H.264 HD1080p Camera, Remote Focus, Wide Varifocal Lens.
10
run track along wall and ceiling each location
90
Use conduit in these locations
IQinVision IQM32NE-B5 Alliance-mx H.264 HD1080p Exterior Day/Night Vandal Dome Camera, Wide Varifocal Lens
Coal Room Below
227 229
H 90
Supply
IQinVision IQA33NI-B5 Alliance-pro H.264 3.6 MP Interior Day/Night Vandal Dome Camera, Wide Varifocal Lens
4
90
180
90
Level 1 1/16" = 1'-0"
183
Arecont AV8185DN 8MP H.264 Day/Night 180 degree Panoramic Megapixel Camera (Vandal Dome?)
Blanding Elementary
Storage
"F" 228
Classroom 31
248
Boiler Room Below
226 182
250
Refrigerator
IQinVision IQ863NE-W2 Sentinel H.264 3.6 MP Camera, Remote Focus, Ultra Wide Varifocal Lens.
90
181
1
Bakery Kitchen
S 90
252
249
180
6
253
Dishwash Janitor
90
179
240
225
230
231
240A
"K"
245
242 243
240B
Freezer 232
247
246
Dumb Waiter
4/5/2013 10:27:09 AM
178
90
Classroom 30
H
Cafeteria 38
Tutor A
90
Computer Lab 29
F.A.
100
207 201
176
203
Storage
244
245A
Office
241
90
Electrical Main Distribution Panel
Gas Main
Blanding Elementary School Floor Plan
A1 Issue Date:
01/02/09
Scale: 1/16" = 1'-0" Drawn By: DCH Checked By: CD
Use track to go from ceiling to camera as needed. WA
Wireless Access point. Install one data wire above ceiling at each location.
90
90
Blue line to show approximate data wire routing. Run one Cat6 wire per camera. 90
H
Indicates hard ceiling
D
Indicates drop ceiling
O
Indicates open to structure ceiling 90
WA
2
Indicates data rack for wire termination. leave 15' wire coil at each rack. 90
4
90
8 90
IQinVision IQD32SV-F1 Alliance-mini H.264 HD1080p Vandal Dome Camera, Wide Lens. IQinVision IQ862NE-V16 Sentinel H.264 HD1080p Camera, Remote Focus, Wide Varifocal Lens.
2 90
2
90
90
IQinVision IQ863NE-W2 Sentinel H.264 3.6 MP Camera, Remote Focus, Ultra Wide Varifocal Lens. IQinVision IQA33NI-B5 Alliance-pro H.264 3.6 MP Interior Day/Night Vandal Dome Camera, Wide Varifocal Lens IQinVision IQM32NE-B5 Alliance-mx H.264 HD1080p Exterior Day/Night Vandal Dome Camera, Wide Varifocal Lens Arecont AV8185DN 8MP H.264 Day/Night 180 degree Panoramic Megapixel Camera (Vandal Dome?)
3 180
WA
180
1
WA
WA WA
WA
90
90
180
90
90
90
90
WA
WA
90
90
90 90
90
180
install track along wall in gym
Use track to go from ceiling to camera as needed. Blue line to show approximate data wire routing. Run one Cat6 wire per camera.
16
H
Indicates hard ceiling
D
Indicates drop ceiling
O
Indicates open to structure ceiling
3
Indicates data rack for wire termination. leave 15' wire coil at each rack.
90
IQinVision IQD32SV-F1 Alliance-mini H.264 HD1080p Vandal Dome Camera, Wide Lens.
10 90
IQinVision IQ862NE-V16 Sentinel H.264 HD1080p Camera, Remote Focus, Wide Varifocal Lens.
3 90
2 90
90
IQinVision IQ863NE-W2 Sentinel H.264 3.6 MP Camera, Remote Focus, Ultra Wide Varifocal Lens. IQinVision IQA33NI-B5 Alliance-pro H.264 3.6 MP Interior Day/Night Vandal Dome Camera, Wide Varifocal Lens IQinVision IQM32NE-B5 Alliance-mx H.264 HD1080p Exterior Day/Night Vandal Dome Camera, Wide Varifocal Lens Arecont AV8185DN 8MP H.264 Day/Night 180 degree Panoramic Megapixel Camera (Vandal Dome?)
2 180
90
90
90
90 90
90
90
90
90
WA WA
90
WA
90
D
D
WA
D
1 hard lid ceiling above drop. install wire above hard lid.
WA
D WA
WA
WA
90
H
90
90
WA
90
90
WA
180
90
hard lid ceiling above drop. install wire above hard lid.
