PROJECT: Layton Fire Station #54ups uninterruptible power supply v volts va volt ampere vfc/vf d variable frequency motor controller w/ with w/o without wp weatherproof xfmr transformer

Project Addendum

D a t e : A p r i l 3 0 , 2 0 2 1

PROJECT: Layton Fire Station #54

ADDENDUM #: 03

PROJECT ADDRESS: 1100 North Valley View Drive

Layton City, Utah

84040

BID DATE: Tuesday, May 4, 2021

BID TIME: 3:00pm ( local time )

BID LOCATION: Layton City Fire Department Headquarters 51, 530 North

2200 West, Layton City, Utah 84041

THE FOLLOWING ITEMS SHALL BE INCLUDED WITHIN THE CONTRACT DOCUMENTS.

THE GENERAL CONTRACTOR SHALL BE RESPONSIBLE TO INCORPORATE THESE

CHANGES INTO THE CONTRACT DOCUMENTS AND SHALL ALSO BE RESPONSIBLE TO

NOTIFY ALL SUB-CONTRACTORS OF THIS ADDENDUM.

DESCRIPTION OF ADDENDUM INFORMATION:

1.GENERAL COMMENTS N/A

2.ARCHITECTURAL

SPECIFICATIONS: N/A

DRAWINGS: N/A

3. STRUCTURAL

Specifications: N/A

Drawings: N/A

4. PLUMBING

Specifications: N/A

Drawings: N/A

5. MECHANICAL

Specification: N/A

Drawings: N/A

6. ELECTRICAL

Specifications: Reference attached Electrical Addendum-03

Drawings: Reference attached Electrical Addendum-03

7. Civil

Specifications: N/A

Drawings: N/A

8. Landscaping

Specifications: N/A

Drawings: N/A

Electrical Addendum

This Addendum shall be considered part of the Contract Documents and Project Manual for the

above-mentioned project as though it had been issued at the same time and shall be

incorporated integrally therewith. Where provisions of the following supplementary data differ

from those of the original Contract Documents and Project Manual, the Addendum shall govern

and take precedence.

Electrical Addendum

Drawings

1. EE001 – SHEET INDEX UPDATED, DIFFERD SUBMITTALS UPDATED.

2. ES101 – SITE TELECOM ROUTING TO BUILDING ADDED WITH HANDHOLE, KEYNOTES

UPDATED, ROHN G45 TOWER SYSTEM SPECIFIED (SEE ATTACHED DOCUMENTS AND

UPDATED SHEET).

3. ES503 – UNDERGROUND JUNCTION BOX SCHEDULE UPDATED.

4. ET 101 – ET 601 – MULTIPLE UPDATES TREAT AS NEW SHEET.

Specifications

REMOVED:

271100, 271300,271500

NEW:

271100 - TELECOMMUNICATIONS PATHWAY AND SPACES

271500 - COMMUNICATIONS HORIZONTAL CABLING

To: JIM POLONCIC phone:

Company: THINK ARCHITECTURE email:

copied:

Job: LAYTON FIRE STATION #54

Job No. 200371

Re: ADDENDUM 3

From: SPENCER LITTLE, PE phone: (801) 401-8495

Date: 04/28/2021 email: [email protected]

Distributed Via: Email page: 1 of 2 W/ATTACHMENT

END OF ADDENDUM

Attachments <ES101,ET101-601, SECTION 271100, SECTION 271300 >

Sincerely

By:

Spencer C. Little, P.E. Associate Principal Electrical Engineer

GENERAL LABELING SCHEMEFIRST DIGIT - BUILDING LEVEL (1 OR 2)

SECOND DIGIT - PANEL TYPE

M - MECHANICAL (120/208/277/380/480V)L or LCP - LIGHTING (120/208/277/480V)P - PLUG LOADS (120/208V)G - GENERAL LOADS (120/280V)E - EMERGENCY (277/480V)S - STANDBY (SPECIFIED ON PANEL)U - UPS (SPECIFIED ON PANEL)

THIRD DIGIT - BUILDING AREA (A, B, C, D, ECT.)

FOURTH DIGIT - SQUENCE # (1,2,3...)

ELECTRICAL SHEET INDEXEE001 SHEET INDEX, ABREVS. AND GEN. NOTES

EE002 SYMBOLS LEGEND

EE501 ELECTRICAL DETAILS - MOUNTING/POWER

EE502 ELECTRICAL DETAILS - POWER/LIGHTING

EE701 TYPICAL MOUNTING HEIGHT DETAILS

ES101 ELECTRICAL SITE PLAN

ES102 SITE LIGHTING CALCULATIONS

ES201 ELECTRICAL SITE LIGHTING DETAILS

ES501 SITE ELECTRICAL DETAILS

ES502 SITE ELECTRICAL DETAILS

ES503 UNDERGROUND JUNCTION BOX SPECIFICATIONS

ES504 PULL BOX DETAILS

EP101 LEVEL 1 POWER PLAN

EP104 ENLARGED POWER PLAN

EP600 ELECTRICAL SCHEDULES

EP601 ONE-LINE DIAGRAM

EP602 EQUIPMENT SCHEDULE

EP603 PANEL SCHEDULES

EL101 LEVEL 1 LIGHTING PLAN

EL601 INTERIOR LIGHTING FIXTURE SCHEDULE

EL602 EXTERIOR LIGHTING FIXTURE SCHEDULE

EL701 LIGHTING CONTROL RISER

ET001 TELECOM SCHEDULES AND NOTES

ET101 LEVEL 1 TELECOM FLOOR PLAN

ET501 TELECOM EQUIPMENT RACK ELEVATIONS

ET502 TELECOM DETAILS



ET505 TELECOM EQUIPMENT RACK GROUNDING DETAIL

ET601 TELECOM RISER DIAGRAMS

EY101 LEVEL 1 AUXILIARY PLAN

EY601 AUXILIARY DOOR DIAGRAMS

FA101 LEVEL 1 FIRE ALARM PLAN

FA601 FIRE ALARM RISER

GENERAL ELECTRICAL NOTES

3. EXPOSED STRUCTURE AREAS (EXCLUDING MECHANICAL, ELECTRICAL, ANDCOMMUNICATION SPACES): INSTALL RACEWAYS BETWEEN DECK ANDSTRUCTURE WHEREVER POSSIBLE IN EXPOSED STRUCTURE CEILING AREAS.ROUTE RACEWAYS IN CONCEALED AREAS WHEREVER POSSIBLE. REFER ALLCONDITIONS WHERE RACEWAYS MUST BE INSTALLED WHICH CANNOT COMPLYWITH THESE REQUIREMENTS TO THE ARCHITECT.

4. SUBMITTALS: PROVIDE ORIGINAL ELECTRONIC PDF FORMAT, BOUND,BOOKMARKED (EACH SECTION AND PRODUCT), AND HIGHLIGHTED. JOB NAMEAND SUBCONTRACTOR SHALL BE ON THE FRONT COVER. PREPARE INDEX OFEQUIPMENT SUBMITTED IN EACH TAB.

5. REFLECTED CEILING PLANS: COORDINATE THE LOCATION OF LIGHT FIXTURESWITH THE ARCHITECTURAL REFLECTED CEILING PLANS. REFER ALLDISCREPANCIES TO THE ARCHITECT AND ENGINEER.

6. ALL WORK SHALL BE DONE ACCORDING TO THE CURRENT NATIONAL ELECTRICCODE (NEC), IBC, NFPA, AND IFC. COMPLIANCE AND FINAL APPROVAL IS SUBJECTTO THE ON SITE FIELD INSPECTION OF THE AHJ.

7 TAKE OFF QUANTITIES SHOWN IN SCHEDULE(S) ARE FOR REFERENCE ONLY. THECONTRACTOR IS RESPONSIBLE TO PROVIDE ALL OF THE DEVICES, FIXTURES,EQUIPMENT, RACEWAYS, CONDUCTORS, CABLING, ETC. SHOWN AND SPECIFIEDIN THE CONTRACT DOCUMENTS INCLUDING THE EXTRA MATERIAL SPECIFIED.

1. CLARIFICATION METHODS: AT THE TIME OF BIDDING, BIDDERS SHALL FAMILIARIZETHEMSELVES WITH THE DRAWINGS AND SPECIFICATIONS. ANY QUESTIONS,MISUNDERSTANDINGS, CONFLICTS, DELETIONS, DISCONTINUED PRODUCTS,CATALOG NUMBER DISCREPANCIES, DISCREPANCIES BETWEEN THE EQUIPMENTSUPPLIED AND THE INTENT OR FUNCTION OF THE EQUIPMENT, ETC, SHALL BESUBMITTED TO THE ARCHITECT/ENGINEER IN WRITING FOR CLARIFICATION PRIORTO ISSUANCE OF THE FINAL ADDENDUM AND BIDDING OF THE PROJECT. WHEREDISCREPANCIES OR MULTIPLE INTERPRETATIONS OCCUR, THE MOST STRINGENT(WHICH IS GENERALLY RECOGNIZED AS THE MOST COSTLY) THAT MEETS THEINTENT OF THE DOCUMENTS SHALL BE ENFORCED.

2. OWNER FURNISHED ITEMS: THE OWNER WILL FURNISH MATERIAL ANDEQUIPMENT AS INDICATED IN THE CONTRACT DOCUMENTS TO BE INCORPORATEDINTO THE WORK. THESE ITEMS ARE ASSIGNED TO THE INSTALLER AND COSTSFOR RECEIVING, HANDLING, STORAGE, IF REQUIRED, AND INSTALLATION AREINCLUDED IN THE CONTRACT SUM.

A. THE INSTALLER'S RESPONSIBILITIES ARE THE SAME AS IF THE INSTALLERFURNISHED THE MATERIALS OR EQUIPMENT.

B. THE OWNER WILL ARRANGE AND PAY FOR DELIVERY OF OWNERFURNISHED ITEMS FREIGHT ON BOARD JOB SITE AND THE INSTALLER WILLINSPECT DELIVERIES FOR DAMAGE. IF OWNER FURNISHED ITEMS AREDAMAGED, DEFECTIVE OR MISSING, DOCUMENT DAMAGED ITEMS WITHTHE TRANSPORT COMPANY AND THE OWNER WILL ARRANGEFOR REPLACEMENT. THE OWNER WILL ALSO ARRANGE FORMANUFACTURER'S FIELD SERVICES, AND THE DELIVERY OFMANUFACTURER'S WARRANTIES AND BONDS TO THE INSTALLER.

C. THE INSTALLER IS RESPONSIBLE FOR DESIGNATING THE DELIVERY DATESOF OWNER FURNISHED ITEMS AND FOR RECEIVING, UNLOADING ANDHANDLING OWNER FURNISHED ITEMS AT THE SITE.THE INSTALLER ISRESPONSIBLE FOR PROTECTING OWNER FURNISHED ITEMS FROMDAMAGE, INCLUDING DAMAGE FROM EXPOSURE TO THE ELEMENTS, ANDTO REPAIR OR REPLACE ITEMS DAMAGED AS A RESULT OF HISOPERATIONS.

DEFINITIONSNOTE: ALL DEFINITIONS MAY NOT BE USED.

INDICATED: THE TERM "INDICATED" REFERS TO GRAPHIC REPRESENTATIONS, NOTES, OR SCHEDULES ON THE DRAWINGS, OTHER PARAGRAPHS OR SCHEDULES IN THE SPECIFICATIONS, AND SIMILAR REQUIREMENTS IN THE CONTRACT DOCUMENTS. WHERE TERMS SUCH AS "SHOWN", "NOTED", "SCHEDULED", AND "SPECIFIED" ARE USED, IT IS TO HELP THE READER LOCATE THE REFERENCE, NO LIMITATION ON LOCATION IS INTENDED.

DIRECTED: TERMS SUCH AS "DIRECTED", "REQUESTED", AUTHORIZED", "SELECTED", "APPROVED", "REQUIRED", AND "PERMITTED" MEAN "DIRECTED BY THE ENGINEER", "REQUESTED BY THE ENGINEER", AND SIMILAR PHRASES.

APPROVED: THE TERM "APPROVED", WHERE USED IN CONJUNCTION WITH THE ENGINEER'S ACTION ON THE CONTRACTOR'S SUBMITTALS, APPLICATIONS, AND REQUESTS, IS LIMITED TO THE ENGINEER'S DUTIES AND RESPONSIBILITIES AS STATED IN GENERAL AND SUPPLEMENTARY CONDITIONS.

FURNISH: THE TERM "FURNISH" IS USED TO MEAN "SUPPLY AND DELIVER TO THE PROJECT SITE, READY FOR UNLOADING, UNPACKING, ASSEMBLY, INSTALLATION, AND SIMILAR OPERATIONS."

INSTALL: THE TERM "INSTALL" IS USED TO DESCRIBE OPERATIONS AT PROJECT SITE INCLUDING THE ACTUAL "UNLOADING, UNPACKING, ASSEMBLY, ERECTION, PLACING, ANCHORING, APPLYING, WORKING TO DIMENSION, FINISHING, CURING, PROTECTING, CLEANING, AND SIMILAR OPERATIONS."

PROVIDE: THE TERM "PROVIDE" MEANS "TO FURNISH AND INSTALL, COMPLETE AND READY FOR THE INTENDED USE."

INSTALLER: AN "INSTALLER" IS THE CONTRACTOR OR AN ENTITY ENGAGED BY THE CONTRACTOR, EITHER AS AN EMPLOYEE, SUBCONTRACTOR, OR SUB-SUBCONTRACTOR, FOR PERFORMANCE OF A PARTICULAR CONSTRUCTION ACTIVITY, INCLUDING INSTALLATION, ERECTION, APPLICATION, AND SIMILAR OPERATIONS. INSTALLERS ARE REQUIRED TO BE EXPERIENCED IN THE OPERATIONS THEY ARE ENGAGED TO PERFORM.

TECHNOLOGY SYSTEMS: THE TERM "TECHNOLOGY SYSTEMS" IS USED TO DESCRIBE ALL LOW VOLTAGE SYSTEMS GENERALLY REFERRED TO AS "SPECIAL SYSTEMS". THESE SYSTEMS INCLUDE BUT ARE NOT NECESSARILY LIMITED TO ALL SYSTEMS WHICH UTILIZE VOLTAGES OF LESS THAN 71 VOLTS SUCH AS SOUND SYSTEMS, VIDEO SYSTEMS, TV SYSTEMS, SECURITY SYSTEMS, VOICE AND DATA CABLING SYSTEMS, ETC...

