oit wiring standards
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OFFICE OF INFORMATION TECHNOLOGY/
NETWORKING AND TELECOMMUNICATIONS
SERVICES (OIT/NTS) EQUIPMENT,INFRASTRUCTURE, AND WIRING STANDARDS
1 INTRODUCTION ......................................................................................................................................................... 2
2 GENERAL STANDARDS ............................................................................................................................................... 3
3 SPECIAL REQUIREMENTS ........................................................................................................................................... 4
4 ENTRANCE FACILITIES ................................................................................................................................................ 4
5 TELECOMMUNICATIONS ROOMS ............................................................................................................................... 5
5.1GENERAL REQUIREMENTS ........................................................................................................................................... 55.2MAIN EQUIPMENT ROOM (MDF) ................................................................................................................................ 75.3COMMUNICATIONS ROOMS (IDF OR RISER ROOMS) ......................................................................................................... 95.4TERMINAL SPACE/SATELLITE ROOMS ........................................................................................................................... 115.5ELECTRICAL POWER REQUIREMENTS............................................................................................................................ 135.6AIR CONDITIONING REQUIREMENTS ............................................................................................................................ 14
6 BONDING AND GROUNDING ................................................................................................................................... 14
6.1BUSBARS .............................................................................................................................................................. 156.2TELECOMMUNICATIONS BONDING BACKBONE ............................................................................................................... 156.3CABLES ................................................................................................................................................................ 166.4RACK GROUNDING.................................................................................................................................................. 166.5PATHWAY GROUNDING............................................................................................................................................ 166.6EQUIPMENT GROUNDING ......................................................................................................................................... 176.7ELECTRICAL SERVICE ................................................................................................................................................ 176.8COMPRESSION FITTINGS ........................................................................................................................................... 176.9TESTING AND DOCUMENTATION ................................................................................................................................. 17
7 INTRABUILDING BACKBONE RISER FACILITIES .......................................................................................................... 18
7.1DESIGN CONSIDERATIONS ......................................................................................................................................... 187.2INTRABUILDING BACKBONE COPPER (RISER) .................................................................................................................. 19
7.2.1 Cabling........................................................................................................................................................ 197.2.2 Terminations ............................................................................................................................................... 19
7.3INTRABUILDING BACKBONE FIBER OPTIC (RISER) ............................................................................................................ 207.3.1 Cabling........................................................................................................................................................ 20
7.3.2 Fiber Terminations ...................................................................................................................................... 217.3.3 Fiber-Optic Enclosures ................................................................................................................................. 21
7.4INTRABUILDING BACKBONE PATHWAYS ........................................................................................................................ 22
8 COMMUNICATIONS/TERMINAL ROOM TERMINATION REQUIREMENTS ................................................................. 22
8.1WALL TERMINATION OF COPPER WIRING ..................................................................................................................... 238.2EQUIPMENT RACKS ................................................................................................................................................. 238.3PATCH PANELS....................................................................................................................................................... 248.4HORIZONTAL MANAGEMENT ..................................................................................................................................... 25
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9 RACEWAY/TRAY SYSTEMS ....................................................................................................................................... 25
9.1J-HOOKS .............................................................................................................................................................. 27
10 HORIZONTAL WIRING FACILITIES ........................................................................................................................... 28
10.1OUTLETS ............................................................................................................................................................ 2910.2HORIZONTAL CONDUIT........................................................................................................................................... 3010.3HORIZONTAL WIRING ............................................................................................................................................ 31
10.3.1 Horizontal Copper Wire ............................................................................................................................. 3110.3.2 Horizontal Fiber Optic Wire ....................................................................................................................... 3210.3.3 Small Form/Modular Style Fiber Standards ................................................................................................ 33
10.4JACKS ................................................................................................................................................................ 34
11 TESTING ................................................................................................................................................................. 35
11.1CATEGORY 5EWIRING........................................................................................................................................... 3511.2CATEGORY 6WIRING ............................................................................................................................................ 3611.3FIBER OPTIC CABLE TO OUTLET ................................................................................................................................ 37
11.4INTRABUILDING BACKBONE RISER CABLE TESTING......................................................................................................... 37
12 AS-BUILT DOCUMENTATION .................................................................................................................................. 38
13 OIT/NTS OUTLET LABELING SCHEME (JACKS) ......................................................................................................... 39
14 PRODUCTS INSTALLED THAT ARE NOT COVERED BY THESE STANDARDS ............................................................... 41
15 DEFINITIONS OF ABBREVIATIONS CONTAINED IN THESE STANDARDS ................................................................... 42
1IntroductionThe Office of Information Technology/Networking and Telecommunications Services
(OIT/NTS) is responsible for providing voice, data, and videoservices for the University ofMinnesota. Every effort is being made to keep the rates for these services as low as possiblewhile still providing service and maintenance in a timely manner. OIT/NTS is constantly
evaluating emerging technologies and equipment so that we can continue to offer the mostreliable, up to date, and cost-effective services.
It is essential to design the telecommunications systems to meet present and future voice and
data communication needs. Horizontal and vertical wiring and the pathways andcommunication rooms should be considered an integral part of the building infrastructure and
therefore capable of future growth as new technology and customer needs change.
Refer to the NTS Web page atwww1.umn.edu/nts/wiring3.shtmlfor the most recent revisionof these standards. The standards herein apply to the technologies in use at the time of the
latest update to this document. The implementation of newer technologies shall requireadherence to the standards written at the time of that implementation.
http://www1.umn.edu/nts/wiring3.shtmlhttp://www1.umn.edu/nts/wiring3.shtmlhttp://www1.umn.edu/nts/wiring3.shtmlhttp://www1.umn.edu/nts/wiring3.shtml -
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2General StandardsIntroduction
Voice and data projects that are released for bid should be bid separately from and not includedwith security, audiovisual, building control systems, or other equipment or materials that are
not directly associated with the independent high speed data or voice communications system.
Telecommunications systems include vertical and horizontal copper and fiber optic wiring aswell as the associated termination hardware on both ends. The system includes pathways and
conduits; equipment racks; frames; wire management systems; communication rooms; and theelectrical, mechanical, and environmental equipment required to support them.
The space and facilities in these specifications are designed to meet the telecommunications
requirements (voice and data networking) for university buildings only. These specifications
are intended to allow OIT/NTS to meet the telecommunications requirements of the Universityover the lifetime of the buildings. It is essential that OIT/NTS shall be consulted prior to andthroughout the planning and design process to ensure that present and future voice and data
service requirements can be met.
OIT/NTS MUST provide prior written approval for any deviations from these standards, orOIT/NTS will not assume financial responsibility to upgrade the facility to performance
expectations. Where ambiguity or questions arise to specific details not mentioned in thesestandards, appropriate TIA/EIA, NEC, and BICSI standards shall apply.
All applicable building codes must be strictly adhered to in regards to telecommunicationsservices. OIT/NTS cannot authorize variations to any building codes.
Construction specifications are a main ingredient of an Information Technology system.Information Technology systems shall adhere to these specifications in order to be
functional in a wide variety of communications applications. This document does not allowor condone the avoidance of following any of the Laws, Standards, or Procedures of any,
but not limited to the following:
o National Electrical Code (NEC)o Uniform Building Code (UBC)o Uniform Fire Code (UFC)o Minnesota State Low Voltage Lawso Building Industry Consulting Services International (BICSI)
CertificationA BICSI-certified Registered Communications Distribution Designer (RCDD) shall design,
engineer, and sign off on all projects, and he or she shall provide oversight during theproject.
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3Special RequirementsIntroduction
The OIT/NTS Wiring Standards publication is intended to address standard Universityinstallation practices, with safety and performance being the most important factors. While
these standards are carefully monitored to ensure that the hardware and practices aretechnologically current, it is possible that some applications may require special consideration.
University of Minnesota buildings frequently contain special purpose facilities and equipmentwith unique telecommunications requirements. Special telecommunications requirements may
require deviation from these specifications. OIT/NTS needs to be notified of these specialrequirements as early in the design process as possible.
The following is a short (but not all-inclusive) list of facilities and equipment thatcommonly have special telecommunications requirements:
o Data centers or computer roomso Computer labs or classroomso Video conferencing roomso Video equipmento Laboratorieso Medical imaging equipmento Scientific equipmento Public telephoneso Internet kioskso Wireless networking
Installation designs and practices not specifically identified as standard in this documentwill require appropriate OIT/NTS approval before connection to the campus voice or datanetwork. To that end, any department requesting a non-standard installation of cabling
infrastructure, voice/data jacks, or other items not specified in these standards shouldsubmit a written explanation of the requested variance to an OIT/NTS project coordinatorfor review.