D 90
90
90
D
90
90
WA
180
90
2
90
D
WA
D
H WA
WA 90
WA 90
90
90
90
90
90
D
O
1
2
3
4
5
36" 90
EFE
E
E
EFE EXISTING MECHANICAL ROOM
use conduit for data wire
EXISTING ELECTRICAL ROOM
180
O
36"
90
EXISTING STORAGE
CLASSROOM 49 OCC 1001 SF
EXISTING STORAGE
CORRIDOR EFE
EFE
C.O.
36"
C.O.
use conduit for data wire
33"
D
EXISTING OFFICE 1 315 SF
O
H
CLASSROOM 39 OCC 796 SF
COMPUTER LAB 49 OCC 978 SF
EXISTING STORAGE
EXISTING CLASSROOM 31 OCC 616 SF
D
EXISTING AUTO SHOP 74 OCC 3670 SF
EFE
C.O.
OFFICE C.O.
EXIST. UNISEX D
90
C
CLASSROOM 31 OCC 608 SF
EXIST. GIRLS
OFFICE
EXISTING STORAGE
EXISTING BOYS
C
C.O.
C.O.
C.O.
C.O.
EFE
H
36"
VESTIBULE
EXISTING STORAGE
CORRIDOR 90
EFE
H
180
ENGINEERING CLASSROOM 35 OCC 1185 SF
EXISTING CUSTODIAN
1 SERVER ROOM 1 105 SF
90
90
90
EFE
72" EXISTING
EXISTING
EXISTING STORAGE
EXISTING 1 195 SF
EFE EXISTING CLASSROOM 39 OCC 778 SF
EXISTING CLASSROOM 27 OCC 540 SF D
72"
EXISTING
EXISTING
LEGEND EXISTING STORAGE
D
350 NORTH 100 EAST BLANDING, UTAH 84511
D
ZENOS L BLACK VOCATIONAL BUILDING REMODEL
EXISTING STORAGE
SAN JUAN SCHOOL DISTRICT
ENGINEERING LAB 42 OCC 2099 SF COMPRESSOR ROOM
EFE
EFE
STORAGE . 208 SF
EFE
D
EXISTING WOOD SHOP 45 OCC 2221 SF
SEAL
1 HR. RATED WALL ASSEMBLY (EXISTING BLOCK WALLS NEW RATED DOOR AND WINDOW ASSEMBLIES AS NOTED IN PLAN & SCHEDULES)
use conduit for data wire
1 HR. RATED WALL ASSEMBLY EFE
EFE
B
EXISTING FIRE EXTINGUISHER TO REMAIN
B
O 90
C.O.
Use track to go from ceiling to camera as needed.
36" EXISTING AG LAB 46 OCC 2272 SF
Blue line to show approximate data wire routing. Run one Cat6 wire per camera.
EFE H
Indicates hard ceiling
D
Indicates drop ceiling
O
Indicates open to structure ceiling
1-HR RATED HORIZ. SHAFT WALL CEILING SYSTEM ABOVE; REFER TO DETAIL E2/A3.01
DRAWN BY: Author
ISSUED:
XX"
NO. 1
EGRESS EXIT DOOR WIDTH PROVIDED
EXISTING CLASSROOM 39 OCC 771 SF
72"
DATE 7 MAY 2009
DESCRIPTION CD BID SET
CONTRACTOR TO VERIFY DRAWINGS IN FIELD USE REFLECT LAST REVISION DATE. NO.
2
CHECKED BY: Checker
DATE
DESCRIPTION
Indicates data rack for wire termination. leave 15' wire coil at each rack.
EFE
4
90
90
90
90
EXISTING STORAGE
IQinVision IQ862NE-V16 Sentinel H.264 HD1080p Camera, Remote Focus, Wide Varifocal Lens. IQinVision IQ863NE-W2 Sentinel H.264 3.6 MP Camera, Remote Focus, Ultra Wide Varifocal Lens.
90
90
EXISTING STORAGE
IQinVision IQD32SV-F1 Alliance-mini H.264 HD1080p Vandal Dome Camera, Wide Lens.
90
5
IQinVision IQA33NI-B5 Alliance-pro H.264 3.6 MP Interior Day/Night Vandal Dome Camera, Wide Varifocal Lens
SHEET NAME
A
IQinVision IQM32NE-B5 Alliance-mx H.264 HD1080p Exterior Day/Night Vandal Dome Camera, Wide Varifocal Lens Arecont AV8185DN 8MP H.264 Day/Night 180 degree Panoramic Megapixel Camera (Vandal Dome?)
2 180
1
90
RECORD SET 8 FEBRUARY 2010
IQ865NE-V6 Sentinel H.264 5 MP Camera, Remote Focus, Telephoto Varifocal Lens
LIFE SAFETY PLAN 4' - 0" 8' - 0"
SHEET NUMBER
N
0
LIFE SAFETY PLAN
16' - 0"
SCALE: 1/8" = 1'-0"
1
2
3
4
5