ABBREVIATIONSNOTE: ALL ABBREVIATIONS MAY NOT BE USED.

kV KILOVOLT

kVA KILOVOLT AMPERE

kVAR KILOVOLT AMPERE REACTIVE

kW KILOWATT

kWh KILOWATT HOUR

LED LIGHT EMITTING DIODE

LFMC LIQUID TIGHT FLEXIBLEMETAL CONDUIT

LFNC LIQUID TIGHT FLEXIBLENONMETALLIC CONDUIT

LPS LOW PRESSURE SODIUM

LRA LOCKED ROTOR AMPS

LTG LIGHTING

LV LOW VOLTAGE

MATV MASTER ANTENNATELEVISION SYSTEM

MAX MAXIMUM

MC METAL CLAD

MCA MINIMUM CIRCUIT AMPS

MCB MAIN CIRCUIT BREAKER

MCC MOTOR CONTROL CENTER

MCP MOTOR CIRCUIT PROTECTION

MDP MAIN DISTRIBUTION PANEL

MG MOTOR GENERATOR

MH MANHOLE

MIN MINIMUM

MLO MAIN LUGS ONLY

MOCP MAXIMUM OVERCURRENTPROTECTION

NA NOT APPLICABLE

NC NORMALLY CLOSED

NEC NATIONAL ELECTRICAL CODE

NEMA NATIOANL ELECTRICALMANUFACTURERSASSOCIATION

NFC NATIONAL FIRE CODE

NFPA NATIONAL FIRE PROTECTIONASSOCIATION

NIC NOT IN CONTRACT

NL NIGHT LIGHT

NO NORMALLY OPEN

NTS NOT TO SCALE

OC ON CENTER

OCP OVER CURRENT PROTECTION

OF/CI OWNER FURNISHED/CONTRACTOR INSTALLED

OF/OI OWNER FURNISHED/ OWNERINSTALLED

OFP OBTAIN FROM PLANS

OH DR OVERHEAD (COILING) DOOR

OL OVERLOAD

PB PUSHBUTTON

PF POWER FACTOR

PH PHASE

PNL PANEL

PT POTENTIAL TRANSFORMER

PTZ PAN/TILT/ZOOM

QTY QUANTITY

R REMOVE

RCP REFLECTED CEILING PLAN

RMC RIGID METAL CONDUIT

RNC RIGID NONMETAL CONDUIT

RPM REVOLUTIONS PER MINUTE

RR REMOVE AND RELOCATE

S/S START/STOP

SCA SHORT CIRCUIT AMPS

SCBA STANDARD COLOR ASSELECTED BY ARCHITECT

SF SQUARE FOOT (FEET)

SFBA STANDARD FINISH ASSELECTED BY ARCHITECT

SPDT SINGLE POLE, DOUBLETHROW

SPEC SPECIFICATION

SPST SINGLE POLE, SINGLE THROW

ST SINGLE THROW

SWBD SWITCHBOARD

SWGR SWITCHGEAR

TL TWIST LOCK

TP TELEPHONE POLE

TP TWISTED PAIR

TTB TELEPHONE TERMINALBOARD

TV TELEVISION

TVSS TRANSIENT VOLTAGE SURGESUPPRESSER

TYP TYPICAL

UF UNDERFLOOR

UGND UNDERGROUND

UPS UNINTERRUPTIBLE POWERSUPPLY

V VOLTS

VA VOLT AMPERE

VFC/VFD

VARIABLE FREQUENCYMOTOR CONTROLLER

W/ WITH

W/O WITHOUT

WP WEATHERPROOF

XFMR TRANSFORMER

1P SINGLE POLE

1PH SINGLE-PHASE

1WAY ONE-WAY

2/C TWO-CONDUCTOR

2WAY TWO-WAY

3/C THREE-CONDUCTOR

3WAY THREE-WAY

4OUT QUADRUPLE RECEPTACLEOUTLET

4PDT FOUR-POLE DOUBLE THROW

4PST FOUR-POLE SINGLE THROW

4W FOUR-WIRE

4WAY FOUR-WAY

A ABOVE COUNTER

AC ARMORED CABLE

ADA AMERICANS WITHDISABILITIES ACT

ADJ ADJACENT

AFF ABOVE FINISHED FLOOR

AFG ABOVE FINISHED GRADE

AIC AMPERE INTERRUPTINGCAPACITY

ALUM ALUMINUM

AMP AMPERE

ANN ANNUNCIATOR

AP ACCESS POINT (WIRELESSDATA)

AR AS REQUIRED

ASC AMPS SHORT CIRCUIT

ATS AUTOMATIC TRANSFERSWITCH

AV AUDIO VISUAL

AWG AMERICAN WIRE GAGE

BBXFMR

BUCK-BOOST TRANSFORMER

C CEILING MOUNTED

CATV COMMUNITY ANTENNATELEVISION

CB CIRCUIT BREAKER

CCBA CUSTOM COLOR ASSELECTED BY ARCHITECT

CCTV CLOSED CIRCUIT TELEVISION

CF/CI CONTRACTOR FURNISHED/CONTRACTOR INSTALLED

CF/OI CONTRACTOR FURNISHED/OWNER INSTALLED

CFBA CUSTOM FINISH ASSELECTED BY ARCHITECT

CKT CIRCUIT

CM CONSTRUCTION MANAGER

CND CONDUIT

CO CONVENIENCE OUTLET

COR CONTRACTING OFFICER'SREPRESENTATIVE

CP CONTROL PANEL

CT CURRENT TRANSFORMER

CTV CABLE TELEVISION

CU COPPER

dBA UNIT OF SOUND LEVEL

DPDT DOUBLE POLE, DOUBLETHROW

DS DISCONNECT SWITCH

EA EACH

EM EMERGENCY

EMT ELECTRICAL METALLICTUBING

ENT ELECTRIC NONMETALLICTUBING

EPO EMERGENCY POWER OFF

EQUIP EQUIPMENT

EX EXISTING

F FURNITURE MOUNTED

FA FIRE ALARM

FCP FIRE ALARM CONTROL PANEL

FLA FULL LOAD AMPS

FMC FLEXIBLE METAL CONDUIT

FOB FREIGHT ON BOARD

FVNR FULL VOLTAGENON-REVERSING

FVR FULL VOLTAGE REVERSING

G GROUND

GEN GENERATOR

GFCI GROUND FAULTINTERRUPTER

GFP GROUND FAULT PROTECTION

HD HEAVY DUTY

HID HIGH INTENSITY DISCHARGE

HOA HAND-OFF-AUTOMATIC

HP HORSE POWER

HPF HIGH POWER FACTOR

HPS HIGH PRESSURE SODIUM

HV HIGH VOLTAGE

HZ HERTZ

I/O INPUT/ OUTPUT

IG ISOLATED GROUND

IMC INTERMEDIATE METALCONDUIT

IN/IS INSULATED/ ISOLATED

IR INFRARED

J-BOX JUNCTION BOX

324 S. State St., Suite 400Salt Lake City, UT 84111

800-678-7077801-328-5151

fax: 801-328-5155www.spectrum-engineers.com

PROJECT NO.

SHEET TITLE:

Plo

t Da

te:

ArchitectureInterior DesignLandscape ArchitectureLand PlanningConstruction Management

7927 So. Highpoint Parkway, Suite 300

Sandy, Utah 84094

ph. 801.269.0055

fax 801.269.1425

www.thinkaec.com

The designs shown and described herein

including all technical drawings, graphic

representation & models thereof, are proprietary

& can not be copied, duplicated, or

commercially exploited in whole or in part

without the sole and express written permission

from THINK Architecture, inc.

These drawings are available for limited review

and evaluation by clients, consultants,

contractors, government agencies, vendors,

and office personnel only in accordance with

this notice.

SHEET NUMBER:

REVISIONS:

DATE:

4/2

9/2

02

1 3

:57

:12

PM

LAYT

ON

FIR

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#54

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4041

Mar. 4, 2021

200371

SHEET INDEX, ABREVS.

AND GEN. NOTES

EE001

DEFERRED SUBMITTALS

Delegated Deferred Design Submittals to be provided by Contractor

FIRE ALARM SYSTEM

Provide complete digital addressable fire alarm system in compliance with current NFPA and all local building and fire alarm codes specific to this project. The systems shall be designed by a NICET-certified, fire alarm technician, Level III minimum.

The Fire Alarm drawings, risers, and specifications are shown as a basis of design to show intent for bidding, final documents with calculations specifying all required devices, cabling, equipment, and programing are to be provided by the contractor. The contractors bid shall include the full fire alarm system required and not limited to the devices and typical riser diagram shown.

See basis of design drawings and specifications for intended design. Comply with the Code Analysis and building construction types of this project, see Architectural drawings and specifications for building type, occupancy, fire wall separations, and other requirements that will have an effect on the fire alarm system design.

OVERCURRENT PROTECTIVE DEVICE STUDY AND ARC-FLASH STUDY REPORT & LABELING.

Provide the following items listed below and comply with additional requirements as provided. See specifications.

1. Coordination-study input data, including completed computer program input data sheets.2. Study and equipment evaluation reports.3. Overcurrent protective device coordination study report; signed, dated, and sealed by a qualified professional engineer. Overcurrent protection shall coordinate to 0.3 seconds on normal power and to 0.1 seconds on emergency power. 4. Arc-flash study input data, including completed computer program input data sheets.5. Arc-flash study report; signed, dated, and sealed by a qualified professional engineer.

a. Submit study report for action prior to receiving final approval of the distribution equipment submittals. If formal completion of studies will cause delay in

equipment manufacturing, obtain approval from Architect for preliminary submittal of sufficient study data to ensure that the selection of devices and associated characteristics is satisfactory.

SEISMIC CONTROL FOR ELECTRICAL SYSTEMS

Provide the following items listed below and comply with additional requirements as provided. See specifications.A. Product Data: For each type of product.1. Illustrate and indicate style, material, strength, fastening provision, and finish for each type and

size of seismic-restraint component used.a. Tabulate types and sizes of seismic restraints, complete with report numbers and rated

strength in tension and shear as evaluated by an agency acceptable to authorities having jurisdiction.

b. Annotate to indicate application of each product submitted and compliance with requirements.

B. Delegated-Design Submittal: For each seismic-restraint device.1. Include design calculations and details for selecting seismic restraints complying with

performance requirements, design criteria, and analysis data signed and sealed by the qualified professional engineer responsible for their preparation.

2. Design Calculations: Calculate static and dynamic loading caused by equipment weight, operation, and seismic and wind forces required to select seismic and wind restraints and for designing vibration isolation bases.a. Coordinate design calculations with wind load calculations required for equipment

mounted outdoors. Comply with requirements in other Sections for equipment mounted outdoors.

3. Seismic-Restraint Details:a. Design Analysis: To support selection and arrangement of seismic restraints. Include

calculations of combined tensile and shear loads.b. Details: Indicate fabrication and arrangement. Detail attachments of restraints to the

restrained items and to the structure. Show attachment locations, methods, and spacings. Identify components, list their strengths, and indicate directions and values of forces transmitted to the structure during seismic events. Indicate association with vibration isolation devices.

c. Coordinate seismic-restraint and vibration isolation details with wind-restraint details required for equipment mounted outdoors. Comply with requirements in other Sections for equipment mounted outdoors.

d. Preapproval and Evaluation Documentation: By an agency acceptable to authorities having jurisdiction, showing maximum ratings of restraint items and the basis for approval (tests or calculations).

C. Deferred Submittals for the Authority Having Jurisdiction (AHJ) shall be as required by IBC 106.3.4.2.

1. Deferred submittals of seismic restraint of nonstructural components must be submitted to the AHJ a minimum of two weeks prior to the planned installation in order to allow for plan review and forwarding to inspectors. In the event that the submittal is deficient additional time may become necessary.

2. No deferred submittal element shall be installed until AHJ approval has been received.

3. If seismic restraints of nonstructural components are installed prior to receiving AHJ approval they shall not be covered or concealed until plan review and inspection approval. Further, installers are proceeding at their own risk until plan review and inspection approval occurs.

4. Deferred Submittals are required for:a. Electrical distribution equipment (switchboards, panelboards, transformers, ATS, MCC's

etc.).b. Generators, batteries, UPS.c. Conduit racks.d. Cable trays.e. Lighting fixtures.f. Control Panelsg. Self Supporting Towersh. Pole/Tower Bases

NOTE TO CONTRACTORS: THIS SHEET SET IS CONTRACTUALLY REQUIRED TO BE PRINTED IN COLOR. THERE ARE DIFFERENTIATING FEATURES THAT ARE DESIGNATED THROUGHOUT BY THEIR COLOR. FAILURE TO PRINT THIS SHEET SET IN COLOR MAY RESULT IN A MISINTERPRETATION OF THE DRAWINGS.

3 4/28/2021 ADDENDUM #3

3

3

04-29-2021

HC

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(PG-12)

(PG-12)

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"MDP"

"DP"

"LCP XFMR"

L1C-36,38

L1C-39,41

L1C-40

(ZX1)(ZX1)(ZX1)

(ZX1)

(RTH-2)L1A-8

(RTH-2)L1A-35

(RTH-1)L1A-49

(RTH-1)L1A-45

"GENERATOR"

WP WP WP

WP

WP WP WP

WPWP

WP

WP

WP

WPWPWPWP

WP

22

8

88

(PG-12)3

(PG-12T)(PG-12)

4"CND

4"CND

4"CND

4"CND

(PG-12T)

4

5

6

6

5

(ZX1)

8

8

8

8

FIXTURES SL-2: THE FEE OF $12,169.00 (TOTAL) FOR THE LIGHTS AND INSTALLATION SHALL BE ADDED TO THE BUILDING PERMIT FEE PAID BY THE GENERAL CONTRACTOR. HOWEVER, LIGHT FIXTURES SL-2 SHALL BE INSTALLED BY THE CITY'S STREET LIGHT CONTRACTOR. THE GENERAL CONTRACTOR, IN ADDITION, SHALL PROVIDE AND INSTALL THE POWER AND PEDISTALS FOR THE (2)-SL-2 LIGHT FIXTURES SHOWN ON SHEET ES101.

L1C-42

(ZX1)

(ZX1)

7

(ZX1)

FIXTURES SL-2: THE FEE OF $12,169.00 (TOTAL) FOR THE LIGHTS AND INSTALLATION SHALL BE ADDED TO THE BUILDING PERMIT FEE PAID BY THE GENERAL CONTRACTOR. HOWEVER, LIGHT FIXTURES SL-2 SHALL BE INSTALLED BY THE CITY'S STREET LIGHT CONTRACTOR. THE GENERAL CONTRACTOR, IN ADDITION, SHALL PROVIDE AND INSTALL THE POWER AND PEDISTALS FOR THE (2)-SL-2 LIGHT FIXTURES SHOWN ON SHEET ES101.

SL-2

SL-2

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GENERAL SHEET NOTES

SHEET KEYNOTES1 PROVIDE ELECTRICAL CONNECTION TO MOTORIZED DOORS WITH ALL POWER AND

CONTROL WIRING PER MANUFACTURER'S WRITTEN INSTRUCTIONS. COORDINATEWITH DOOR SHOP DRAWINGS AND ARCHITECTURAL DETAILS. PROVIDE 1 INCHCONDUIT FOR CONTROLS TO CONTROLLER LOCATIONS AS DIRECTED BYARCHITECT/ENGINEER.

2 COORDINATE UGJ LOCATION PER ARCHITECTURAL AND SITE DRAWINGS.COORDINATE UGJ WITH SPRINKLER SHUTOFF AND CONTROL STATIONS.

3 PROVIDE STRUCTURAL CONCRETE BASE AND SELF SUPPORTING TOWER SYSTEMPER MANUFACTURERS SPCIFICATIONS (ROHN G45) WITH 4" CONDUIT STUBBED UPFOR SYMULCAST SYSTEM. COORDINATE EXACT LOCATION WITH OWNER PRIOR TOTRENCHING AND ROUGH-IN.

4 PROVIDE AND INSTALL 4" CONDUIT FROM ELECTRICAL ROOM TO CORRESPONDINGLOCATION WITHIN THE STATE FUEL/INFORMATION SYSTEM. COORDINATE EXACTLOCATION AND ROUTING WITH OWNER PRIOR TO TRENCHING AND ROUGH-IN.

5 PROVIDE AND INSTALL 4" CONDUIT FROM IT ROOM TO CORRESPONDING LOCATION.COORDINATE EXACT LOCATION AND ROUTING WITH OWNER PRIOR TO TRENCHINGAND ROUGH-IN.