4Entrance FacilitiesIntroduction
The entrance facility is the location where the pathways for communications services penetratethe building to connect to the voice and data systems within the building. The entrance
facilities are generally 4-inch rigid steel conduit that extend from the perimeter of the buildingto the telecommunications main equipment room (MDF).
OIT/NTS shall designate the shortest practical route for the communications cable toconnect from the building to the point of connection with the university telephone and
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network cabling systems. Conduit shall be installed within the facility from the point of
entry to the telecommunications main equipment room.
Diverse facilities entrances are required for all new buildings that will house voice and dataequipment when the scope and importance of the facility are determined to require it by
OIT/NTS and the end-user.
In the event that diverse cable facility entrances are not deemed necessary, provisions shallbe made for four 4-inch conduits for access from the university cable system to the
telecommunications main equipment room. Each of these conduits must be labeled "TELEMDF ONLY."
Entrance facilities must adhere to all BICSI requirements in Chapter 6 of theTelecommunications Distributions Methods Manual (TDMM), (11th edition or subsequent
releases). (Visit www.bicsi.org for purchasing information.) OIT/NTS must approve anydeviations from the BICSI TDMM.
5Telecommunications Rooms5.1General Requirements
Introduction
Telecommunications rooms are special-purpose rooms that house telecommunicationsequipment and wiring. These rooms have specific requirements due to the nature, size,
and complexity of the equipment and wiring housed in these rooms.
There may be up to three types of telecommunications rooms within a building, eachsupporting critical functions as part of the building wiring and telecommunications
systems. In general, each room must be large enough to accommodate the wiring andequipment that will be located within it, plus provide additional space for growth over
the lifetime of the building. The three types of rooms are:
o Main equipment room/Main Distribution Frame (MDF)o Communications rooms/Intermediate Distribution Frame (IDF or riser
rooms)
o Terminal space/satellite roomsThe following standards apply to all three types of telecommunications rooms:
PROHIBITED: Using telecommunications rooms as a route for other facilities topass through.
PROHIBITED: Using boiler rooms, air exchange rooms, janitorial closets,electrical distribution closets, or areas with water heaters and wet sinks for
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communications. It is essential that telecommunication rooms be dedicated solely
to telecommunications.
PROHIBITED: Placing voice or data rooms in or near areas of highelectromagnetic interference (EMI) or radio frequency interference (RFI). Both
adversely affect the system performance and the reliability of electronic equipment.
Non-OIT/NTS resources shall not be located in telecommunications rooms withoutOIT/NTS approval.
Communications rooms shall be located in common building areas that are readilyaccessible.
Telecommunications rooms should be centrally located in the building to minimizethe distance of all cable runs. Rooms must be spaced so that no horizontal run
exceeds 90 meters (as per TIA-568B). OIT/NTS shall be consulted for anydeviations.
All main, communications, and terminal/satellite rooms shall have a ground bussand meet all requirements of J-STD-607 Commercial Building Grounding and
Bonding Requirements, TIA/EIA-942, the NEC, and Chapter 10 of BICSI TDMM(11th edition or subsequent releases). Refer to Section 6 of this appendix for
Bonding and Grounding Requirements.
Fire suppression systems for all of these rooms shall be two-stage water systems;no Halon or gas systems shall be used. Pipes must be insulated to prevent water
condensation from forming and possibly damaging telecommunications equipment.Fire suppression system pipes shall not be installed directly over equipment, but
rather they shall be placed near the walls with the manifold pipes in ceiling corners.
All penetrations into fire walls, conduits, and sleeves through floors and cable traysthat pass through a fire-rated wall must be properly fire-stopped in accordance with
the National Fire Protection Association (NFPA), ANSI/NFPA-70, the NEC, TIA-569, and Chapter 7 of BICSI TDMM (11th edition or subsequent releases). The
manufacturer's recommended installation practices must be followed. Eachinstallation of fire-stopping material must only be used in applications as specified
by the fire-stop manufacturer. When installing additional cabling/wiring, the fire
stop system must be reevaluated, and if necessary, a new firestop system must beinstalled to restore the firewall integrity with the appropriate UL-classified system.Only use of UL-classified firestop systems is acceptable.
All telecommunications rooms require overhead lighting with a minimum intensityof 50 foot-candles measured at 1 meter from the floor, and with a convenience
switch at room entry.
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All MDF, IDF, and Satellite/Terminal rooms whose size allows the placement ofactive electronics must be secured with an electronic card key access readerapproved by University of Minnesota Access Services and OIT/NTS.
All walls must be covered with 8-foot by 4-foot wide by 3/4-inch thick, unpainted,fire-retardant, CD grade or better plywood backboard, mounted with the smooth
side out from the floor to a height of 8 feet.
Electrical outlets shall be placed above the top edge of the plywood backboard andspaced every 6 feet.
Working clearances around electrical equipment shall adhere to the NEC. OIT/NTS shall perform all buildout work in telecommunications rooms, including
MDF, IDF, and Terminal Space/Satellite rooms. This includes all associated voice
and data hardware.
5.2Main Equipment Room (MDF)Introduction
The main equipment room is the main room in a building into which all outside facilitiesare routed and terminate. This room serves as the primary telecommunications room and
may house the PBX equipment and/or backbone network-related electronic equipment.All other communications rooms are fed from the main equipment room.
Main equipment facilities shall be installed in a separate and secure room. Themain equipment room shall serve as the primary copper and fiber-optic cabledistribution center for the building. All voice and data distribution shall emanate
from this room.
PROHIBITED: Installing false ceilings in main equipment rooms. The size and location of this area shall be determined in feet with a minimum room
size of 400 square feet and no dimension smaller than 20 feet. The minimumceiling height shall be 8 feet 6 inches if no sprinklers/fire suppression nozzles are
located within the room. If sprinklers/fire suppression nozzles are located withinthe room, the ceiling height must be adjusted to accommodate the racks and the
tray located above the racks. Clearance shall be specified by the NEC. Foradditional information on room area based on useable building floor area, refer to
Chapter 6 of BICSI TDMM, (11th edition or subsequent releases), and consult withOIT/NTS during the design phase.
Rooms must be spaced so that no horizontal Cat 5E or Cat 6 cable exceeds 90meters (as per TIA-568B).
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Main equipment rooms require overhead lighting with a minimum intensity of 50foot-candles measured at 1 meter from the floor, with (a) convenience switch(es) atroom ingress and egress points.
The room number shall be designated on the door or outside wall using Universityroom numbering standards/specifications.
The door on the communications room shall be a minimum of 3 feet wide, with aminimum height of 6 feet, 8 inches. It shall be equipped with a University U-Card
reader and a Best core lockset that is keyed per OIT/NTS specifications.
Main equipment rooms shall be free from high ambient temperature, excessivehumidity, possible dripping pipes, dirt, and flooding. Main equipment rooms must
be well ventilated and environmentally controlled 24 hours a day, seven days aweek. The main equipment room must also maintain a positive pressure with aminimum of one complete air exchange per hour. It must maintain a heat
dissipation rating of 225 BTUs/hour per square foot and maintain a constanttemperature between 64 and 75 degrees Fahrenheit with a relative humidity range
between 30% and 55%.
Main equipment rooms must have drainage capabilities and must be equipped witha one-way drain, per TIA/EIA-942.
All walls shall be covered with 8-foot by 4-foot wide by 3/4-inch thick, unpainted,fire-retardant, CD grade or better plywood backboard. It should be mounted with
the smooth side out from the floor to a height of 8 feet.
Electrical outlets shall be placed above the top edge of the plywood backboard;they are not to exceed 6 inches form the top edge of the plywood. One 120-volt ACdedicated duplex receptacle shall be provided for every 6 linear feet of floor
perimeter. No more than three receptacles shall be dedicated per branch circuit.
Installation of these receptacles shall be in consultation with OIT/NTS.
Working clearances around electrical equipment shall adhere to the NEC. A Panduit NetFrame Rack System or prior OIT/NTS-approved equivalent shall
be used in main equipment rooms to accommodate the fiber-optic cabling. Fiberoptic cabinets shall be Panduit FRME4 Series or a prior OIT/NTS-approvedequivalent.
A Reliant/Marconi frame system or prior OIT/NTS-approved equivalent shall beused in this room to accommodate the copper cabling.
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A Telecommunications Main Grounding Busbar (TMGB) shall be provided andattached to an approved building ground (as per the NEC). Refer to Section 6 ofthis appendix for Bonding and Grounding Requirements.
When a main equipment room is to be used as a PBX equipment room, it must havea minimum of two redundant air conditioners. The air conditioners cannot bedependent on the same supporting equipment (such as a chiller, piping, motors, and
power breakers). Each air conditioner must be able to support the room on its ownand must be sized 50% larger than the BTU rating of the total installed equipment.
The unit must cycle on and off at a 50% rate. Consult OIT/NTS for the exact typeand capacity of air handling equipment.
The power feed to the Uninterruptible Power Supply (UPS) systems must beincluded in the building generator distribution system, and appropriate transfer
switches must be installed. If no generator is provided, emergency generatorplanning must be completed. This may include OIT/NTS placing a generator on-site or installing an emergency power coupler in a location that is accessible by
OIT/NTS portable generators. Full-circuit documentation must be provided prior tostarting up the switch room. A battery backup system located in a separate room
specifically designed for that purpose may also be required. Where there is batterybackup in rooms, they must include the required Occupational Safety and Health
Administration (OSHA) containment system for sealed and spill-proof batteries.
Environmental alarms must meet state, federal, and university codes and beinterfaced to OIT/NTS card access/alarm panels. Panel inputs include all UPS
alarms; generator active alarms; fire, temperature, humidity, A/C unit transitionswitch; floor water detection; battery damper; and door breech. Refer to Section 5.5
of this appendix for additional information on power requirements.
Building requirements vary. It is essential that you consult with OIT/NTS prior tofinalizing building plans.
5.3Communications Rooms (IDF or Riser Rooms)Introduction
A communications room is an enclosed and secured space specifically intended forhousing telecommunications cables, termination hardware, cross-connect facilities, and
equipment for riser facilities.
Riser facilities shall be installed in a separate and secure IDF room specificallyintended for this purpose.
Riser cables shall be distributed in one or more riser shafts enclosed in a series ofvertically aligned closets beginning in the basement and extending throughout the
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height of the building. These shafts shall be aligned vertically to facilitate cable
pulling. Communications rooms are intended for exclusive use by OIT/NTS.
PROHIBITED: Installing false ceilings in communications rooms.
The minimum size for a communications room is 100 square feet, with nodimension less than 8 feet. Minimum ceiling height shall be 8 feet, 6 inches.
Clearance shall be specified by the NEC. To determine proper size ofcommunications rooms, refer to Chapter 6 of BICSI TDMM (11th edition or
subsequent releases), and consult with OIT/NTS during the design phase.
Rooms must be spaced so that no horizontal Cat 5E or Cat 6 cable exceeds 90meters (as per TIA-568B).
Communications rooms require overhead lighting with a minimum intensity of 50foot-candles measured at 1 meter from the floor, and with a convenience switch atroom entry.
The room number shall be designated on the door or outside wall using Universityroom numbering standards/specifications.
The door on the communications room shall be a minimum of 3 feet wide, with aminimum height of 6 feet, 8 inches. It shall be equipped with a University U-Card
reader and a Best core lockset that is keyed per OIT/NTS specifications.
The communications rooms must have adequate ventilation, and beenvironmentally controlled 24 hours a day, seven days a week. The rooms shallmaintain a positive pressure with a minimum of one complete air exchange perhour, as well as maintain heat dissipation rating of 48 BTUs/hour per square foot.
The rooms also must maintain a constant temperature between 64 and 75 degreesFahrenheit, with a relative humidity between 30% and 55%.
All walls must be covered with 8-foot by 4-foot wide by 3/4-inch thick, unpainted,fire-retardant, CD grade or better plywood backboard, mounted with the smoothside out from the floor to a minimum height of 8 feet.
Electrical outlets shall be placed above the top edge of the plywood backboard;they are not to exceed 6 inches form the top edge of the plywood. One 120-volt ACdedicated duplex receptacle shall be provided for every 6 linear feet of floor
perimeter. No more than three receptacles shall be dedicated per branch circuit.Installation of these receptacles shall be in consultation with OIT/NTS.
Working clearances around electrical equipment shall adhere to the NEC.
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A Telecommunications Grounding Busbar (TGB) shall be provided and attached tothe TMGB in the Main Equipment room. Refer to Section 6 of this document forBonding and Grounding Requirements.
Communications rooms shall be interconnected by four 4-inch sleeves withbushings that extend a minimum of 2 inches to a maximum of 3 inches above thefloor and a UL-classified fire stop system. The sleeves shall be for exclusive use by
OIT/NTS, and each of these sleeves must be labeled TELE RISER ONLY. Thesleeves shall be located at the left edge of the terminal board, as close to the wall as
possible. Sleeves shall never be placed in the center of the terminal board. If closetscannot be aligned vertically, six conduits of 4-inch size or 4-inch by 24-inch cable
tray shall be placed between them for exclusive OIT/NTS use. All conduits andsleeves must be labeled TELE RISER ONLY.
The termination for station cabling shall be labeled with the corresponding jacknumber in accordance with the jack-labeling scheme as outlined in Section 13 ofthis document.
OIT/NTS recommends that all floor penetrations be sleeved for the followingreasons:
o Ease of fire-stoppingo To prevent water from leaking and spilling to lower floorso To prevent cables being installed between floors from chafing
5.4Terminal Space/Satellite RoomsIntroductionTerminal space/satellite rooms are communication facility spaces that are used for riser
distribution. They are connected to a communication room and connect directly back tothe main equipment room via the IDF and riser rooms. Satellite rooms can be used topick up an outlying area that is greater than 90 meters away from an IDF.
Terminal spaces/satellite rooms shall be installed in a separate and secure area.These rooms are designed exclusively for OIT/NTS use.
PROHIBITED: Installing false ceilings in terminal rooms. The minimum size for terminal rooms shall be 80 square feet, with no dimension
shorter than 8 feet. Minimum ceiling height shall be 8 feet, 6 inches. Clearance
shall be specified by the NEC. To determine the proper size of a terminal room,refer to Chapter 6 of BICSI TDMM (11th edition or subsequent releases), and
consult with OIT/NTS during the design phase.
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room to the terminal facilities shall adhere to the raceway specifications. Refer to
Section 9, "Raceway/Tray Systems."
The termination for station cabling shall be labeled with the corresponding jacknumber in accordance with the jack-labeling scheme as outlined in Section 13 of
this document.
OIT/NTS recommends that all floor penetrations be sleeved for the followingreasons:
o Ease of fire-stoppingo To prevent water from leaking and spilling to lower floorso To prevent cables being installed between floors from chaffing
5.5Electrical Power RequirementsPower to terminal rooms shall be installed using dedicated circuits to these areas. UPS
system equipment shall be incorporated only if identified and budgeted in the project inconsultation with OIT/NTS.
Where UPS systems are required, the following criteria apply:
Space ventilation or air conditioning shall be provided to maintain therecommended operating temperature of equipment.
The systems shall be completely isolated from the line. The neutral shall be bondedto ground.
Voltage spikes shall have attenuation of 2,000:1 from line for lightning protection.Surges shall be suppressed to safe levels as described by IEEE (Institute ofElectrical and Electronics Engineers) 587 A and B (guide to surge voltages).
Common mode noise rejection shall be better than 120 dB. Transverse mode noiserejection shall be greater than 60 dB.
The wave shape shall be sine. It shall be limited to 3% single harmonic distortion,and 5% total harmonic distortion.
Loss of power shall be less than 2 milliseconds in transfer to the UPS and return.The waveform shall remain in phase.
The unit shall run at full load without input power for 20 minutes. OIT/NTS shallreview this timeframe.
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There shall be a method of bypassing AC so the UPS may be maintained andrepaired without loss of power to equipment. It is not necessary to condition powerin this mode.
The UPS shall be capable of handling a 25% overload for five minutes and a surgeoverload of 50%.
There shall be a delay of more than 15 seconds before the UPS returns to normalline conditioning mode.
The output waveform shall have less than 3% single harmonic distortion, and 5%total harmonic distortion.