6 PROVIDE AND INSTALL 4" CONDUIT FROM ELECTRICAL ROOM TO CORRESPONDINGLOCATION. COORDINATE EXACT LOCATION AND ROUTING WITH OWNER PRIOR TOTRENCHING AND ROUGH-IN.

7 STUB UP CONDUITS INTO TELECOM ROOM.

8 THE ELECTRICAL CONTRACTOR SHALL MEET WITH AND COORDINATE WITHTELECOMMUNICATION SERVICE PROVIDERS TO THE FACILITY ON SITE PRIOR TO ANYWORK BEING PERFORMED. CONFIRM WITH SERVICE PROVIDER EXACT LOCATIONSEQUIPMENT AND CONDUIT ROUTING. COMPLY WITH ALL SERVICE PROVIDER'SCURRENT STANDARDS AND REQUIREMENTS. PROVIDE THE REQUIRED EQUIPMENT,RACEWAYS, BOXES, CABLE, ETC. AS REQUIRED BY THE SERVICE PROVIDERWEATHER SHOWN ON THE DRAWINGS OR NOT. UTILITY PROVIDERS TO BUILDING(UTOPIA & CENTURYLINK).

9 PROVIDE (2) 4” CONDUIT WITH (3) 1.25” INNERDUCT IN EACH PIPE.

1 THE ELECTRICAL CONTRACTOR SHALL MEET WITH AND COORDINATE WITH ALLSERVICE PROVIDERS (POWER, COMMUNICATION, CABLE/SATELLITE, ETC.)TO THEFACILITY ON SITE PRIOR TO ANY WORK BEING PREFORMED. CONFIRM WITH EACHSERVICE PROVIDER EXACT LOCATIONS EQUIPMENT AND ROUTING. COMPLY WITHALL SERVICE PROVIDER’S CURRENT STANDARDS AND REQUIREMENTS. PROVIDETHE REQUIRED EQUIPMENT, RACEWAYS, BOXES, CABLE, ETC. AS REQUIRED BYTHE SERVICE PROVIDER WEATHER SHOWN ON THE DRAWINGS OR NOT.

2 FOR ALL LIGHT FIXTURES, POLE LIGHTS, AND ALL OTHER ELECTRICAL DEVICESTHE CONTRACTOR SHALL COORDINATE EXACT LOCATION AND MOUNTINGHEIGHTS WITH ARCHITECT, OWNER, ENGINEER, AND ALL OF THE CONTRACTDOCUMENTS PRIOR TO ROUGH IN AND TRENCHING.

3 CONTRACTOR IS RESPONSIBLE FOR ALL TRENCHING, BACKFILL, AND COMPACTIONASSOCIATED TO ALL ELECTRICAL UNDERGROUND RACEWAYS AND CABLES.COORDINATE WITH ARCHITECTURAL AND CIVIL DRAWINGS. SEE UNDERGROUNDRACEWAY DETAILS FOR REQUIREMENTS FOR EACH TRENCH.

4 CONTRACTOR SHALL INSTALL POLE MOUNTED LIGHTS IN STRAIGHT LINES,SQUARE, AND PLUMB. COORDINATE WITH ARCHITECT AND CIVIL DRAWINGS.CONTRACTOR SHALL INSTALL POLE MOUNTED LIGHTS IN STRAIGHT LINES,SQUARE, AND PLUMB. COORDINATE WITH ARCHITECT AND CIVIL DRAWINGS.

5 THE ELECTRICAL CONTRACTOR SHALL HAVE ANY AND ALL CONCRETE POLEBASES AND SLABS REVIEWED BY A STRUCTURAL ENGINEER AND SHALL MODIFYDESIGN PER STRUCTURAL ENGINEER’S AND OR AHJ’S RECOMMENDATIONS.

6 PROVIDE BATTERY PACKS IN ALL EXTERIOR FIXTURES ADJACENT TO EGRESSDOORS.

7 PROVIDE PHOTOCELL ON NORTH SIDE OF FACILITY TO CONTROL EXTERIORLIGHTS.

8 ALL EXTERIOR RECEPTACLES SHOWN SHALL BE NEMA 5-20R GFCI “WEATHERRESISTANT” RECEPTACLE WITH “WEATHER PROOF IN-USE COVER.”

9 THE ELECTRICAL CONTRACTOR IS RESPONSIBLE FOR ALL CONCRETE/ASPHALTCUTTING AND REPLACEMENT OF CONCRETE/ASPHALT TO MATCH EXISTINGASSOCIATED WITH UNDERGROUND RACEWAYS PROVIDED AS PART OF THISPROJECT.

10 REFER TO PLANS FOR CONSTRAINTS ON PHYSICAL DIMENSIONS AND CLEARANCEREQUIREMENTS OF EQUIPMENT. PROVIDE EQUIPMENT DIMENSIONS THAT FALLWITHIN THE CONSTRAINTS OF EACH SPECIFIC LOCATION.

11 PROVIDE SERVICE RATED EQUIPMENT AT EACH SERVICE ENTRANCE.

12 SERVICE EQUIPMENT SHALL BE LEGIBLY MARKED IN THE FIELD WITH THEMAXIMUM AVAILABLE FAULT CURRENT. VERIFY OR RE-CALCULATE THE AVAILABLEFAULT CURRENT AT THE SERVICE WHERE MODIFICATIONS TO THE ELECTRICALINSTALLATION OCCUR. PLEASE INCLUDE NOTES IN THE ELECTRICAL DRAWINGSOR SUPPLY CALCULATIONS WHERE APPLICABLE. SEE NEC 110.24. (B)


800-678-7077801-328-5151


PROJECT NO.

SHEET TITLE:

Plo

t Da

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Sandy, Utah 84094

ph. 801.269.0055

fax 801.269.1425

www.thinkaec.com












this notice.

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ELECTRICAL SITE PLAN

ES101SCALE: 1" = 20'-0"A1ELECTRICAL SITE PLAN

3 4/28/2021 ADDENDUM #3

3

3

04-29-2021

PG-12

PG-22PG-34 PG-23 PG-22


800-678-7077801-328-5151


PROJECT NO.

SHEET TITLE:

Plo

t Da

te:



Sandy, Utah 84094

ph. 801.269.0055

fax 801.269.1425

www.thinkaec.com












this notice.

SHEET NUMBER:

REVISIONS:

DATE:

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9/2

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UNDERGROUND

JUNCTION BOX

SPECIFICATIONS

ES503

ID IMAGE BOX DESCRIPTION LENGTH WIDTH DEPTH

ABOVE GRADE

HEIGHT

BASIS OF DESIGN

MANUFACTURE PART NO. BOX OPTIONS COVER LOGO COVER OPTIONS STYLE TRAFFIC TIER NO.

(PG-12) UNDERGROUND ENCLOSURE; PRECASTPOLYMER CONCRETE WITH REINFORCED WITHFIBER GLASS. PROVIDE WITH BOLT ON COVER.

0' - 11" 1' - 6" 1' - 6" INSTALL FLUSHWITH GRADE

QUAZITE (PG1324-18) BA - BOX WITH OPEN BOTTOM "ELECTRICAL" WITH TWO BOLTSAND A SINGLE LOGO

PG TIER 15




PG TIER 15

(PG-12T) UNDERGROUND ENCLOSURE; PRECASTPOLYMER CONCRETE WITH REINFORCED WITHFIBER GLASS. PROVIDE WITH BOLT ON COVER.


QUAZITE (PG1324-18) BA - BOX WITH OPEN BOTTOM "TELECOM" WITH TWO BOLTSAND A SINGLE LOGO

PG TIER 15




PG TIER 15




PG TIER 15

(PG-12T) UNDERGROUND ENCLOSURE; PRECASTPOLYMER CONCRETE WITH REINFORCED WITHFIBER GLASS. PROVIDE WITH BOLT ON COVER.


QUAZITE (PG1324-18) BA - BOX WITH OPEN BOTTOM "TELECOM" WITH TWO BOLTSAND A SINGLE LOGO

PG TIER 15

(HH-1) UNDERGROUND ENCLOSURE; PRECASTPOLYMER CONCRETE WITH REINFORCED WITHFIBER GLASS. PROVIDE WITH BOLT ON COVER.

3' - 0" 3' - 0" 2' - 9" INSTALL FLUSHWITH GRADE (0'-0")

QUAZITE (PG3636-18) BA - BOX WITH OPEN BOTTOM "TELECOM" 2 PIECE WITH TWOBOLTS AND LOGOS

PG TIER 15

UNDER GROUND ENCLOSURE SCHEDULE

APPLICATION TIERS DESCRIPTION

VERTICAL

VERTICAL

LATERAL

VERTICAL

LATERAL

VERTICAL

LATERAL

LIGHT DUTY

TIER 5

TIER 8

TIER 15

TIER 22VERTICAL

LATERAL

TYPE

PEDESTRIAN TRAFFIC ONLY.

SIDEWALK APPLICATIONS WITH A SAFTEY FACTOR FOR OCCCASIONAL ACCIDENTALVEHICULAR TRAFFIC.

SIDEWALK APPLICATIONS WITH A SAFTEY FACTOR FOR OCCCASIONAL ACCIDENTALVEHICULAR TRAFFIC.

DRIEVEWAY, PARKING LOT, AND OFF ROADAPPLICATIONS SUBJECT TO OCCASIONAL NON-DELIBERATE VEHICULAR TRAFFIC.

DRIVEWAY, PARKING LOT, AND OFF ROADAPPLICATIONS SUBJECT TO NON-DELIBERATE HEAVY VEHICULAR TRAFFIC.

BOX OPTIONS DESCRIPTION

BA

BB

BC

BG

DA

DG

JA

EA

RA

BOX WITH OPEN BOTTOM

BOX WITH MOUSE HOLES

DIVIDED BOX

GASKETED BOX WITH OPEN BOTTOM

BOX WITH SOLID BOTTOM

GASKETED BOX WITH SOLID BOTTOM

FOOTED BOX

EXTENSION

SOLID BASE EXTENSION

NOTES:

1. CONTRACTOR SHALL PROVIDE A SUBMITTAL ON ALL UNDERGROUND ENCLOSURES FOR THIS PROJECT. 2. ALL ENCLOSURES SHALL BE UL LISTED3. CONTRACTOR SHALL COORDINATE THE TIER RATING WITH CIVIL ENGINEER AND ARCHITECT IN THE SUBMITTAL PROCESS.4. CONTRACTOR SHALL ADJUST THE SIZE OF THE ENCLOSURE AS REQUIRED FOR INSTALLATION. SUBMIT AN RFI OR PROVIDE SOME OTHER DOCUMENTATION SO THAT THE DESIGN TEAM AND OWNER UNDERSTAND THIS MODIFICATION PRIOR TO MOVING FORWARD WITH ADJUSTED SIZE OF ENCLOSURE. 5. PROVIDE BASIS OF DESIGN (BOD) ENCLOSURE OR PRE-APPROVED EQUAL.

COVER OPTIONS DESCRIPTION

CA

WA

LR

LP

LQ

LK

LL

LS

O2

BOLT DOWN COVER

STANDARD WITH NO BOLTS

CAST IRON 6 4-1/2" X 7-1/2" LID

CAST IRON 6"X12" LID

CAST IRON 9"X12" LID

POLYMER CONCRETE 6"X9" DROP-IN LID

POLYMER CONCRETE 7" X 13" DROP-IN LID

THROUGH SLOT (NO METER LID)

OPENS UNDER 90O

OO USED WITH DROP-IN LID

SYMBOLS LEGEND

GENERAL SHEET NOTES1 THE ELECTRICAL CONTRACTOR SHALL MEET WITH AND COORDINATE WITH ALL

SERVICE PROVIDERS (POWER, COMMUNICATION, CABLE/SATELLITE, ETC.)TO THEFACILITY ON SITE PRIOR TO ANY WORK BEING PREFORMED. CONFIRM WITH EACHSERVICE PROVIDER EXACT LOCATIONS EQUIPMENT AND ROUTING. COMPLY WITHALL SERVICE PROVIDER’S CURRENT STANDARDS AND REQUIREMENTS. PROVIDETHE REQUIRED EQUIPMENT, RACEWAYS, BOXES, CABLE, ETC. AS REQUIRED BYTHE SERVICE PROVIDER WEATHER SHOWN ON THE DRAWINGS OR NOT.

2 FOR ALL LIGHT FIXTURES, POLE LIGHTS, AND ALL OTHER ELECTRICAL DEVICESTHE CONTRACTOR SHALL COORDINATE EXACT LOCATION AND MOUNTINGHEIGHTS WITH ARCHITECT, OWNER, ENGINEER, AND ALL OF THE CONTRACTDOCUMENTS PRIOR TO ROUGH IN AND TRENCHING.

3 CONTRACTOR IS RESPONSIBLE FOR ALL TRENCHING, BACKFILL, AND COMPACTIONASSOCIATED TO ALL ELECTRICAL UNDERGROUND RACEWAYS AND CABLES.COORDINATE WITH ARCHITECTURAL AND CIVIL DRAWINGS. SEE UNDERGROUNDRACEWAY DETAILS FOR REQUIREMENTS FOR EACH TRENCH.

4 CONTRACTOR SHALL INSTALL POLE MOUNTED LIGHTS IN STRAIGHT LINES,SQUARE, AND PLUMB. COORDINATE WITH ARCHITECT AND CIVIL DRAWINGS.CONTRACTOR SHALL INSTALL POLE MOUNTED LIGHTS IN STRAIGHT LINES,SQUARE, AND PLUMB. COORDINATE WITH ARCHITECT AND CIVIL DRAWINGS.

5 THE ELECTRICAL CONTRACTOR SHALL HAVE ANY AND ALL CONCRETE POLEBASES AND SLABS REVIEWED BY A STRUCTURAL ENGINEER AND SHALL MODIFYDESIGN PER STRUCTURAL ENGINEER’S AND OR AHJ’S RECOMMENDATIONS.

6 PROVIDE BATTERY PACKS IN ALL EXTERIOR FIXTURES ADJACENT TO EGRESSDOORS.

7 PROVIDE PHOTOCELL ON NORTH SIDE OF FACILITY TO CONTROL EXTERIORLIGHTS.

8 ALL EXTERIOR RECEPTACLES SHOWN SHALL BE NEMA 5-20R GFCI “WEATHERRESISTANT” RECEPTACLE WITH “WEATHER PROOF IN-USE COVER.”

9 THE ELECTRICAL CONTRACTOR IS RESPONSIBLE FOR ALL CONCRETE/ASPHALTCUTTING AND REPLACEMENT OF CONCRETE/ASPHALT TO MATCH EXISTINGASSOCIATED WITH UNDERGROUND RACEWAYS PROVIDED AS PART OF THISPROJECT.

10 REFER TO PLANS FOR CONSTRAINTS ON PHYSICAL DIMENSIONS AND CLEARANCEREQUIREMENTS OF EQUIPMENT. PROVIDE EQUIPMENT DIMENSIONS THAT FALLWITHIN THE CONSTRAINTS OF EACH SPECIFIC LOCATION.