5.6Air Conditioning Requirementso PBXo Core Nodeo Data Centero Videoo Other High Concentrations of Heat-producing Electronic Equipment
6Bonding and GroundingIntroduction
The NEC defines bonding as, The permanent joining of metallic parts to form an electrically
conductive path that ensures electrical continuity and the capacity to conduct safely any currentlikely to be imposed. A ground is defined as, A conducting connection, whether intentionalor accidental, between an electrical circuit or equipment and the earth or to some conducting
body that serves in place of the earth.
The purpose of the grounding system is to direct potentially damaging currents away frompeople and sensitive network equipment by creating a low impedance path to earth ground for
electrical surges and transient voltages. This serves to minimize the detrimental effects of thesecurrents (which include degraded network performance and reliability, as well as increased
safety risks).
The grounding system must be intentional, visually verifiable, and adequately sized to handleexpected currents safely. The grounding system shall be designed and installed in accordance
with the NEC and with the BICSI TDMM, Chapter 8 (11th
edition or subsequent releases),TIA/EIA-942, and J-STD-607-A.
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6.1Busbars Each communications room in a building shall have a grounding busbar, typically
installed in a lower corner of the plywood backboard at least 6 inches above thefinished floor, and as close as practicable to any electrical panelboard serving the
room.
The main equipment room or entrance facility shall house the TelecommunicationsMain Grounding Busbar (TMGB), and each other equipment room shall house a
Telecommunications Grounding Busbar (TGB).
Busbars shall be a minimum of inch thick, of electrolytic tin plated copperconstruction, and must be predrilled to accept standard two-hole lugs. The TMGB
shall be 4 inches high, a minimum of 20 inches long, and of variable length to
accommodate the expected number of lugs and allow for future growth. The TGBshall be 2 inches high, a minimum of 12 inches long, and of variable length.Currently approved busbars are Panduit GB4 series for MDF and GB2 series for
IDF.
6.2Telecommunications Bonding Backbone The busbars on each floor shall be bonded to the Telecommunications Bonding
Backbone (TBB). The TBB shall be routed in as straight a line as possible and be
continuous, with no splices, from the TMGB to the top floor TGB. It shall be sizedin accordance with J-STD-607-A (See Table 1). The bend radius on any necessary
bends in this cable should be greater than 8 inches.
Table 1: Sizing of the TBB
TBB Length in Linear meters
(feet)
TBB Size (AWG)
Less than 4 (13) 6
4-6 (14-20) 4
6-8 (21-26) 3
8-10 (27-33) 2
10-13 (34-41) 113-16 (42-52) 1/0
16-20 (53-66) 2/0
Greater than 20 (66) 3/0
The TMGB shall be bonded to an approved grounding electrode and to thebuildings main electrical ground system. This grounding electrode conductor shall
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be no smaller than the TBB. Connections to the TGBs at every floor except the top
floor shall be made via copper compression H-Tap (see section 6.8) and aconductor no smaller than the TBB. In the event that more than one TBB exists in a
building, the TGBs shall be connected at the top floor and at a minimum of everythird floor below by a Grounding Equalizer (GE), which is equal in size to the
TBB.
6.3Cables Each conductive multipair cable in a building shall be grounded at both ends via a
bond attached to the cable armor (which accepts a standard two-hole lug). The bond
shall be Electric Motion Companys EM 2BBx bond, unless a substitute isapproved in advance by OIT/NTS.
6.4Rack Grounding
Electrical continuity throughout each rack or cabinet is required to minimize safetyrisks. The racks shall be assembled using paint-piercing grounding washers(Panduit Part no. RGW, or an OIT/NTS-approved substitute) and antioxidant (per
the recommendations of the manufacturer). An electrostatic discharge port kit(Panduit RGESD, or an OIT/NTS-approved substitute) shall be placed on the rack
(on the right side when facing the rack) at 48 inches above the floor. All bondingconnections to the rack shall be made with thread-forming screws (Panduit Part no.
RGTS, or an OIT/NTS-approved substitute), or the threads must be cleaned of allpaint or residue (per the NEC).
In locations with multiple racks, the rack shall be connected to the commonbonding network with a 6 AWG conductor and a copper compression HTAP. Inlocations with single racks, a 6 AWG conductor to the busbar is sufficient. The
common bonding network is a 2 AWG continuous conductor placed below orabove the racks. Refer to TIA/EIA-942 and IEEE-1100 for designrecommendations.
6.5Pathway Grounding Any metallic component, including equipment, ladder racks, enclosures, cable
trays, etc., must be bonded to the grounding system. Provisions must be made tobond individual segments of ladder rack and basket tray together in order to make
them electrically continuous. Any metallic conduit that carries a groundingconductor and is greater than 3 feet long must have both ends bonded to the
conductor with a bonding jumper no longer than 12 inches and fastened with acompression HTAP to the conductor on one side and to the conduit on the other.
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6.6Equipment Grounding Although AC-powered equipment typically has a power cord that contains a ground
wire, the integrity of this path cannot be easily verified. Thus, many equipmentmanufacturers require grounding above and beyond that which is specified by local
electrical codes, such as the NEC. Always follow the grounding recommendationsof the manufacturer when installing equipment.
6.7Electrical Service When an electrical panelboard is located in a telecommunications room, a 6 AWG
bonding conductor shall be run from the busbar to the electrical service ground.When an electrical panelboard is not located in the room, a 6 AWG bonding
conductor should be run from the busbar to the nearest electrical panelboard (where
feasible).
6.8Compression Fittings Lugs and HTAPs must be manufactured of tin plated copper and fastened via
irreversible compression (crimped). Lugs shall have spacing to fit Panduit GBseries predrilled busbars and a window to allow for inspection of the crimp. HTAPs
shall be contained in clear covers that allow inspection of the die marks to ensurethat the proper die was used.
o Approved lugs:
Panduit LCC or LCCX series Burndy YAZ series CPI Electric Motion Company CCL Series
o Approved HTAPS: Panduit HTWC series Burndy YH series (when used with clear covers) or an OIT/NTS-
approved substitute.
6.9Testing and documentationThe grounding system shall be documented by means of a diagram showing thelocations of the busbars and the size of the conductors, indicating all connections
between conductors from the busbars or TBB back to the building electrical groundingsystem. This includes: connections to building AC panelboards, building steel, the
building electrical service ground, connections between the busbar(s) and the TBB. Ifnot connected with a two-hole lug, the connection type of any bonding connection
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(HTAP, clamp, etc) between the busbar and the building ground point should be
specified on the drawing.
To ensure that bonding connections from the busbar to infrastructure within thetelecommunications spaces are of low resistance and that the impedance to ground is as
low as possible, the following checks shall be performed.
Lugs: Visually check that the conductor is visible in the window of the lug toensure that it was fully inserted, and that the lug is properly crimped. Check that thelug is fastened through both mounting holes, that the connection is tight, and that
antioxidant was used (if necessary).
HTAPs: Ensure that the mark left on the HTAP indicates that the appropriatemanufacturer-recommended die was used for that HTAP, and that the connection isprotected by a clear cover that allows visual inspection.
Racks: Visually check that the racks have been assembled with paint-piercingwashers or are constructed so as to make such measures unnecessary (i.e. welded).
Conduits: If a bonding conductor is routed through a metallic conduit more thanthree feet long, ensure that both ends of the conduit are bonded to the conductor
with a suitable method, avoiding sharp bends in the cable. Looping the conductor
itself through the conduit bonding collar is prohibited.
Measurements: Ensure that the resistance of the following connections is less than0.1 ohms:
o Lug to HTAP for any connections to Common Bonding Networko Rack bonding lug to any rack section (the paint-piercing washers make
good test points)
o Bonding lugs to busbar, cable tray, and cable bond7Intrabuilding Backbone Riser Facilities
7.1Design Considerations OIT/NTS designs the intrabuilding backbone distribution system to meet or exceed
the requirements of TIA/EIA-568-B, BICSI TDMM Chapter 5 (11th edition orsubsequent releases), the NEC, and all applicable local and national codes andregulations.
The intrabuilding backbone shall be comprised of both copper and optical fiber.Cable sizing shall be in consultation with OIT/NTS for specific buildingrequirements.
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Intrabuilding backbone fiber and copper cables shall be sized to include 50% sparefor future use. Consult with OIT/NTS for cable sizing requirements on a perbuilding basis.
Intrabuilding backbone cables comprised of steel or metallic parts must begrounded on both ends of the cable (as specified in section 6, Bonding andGrounding).