11 PROVIDE SERVICE RATED EQUIPMENT AT EACH SERVICE ENTRANCE.

12 SERVICE EQUIPMENT SHALL BE LEGIBLY MARKED IN THE FIELD WITH THEMAXIMUM AVAILABLE FAULT CURRENT. VERIFY OR RE-CALCULATE THE AVAILABLEFAULT CURRENT AT THE SERVICE WHERE MODIFICATIONS TO THE ELECTRICALINSTALLATION OCCUR. PLEASE INCLUDE NOTES IN THE ELECTRICAL DRAWINGSOR SUPPLY CALCULATIONS WHERE APPLICABLE. SEE NEC 110.24. (B)

3 4/28/2021 ADDENDUM #3

3

04-29-2021

GENERAL PROJECT NOTES

SYMBOL

EQUIPMENT/CABLE LIST

ITEM DESCRIPTION ACCEPTABLE TYPES

PANDUIT, GEN CABLE, COMMSCOPE, BERK-TEKSTATION CABLE, DATA - CATEGORY 6, UTP, PLENUM, BLUE

THE ITEMS INDICATED BELOW SHALL NOT BE CONSTRUED AS A "BILL OF MATERIALS". THIS LIST IDENTIFIES ITEMS OF SIGNIFICANCE USED DURING THE DESIGN OF THECABLING INSTALLATION. WHERE THE ITEMS INDICATED ARE ONE PORTION OF AN ASSEMBLY, THE ENTIRE ASSEMBLY SHALL BE PROVIDED UNLESS SPECIFIED OTHERWISE.PROVIDE ALL MISCELLANEOUS HARDWARE AND SUPPORTS WHICH MAY NOT BE LISTED HERE, FOR A COMPLETE INSTALLATION. COMPARE CATALOG NUMBERS WITHDESCRIPTIONS AND NOTIFY ENGINEER OF DISCREPANCIES PRIOR TO BID. IF CATALOG NUMBERS DO NOT MATCH DESCRIPTIONS, THE DESCRIPTIONS TAKE PRECEDENCE.PROVIDE COMPLETE SUBMITTAL FOR APPROVAL PRIOR TO PURCHASING ANY EQUIPMENT OR CABLE. REFER TO SPECIFICATIONS FOR ADDITIONAL REQUIREMENTS.

NOTE: ALL RACKS, LADDER, PATCH PANELS AND ACCESSORIES SHALL BE BLACK IN COLOR.

DATA OUTLET, SINGLE GANG FACEPLATE, WHITE, 2 POSITION

CATEGORY 6 JACK - DATA, BLUE

DATA OUTLET, SURFACE MOUNT BOX, WHITE, 2 POSITION

CATEGORY 6 JACK - WIRELESS, BLUE

STATION PATCH PANEL, MODULAR, 48 PORT, BLACK, 2RU

SPP1

TELECOMMUNICATIONS MAIN GROUNDING BUS BAR

TELECOMMUNICATIONS GROUNDING BUS BAR


CATEGORY 6 JACK - SECURITY, BLUE

HORIZONTAL WIRE MANAGER, BLACK, 2RU, FRONT ONLYHWM

END CLOSING KIT, CABLE RUNWAY, BLACK

CABLE RUNWAY - 12", BLACK WITH ALL REQUIRED MOUNTING ACCESSORIES

BUTT SPLICE KIT, BLACK

JUNCTION SPLICE KIT, BLACK

ADJ JUNCTION SPLICE KIT, BLACK

FOOT KIT, BLACK

3" CHANNEL RACK TO RUNWAY, BLACK

TRIANGLE BRACKETS 12", BLACK

CHATSWORTH, RXL

END CLOSING KIT, CABLE RUNWAY, BLACK

RUNWAY WALL BRACKETS, BLACK

SWIVEL SPLICE KIT, BLACK

CABLE RUNWAY ELEVATION KIT, 6" CHATSWORTH, RXL


DATA OUTLET, SINGLE GANG FACEPLATE, WHITE, 2 POSITION


BLANK INSERT, WHITE

BLANK INSERT, BLACK

CHATSWORTH, RXL

CHATSWORTH, RXL

CHATSWORTH, RXL

CHATSWORTH, RXL

CHATSWORTH, RXL

CHATSWORTH, RXL

CHATSWORTH, RXL

CHATSWORTH, RXL

CHATSWORTH, RXL

CHATSWORTH, RXL

STATION CABLE, WIRELESS - CATEGORY 6A, UTP, PLENUM, BLUE

CATEGORY 6 JACK - WIRELESS, BLUE

COMMSCOPE, PANDUIT, LEVITON













PANDUIT, CHATSWORTH, COMMSCOPE

BLUE

BLUE

DATA

WIRELESS

COLOR TYPE

PANDUIT, GEN CABLE, COMMSCOPE, BERK-TEK

PS1 POWER DISTRIBUTION UNIT, SINGLE PHASE, 208/30 INPUT, NON-METERED,1RU, BLACK PANDUIT,CHATSWORTH, APC, RARITAN

EQUIPMENT RACK 19" x 7', 45 RU, BLACK CHATSWORTH 55053-703

VERTICAL WIRE MANAGER, BLACK 10", FRONT AND REARVWM PANDUIT, CHATSWORTH, COMMSCOPE

C

BLUE SECURITY


CATEGORY 6 JACK - DATA, BLUE COMMSCOPE, PANDUIT, LEVITON

COMMSCOPE, PANDUIT, LEVITON2C

COMMSCOPE, PANDUIT, LEVITONVOICE OUTLET, SINGLE GANG FACEPLATE, WHITE W/ WALL HUNG PHONEMOUNTING STUDS, ONE POSITION W/ CATEGORY 6 INSERT

NOTE: ALL ABBREVIATIONS MAY NOT BE USED.

ABBREVIATIONS

A - AUGMENTED

ER - EQUIPMENT ROOM

CAT - CATEGORY

E - ENHANCED

EA - EACH

FPP - FIBER PATCH PANEL

GIG - GIGA HERTZ

HWM - HORIZONTAL WIRE MANAGEMENT

TC - TELECOMMUNICATIONS ROOM

NIC - NOT IN CONTRACT

OE - OWNER ELECTRONICS

OFCI - OWNER FURNISHED CONTRACTOR INSTALLED

PNM - PLENUM

PR - PAIR

PS - POWER SUPPLY

RPP - RISER PATCH PANEL

SPP - TYPE S PATCH PANEL

TYP - TYPICAL

VWM - VERTICLE WIRE MANAGEMENT

NOTE: ALL DEFINITIONS MAY NOT BE USED.

DEFINITIONS

INDICATED: THE TERM "INDICATED" REFERS TO GRAPHIC REPRESENTATIONS,

NOTES, OR SCHEDULES ON THE DRAWINGS, OTHER PARAGRAPHS OR

SCHEDULES IN THE SPECIFICATIONS, AND SIMILAR REQUIREMENTS IN THE

CONTRACT DOCUMENTS. WHERE TERMS SUCH AS "SHOWN", "NOTED",

"SCHEDULED", AND "SPECIFIED" ARE USED, IT IS TO HELP THE READER LOCATE

THE REFERENCE, NO LIMITATION ON LOCATION IS INTENDED.

DIRECTED: TERMS SUCH AS "DIRECTED", "REQUESTED", AUTHORIZED",

"SELECTED", "APPROVED", "REQUIRED", AND "PERMITTED" MEAN "DIRECTED BY

THE ENGINEER", "REQUESTED BY THE ENGINEER", AND SIMILAR PHRASES.

APPROVE: THE TERM "APPROVED", WHERE USED IN CONJUNCTION WITH THE

ENGINEER'S ACTION ON THE CONTRACTOR'S SUBMITTALS, APPLICATIONS, AND

REQUESTS, IS LIMITED TO THE ENGINEER'S DUTIES AND RESPONSIBILITIES AS

STATED IN GENERAL AND SUPPLEMENTARY CONDITIONS.

FURNISH: THE TERM "FURNISH" IS USED TO MEAN "SUPPLY AND DELIVER TO THE

PROJECT SITE, READY FOR UNLOADING, UNPACKING, ASSEMBLY, INSTALLATION,

AND SIMILAR OPERATIONS."

INSTALL: THE TERM "INSTALL" IS USED TO DESCRIBE OPERATIONS AT PROJECT

SITE INCLUDING THE ACTUAL "UNLOADING, UNPACKING, ASSEMBLY, ERECTION,

PLACING, ANCHORING, APPLYING, WORKING TO DIMENSION, FINISHING, CURING,

PROTECTING, CLEANING, AND SIMILAR OPERATIONS."

PROVIDE: THE TERM "PROVIDE" MEANS "TO FURNISH AND INSTALL, COMPLETE

AND READY FOR THE INTENDED USE."

INSTALLER: AN "INSTALLER" IS THE CONTRACTOR OR AN ENTITY ENGAGED BY

THE CONTRACTOR, EITHER AS AN EMPLOYEE, SUBCONTRACTOR, OR

SUB-SUBCONTRACTOR, FOR PERFORMANCE OF A PARTICULAR CONSTRUCTION

ACTIVITY, INCLUDING INSTALLATION, ERECTION, APPLICATION, AND SIMILAR

OPERATIONS. INSTALLERS ARE REQUIRED TO BE EXPERIENCED IN THE

OPERATIONS THEY ARE ENGAGED TO PERFORM.

ELECTRONIC SYSTEMS: THE TERM "ELECTRONIC SYSTEMS" IS USED TO

DESCRIBE ALL LOW VOLTAGE SYSTEMS GENERALLY REFERRED TO AS "SPECIAL

SYSTEMS". THESE SYSTEMS INCLUDE BUT ARE NOT NECESSARILY LIMITED TO

ALL SYSTEMS WHICH UTILIZE VOLTAGES OF LESS THAN 71 VOLTS SUCH AS

SOUND SYSTEMS, VIDEO SYSTEMS, TV SYSTEMS, SECURITY SYSTEMS, VOICE

AND DATA CABLING SYSTEMS, ETC...

1. UNLESS OTHERWISE NOTED, INSTALL ALL CABLE INSIDE RACEWAY SYSTEMS.

WHERE RACEWAY SYSTEMS HAVE NOT BEEN PROVIDED OR SPECIFIED,

INSTALL CABLE THROUGH THE SPECIFIED "CADDY" CLIPS AT THE MINIMUM

INTERVALS IDENTIFIED IN THE SPECIFICATIONS. SUPPORT "CADDY" CLIPS

DIRECTLY FROM THE BUILDING STRUCTURE, NOT FROM OTHER BUILDING

SYSTEM SUPPORT WIRES OR CABLE.

2. PROVIDE PLENUM RATED CABLE FOR ALL PLENUM SPACES. VERIFY THAT ANY

PATHWAYS INSTALLED IN "WET OR DAMP" LOCATIONS AS DETERMINED BY THE

AHJ; SUCH AS PATHWAYS UNDER THE SLAB, ARE SUITABLE FOR THOSE

LOCATIONS AND THAT THE SPECIFIED CABLING SYSTEMS ARE ALSO SUITABLE

FOR THOSE LOCATIONS.

3. LABEL ALL CABLE INSTALLED UNDER THIS CONTRACT REGARDLESS OF

LENGTH. ACCORDING TO WRITTEN SPECIFICATION.

4. THE EQUIPMENT LABELING IDENTIFIED ON DETAILS IN THESE DRAWINGS ARE

EXAMPLES ONLY OF THE ACTUAL LABELING WHICH IS REQUIRED AS PART OF

THIS CONTRACT. PRIOR TO FABRICATION, SUBMIT THE NOMENCLATURE FOR

ALL LABELS TO THE OWNER FOR REVIEW. THIS REQUIREMENT INCLUDES BUT

IS NOT LIMITED TO ALL CABLE LABELING, AND ALL EQUIPMENT LABELING.

5. GROUND ALL EQUIPMENT RACKS LADDER RACK, AND EQUIPMENT INSTALLED

UNDER THIS CONTRACT IN COMPLIANCE WITH THE CONTRACT DOCUMENTS

AND WRITTEN SPECIFICATION.

6. COORDINATE WITH OWNER I.T. PERSONNEL ON RACK PATCH PANEL DENSITY

PRIOR TO ANY CABLE TERMINATION.

7. FACEPLATE COLOR WILL BE DETERMINED BY THE ARCHITECT AND OWNER.

FACEPLATE COLOR SHOULD MATCH ELECTRICAL FACEPLATE COLOR, UNLESS

OTHERWISE SPECIFIED.

8. FOR EVERY CABLE PULL SPECIFIED, COIL 10" OF EXCESS CABLE AT THE

STATION END FOR FUTURE USE.

9. COORDINATE WITH ALL SUBS TO ENSURE THAT ALL CABLE SHALL BE

PROTECTED FROM ANY DIRECT PAINT OR INCIDENTAL OVERSPRAY.

OUTLET COLOR SCHEDULE

2

W

3

3


800-678-7077801-328-5151


PROJECT NO.

SHEET TITLE:

Plo

t Da

te:



Sandy, Utah 84094

ph. 801.269.0055

fax 801.269.1425

www.thinkaec.com












this notice.

SHEET NUMBER:

REVISIONS:

DATE:

4/2

9/2

02

1 2

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200371

TELECOM SCHEDULES

AND NOTES

ET001

3 4/28/2021 ADDENDUM #3

SHEET INTENDED TO BE PRINTED IN COLOR FOR CLARITY. DO NOT PRINT IN BLACK AND WHITE.

04-29-2021

DW

C

C

C

C

DB

C

C

ELECTRICAL

101

LAUN.

103

MECH

104

FIRE RISER

106

MECH.

130

SHIFT

OFFICE

129

PANTRY

110

LOBBY

128

TURN OUT

102 HALL

117

UTILITY

112

SLEEPING 7

127 SLEEPING 6

126

SLEEPING 5

125

SLEEPING 4

124

APPARATUS

BAY

107BATH

115

BATH

114

BATH

113

HALL

122

BATH

105

OFFICE

123

DAY ROOM

108

IT

111 SLEEPING 3

120

SLEEPING 2

119

SLEEPING 1

118

BATH

121

WORK OUT

116

KITCHEN

109

2

2

+86"

+86"

2

2+86"

+86"

+86"2

A A

A

A

2

22

2

W

2

W

2+86"

+86"

+48"+48"

4

4

3

3

1

1

AA

5

5

6

6

EE

DD

BB

CC

2

2

ET101

2

ET101

3

+18'-0"AFF

+18'-0"AFF

+120"

2C

1

+120"

2C

2

4"x4"

+168" AFF

4"x4"

+168" AFF

4"x4"

+168" AFF

4"x4"

+168" AFF

+120"

2C

2

4"x4"

+156" AFF

4"x4"

+156" AFF

4"x4"

+156" AFF

3

3

4

4

IT

111

A-1

"FACP"

GROUND BUS BARMOUNTED AT+8'-0" AFF

2 EA., 4" CND TO"HH-1" AT SITEFOR SERVICEPROVIDER

4

4

IT

111

12"x1" LADDER RACKMOUNTED AT+7'-6" AFF

4"x4" CABLE TRAYMOUNTED AT+13'-0" AFF

12"x1" VERTICAL LADDERRACK FROM FLOOR UP TO DECK ABOVE FORCABLE PATHWAY

GENERAL SHEET NOTES

SHEET KEYNOTES1 COORDINATE EXACT TERMINATION LOCATION OF DATA DEVICE IN OPEN CEILING

WITH ELECTRICAL INSTALLER.

2 COORDINATE EXACT TERMINATION LOCATION OF DATA DEVICE IN OPEN CEILINGWITH MECHANICAL INSTALLER.

3 MOUNT WIRELESS ACCESS POINT DEVICE IN OPEN CEILING ACCORDING TO DETAIL8/ET502.

1 PLANS IN GENERAL SHOW CABLE TRAYS IN PLAN AND DO NOT DETAIL CHANGES INELEVATION. COORDINATE LAYOUT AND INSTALLATION OF CABLE TRAYS ANDSUSPENSION SYSTEM WITH OTHER CONSTRUCTION ELECEMENTS. INCLUDETRANSITIONS, OFFSETS AND CHANGES IN ELEVATION. COORDINATE ITEMS THATPENETRATE CEILINGS OR ARE SUPPORTED BY THEM, INCLUDING LIGHT FIXTURES,HVAC EQUIPMENT, FIRE SUPRESSION SYSTEMS AND PARTITION ASSEMBLIES.