Proper firestopping of all backbone pathways shall be maintained as specified insection 5.1, General Telecommunications Rooms Requirements.
Intrabuilding copper and backbone cables shall be installed without exceeding theminimum bend radius and the maximum vertical rise recommended by the cable
manufacturer and must not exceed the maximum allowed pulling tension of the
cable(s).
7.2Intrabuilding Backbone Copper (Riser)7.2.1Cabling
The intrabuilding copper backbone cable(s) shall be 100 ohm unshielded,balanced, twisted-pair, Category 3 riser-rated cable with 24 AWG round
solid conductors. It shall also be armored.
Copper backbone cabling shall be type CMR (Communications Riser). Where used in plenum spaces, copper backbone cabling shall be type CMP
(Communications Plenum).
The cable shall be UL tested and listed, and it shall meet or exceed therequirements of Category 3 cable as specified in TIA/EIA-568-B.1 and allapplicable national and municipal fire codes.
Copper backbone riser cable specifications are as follows:o Communications Riser: Category 3 Copper Cable ARMM (Alpeth,
Expanded polyethylene polyvinyl chloride, 24 AWG, ALVYN)
o Communications Plenum: Category 3 Copper Cable 24 AWG PlenumRated
7.2.2Terminations Intrabuilding backbone copper cabling shall be terminated on 110
termination blocks in the telecommunications riser room. Main
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Communication room terminations must be done in accordance with
OIT/NTS.
Terminations must be in accordance with TIA/EIA-568-B.
The cable shall be continuous without splices, unless specified differentlyby OIT/NTS.
Intrabuilding copper backbone cables must be properly secured to the wallsto prevent horizontal movement as specified in BICSI TDMM Chapter 5(11
thedition or subsequent releases), the NEC, and all applicable national
and municipal codes.
7.3Intrabuilding Backbone Fiber Optic (Riser)7.3.1Cabling
The intrabuilding optical fiber backbone cable(s) shall be a hybrid(singlemode/multi-mode) cable consisting of 8.3/125 m singlemode and62.5/125 m multi-mode optical fiber consisting of a minimum of 12
strands of singlemode and 12 strands of multi-mode.
All backbone fiber optic cabling must use Corning glass (SMF-28e forsinglemode and Infinicor CL-1000 for multi-mode fiber). Cable sizing shall
be in consultation with OIT/NTS.
Optical fiber riser shall be type OFNR (optical fiber non-conductive riser). Where used in plenum spaces, optical fiber shall be type OFNP (optical
fiber non-conductive plenum).
Singlemode cable jackets shall be yellow in color, while multi-mode andhybrid cable jackets shall be orange in color.
Optical fiber cables shall meet or exceed all applicable national and localbuilding fire codes.
Optical fiber backbone riser cable specifications are as follows:o Fiber Riser Cable: Corning (part number 024XW7-CK539D20) or an
OIT/NTS-approved substitute.
o Fiber Riser Cable Plenum Rated: Corning (part number: 024XWP-CK540D20) or an OIT/NTS-approved substitute.
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7.3.2Fiber Terminations The intrabuilding optical fiber backbone cable(s) shall be installed with a
service loop of 25 feet at each end.
Intrabuilding fiber backbone cables must be properly secured to the wallsto prevent movement as specified in BICSI TDMM Chapter 5 (11
thedition
or subsequent releases), the NEC, and all applicable national and local
building codes.
Velcro cable ties shall be used for securing fiber optic cable. All fiber optic cables are to be continuous without splicing, unless
otherwise specified by OIT/NTS.
Fiber optic terminations are to be field-connectorized using ST 3M Hotmeltconnectors. Splicing of pigtails is not allowed.
The singlemode strands of each intrabuilding backbone fiber optic cableshall be placed first in the fiber optic cabinet, followed by the multi-modestrands of the corresponding cable.
Fiber optic cabinets shall be labeled according to OIT/NTS labelingscheme. Contact OIT/NTS for the correct designation.
7.3.3Fiber-Optic Enclosures Fiber-optic rack-mounted enclosures shall consist of an EIA-approved 19-
inch enclosure (with optional extensions to fit in a 23-inch rack) that is fourrack units tall (7 inches) with a minimum of 72 duplex port capacity.
Individual fiber couplers must be removable from the panel. Individual couplers must be replaceable without causing interruption of
service to adjacent fiber strands.
Dust covers must be provided for any unused couplers in each enclosure. The enclosure shall be black. Specify Panduit product FRME-enhanced series or prior OIT/NTS-
approved substitute.
Enclosures shall be labeled per OIT/NTS specifications.
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7.4Intrabuilding Backbone Pathways Intrabuilding backbone cabling shall be distributed using a series of conduits, cable
trays, sleeves, and slots. Refer to section 5.3 (Communications Rooms) and
section 9 (Raceway/Tray Systems) of this document for information onpathways.
All conduits, cable trays, sleeves, and slots shall conform to TIA-569-B, BICSITDMM Chapter 5 (11
thedition or subsequent releases), the NEC, and all applicable
national and municipal codes.
The cable must be properly supported as defined by the cable manufacturersspecifications and shall conform to TIA/EIA-568, the NEC, and all applicablenational and municipal codes.
8Communications/Terminal Room Termination RequirementsFor all new construction, Category 5E and/or Category 6 installations shall terminate voice on110-style punch blocks and terminate data on patch panels.
Figure A: Typical Backboard Layout for Riser Rooms
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8.1Wall Termination of Copper Wiring Provide 110 IDC systems mounted to the 8-foot by 4-foot wide by 3/4-inch thick
unpainted, fire-retardant, CD grade or better plywood backboard that is mountedwith the smooth side out.
Install terminal blocks so that they are vertically plumb and securely fastened to theplywood backboards. Install the top jumper trough 2 feet down from the top of theplywood.
Install a wire basket-style tray that is designed for no more than 40% fill at the topof the plywood for the length of the termination field. Install a wire basket-styletray 8 inches below the bottom of the lowest jumper trough (Refer to Figure A).
This tray must be bonded and attached to the ground buss, and it must meet all of
the requirements of J-STD-607 Commercial Building Grounding and BondingRequirements, the NEC, and Chapter 8 of BICSI TDMM (11th edition orsubsequent releases). Refer to Section 6 of this appendix for Bonding and
Grounding Requirements.
Install cables without violating the minimum bend radius specified by the cablemanufacturer. Route station cables in brackets, troughs, and wire ways that are
specifically designed for Cat 5E/Cat 6 applications. Fasten cables securely withVelcro-style tie wraps to prevent strain at the terminations.
Wall-mounted copper connectivity specifications are as follows:o Cat 5E
Systimax 5E 110 Connecting Block w/o legs 107 059 909 Systimax Jumper Trough w/o legs 107 831 141 Seltek 110 Cable Guide (backchannel) CG300
o Cat 6 Systimax 110 Connecting Block 107 059 925 Systimax Jumper Trough w/o legs 107 831 141 Seltek 110 Cable Guide (backchannel) CG300
8.2Equipment Racks Allow for a minimum of two floor-mounted (7-foot tall by 23-inch wide)
equipment racks per room.
Equipment racks shall be self-supported and floor-mounted. Equipment racks must be securely mounted to the floor with expansion anchors.
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Equipment racks must have cable management with 6-inch vertical channels andmust have pass-through holes and slots for additional cable managementaccessories.
Wire management must accept removable, hinged doors. Racks must include movable, plastic D rings for flexible cable management. The rack system is to be installed per OIT/NTS requirements and shall be a Panduit
NetFrame or a Chatsworth Rack System.
Provide a horizontal wire basket-style tray that is designed for no more than 40%fill and that is mounted above all equipment racks. The tray must be properly
bonded and grounded.
All equipment racks shall be grounded to the ground buss and meet all of therequirements of J-STD-607 Commercial Building Grounding and Bonding
Requirements, the NEC, and Chapter 8 of the BICSI TDMM (11th edition orsubsequent releases).
Equipment racks must meet all EIA requirements as defined in EIA-310-D.8.3Patch Panels Category 5E/Category 6 patch panels shall consist of EIA-approved 19-inch patch
panels with optional extensions to fit a 23-inch rack.
Panels must accommodate 24 jacks per 1 inch rack unit. Each eight-pin modular jack must provide proper strain relief by encompassing the
insulation of the cable within the back of the jack.
Each eight-pin modular jack must be removable from the panel. Individual jacks must be replaceable without causing any interruption of service to
any other jack.
Panels shall be UL 1863-listed and black in color. A labeling area shall be included on the front for jack identification. Patch panels shall be a Systimax 108 356 312 or Leviton 49255 H24 (or an
OIT/NTS-approved substitute).
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8.4Horizontal Management Design to support Category 5E/Category 6 cables without compressing or kinking
the cables.
Horizontal cable management panels must be included on the racks and shall havean EIA-compliant 19-inch wiring management duct that is one rack space tall (with
optional extensions to fit a 23 inch wide rack).
A wire management panel must be placed above the first patch panel, every thirdrack unit thereafter, and below the last patch panel.
The wire management panel shall have a 1 inch by 2-inch front wire managementduct, and a 1-inch by 4-inch rear wire management duct.
Covers for each duct shall be removable/hinged. The entire panel shall be black. Specify Panduit product code number NCMH2 or an OIT/NTS-approved
substitute.
Consult with OIT/NTS with regards to the needs and design of vertical wiremanagement ducts.
9Raceway/Tray SystemsThe general requirements for raceway/tray systems are as follows:
Communication tray systems shall be for exclusive use by OIT/NTS. The systems shall be designed for no more than 40% fill. The systems must be metallic and continuous, and all separate pieces must be bonded
where they are joined.
The systems must be grounded to the building grounding system with a minimum 6 AWGcopper conductor. Refer to Section 6 for specific Bonding and Grounding requirements.
Use insulated metallic bushings for attached metallic conduits. Ground and bond theconduits to the tray (Figure B).
The tray shall be ladder or wire basket style.
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The ladder-style tray shall have a rail on each side, and the rungs shall be enclosed andwelded into place.
The wire basket-style tray shall be U shaped and constructed of round wire mesh. Thebasket tray shall be installed trapeze-style or wall-mounted. It must not be center hung.
End-of-tray cable waterfalls must be used where wire drops down to prevent abrasions andcuts from metal tray edges.
The tray must be no closer than 6 inches from the structural ceiling, ducts, pipes, or anyother possible obstructions. A minimum separation of 5 inches from lighting, especially
fluorescent lighting, is required.
The tray must maintain 18-inch clearance from sprinkler heads. The complete cable tray system must meet OIT/NTS approval. Compliance to this standard requires that the end of rigid or flex conduit must:
o Have a bushingo Lie within the side and end planes of the cable trayo Lie within the tolerated distance as illustrated (Figure B)o Be anchored to a rigid supporto Be grounded and bonded to the cable tray with a minimum 14 AWG
copper conductor. Refer to Section 6 of this appendix for Bonding and
Grounding Requirements.
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Figure B: Conduit to Cable Tray Configurations
9.1J-HooksThe use of J-Hooks to support horizontal wiring in lieu of continuous conduit or a
combination of conduit and wire basket tray is currently under study by OIT/NTS. Atthis time, OIT/NTS cannot document any advantages to using J-Hooks other than for
economic reasons. Numerous questions and concerns have arisen regarding the affectsof EMI (Electromagnetic Interference) on high speed data transmissions when J-Hooks
are used to suspend horizontal wiring systems. Compatibility concerns (including bend
radius control and loading limitations) and EMI susceptibility between cable
manufacturers and J-Hook manufacturers have not been adequately addressed, given thelarge number of products and the various combinations that can be used.
When J-Hooks are to be installed as a substitution for continuous conduit or acombination of conduit and wire basket tray, it is the responsibility of the Architect,
Electrical Engineer, Owners Representative, Professional Voice and Data Consultant, orother requesting party to provide documentation from both the cable manufacturer and
the J-Hook manufacturer stating that their wire and J-Hooks are compatible and willaddress bend radius control, loading limitations, and EMI rejection. A plan showing the
placement of each J-Hook including load capacity and bend radius control must also beprovided to OIT/NTS. OIT/NTS must review the documentation and approve of the J-
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Hook System, or OIT/NTS will not bear the responsibility of insuring that the voice and
data systems and services perform to the required data and voice transmission speeds.
10Horizontal Wiring Facilities PROHIBITED: Daisy chaining of conduit from outlet to outlet. PROHIBITED: Splitting copper pairs between jacks. TIA/EIA-568-B-1 states that
"Each 4-pair cable shall be terminated in an eight-position modular jack at the work
area."
PROHIBITED: Sharing the outlet and conduit pathway with other non-telecommunications facilities.
PROHIBITED: Using traditional nylon synch-style tie wraps to bundle cables. OnlyVelcro-style tie wraps are acceptable.
Horizontal wiring technicians and installers shall be certified by the manufacturer of allhorizontal wiring and termination components that they will be installing.
Telecommunications outlets shall be wired with unshielded, twisted pair 24 AWG wire(UTP) with suitable insulation and sheath material to meet or exceed TIA/EIA-568-B.2or equivalent. The wire shall be type communications riser cable (CMR) or
communications plenum cable (CMP) (UL) with rating dependent on the NEC, and itshall be OIT/NTS approved.
When pulling cable in Patient Care areas, it is critical that care is taken to control dust,odors, noise, and aisle clearances. In addition, strict adherence should be given to patient
confidentiality policies of the University of Minnesota.
The current position of OIT/NTS on horizontal cabling is to recommend theinstallation of Category 5E cable. Because of the variety of infrastructure on campus,
OIT/NTS cannot guarantee performance without an upgrade of the infrastructure tosupport higher bandwidth requirements of new technology. For example, installing
Category 6 cabling does not guarantee performance at increased bandwidths without anupgrade of the installed infrastructure/backbone system.
Any cable lubricant to be used during cable installation must meet both performance andcompatibility standards for the cable as specified by the cable manufacturer.
If a building initially is wired with Category 6 cabling, any subsequent wiring shall bedone exclusively with Category 6 cable. Deviation of wiring levels when the original isinstalled with Category 6 is not recommended unless OIT/NTS pre-approves in advance
in writing. Any movement, additions, or changes after the initial installation shall require
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Category 6 cable to be used. One manufacturer's brand shall be used for each component
type throughout a building if the Category 6 wiring system requires the same vendorproducts in order to retain Category 6 performance standards and successful testing.
10.1Outlets Telecommunication outlets shall be 4-inch by 4-inch by 2-1/2 inch boxes with a
minimum 1-inch Inside Diameter continuous metallic conduit provided to thenearest terminal or ceiling raceway system. Refer to Section 9 for raceway/tray
system requirements.
Standard telecommunications outlets shall be installed at a minimum of 15 inchesabove a finished floor and at the same height as the electrical outlets as specified in
the Construction Standards Institute (CSI) Division 16. Standard
telecommunications outlets for wall phones shall be 48 inches above a finishedfloor. All measurements are from the floor to the center of the outlet.
Floor-mounted outlets used for modular furniture shall be a Walker RCI RC3 flushpoke-through unit, with Panduit 2 position adapter CRC3A2BL-X or dual
Systimax (AT&T) 2A-U2ATT or a prior OIT/NTS-approved substitute.
The Americans with Disabilities Act (ADA) requires that phone outlets beaccessible at 48 inches to the highest operable mechanism for forward reach and 54
inches to the highest operable mechanism for side reach.
All other outlet facilities specifications for people with disabilities shall becompliant with CABO/ANSI A117.1 standards.
Telecommunications outlets shall not be placed in a back-to-back location, butshall be separated by a minimum of 12 inches. Telecommunications outlets in fire-rated walls shall be separated by 24 inches.
UBC Chapter 43 states that openings in fire-resistive walls for steel outlet boxesnot exceeding 16 square inches in area cannot aggregate more than 100 square
inches for any 100 square feet of wall or partition. Totals must include electricalswitches or outlets, or any other openings when totaling 100 square inches.
Inspectors have accepted a UL Rated Fiberglass box as a substitute for a steel box.
It must be appropriately fire-stopped.
Telecommunications outlet boxes shall be used solely for low-voltage wiring fortelecommunications.
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All wall outlet boxes shall be equipped with two-gang cover plates. Only thefollowing outlets shall be equipped with a one-gang cover plate:
oOutlets designated for wall telephones
o Outlets designated for pay telephones Two collocated 4-inch by 4-inch by 2-1/2-inch boxes shall be provided with
terminations. Distribution of fiber/copper between the two boxes shall be inconsultation with OIT/NTS. The boxes shall be adjacent, but separated by a
minimum of 12 inches.