2 PROVIDE 18” WIDE, LADDER STYLE CABLE TRAY UNLESS OTHERWISE NOTED.

3 LOCATE CABLE TRAY ABOVE ACCESSIBLE CEILING TILE AND BELOW PIPING ANDDUCT WORK SUCH THAT CEILING TILE CAN BE REMOVED AND TOP OF TRAY ISACCESSIBLE.

4 COORDINATE ACTUAL CABLE TRAY ROUTIN WITH MECHANICAL AND OTHERTRADES SO THAT CABLE TRAY IS ACCESSIBLE AND THE CABLE TRAY DOES NOTBLOCK ACCESS TO OTHER EQUIPMENT.

5 COORDINATE LAYOUT OF CABLE TRAY IN IDF ROOMS WITH THE I.T. CABLINGINSTALLER.

6 DO NOT SUPPORT ELECTRICAL CABLES AND RACEWAYS FROM CABLE TRAY.MAINTAIN AT LEAST 12’’ SEPARATION FROM CABLE TRAY TO POWER RACEWAYSOR CABLES AND LIGHT FIXTURES.

7 WHER CABLE TRAY PASSES THROUGH FIRE-RATED WALLS. PROVIDE (4) 4’’CONDUIT SLEEVES THROUGH WALLS AND FIRE STOP AFTER CABLES AREINSTALLED.

8 ROUTE CONDUIT STUBS TO CABLE TRAY SUCH THAT A MAXIMUM CABE DISTANCEOF 275’ IS NOT EXCEEDED BETWEEN THE OUTLET AND NEAREST IDF ROOM.

9 COORDINATE MOUNTING LOCATIONS OF ALL EQUIPMENT IN IDF AND MDF ROOMSWITH UVU IT PERSONEL.


800-678-7077801-328-5151


PROJECT NO.

SHEET TITLE:

Plo

t Da

te:



Sandy, Utah 84094

ph. 801.269.0055

fax 801.269.1425

www.thinkaec.com












this notice.

SHEET NUMBER:

REVISIONS:

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LEVEL 1 TELECOM

FLOOR PLAN

ET101

3 4/28/2021 ADDENDUM #3

SCALE: 1/8" = 1'-0"1LEVEL 1 TELECOM PLAN

SCALE: 1/4" = 1'-0"

ENLARGED IT 111 EQUIPMENT RACKPLAN

2SCALE: 1/4" = 1'-0"

ENLARGED IT 111 LADDER RACKPLAN

3SCALE:

ENLARGED IT 111 ISOMETRIC PLAN4


3

3

3

04-29-2021

1TELECOM EQUIPMENT RACK ELEVATION, LEVEL 1, IT 111NO SCALE

A-1

HWM (2RU)

SPP1 (2RU)

HWM (2RU)

SPP1 (2RU)

PS1 (1RU)

PS1 (1RU)

HWM (2RU)

45RU EQUIPMENT RACK,7'-0" (HIGH) x 19" (W),TYPICAL

VERTICAL WIREMANAGEMENT,7'-0" (HIGH) x 10" (W),TYPICAL


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PROJECT NO.

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Sandy, Utah 84094

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fax 801.269.1425

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this notice.

SHEET NUMBER:

REVISIONS:

DATE:

4/2

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TELECOM EQUIPMENT

RACK ELEVATIONS

ET501

3 4/28/2021 ADDENDUM #3

DATA DEVICE DROP SCHEDULE - IT 111

DATA DEVICE TYPEDETAIL

LOCATIONCOMM ROOM

LOCATIONTOTAL BY

FLOOR Num of DropsLEVEL 1

CEILING DATA (2-DROP) SEE DETAIL 6/ET502 IT 111 3 6

CEILING DATA - CAMERA (1-DROP) SEE DETAIL 2/ET502 IT 111 1 1

CEILING WIRELESS ACCESS POINT (2-DROP) SEE DETAIL 1/ET502 IT 111 6 8

WALL DATA (2-DROP) SEE DETAIL 7/ET502 IT 111 7 14

WALL DATA - ABOVE COUNTER (2-DROP) SEE DETAIL 7/ET502 IT 111 4 8

WALL DATA - CAMERA (1-DROP) SEE DETAIL 2/ET502 IT 111 5 5

WALL DATA - PHONE (1-DROP) SEE DETAIL 4/ET502 IT 111 2 2

Grand total 28 44


3

3

04-29-2021

VERTICAL WIRE

MANAGEMENT

FRONT

REAR

24"LADDER

RACK

EQUIPMENT RACK

SIDE VIEW

VERTICAL WIRE

MANAGEMENT

EQUIPMENT RACK

22

C

A

2C15EQUIPMENT RACK/RACEWAY MOUNTING DETAIL

8

CEILING WIRELESS APMOUNTING DETAIL

10

EQUIPMENT RACK/ENCLOSEDCABINET ANCHOR DETAIL

11

FOOT/WALLATTACHMENT DETAIL

12

CABLE RUNWAY ENDCLOSING SPLICE DETAIL

14

TRIANGLE BRACKETDETAIL

9

CABLE INDENTIFICATIONEXAMPLE DETAIL

5

VOICE-DATA OUTLETPINNING DETAIL

3

TYPICAL 1-DROP WALLDATA OUTLET

1

TYPICAL 2-DROP WAPDATA OUTLET

7

TYPICAL 2-DROPWALL DATA OUTLET

136" CHANNEL RACK-TO-RUNWAY MOUNTING PLATE

6

TYPICAL 2-DROPCEILING DATA OUTLET

2

TYPICAL 1-DROPCAMERA DATA OUTLET

4

TYPICAL 1-DROP WALLPHONE DATA OUTLET

111

1 2 43 5 6 87

2 R2-O/W

6 R3-GR/W

3 T3-W/GR

8 R4-BR/W

7 T4-W/BR

5 T1-W/BL

1 T2-W/O

4 R1-BL/W

PINNING (T568B)

# COLOR

PIN RP/RP1

RP3

RP2 RP4

TR NUMBER

CAT 6A, RJ-45INSERT, WIRELESS,

BLUE, TYPICAL

SCALE: 2" = 1'-0"

CONCRETE SLAB

RACK BASE ANGLE

HILTI .5" HIT HY 150INJECTION ADHESIVEANCHOR 2.125"EMBEDMENTLENGTH. TYPICAL OFALL FOUR CORNERS.

FLOOR ATTACHMENT WALL ATTACHMENT

A 01

PATCH PANEL NUMBER

PORT NUMBER

111-A-01 111-A-02

TYPICAL LABEL,STATION NUMBER(EXAMPLE ONLY) 111-A-01 111-A-02

FACE PLATE

CAT 6, RJ-45INSERT, DATA,BLUE, TYPICAL

TYPICAL LABEL,STATION NUMBER(EXAMPLE ONLY)

FACE PLATE

CAT 6, RJ-45INSERT, DATA,

BLUE

SURFACE MOUNTED 2POSITION BOX WITH 2 CAT 6AJACKS, TYP.

(2) CAT 6A PATCH CORDS, TYP.

CEILING MOUNT

T-BAR MOUNT




OPEN CEILING MOUNT

1" CONDUIT, TYP.

J-HOOK, TYP

1" CONDUIT, TYP.

(2) CAT 6A CABLES, TYP.



4" SQUARE BOX

4" SQUARE BOX

MOUNTING PLATE

MOUNTING PLATE

GRID CEILING T-BARSUPPORT

ADAPTER CLIP TOMOUNT DEVICE TO

T-BAR SUPPORT


CABLE COIL, TYP.

ROOF/DECK

111-A-01


SURFACE MOUNT BOX

NO SCALE

NO SCALE

BLANK INSERT,WHITE

PERPENDICULAR MOUNTING PARALLEL MOUNTING

NO SCALE

CAT 6, RJ-45INSERT, DATA,BLUE, TYPICAL

111-A-01 111-A-02


SURFACE MOUNT BOX

LABEL, STATIONNUMBER(EXAMPLE ONLY)

SINGLE GANGFACEPLATE

CAT 6A, RJ-45INSERT, BLUE

METALMOUNTING LUGS,TYP

111-A-01

CAT 6, RJ-45INSERT,

SECURITY, BLUE

111-A-01


SURFACE MOUNT BOX


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SHEET TITLE:

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Sandy, Utah 84094

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this notice.

SHEET NUMBER:

REVISIONS:

DATE:

4/2

9/2

02

1 2

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TELECOM DETAILS

ET502

3 4/28/2021 ADDENDUM #3


3

04-29-2021

1STATION PATCH PANEL, SPP1, TYPICAL

CAT 6, RJ-45 INSERT, DATA,BLUE, TYP.

NO SCALE

CAT 6A, RJ-45 INSERT,WIRELESS, BLUE, TYP.

CAT 6A, RJ-45 INSERT,SECURITY, BLUE, TYP.


800-678-7077801-328-5151


PROJECT NO.

SHEET TITLE:

Plo

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Sandy, Utah 84094

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fax 801.269.1425

www.thinkaec.com












this notice.

SHEET NUMBER:

REVISIONS:

DATE:

4/2

9/2

02

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:54

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TELECOM DETAILS

ET503

3 4/28/2021 ADDENDUM #3


3

04-29-2021

3"

6"

12"

6"

3"

12" 6"

6CABLE TRAY WITH SEISMIC SUPPORTS DETAIL

4CABLE TRAY WITH SUPPORT AT SPLICE POINT DETAIL

110'-0" CABLE TRAY WITH SUPPORT AT ENDS DETAIL

7CABLE TRAY INTERSECTION WITH SUPPORTS DETAIL

5CABLE TRAY WITH PARALLEL OBSTRUCTION DETAIL

2CABLE TRAY WITH PERPENDICULAR CROSSING DETAIL

3CABLE TRAY 90 DEGREE BEND WITH SUPPORTS DETAIL

CABLE TRAYSPLICE POINT

ISOMETRIC VIEW

SIDE VIEW

ISOMETRIC VIEW

ISOMETRIC VIEW

CABLE TRAY

UNISTRUT SUPPORT,TYPICAL

WASHER AND NUTABOVE AND BELOWUNISTRUT, TYPICAL

THREADED ROD,TYPICAL

NOTE:

INSTALL UNISTRUT

SUPPORT NO LESS

THAN 1'-0" FROM

EITHER SIDE OF

CABLE TRAY SPLICE

POINT.

NOTE:

INSTALL UNISTRUT

SUPPORT NO LESS

THAN 1'-0" FROM

EITHER END OF

CABLE TRAY ON 10'-0"

SECTION.


CABLE TRAY


CABLE TRAY

UNISTRUT SUPPORT


DUCT WORK

FINISHEDCEILING

ISOMETRIC VIEW

SIDE VIEW

CABLE TRAY

UNISTRUT SUPPORT


DUCT WORK

FINISHEDCEILING

USE MANUFACTURERS JOINTSPLICE SPECIFICATIONS TOENSURE PROPER BONDING




NOTE:

MAXIMUM WIDTH OF

PERPENDICULAR

CROSSING IS 6 FEET

WIDE.

ISOMETRIC VIEW

NOTE:

INSTALL UNISTRUT

SUPPORT NO LESS

THAN 1'-0" FROM

CABLE TRAY SPLICE

POINT, TYPICAL.



CABLE TRAY

ISOMETRIC VIEW

CABLE TRAY


UNISTRUT SUPPORT

SEISMIC SUPPORT,TYPICAL

SEISMICSUPPORT,

TYPICAL

ISOMETRIC VIEW

NOTE:

INSTALL UNISTRUT

SUPPORT NO LESS

THAN 1'-0" FROM

CABLE TRAY SPLICE

POINT, TYPICAL.



CABLE TRAY

NOTE:

SEISMIC ENGINEERING TO BE DONE

BY OTHERS.




NO SCALE NO SCALE NO SCALE

NO SCALE NO SCALE NO SCALE

NO SCALE


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Sandy, Utah 84094

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fax 801.269.1425

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this notice.

SHEET NUMBER:

REVISIONS:

DATE:

4/2

9/2

02

1 2

:54

:18

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TELECOM DETAILS

ET504

3 4/28/2021 ADDENDUM #3

SHEET INTENDED TO BE PRINTED IN COLOR FOR CLARITY. DO NOT PRINT IN BLACK AND WHITE.3

04-29-2021

1TELECOM EQUIPMENT RACK GROUNDING DETAIL

OSP COPPER

FUSE PROTECTION

BASKET TRAY, FOLLOWMANUFACTURER'SGROUNDING INSTRUCTIONS

GROUNDING ELECTRODE TOBUILDING ELECTRODE SYSTEM

(OVERHEAD OR UNDERGROUND)

1 EA., #6GREEN

1 EA., #6GREEN

ENTRANCE CONDUITSOR METALLIC SLEEVES

LADDER RACK JUNCTIONSPLICE

1 EA., #6 GROUNDING STRAP

LADDER RACK,TYPICAL

1 EA., #6 GROUNDING STRAP

GENERAL NOTES:

1. ALL LOW VOLTAGE COMMUNICATIONS CONDUIT SHALL BE GROUNDED TO

BASKET TRAY OR TELECOMMUNICATIONS GROUNDING BUS BAR.

2. "TMGB" SHOULD BE 1/4"x4"x24".

3. "TGB" SHOULD BE 1/4"x2"x24".

4. EMT CONDUIT GROUNDING CLAMP SHOULD BE ELECTROLYTIC CAST BRONZE.

PANDUIT PART NUMBER GPL-"X"-"X", OR EQUAL.

5. RIGID CONDUIT GROUND CLAMP SHOULD BE O-Z/GEDNEY BLG-XXXX, OR

HBLG-XXXX, OR EQUAL.

6. GROUNDING LUGS SHOULD BE TWO HOLE LONG BARREL LUGS. PANDUIT

PART NUMBER LCC6, OR EQUAL.

COMMUNICATIONOUTLET

COMMUNICATIONOUTLET

COMMUNICATIONOUTLET

CND, TYP.

BEAM CLAMP,TYPICAL

TO ELECTRICALPANEL

TMGB/TGB,TYP.

1 EA., #6GREEN

NO SCALE

FB/PT


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PROJECT NO.

SHEET TITLE:

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Sandy, Utah 84094

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this notice.

SHEET NUMBER:

REVISIONS:

DATE:

4/2

9/2

02

1 2

:54

:17

PM

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TELECOM EQUIPMENT

RACK GROUNDING

DETAIL

ET505

3 4/28/2021 ADDENDUM #3


3

04-29-2021

C

STATION

PATCH

PANEL,

(SPP1)

OWNEREQUIPMENT

(NIC)

1TELECOM CONDUIT RISER DIAGRAM

2TELECOM CABLE RISER DIAGRAM

A

2C

4-11/16" SQUARE

BOX SINGLE GANG

MUD RING

2C

TO "HH-1" AT SITE FORSERVICE PROVIDERS

NO SCALE

1 #6 CU TOGROUNDINGELECTRODE

CABLE TRAY, TYP.

1" CND, TYP.

1" CND, TYP.

NO SCALE

1 EA., CAT 6PATCH CORD

WALLMOUNTED

2 EA, CAT 6 CABLE, BLUE





2 EA, CAT 6A CABLE, BLUE


2 EA., 4" CND W/3 EA., 1.25" INNERDUCT

(IN EACH CONDUIT)

LADDERRACK

LEVEL 1, IT 111

ACCESSIBLE CEILING

C

LEVEL 1

ROOF

LEVEL 1, IT 111

ROOF

A

2 2

2

W

2


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PROJECT NO.

SHEET TITLE:

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this notice.

SHEET NUMBER:

REVISIONS:

DATE:

4/2

9/2

02

1 2

:54

:16

PM

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TELECOM RISER

DIAGRAMS

ET601

3 4/28/2021 ADDENDUM #3


3

04-29-2021

LAYTON UTAH

FIRE STATION 54

Table of Contents: Division 26, 27, & 28 COVER PAGE DIVISION 26: ELECTRICAL SECTION 260500 COMMON WORK RESULTS FOR ELECTRICAL 260519 LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES 260526 GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS 260529 HANGERS & SUPPORTS FOR ELECTRICAL SYSTEMS 260533 RACEWAYS & BOXES FOR ELECTRICAL SYSTEMS 260536 CABLE TRAYS FOR ELECTRICAL SYSTEMS

260548 VIBRATION & SEISMIC CONTROLS FOR ELECTRICAL SYSTEMS 260553 IDENTIFICATION OF ELECTRICAL SYSTEMS 260572 OVERCURRENT PROTECTIVE DEVICE SHORT-CIRCUIT STUDY 260573 OVERCURRENT PROTECTIVE DEVICE COORDINATION STUDY 260574 OVERCURRENT PROTECTIVE DEVICE ARC-FLASH STUDY

260923 LIGHTING CONTROL DEVICES 260943 NETWORK LIGHTING CONTROLS

262413 SWITCHBOARDS 262416 PANELBOARDS 262726 WIRING DEVICES 262726.1 WIRING DEVICE SCHEDULE 262813 FUSES 262816 ENCLOSED SWITCHES AND CIRCUIT BREAKERS 262913 ENCLOSED CONTROLLERS 263213 ENGINE GENERATORS 263600 TRANSFER SWITCHES 264313 SURGE PROTECTION FOR LOW-VOLTAGE ELECTRICAL POWER CIRCUITS 265100 INTERIOR LIGHTING 265600 EXTERIOR LIGHTING DIVISION 27: COMMUNICAITONS SECTION 271100 TELECOMMUNICATIONS PATHWAYS AND SPACES 271300 COMMUNICATION BACKBONE CABLING 271500 COMMUNICATIONS HORIZONTAL CABLING 271100 - TELECOMMUNICATIONS PATHWAY AND SPACES 271500 - COMMUNICATIONS HORIZONTAL CABLING DIVISION 28: ELECTRONIC SAFETY AND SECURITY SECTION 281300 ACCESS CONTROLS 281316 SECURITY AND DATABASE MANAGEMENT SYSTEM 283111 DIGITAL ADDRESSABLE FIRE ALARM SYSTEM 283000 CCTV 284000 INTRUSION DETECTION END OF TABLE OF CONTENTS

TELECOMMUNICATIONS PATHWAY AND SPACES 271100

SECTION 271100 - TELECOMMUNICATIONS PATHWAYS AND SPACES

PART 1 - GENERAL

1.1 RELATED DOCUMENTS

A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section.

1.2 SUMMARY

A. Section Includes:1. Telecommunications vertical and horizontal pathways.2. Backboards and mounting elements.3. Telecommunications equipment racks and cabinets.4. Telecommunications service entrance pathways.5. Grounding.

B. Related Sections:1. Division 271300 Section "Communications Backbone Cabling" for voice and data

cabling associated with system panels and devices.2. Division 271500 Section "Communications Horizontal Cabling" for voice and data

cabling associated with system panels and devices.

1.3 DEFINITIONS

A. Basket Cable Tray: A fabricated structure consisting of wire mesh bottom and side rails.

B. BICSI: Building Industry Consulting Service International.

C. EIA: Electronic Industries Alliance.

D. TIA: Telecommunications Industry Association

E. ANSI: American National Standard Institute

F. RCDD: Registered Communications Distribution Designer.

1.4 REFERENCES

A. ANSI/TIA-568-D Telecommunications Pathways and Spaces, 2015

B. ANSI/TIA-568-D.0 Generic Telecommunications Cabling for Customer Premises, 2015

C. ANSI/TIA – 568-D.1 Commercial Building Telecommunications Cabling Standard, 2015.

D. ANSI/NECA/BICSI 568-2006 – Standard for Installing Commercial Building Telecommunication Cabling

E. ANSI/TIA-942-A Telecommunications Infrastructure Standard for Data Centers, 2014.


F. ANSI/TIA – 606-B Administration Standard for Telecommunications Infrastructure, 2012.

G. ANSI/TIA – 607-C Generic Telecommunications Bonding and Grounding (Earthing) for Customer Premises, 2015.

H. NFPA 70 – National Electric Code, 2008, 2014, 2017

1.5 PERFORMANCE REQUIREMENTS

A. Seismic Performance: Floor-mounted cabinets, racks and cable pathways shall withstand the effects of earthquake motions determined according to SEI/ASCE 7, (Zone 4).

1. The term "withstand" means "the unit will remain in place without separation of any parts from the device when subjected to the seismic forces specified and the unit will be fully operational after the seismic event.

1.6 SUBMITTALS

A. Product Data: For each type of product indicated. Include construction details, material descriptions, dimensions of individual components and profiles, and finishes for equipment racks and cabinets. Include rated capacities, operating characteristics, electrical characteristics, and furnished specialties and accessories.

B. Shop Drawings: For communications equipment room fittings. Include plans, elevations, sections, details, and attachments to other work.

1. Detail equipment assemblies and indicate dimensions, weights, loads, required clearances, method of field assembly, components, and location and size of each field connection.

2. Equipment Racks and Cabinets: Include workspace requirements and access for cable connections.

3. Grounding: Indicate location of grounding bus bar and its mounting detail showing standoff insulators and wall mounting brackets.

C. Qualification Data: For each qualified layout technician, installation supervisor, and field inspector.

D. Seismic Qualification Certificates: For floor-mounted cabinets, accessories, and components, from manufacturer.

1. Basis for Certification: Indicate whether withstand certification is based on actual test of assembled components or on calculation.

2. Dimensioned Outline Drawings of Equipment Unit: Identify center of gravity and locate and describe mounting and anchorage provisions. Base certification on the maximum number of components capable of being mounted in each rack type. Identify components on which certification is based.

3. Detailed description of equipment anchorage devices on which the certification is based and their installation requirements.

1.7 QUALITY ASSURANCE

A. Installer Qualifications: Cabling Installer must have personnel certified by BICSI on staff.


1. Layout Responsibility: Preparation of Shop Drawings shall be under the direct supervision of an RCDD.

2. Installation Supervision: Installation shall be under the direct supervision of a Registered Technician (BICSI), who shall be present at all times when Work of this Section is performed at Project site.

3. Field Inspector: Currently registered by BICSI as an RCDD to perform the on-site inspection.

4. Contractor must be certified prior to time of bid with the manufacturer, and must be able to provide a complete system warranty for products installed by the listed manufacturers.

B. 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.

C. Telecommunications Pathways and Spaces: Comply with ANSI/TIA/EIA-569-B.

D. Grounding: Comply with ANSI-J-STD-607-A.

1.8 PROJECT CONDITIONS

A. Environmental Limitations: Do not deliver or install equipment frames and cable trays until spaces are enclosed and weathertight, wet work in spaces is complete and dry, and associated construction work on the subfloor and raised floor supports is substantially complete.

PART 2 - PRODUCTS

2.1 PATHWAYS

A. General Requirements: Comply with ANSI/TIA/EIA-569-B.

B. Cable Support (J-Hook): Cable installation that does not require basket cable tray management, but shall require support of cables with J-Hooks. J-Hook pathway support will be spaced no more than 60” between supports.

1. Manufacturers: Subject to compliance with requirements, provide products by one of the following:a. Erico Caddyb. B-Linec. CTSd. Stiffye. Panduit

2. Cable Support Materials (J-Hook) shall meet or exceed the below characteristics of construction and features.a. Provide broad based support for cabling to aid in maintaining overall system

performance.b. Be available in 50.8mm (2”) and 101.6mm (4”) optionsc. Come equipped with a cable retention clipd. Offers a full line of mounting accessories.

C. Cable Trays:


1. Manufacturers: Subject to compliance with requirements, provide products by one of the following:a. Cablofil Inc.b. Cooper B-Line, Inc.c. WBT Wire Basket Tray

2. Cable Tray Materials: Metal, suitable for indoors and protected against corrosion by electroplated zinc galvanizing, complying with ASTM B 633, Type 1, not less than 0.000472 inch (0.012 mm) thick.a. Basket Cable Trays: Provide tray widths as noted – 4 – 24 inches - wide and

minimum 2 inch deep. Wire mesh spacing shall not exceed 2 by 4 inches.

D. Ladder Rack:1. Manufacturers: Subject to compliance with requirements, provide products by one of the

following:a. Chatsworthb. RXL

2. Description: a. Size: 1.5 inches high by 0.4 inches wide high tubular steel with 0.065 inch wall

thickness.b. Stringers: 9 feet 11-1/2 inches long.c. Cross Members: Welded in between stringers on 12 inch intervals/centers

beginning 5-3/4 inches with 10 cross members per ladder rack. Open space of 10-1/2 inches between each cross member.

d. Finish and Color: Powder coat paint in black.e. Provide cable tray widths as noted, 12” – 24” wide.

E. Conduit and Boxes: Comply with requirements in Division 26 Section "Raceway and Boxes for Electrical Systems".

F. Conduit Sleeves: Comply with requirements in Division 26 Section "Raceway and Boxes for Electrical Systems".

G. Conduit and Boxes (Wireless Access Points): Comply with requirements in Division 26 Section "Raceway and Boxes for Electrical Systems". Provide a 1” conduit and two gang box, coordinated with the finished height of a hard lid ceiling for outlet mounting, and extend the conduit to the nearest cable tray.

2.2 BACKBOARDS

A. Backboards: Provide plywood, fire-retardant treated, 3/4 by 48 by 96 inches, on at least two of the full non-door walls of each telecommunications room, or as noted. Comply with requirements for plywood backing panels specified in Division 06 Section "Rough Carpentry."

2.3 EQUIPMENT FRAMES TWO POST

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following:


1. Chatsworth2. RXL

B. General Frame Requirements:1. Mounting Channels: 3 inches (76 mm) deep and punched on the front and rear flange

with the EIA-310-D Universal hole pattern.2. Capacaity: 1,000 lb3. UL and cUL Listed as a Communications Circuit Accessory, DUXR and DUXR7 category,

file number 140851.4. Size:

7 feet (2.1 m) high by 20.3 inches (515.9 mm) wide by 15 inches (381.0 mm) deep, 45U by 19 inch EIA in black.

2.4 CABLE MANAGEMENT


1. Commscope2. Panduit3. Chatsworth

B. Vertical Cable Management for Equipment Frames:

1. Shall consist of a metal backbone, with cable fingers that align with EIA rack spacing.2. Baked-polyester powder coat finish.3. Fingers will be molded plastic, and shall provide integral bend radius control.4. Vertical cable management panels shall have front and rear channels, with covers.5. Width: 10 inches (254 mm)6. Depth: 22 inches (558 mm).7. Height: 84 inches (2.1 m)

C. Horizontal Cable Management for Equipment Frames:

1. Horizontal cable management panels shall have front channels with covers, and shall be a minimum height of two rack units each.

2. Width: 19 inches (482 mm).3. Depth: 4. RMU: 2RU5. Finishes and colors: Powder coat paint in black.

2.5 RACK MOUNT HORIZONTAL PDU 1RU


1. APC2. Chatsworth3. Panduit4. Raritan


B. General PDU Requirements:1. Single phase input connector NEMA L6-30 plug with 10’ cord minimum.2. Output connector 10 – IEC-320-C13 outlets3. Nominal input voltage 200-240 VAC4. Input frequency 50/60 Hz5. Maximum total current draw 30 A (24 A UL derated)6. 17.5” x 1.7”x 3.03” (1RU)7. Color: Black8. Nominal input voltage 200-240 VAC9. Input frequency 50/60 Hz10. Maximum total current draw 30 A (24 A UL derated)11. 70.5” x 2.2” x 1.82”12. Color: Black

2.6 GROUNDING

A. Comply with requirements in Division 26 Section "Grounding and Bonding for Electrical Systems." for grounding conductors and connectors.

B. Telecommunications Main Ground Bus Bar:1. Connectors: Mechanical type, cast silicon bronze, solderless exothermic-type wire

terminals, and long-barrel, two-bolt connection to ground bus bar.2. Ground Bus Bar: Copper, minimum 1/4 inch thick by 4 inches wide with 9/32-inch

holes spaced 1-1/8 inches apart.3. Stand-Off Insulators: Comply with UL 891 for use in switchboards, 600 V. Lexan or

PVC, impulse tested at 5000 V.

C. Comply with ANSI-J-STD-607-A.

2.7 LABELING

A. 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.

B. Contractor shall coordinate final labeling scheme with owner for final approval.

PART 3 - EXECUTION

3.1 ENTRANCE FACILITIES

A. Install underground pathways complying with recommendations in TIA/EIA-569-B, "Entrance Facilities" Article.

3.2 INSTALLATION

A. Install underground entrance pathway complying with Division 26 Section "Raceway and Boxes for Electrical Systems." Comply with NECA 1.

B. Comply with BICSI TDMM for layout and installation of communications equipment rooms.

C. Cable Trays: Provide overhead cable runway (basket tray) as noted. Comply with NEMA VE 2 and TIA/EIA-569-B.


1. Cable tray should be installed per manufacturer’s specifications.2. Distance between supports shall not be more than 8 feet.3. Cable tray must be supported by a trapeze support. Cable tray cannot be center hung.4. Provide seismic support as required by the manufacturer.5. Cable tray cannot exceed a maximum of 40% fill ratio, and cable must not exceed 75% of

the total depth of the cable tray. If cable utilizes more than 75% of the total depth the cable tray must be upsized appropriately.

D. Bundle, wrap, and train conductors and cables to terminal points without exceeding manufacturer's limitations on bending radii. Install management bars and distribution spools.

3.3 FIRESTOPPING

A. Comply with requirements in Division 07 Section "Penetration Firestopping." Comply with TIA/EIA-569-B, "Firestopping."

B. Comply with BICSI TDMM, "Firestopping Systems" Article.

3.4 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 (50-mm) clearance behind the grounding bus bar. Connect grounding bus bar with a minimum No. 4 AWG grounding 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.

1. Bond the shield of shielded cable to the grounding bus bar in communications rooms and spaces.

2. Bond all racks, ladder rack, and cable tray to the grounding bus bar.

3.5 IDENTIFICATION

A. Identify system components, wiring, and cabling complying with TIA/EIA-606-A. Comply with requirements in Division 26 Section "Identification for Electrical Systems."

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. See Section 271300 "Communications Horizontal Cabling" for additional identification requirements. See Evaluations for discussion of TIA/EIA standard as it applies to this Section.

D. Paint and label colors for equipment identification shall comply with TIA/EIA-606-A for Class 4 level of administration, including optional identification requirements of this standard.


E. Labels shall be preprinted or computer-printed type.

COMMUNICATIONS HORIZONTAL CABLING 271500

SECTION 271500 - COMMUNICATIONS HORIZONTAL CABLING

PART 1 - GENERAL

1.1 RELATED DOCUMENTS

A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section.