Cat 5EA minimum of 12 inches of slack for Cat 5E copper and 1 meter of fiber shall be
left in each outlet.
Cat 612 inches of slack for each outlet is required. However, the slack cannot remain in
the box behind the outlet. The slack must be loosely coiled and remain in the cabletray. For homerun conduits, the slack must remain in the communications/terminal
rooms.
The number of wires or fiber strands installed to each communication outlet shallbe determined in consultation with OIT/NTS. OIT/NTS recommends a minimum
of four Category 5E cables at each copper outlet: two for voice and two for data.
10.2Horizontal Conduit Each conduit shall be installed in a home-run configuration from the outlet to the
cable tray or telecommunications room.
No conduit shall exceed 100 feet without installation of a pull box. Conduits shall be placed in the straightest run possible with no more than the
equivalent of two 90 bends per run. When additional bends are required, pullboxes shall be installed.
Conduit sizes shall be adequate for the cable needed to serve voice and datainstruments. The minimum size for conduit is 1 inch. 1-inch conduit isrecommended if Cat 6 or Cat 6A is to be installed.
For information on conduit sizing and routing, refer to Chapter 5 of BICSI TDMM(11th edition or subsequent releases).
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10.3Horizontal Wiring10.3.1Horizontal Copper Wire
Category 3 and Category 5 wiring is no longer recommended forinstallation.
Copper wiring specifications are as follows:o Blue Cat5E plenum
BerkTech product code 230645 General product code 6131433 Mohawk product code M56168 Superior Essex product code 52-241-28
o Blue Cat5E PVC BerkTech product code 530529 General product code 6133403 Mohawk product code M56167 Superior Essex product code 52-240-25
o Green Cat6 plenum BerkTech product code 230722 General product code 7131649 Mohawk product code M57197 Superior Essex product code 66-240-5B
o Green Cat6 PVC BerkTech product code 530661 General product code 7133512 Mohawk product code M57206 Superior Essex product code 66-240-5A
All copper wiring and connectors must conform to the followingspecifications:
o Category 5E: TIA/EIA-568-B-2o Category 6: TIA/EIA-568-B-2, TSB-36, TSB-40A, NEMA 100-24
XF, UL Level IV
Wire shall meet or exceed TIA/EIA-568-B-2 Category 5E and NEMAlow-loss extended frequency requirements.
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The amount of slack in the terminal room from the jack location shall bedetermined in consultation with OIT/NTS.
Each cable in the terminal room from the jack shall be tagged with thecurrent designation from the current architectural drawings.
Station cabling shall be terminated to the standards and specificationsrequired for that particular category of cable.
Station cables shall be terminated in order according to jack numberwherever and whenever possible. Refer to Section 13 for more
information on the outlet-labeling scheme.
Wire each jack configuration designation according to TIA-EIA-568-B(Designation T568B).
All copper and fiber cable must be continuously supported by conduit or acable tray.
All Category 5E and Category 6 installations must also conform to thecomponent configurations and installation practices contained in
TIA/EIA-568-B.
Fiber optic cables shall comply with TIA/EIA-568-B and performancemeasurements of TIA/EIA-455, Section 46, 53, or 61.
10.3.2Horizontal Fiber Optic Wire Fiber optics shall be 62.5 mm and 125 um to meet or exceed
ANSI/TIA/EIA-492 AAAA. Each strand of fiber must be housed in itsown buffer tube throughout the length of the fiber cable. Each cable in the
terminal room from the jack shall be tagged with the current designationfrom the current architectural drawings. Consult with OIT/NTS to
determine the amount of slack in the terminal room from the location ofthe jack.
Fiber specifications are as follows:o Multi-mode plenum
BerkTek product number ICP002CB3510/55 General product number CT0021PNU Mohawk/CDT product number M9B043
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o Multi-mode PVC BerkTek product number ICR002CB3510/55 General product number CT0021PNR Mohawk/CDT product number M9B037
o Singlemode plenum BerkTek product number ICP0X0AB0707 General product number AP0021PNR Mohawk/CDT product number M93043 Siecor product number 002R88-31131-29
o Singlemode PVC BerkTek product number ICR0X0AB0707 General product number AP0021PNU Mohawk/CDT product number M93037 Siecor product number 002R81-31131-24
Note: Due to technological advances and changes in vendors' part
numbers, please refer to the online version of these standards(http://www1.umn.edu/nts/wiring3.shtml ) for updated part numbers.
Labeling shall be in consultation with OIT/NTS.10.3.3 Small Form/Modular Style Fiber Standards
All small form, multi-mode, modular style, duplex fiber connectors mustmeet or exceed TIA/EIA 455 and ISO/IEC 874-1 performancespecifications.
All small form singlemode, modular style, duplex fiber connectors mustmeet or exceed TIA/EIA 455, ISO/IEC 874-1, and Bellcore 326-COREperformance specifications.
The manufacturer shall have a TIA/EIA Fiber Optic ConnectorIntermateability Standard (FOCIS) document. This is a componentstandard written for manufacturers to follow to ensure that their
connectors will be intermateable with other connectors of the same type.
Each small form fiber connector must contain two strands of fiber thatmeet or exceed the singlemode or multi-mode performance standards
specified in this document.
Each fiber shall be housed in its own separate ferrule within the jack.
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The jack must have separate alignment sleeves for each ferrule. The small form fiber jack shall fit into the same manufacturer's flush
faceplate that accommodates its copper jacks so that any combination oftwo, four, or six outlets of copper or fiber cables may be used at any
location.
Small form factor plugs/jacks shall accommodate either singlemode ormulti-mode fiber strands.
Both singlemode and multi-mode jack and plugs shall be able to be fieldterminated.
High-density fiber jack multi-mode Panduit product number FJJGM5CEI(Electrical Ivory) or Avaya product number P1001A-Z-125 shall be used(or a prior OIT/NTS-approved substitute).
High-density fiber jack singlemode Panduit product number FJJGS9CBUor Avaya product number P1101A-Z-125 shall be used (or a prior
OIT/NTS-approved substitute).
10.4Jacks Jacks shall be mounted in a 106-type frame (Systimax product number 106 622
277), a mounting frame (Leviton 41087 QP), or a prior OIT/NTS-approved
substitute.
The jack cover plate shall be 302 stainless steel or other OIT/NTS-approved coveror housing.
Each copper outlet shall contain the following jacks:Voice jacks
o Category 5E Systimax product code number 108 232 752 (gray)
Leviton product code number 5G110-RG5 (gray)
o Category 6 Systimax product code number 700 206 733 (gray) Leviton product code number 61110-RG6 (gray)
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Data jacks
o Category 5E
Systimax product code number 108 232 703 (orange) Leviton product code number 5G110-RO5 (orange)
o Category 6: Systimax product code number 700 206 683 (orange) Leviton product code number 61110-RO6 (orange)
11Testing11.1Category 5E Wiring
Every cabling link in the installation shall be tested in accordance with TIA/EIA-568-B.1.
All of the installed cables must be tested and must pass the specifications ofTIA/EIA-568-B.1.
The horizontal cabling shall be tested from the communications rooms/terminalspaces to the wall outlet using the Permanent Link specification of TIA/EIA-568-
B.1.
Any cable that fails these tests shall be re-terminated and tested again. If the cabledoes not meet specifications after being re-terminated, replace the cable, terminate,and test again.
The test equipment shall comply with or exceed the accuracy requirements forenhanced Level II (Level II-E) field testers (as defined in TIA/EIA-568-B, Annex
1, Section 1.4).
The pass or fail condition for the link being tested is determined by the results ofthe required individual tests. Any fail result yields failure for the link being tested.
The test results for each link shall be recorded in the memory of the field testerupon completion of the test.
The test results saved by the tester shall be transferred to a CD-ROM. A guaranteemust be made that the results of the measurement shall be transferred to the CD-
ROM unalteredthat is, as saved by the tester at the end of each test. Theguarantee must also specify that the results cannot be modified at a later time.
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The test results for the completed job shall be stored and delivered to OIT/NTS ona CD-ROM, along with the software tools required to view, inspect, and print anyselection of the test reports.
A paper copy of the test results shall be provided to OIT/NTS in a three-ringbinder.