1.2 SUMMARY

A. Section Includes:1. Pathways.2. UTP cabling.3. Cable connecting hardware, patch panels, and cross-connects.4. Telecommunications outlet/connectors.5. Cabling system identification products.6. Cable management system.

B. Related Sections:1. Section 271100 "Telecommunications Pathways and Spaces" for voice and data cabling

associated with system panels and devices.

1.3 DEFINITIONS

A. Basket Cable Tray: A fabricated structure consisting of wire mesh bottom and side rails.

B. BICSI: Building Industry Consulting Service International.

C. EMI: Electromagnetic interference.

D. LAN: Local area network.

E. Outlet/Connectors: A connecting device in the work area on which horizontal cable or outlet cable terminates.

F. RCDD: Registered Communications Distribution Designer.

G. UTP: Unshielded twisted pair.

1.4 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 termination room (Telecom). This cabling and its connecting hardware are called "permanent link," a term that is used in the testing protocols.1. TIA/EIA-568-C.2 requires that a minimum of two telecommunications outlet/connectors

be installed for each work area, however, some locations designated by the owner shall have a single data outlet/connector.

2. Horizontal cabling shall contain no more that one transition point or consolidation point between the horizontal cross-connect and the telecommunications outlet/connector.

3. Bridged taps and splices shall not be installed in the horizontal cabling.


B. A work area is approximately 100 sq. ft., and includes the components that extend from the telecommunications outlet/connectors to the station equipment.

C. The maximum allowable horizontal copper cable length is 295 feet. This maximum allowable length does not include an allowance for the length of 16 feet to the workstation equipment. The maximum allowable length does not include an allowance for the length of 16 feet in the horizontal cross-connect.

1.5 PERFORMANCE REQUIREMENTS

A. General Performance: Horizontal cabling system shall comply with transmission standards in TIA/EIA-568-C.1, when tested according to test procedures of this standard.

1.6 SUBMITTALS

A. Product Data: For each type of product indicated.1. For all 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, in software and

format selected by Owner.2. System Labeling Schedules: Electronic copy of labeling schedules that are part of the

cabling and asset identification system of the software.3. Cabling administration drawings and printouts.4. Wiring diagrams to show typical wiring schematics, including the following:

a. Cross-connects.b. Patch panels.c. Patch cords.

5. Cross-connects and patch panels. Detail mounting assemblies, and show elevations and physical relationship between the installed components.

6. 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 subfloor.

C. Samples: For workstation outlets, jacks, jack assemblies, in specified finish, one for each size and outlet configuration.

D. Qualification Data: For all qualified layout technicians, installation supervisors, and field inspector.

E. Source quality-control reports.

F. Field quality-control reports.

G. Maintenance Data: For splices and connectors to include in maintenance manuals.

H. 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.

1.7 QUALITY ASSURANCE

A. Contractor shall provide upon completion a system warranty from the manufacturer to guarantee installation of end-to-end high performance cabling systems that meet all application requirements associated with the Category of cabling installed. The system warranty shall include all copper and fiber cable and connectivity components. The system warranty shall be for a period of at least 20 years.

B. Installer Qualifications: Cabling Installer must have personnel certified by BICSI on staff.1. Layout Responsibility: Preparation of Shop Drawings, Cabling Administration

Drawings, and field testing program development by an RCDD. RCDD must be employed by the contracting firm.

2. Installation Supervision: Installation shall be under the direct supervision of a Registered Technician (BICSI), 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.

4. Contractor must be certified prior to time of bid with the manufacturer, and must be able to provide a complete system warranty for products installed by the listed manufacturers.

C. Testing Agency Qualifications:1. Testing Agency's Field Supervisor: Currently certified by BICSI as an RCDD to

supervise on-site testing.

D. 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.

E. Telecommunications Pathways and Spaces: Comply with TIA/EIA-569-B.

F. Grounding: Comply with ANSI-J-STD-607-A.

1.8 DELIVERY, STORAGE, AND HANDLING

A. Test cables upon receipt at Project site.1. Test each pair of UTP cable for open and short circuits.

1.9 PROJECT CONDITIONS

A. 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.


1.10 COORDINATION

A. Coordinate layout and installation of telecommunications pathways and cabling with Owner's telecommunications and LAN equipment and service suppliers.

B. Coordinate telecommunications outlet/connector locations with location of power receptacles at each work area. This coordination will generally involve the placement of the raised floor, floor boxes and the outlet arrangements therein.

PART 2 - PRODUCTS

2.1 PATHWAYS

A. General Requirements: Comply with TIA/EIA-569-B.

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. Underfloor basket cable tray with floor support brackets for fastening to the subfloor. 2. Lacing bars, spools, J-hooks, and D-rings.3. Straps and other devices.

C. Basket Cable Trays:1. Manufacturers: Subject to compliance with requirements, provide products by one of the

following:a. WBTb. Cablofil Inc.c. Cooper B-Line, Inc.d. GS Metals Corp.

2. Cable Tray Materials: Metal, suitable for indoors, and protected against corrosion by electroplated zinc galvanizing, complying with ASTM B 633, Type 1, not less than 0.000472 inch thick. a. Basket Cable Trays: Width as noted – 2 - 24 inches - and 4 inch deep. Wire mesh

spacing shall not exceed 2 by 4 inches.

D. Conduit and Boxes: Comply with requirements in Division 26 Section "Raceway and Boxes for Electrical Systems." Minimum size of conduit shall be 1 inch.1. Outlet boxes shall two gang, 4 11/16” square x 2.5” deep, with a 5/8” single gang mud

ring.

2.2 BACKBOARDS

A. Backboards: Plywood, fire-retardant treated, 3/4 by 48 by 96 inches. Comply with requirements in Division 06 Section "Rough Carpentry" for plywood backing panels.

2.3 UTP CABLE

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Panduit2. General Cable3. Commscope4. Berk Tek


B. Description: 100-ohm, 4-pair UTP.1. Comply with ICEA S-90-661 for mechanical properties.2. Comply with TIA/EIA-568-C.1 for performance specifications.3. Comply with TIA/EIA-568-C.2, Category 6.4. Comply with TIA/EIA-568-C.2, Category 6A.5. 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, Plenum Rated: Type CMP, complying with NFPA 262.

C. Colors:1. Blue – Data2. Blue - Wireless

2.4 UTP CABLE HARDWARE

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following:1. Panduit2. Commscope3. Leviton

B. General Requirements for Cable Connecting Hardware: Comply with TIA/EIA-568-C.2, IDC type, with modules designed for punch-down caps or tools. Cables shall be terminated with connecting hardware of same category or higher.

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 UTP cable indicated.

D. Jacks and Jack Assemblies: Modular, color-coded, eight-position modular receptacle units with integral IDC-type terminals.

2.5 TELECOMMUNICATIONS OUTLET/CONNECTORS

A. Jacks: 100-ohm, balanced, twisted-pair connector; four-pair, eight-position modular. Comply with TIA/EIA-568-C.1.

B. Jack Color:1. Blue – Data2. Blue – Wireless AP

C. Workstation Outlets: Provide with the number of ports as noted – 1, 2, or 4, ports - connector assemblies mounted in single faceplate.1. Floor box Faceplate: Provide adapter plates to mount in the provided floor boxes for the

appropriate cable solution being provided, ie. Panduit adapter plate for Panduit outlet connectors.

2. Legend: Machine printed, in the field, using adhesive-tape label or snap-in, clear-label covers and machine-printed paper inserts.

2.6 GROUNDING

A. Comply with requirements in Division 26 Section "Grounding and Bonding for Electrical Systems" for grounding conductors and connectors.



2.7 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."

2.8 SOURCE QUALITY CONTROL

A. Testing Agency: Engage a qualified testing agency to evaluate cables.

B. Factory test UTP cables on reels according to TIA/EIA-568-C.1.

C. Factory test UTP cables according to TIA/EIA-568-C.2.

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.

3.2 WIRING METHODS

A. Wiring Method: Install cables in raceways and cable trays except within cabinets. Conceal raceway and cables except in unfinished spaces.1. Install plenum cable in all spaces.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 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-B.

B. Comply with requirements for demarcation point, pathways, cabinets, and racks specified in Section 271100 "Telecommunications Pathways and Spaces." Drawings indicate general arrangement of pathways and fittings.

C. Comply with TIA/EIA-569-B 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 wire ways.


E. Install manufactured conduit sweeps and long-radius elbows whenever possible.

F. Pathway Installation in Termination Rooms (Telecom):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 basket cable trays to route cables from underfloor up into the floor mounted racks. 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-C.1.2. Comply with BICSI ITSIM, Ch. 6, "Cable Termination Practices.”3. Terminate all conductors; no cable shall contain unterminated elements. Make

terminations only at indicated outlets, terminals, cross-connects, and patch panels.4. Cables may not be spliced. Secure and support cables at intervals not exceeding 30

inches, not more than 6 inches from cabinets, boxes, fittings, outlets, racks, frames, and terminals.

5. Install lacing bars to restrain cables, to prevent straining connections, and to prevent bending cables to smaller radii than minimums recommended by manufacturer.

6. 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.

7. 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.

8. Cold-Weather Installation: Bring cable to room temperature before de-reeling. Heat lamps shall not be used for heating.

9. In the termination room (Telecom), leave a minimum 3 foot and no more than a 10 foot service loop on each cable.

10. For every horizontal cable pull specified, neatly coil a 10’ 0” slack loop at the station (office) end of the cable. Leave slack loop at point of conduit entrance.

11. For every horizontal cable pull specified for wireless access points, neatly coil a 10’ 0” slack loop at the point of termination, and support cable properly so it does not rest on any conduit, ducts, or other items in the ceiling space.

12. Pulling Cable: Comply with BICSI ITSIM, Ch. 4, "Pulling Cable." Monitor cable pull tensions.

13. All cable should be protected from direct paint, or incidental overspray.

C. UTP Cable Installation:1. Comply with TIA/EIA-568-C.2.2. Do not untwist UTP cables more than 1/2 inch from the point of termination to maintain

cable geometry.


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 wire way 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.

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.

F. Group connecting hardware for cables into separate logical fields.

G. Separation from EMI Sources:1. Comply with BICSI TDMM and TIA/EIA-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.

3.5 FIRESTOPPING

A. Comply with requirements in Division 07 Section "Penetration Firestopping."

B. Comply with TIA/EIA-569-B, "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.



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: 4.2. 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 4 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 rooms, 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. 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-


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.4. 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.1. Cables use flexible vinyl or polyester that flex as cables are bent.

3.8 FIELD QUALITY CONTROL

A. Testing Agency: Engage a qualified testing agency to perform tests and inspections.

B. Perform tests and inspections.

C. Tests and Inspections: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-C.1.

2. Visually confirm Category 6A 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-

C.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. Perform the following tests according to TIA/EIA-568-C.1

and TIA/EIA-568-C.2:1) 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 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.

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.

D. 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.

E. End-to-end cabling will be considered defective if it does not pass tests and inspections.

F. Prepare test and inspection reports.

3.9 DEMONSTRATION

A. Engage a factory-authorized service representative to 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.

Typical Self-Supporting25G, 45G and 55G Tower

Typical Self-Supporting45GSR and 65G Tower

REV. G

includes

REV. F &

Per Rev G requirements, any structure greater than 10’ requires a climber safety device. Please see page 209 for ordering information.

GENERAL USE

The self-supporting G-Series towers o�er an easy,low-cost solution to get light weight antennas inthe air quickly. By using the G-Series tower as aself-supporting structure, you minimize landarea usage. They are functional in a wide varietyof wind speeds. See ROHN’s standard designs to help identify the right structure for your project.These are the same sturdy, robust tower sectionsthat ROHN has fabricated for years. Each largermodel allows for more loading capacity.

FEATURES

• Completely hot-dip galvanized after fabrication• Cross bracing is formed by a continuous solid rod bracing fashioned into a zig-zag pattern for strength• Pre-engineered loading charts meet varying individual specs and site conditions• Typical uses include: small dishes, broadband, security and two-way communication• All towers have ‘�xed’ bases

KITS

The kit part numbers for ROHN Self-SupportingG-Series towers include:

• Short base for embedment in concrete• Rev F ground kit• All tower sections and connection hardware• Tapered top (25G and 45G towers)• Top plate (55G towers)• Cap plate kit (65G towers)

G-SERIESSELF-SUPPORTING

www.tessco.com/go/towers 800.472.7373

W(Square)

Tower Axis & Center of Pad

CL

CL

PLAN VIEW

Tower Section orShort Base Section

#7 Bars 12”on CenterEach Way

6”

6”

4’

2” min. projection requiredfor proper drainage

Compacted Sand & GravelDrainage Bed - not requiredfor 45GSR

Grade

25G

45G

55G

45GSR65G

4’ - 0”

5’ - 3”

6’ - 0”

7’ - 9”

2.4

4.1

5.3

8.9

TowerMat

Width(W)

ConcreteVolume

(Cu. Yds.)

6”

4’

Grade6”

#7 Bars 12”on CenterEach Way,

Top & Bottom

ELEVATION VIEW25G (shown), 45G & 55G

SELF-SUPPORTING TOWER FOUNDATION

ELEVATION VIEW45GSR


ELEVATION VIEW65G


2” min. projection above the �nished

concrete

6” min. projection above the �nished

concrete

4’

0” to 3”2” Min.

www.tessco.com/go/towers 800.472.7373

ROHN G-Series Self-Supporting Tower Normal Soil Foundations

REV:

DWN:

ENG'R:

DRAWING NO:

DATE:CHK'D:

DESCRIPTIONREV.

FILE NO.

REVISIONS

DWN

PRODUCTS, LLC

PEORIA, IL 61601-5999

TOLL FREE 800-727-ROHN

PO BOX 5999

THIS DRAWING IS THE PROPERTY OF ROHN. IT IS NOT TO BE

REPRODUCED, COPIED OR TRACED IN WHOLE OR IN PART WITHOUT

OUR WRITTEN CONSENT.

CHK APP

SHEET #:

PRJ. ENG'R: PRJ. MANG'R:

®

JHY JDM

HA

DWG-0617

SELF-SUPPORTING G SERIES TOWERSREV. G EFFECTIVE PROJECTED AREAS

10/12/2012

3

(90-110 MPH 3-SEC GUST, NO ICE)

SSM

1 OF 1

90 MPH 3-SECOND GUST WIND SPEED

HEIGHT

(FT)

25G 45G 45GSR 55G 65G

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.EXP. B EXP. C EXP. B EXP. C EXP. B EXP. C EXP. B EXP. C EXP. B EXP. C

10 26.8 21.3 25SS010 60.0 47.5 45SS010 95 84 45SR010 80 79 55SS010 95 95 65SS010

20 18.5 13.4 25SS020 31.3 22.7 45SS020 95 71 45SR020 56 42 55SS020 95 95 65SS020

30 7.9 4.1 25SS030 16.1 8.4 45SS030 87 58 45SR030 34 21 55SS030 95 71 65SS030

35 4.4 1.2 25SS035 9.8 3.8 45SS035 76 52 45SR035 25 14 55SS035 80 54 65SS035

40 1.3 - 25SS040 4.9 - 45SS040 60 40 45SR040 17 8 55SS040 62 41 65SS040

45 0.7 - 45SS045 48 31 45SR045 11 3 55SS045 48 30 65SS045

50 38 23 45SR050 5 - 55SS050 37 21 65SS050

55 29 16 45SR055 28 14 65SS055

60 22 11 45SR060 20 7 65SS060


HEIGHT

(FT)

25G 45G 45GSR 55G 65G

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART


10 20.7 16.4 25SS010 47.4 39.5 45SS010 82 66 45SR010 78 63 55SS010 95 95 65SS010

20 14.0 9.9 25SS020 23.2 16.9 45SS020 74 55 45SR020 43 32 55SS020 95 95 65SS020

30 5.3 2.2 25SS030 9.7 4.8 45SS030 66 43 45SR030 24 14 55SS030 81 55 65SS030

35 2.1 - 25SS035 5.1 0.7 45SS035 59 38 45SR035 17 8 55SS035 61 40 65SS035

40 1.2 - 45SS040 46 30 45SR040 10 3 55SS040 47 29 65SS040

45 35 22 45SR045 5 - 55SS045 35 20 65SS045

50 27 15 45SR050 26 13 65SS050

55 20 9 45SR055 17 6 65SS055

60 13 4 45SR060 11 1 65SS060


HEIGHT

(FT)

25G 45G 45GSR 55G 65G

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART

NO.