11.2Category 6 Wiring Every Category 6 cable in the installation shall be tested in accordance with the
field test specifications defined in the most recent draft of the "TransmissionPerformance Specifications for 4-pair 100 Category 6 Cabling" (under
development by the TIA). At the time of publication of the 2002 Standards andProcedures for Construction, PN 3727 TIA/EIA Draft Standard - Draft 11Brepresents the most recent version. Within these standards, this specification shall
be referred to as the TIA Cat 6 Draft Standard.
All of the installed cables must be tested and must pass the specifications ofTIA/EIA-568-B.
The horizontal cabling shall be tested from the communications rooms/terminalspaces to the wall outlet using the Permanent Link specification in the TIA Cat 6Standard.
Any cable that fails these tests shall be re-terminated and tested again. If the cabledoes not meet specifications after being re-terminated, replace the cable, terminate,
and test again.
The test equipment shall comply with or exceed the accuracy requirements for theproposed Level III field testers as defined in the Cat 6 Standard.
The pass or fail condition for the link being tested is determined by the results ofthe required individual tests. Any fail result yields failure for the link being tested.
The test results for each link shall be recorded in the memory of the field testerupon completion of the test.
The test results saved by the tester shall be transferred to a CD-ROM. A guaranteemust be made that the measurement results are transferred to the CD-ROM
unalteredthat is, as saved by the tester at the end of each test. The guaranteemust also specify that the results cannot be modified at a later time.
The test results for the completed job shall be stored and delivered to OIT/NTS ona CD-ROM along with the software tools required to view, inspect, and print anyselection of the test reports.
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A paper copy of the test results shall be provided to OIT/NTS in a three-ringbinder.
11.3Fiber Optic Cable to Outlet
Every fiber optic cable in the installation shall be tested in accordance with fieldtest specifications as defined in TIA/EIA-568-B and TSB-140.
All of the installed fiber optic cables must be tested and must pass thespecifications of TIA/EIA-568-B.
Any cable that fails these tests must be diagnosed and corrected. The correctiveaction shall be followed with a new test to prove that the corrected link meets the
performance requirements. The final and passing test must be saved and included
in the final test results documentation.
Field test instruments for multi-mode fiber cabling shall meet the requirements ofTIA-526-14A. The light source shall meet the launch requirements of TIA/EIA-455-50B, Method A.
Field test instruments for singlemode fiber cabling shall meet the requirements ofTIA-526-7.
The test results for each link shall be recorded in the memory of the field testerupon completion of the test.
The test results saved by the tester shall be transferred to a CD-ROM. A guaranteemust be made that the measurement results are transferred to the CD-ROMunalteredthat is, as saved by the tester at the end of each test. The guarantee
must also specify that these results cannot be modified at a later time.
The test results for the completed job shall be stored and delivered to OIT/NTS ona CD-ROM along with the software tools required to view, inspect, and print anyselection of the test reports.
A paper copy of the test results shall be provided to OIT/NTS in a three-ringbinder.
11.4Intrabuilding Backbone Riser Cable Testing Every installed intrabuilding backbone cable shall be tested in accordance with
TIA/EIA-568-B.1 (for copper); with TIA/EIA-526-7, TIA/EIA-526-14A, andTIA/EIA-568-B.3 (for fiber); and with BICSI TDMM Chapter 11 (11
thedition or
subsequent releases).
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All of the installed intrabuilding backbone cables must be tested and must pass thespecifications of TIA/EIA-568-B.1 (for copper); TIA/EIA-526-7, TIA/EIA-526-14A, and TIA/EIA-568-B.3 (for fiber).
Any cable that fails shall be re-terminated and tested again. The test equipment shall comply with or exceed the accuracy requirements for
enhanced Level III field testers.
The pass or fail condition for the cable being tested is determined by the results ofthe required individual tests. Any fail result yields failure for the cable beingtested.
The test results for each cable shall be recorded in the memory of the tester uponcompletion of the test.
The test results saved by the tester shall be transferred to a CD-ROM. A guaranteemust be made that the results of the measurement shall be transferred to the CD-ROM unalteredthat is, as saved by the tester at the end of each test. The
guarantee must also specify that the results cannot be modified at a later time.
The test results for the completed job shall be stored and delivered to OIT/NTS ona CD-ROM along with the software tools required to view, inspect, and print anyselection of the test reports.
A paper copy of the test results shall be provided to OIT/NTS in a three-ringbinder.
For individual installations, provide one project manual that is assembled in loose-leaf binders and contains the following:
o As-Built AutoCAD prints (as listed in Section 12 of this document)o A CD-ROM copy of all copper and fiber optic test results, along with
the software tools required to view, inspect, and print any selection ofthe test reports
o Warranty information and any vendor certification of the installedinfrastructure
12As-Built Documentation Provide complete CAD As-Built floor plans in AutoCAD 2000 that contain thefollowing
information:
o Architectural floor plans with finalized room names and numbers
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o The location and identification of all voice, data, and fiber optic outletso A legend on the plans to readily identify the voice, data, and fiber optic
cables (cable routing)
oConduit sizes and routing for all cables installed in conduit
o Cable size and locationso Bonding and grounding locations and connectionso Detailed communication riser diagrams (separate for fiber and copper),
showing the following: terminal room locations; pathway route andsize; cable size, construction, length, and pair counts; and fiber
termination labeling.
o Large-scale drawing of all communications/terminal rooms, indicatingelevation views and plan views ofincluding but not limited toalltermination blocks, equipment racks, patch panels, and fiber optic
enclosures
oTerminal backboard layout with labeling and pair identification
13OIT/NTS Outlet Labeling Scheme (Jacks)Each jack location in an outlet facility shall be labeled in accordance with OIT/NTS jack-labeling practices. The labeling follows a standard format, indicating the room followed by
the location within the room.
The general requirements for outlet facilities include the following:
The jack naming standard is:XXXX-XX-XXXXX-XX4 characters2 characters5 characters2 characters
The first four characters are the Building Number. Each building in MySoft has abuilding number affiliated with it.
The second set of characters is the floor. Typically these characters are numeric,
indicating the floor number that a jack resides on. Some of the variations from thenumeric floor number are:
o 0Bindicating the Basement Levelo 0Gindicating the Ground Flooro LLIndicating the Lower Levelo MZ or 0Mindicating Mezzanineo 0Pindicating Plazao SBindicating Sub-Basemento SPindicating Sub-Plaza
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Please note that the above 0 are a zero not a capital letter O. That is important
when searching the MySoft database.
The third set of characters is the room identifier. These characters indicate the RoomNumber that a jack is located within. These should always be 5 characters in length. We
use 0 to fill any unnecessary place holders. For example if the jack is in room 12, thefive characters would be entered as 00012. Some of the variations from the numeric
room number (according to MySoft Standards) are as follows:
o OSindicating outside of room (i.e.: OS146 indicates the jack isoutside of room 146).
o 0Cindicating a cubicle area in room (i.e.: 0C210 indicates thejack is in a cubicle in room 210).
o HL or 0Hindicating a hallway area near room (i.e.: HL532indicates the jack is in the hallway outside of room 532).
The last set of characters is the specific jack identifier. These two charactersspecifically identify a jack within a room. The jack labeling scheme begins with AA,
incrementing to AB, etc. so that each jack within a room has its own uniqueidentification.
Following are examples of some Exceptions to the Jack Naming Standard:1057-00-CODEB-LU This indicates this jack is for a Code Blue location near Building
1057.
1103-00-CAMPH-AA This indicates this jack is for a Campus Telephone location nearBuilding 1103.
1103-00-COINS-AA This indicates a pay telephone location in or near Building 1103.
1103-00-CRDKY-AA This indicates a Card Key location in or near Building 1103.
1103-00-VATOR-AA This indicates an Elevator location in Building 1103.
1202-00-TRAIL-AA This indicates a construction trailer at Building 1202.
1204-XX-49710-CF The XX is used for the floor to show this is not a legitimate jacklocationthere is NO jack at all. This jack indicates that this is
service for Building 1204, forwarding callers to 612-624-9710.Refer to Remote Call Forwarding procedure for more details.
1728-CX-70025-CF The CX is used for the floor to show this is not a legitimate jack
locationthere is NO jack at all. This jack indicates that this isservice for Building 1728; forwarding callers to a (CX) Centrexline 612-627-0025. Refer to Remote Off-Campus Call
Forwarding procedure for more details.
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Any time we have to deviate from the Jack Naming Standard, typically the floor should
be 00. This helps as a quick aid to indicate that this is not a standard jack. The rule ofthumb is that when the JackNaming Stan
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