EPA (SQ. FT)PART


10 16.5 12.7 25SS010 39.4 31.9 45SS010 67 53 45SR010 63 51 55SS010 95 95 65SS010

20 10.6 7.2 25SS020 18.3 12.3 45SS020 59 43 45SR020 34 25 55SS020 95 81 65SS020

30 3.1 0.4 25SS030 6.5 1.9 45SS030 51 32 45SR030 17 9 55SS030 65 43 65SS030

35 1.7 - 45SS035 45 27 45SR035 11 4 55SS035 48 30 65SS035

40 35 22 45SR040 5 - 55SS040 35 21 65SS040

45 26 15 45SR045 25 13 65SS045

50 19 9 45SR050 17 7 65SS050

55 13 4 45SR055 10 - 65SS055

60 7 - 45SR060 4 - 65SS060

GENERAL NOTES:

1. TOWER DESIGNS ARE IN ACCORDANCE WITH APPROVED NATIONAL STANDARD

ANSI/TIA-222-G, STRUCTURE CLASS I, EXPOSURES B AND C, TOPOGRAPHIC CATEGORY 1.

2. ALL TOWERS MUST HAVE "FIXED" BASES. PINNED BASES MAY NOT BE USED.3. TOWER DESIGNS ASSUME TRANSMISSION LINES SYMMETRICALLY PLACED AS FOLLOWS:

25G TOWER - ONE 5/8" LINE ON EACH FACE (TOTAL = 3

45G TOWER - ONE 7/8" AND ONE 1/2" LINE ON EACH FACE (TOTAL = 3 @ 7/8"

& 3 @ 1/2")

45GSR, 55G, & 65G TOWERS - TWO 7/8" LINES ON EACH FACE (TOTAL = 6)

4. ANTENNAS AND MOUNTS ASSUMED SYMMETRICALLY PLACED AT TOWER APEX.5. THE SUITABILITY OF A ROHN STANDARD DESIGN AND STANDARD FOUNDATION FOR A

SPECIFIC APPLICATION MUST BE VERIFIED BY THE PURCHASER BASED ON SITE-SPECIFIC

DATA IN ACCORDANCE WITH ANSI/TIA-222-G.

6. THE EFFECTIVE PROJECTED AREA AND LINES TO BE INSTALLED MUST NOT EXCEED THE

DESIGN VALUES FOR THE STRUCTURE.7. DO NOT INSTALL OR DISMANTLE TOWERS WITHIN FALLING DISTANCE OF ELECTRICAL

AND/OR TELEPHONE LINES.

8. TOWER ERECTION AND DISMANTLING MUST BE DONE BY QUALIFIED AND EXPERIENCEDPERSONNEL.

9. INSTALLATION MUST BE GROUNDED IN ACCORDANCE WITH LOCAL AND NATIONAL

CODES. ANSI/TIA-222-G REQUIRES THAT THE RESISTANCE TO GROUND MUST NOT

EXCEED 10 Ohms. ADDITIONAL GROUNDING MAY BE REQUIRED IN ADDITION TO

GROUNDING KITS PROVIDED BY ROHN.

10. INSTALL WARNING PLATE (P/N ACWS) IN A HIGHLY VISIBLE LOCATION.

11. FOR FOUNDATION DETAILS AND GENERAL FOUNDATION NOTES, BASED ON

ANSI/TIA-222-G PRESUMPTIVE CLAY SOIL, SEE DRAWINGS DWG-0128 AND B090548RESPECTIVELY.

12. FOR 25G, 45G, 55G, AND 65G TOWER PROFILE DRAWINGS, REFER TO DRAWING NUMBER25GSS, 45GSS, 55GSS, AND 65GSS, RESPECTIVELY.

13. STRUCTURES SUPPORTED ON BUILDINGS OR OTHER STRUCTURES REQUIRE SPECIALCONSIDERATION. DESIGNS ASSUME STRUCTURES ARE INSTALLED ON LEVEL FLOOR.

14. DESIGN ASSUMES MAINTENANCE AND INSPECTION WILL BE PREFORMED OVER THE LIFE

OF THE STRUCTURE IN ACCORDANCE WITH ANSI/TIA-222-G. ALL TOWERS SHOULD BETHOROUGHLY INSPECTED BY QUALIFIED PERSONNEL AND RE-MARKED AS REQUIRED

WITH APPROPRIATE DANGER AND ANTI-CLIMB LABELS AT LEAST TWICE A YEAR TOENSURE SAFETY AND PROPER PERFORMANCE.

15. STANDARD DESIGNS ARE INTENDED TO BE CLIMBED BY SKILLED AND COMPETENT

CLIMBERS ONLY. A SAFETY CLIMB SYSTEM, BY OTHERS, IS REQUIRED FOR ALLSTRUCTURES TO BE ORDERED SEPARATELY.

16. THE TOLERANCE ON INSTALLED HEIGHT IS EQUAL TO PLUS 1% AND MINUS 1/2%.17. INSTALLATION MUST BE IN CONFORMANCE WITH LOCAL, STATE AND FEDERAL

REQUIREMENTS FOR OBSTRUCTION MARKING AND LIGHTING.

DATE:

3

ADDED EPA UNIT

07/20/2015

HAJDMJHY

REV:

DWN:

ENG'R:

DRAWING NO:

DATE:CHK'D:

DESCRIPTIONREV.

FILE NO.

REVISIONS

DWN

PRODUCTS

PEORIA, IL 61601-5999


PO BOX 5999




CHK APP

SHEET #:


JHY JDM

HA

45GSS

Jan/9/2013

1

JPK

1 OF 1

NOTES:

1. REFER TO DRAWING NO. DWG-0617 FOR TOWER EFFECTIVE PROJECTED AREAS AND GENERAL NOTES.

2. REFER TO DRAWING NO. DWG-0128 FOR FOUNDATION DETAILS.

3. REFER TO DRAWING NO. B090548 FOR STANDARD FOUNDATION NOTES.

4. REFER TO DRAWING NO. A810214 FOR FOUNDATION AND ANCHOR TOLERANCE.

5. ROHN PRODUCTS, LLC. WILL PROVIDE A GROUNDING KIT FOR EACH TOWER ASSEMBLY.

DATE:

1

CORRECTED DESCRIPTION

8/16/2013

HAJDMJHY

W

(SQUARE)

TOWER AXIS AND

CENTER OF PAD

CL

CL

PLAN VIEW

6" MIN

4'-0"

2" MIN

6 1/2" MIN

ELEVATION VIEW

45GSR

GROUND LEVEL

#7 BARS 12" ON CENTER

EACH WAY, TOP & BOTTOM

TOWER SECTION OR

SHORT BASE SECTION

(SOLID ROD)

ELEVATION VIEW

65G

4" MIN

GROUND LEVEL

#7 BARS 12" ON CENTER


TOWER SECTION OR

SHORT BASE SECTION

(PIPE)

6"

COMPACTED SAND AND

GRAVEL DRAINAGE BED

6" MIN

4'-0"

2" MIN

ELEVATION VIEW

25G, 45G, & 55G

6" MIN

4'-0"

GROUND LEVEL

6" MIN#7 BARS 12" ON CENTER


TOWER SECTION OR

SHORT BASE SECTION

(PIPE)

2" MIN6"

COMPACTED SAND AND

GRAVEL DRAINAGE BED

REV:

DWN:

ENG'R:

DRAWING NO:

DATE:CHK'D:

DESCRIPTIONREV.

FILE NO.

REVISIONS

DWN

PRODUCTS, LLC

PEORIA, IL 61601-5999


PO BOX 5999




CHK APP

SHEET #:


®

FAD HA

HA

DWG-0128

FOUNDATIONMAT FND FOR SS G SERIES TOWERS

5/27/2010

3

1 OF 1

FOUNDATION DETAILS

TOWER

NUMBER

OVER-TURNING

MOMENT

(FT-LBS)

TOTAL SHEAR

(LBS)MAT WIDTH

"W"

CONCRETE

VOLUME

(CU. YDS.)

25G 7000 500 4'-0" 2.4

45G 12300 1000 5'-3" 4.1

55G 22100 1600 6'-0" 5.3

45GSR/65G 53100 3500 7'-9" 8.9

GENERAL NOTES:

1. FOR STANDARD FOUNDATION NOTES, SEE DRAWING NUMBER B090548.

2. FOR 25G, 45G, 55G, 65G, AND 45GSR TOWER ASSEMBLY DRAWINGS AND MAXIMUM TOWER HEIGHTS, REFER

TO DRAWING NUMBER 25GSS, 45GSS, 55GSS, 65GSS, AND 45GSRSS RESPECTIVELY.

DATE:

3

ADDED 45GSR ELEVATION VIEW

3/2/2015

HAKTLJHY

REV:

DWN:

ENG'R:

DRAWING NO:

DATE:CHK'D:

DESCRIPTIONREV.

FILE NO.

REVISIONS

DWN

PRODUCTS

PEORIA, IL 61601-5999


PO BOX 5999




CHK APP

SHEET #:


FAD HA

HA

B090548

Nov/20/2009

2

1 OF 1

STANDARD FOUNDATION NOTES

ANSI/TIA-222-G

1. STANDARD FOUNDATION DESIGNS ARE IN ACCORDANCE WITH ANSI/TIA-222-G, "STRUCTURAL

STANDARDS FOR STEEL ANTENNA TOWERS AND ANTENNA SUPPORTING STRUCTURES", SECTION 9

AND ANNEX F FOR THE FOLLOWING PRESUMPTIVE CLAY SOIL PARAMETERS:

2. THE PURCHASER MUST VERIFY THAT ACTUAL SITE SOIL PARAMETERS MEET OR EXCEED

ANSI/TIA-222-G PRESUMPTIVE CLAY SOIL DESIGN PARAMETERS AND THAT THE PENETRATION

AND/OR ZONE OF SEASONAL MOISTURE VARIATION AT THE SITE. FOUNDATION DESIGN

MODIFICATIONS MAY BE REQUIRED IN THE EVENT PRESUMPTIVE CLAY SOIL PARAMETERS ARE NOT

APPLICABLE FOR THE ACTUAL SUBSURFACE CONDITIONS ENCOUNTERED.

3. A SITE-SPECIFIC INVESTIGATION IS REQUIRED FOR CLASS III STRUCTURES IN ACCORDANCE WITH

ANSI/TIA-222-G.

4. FOUNDATION DESIGNS ASSUME FIELD INSPECTIONS WILL BE PERFORMED BY THE PURCHASER'S

REPRESENTATIVE TO VERIFY THAT CONSTRUCTION MATERIALS, INSTALLATION METHODS AND

ASSUMED DESIGN PARAMETERS ARE ACCEPTABLE BASED ON THE CONDITIONS EXISTING AT THE

SITE.

5. WORK SHALL BE IN ACCORDANCE WITH LOCAL CODES, SAFETY REGULATIONS AND UNLESS

OTHERWISE NOTED, THE LATEST REVISION OF ACI 318, "BUILDING CODE REQUIREMENTS FOR

REINFORCED CONCRETE". PROCEDURES FOR THE PROTECTION OF EXCAVATIONS, EXISTING

CONSTRUCTION AND UTILITIES SHALL BE ESTABLISHED PRIOR TO FOUNDATION INSTALLATION.

6. CONCRETE MATERIALS SHALL CONFORM TO THE APPROPRIATE STATE REQUIREMENTS FOR

EXPOSED STRUCTURAL CONCRETE.

7. PROPORTIONS OF CONCRETE MATERIALS SHALL BE SUITABLE FOR THE INSTALLATION METHOD

UTILIZED AND SHALL RESULT IN DURABLE CONCRETE FOR RESISTANCE TO LOCAL ANTICIPATED

AGGRESSIVE ACTIONS. THE DURABILITY REQUIREMENT OF ACI 318 CHAPTER 4 SHALL BE SATISFIED

BASED ON THE CONDITIONS EXPECTED AT THE SITE. AS A MINIMUM, CONCRETE SHALL DEVELOP A

MINIMUM COMPRESSIVE STRENGTH OF 4500 PSI (31.0 MPa) IN 28 DAYS.

8. MAXIMUM SIZE OF AGGREGATE SHALL NOT EXCEED SIZE SUITABLE FOR INSTALLATION METHOD

UTILIZED OR 1/3 CLEAR DISTANCE BEHIND OR BETWEEN REINFORCING. MAXIMUM SIZE MAY BE

INCREASED TO 2/3 CLEAR DISTANCE PROVIDED WORKABILITY AND METHODS OF CONSOLIDATION

SUCH AS VIBRATING WILL PREVENT HONEYCOMBS OR VOIDS.

9. REINFORCEMENT SHALL BE DEFORMED AND CONFORM TO THE REQUIREMENTS OF ASTM A615

GRADE 60 UNLESS OTHERWISE NOTED. SPLICES IN REINFORCEMENT SHALL NOT BE ALLOWED

UNLESS OTHERWISE INDICATED.

10. REINFORCING CAGES SHALL BE BRACED TO RETAIN PROPER DIMENSIONS DURING HANDLING,

THROUGHOUT PLACEMENT OF CONCRETE AND DURING EXTRACTION OF TEMPORARY CASING.

11. WELDING IS PROHIBITED ON REINFORCING STEEL AND EMBEDMENTS.

N

(blows/ft)

[blows/m]

Φ

(deg)

Y

(lb/ft3)

[kN/m3]

C

(psf)

[kPa]

Ultimate Bearing

(psf)

[kPa]

Ultimate

Skin Friction

(psf)

[kPa]

k

(pci)

[kN/m3]ε50

Shallow

Fnds.

Deep

Fnds.

8 [26] 0110

[17]

1000

[48]

5000

[240]

9000

[431]

500

[24]

150

[41,000]0.01

12. MINIMUM CONCRETE COVER FOR REINFORCEMENT SHALL BE 3 INCHES (76 mm) UNLESS

OTHERWISE NOTED. APPROVED SPACERS SHALL BE USED TO INSURE A 3 INCH (76 mm) MINIMUM

COVER ON REINFORCEMENT. CONCRETE COVER FROM TOP OF FOUNDATION TO ENDS OF

VERTICAL REINFORCEMENT SHALL NOT EXCEED 3 INCHES (76 mm) NOR BE LESS THAN 2 INCHES

(51 mm).

13. SPACERS SHALL BE ATTACHED INTERMITTENTLY THROUGHOUT THE ENTIRE LENGTH OF VERTICAL

REINFORCING CAGES TO INSURE CONCENTRIC PLACEMENT OF CAGES IN EXCAVATIONS.

14. FOUNDATION DESIGNS ASSUME STRUCTURAL BACKFILL TO BE COMPACTED IN 8 INCH (200 mm)

MAXIMUM LAYERS TO 95% OF MAXIMUM DRY DENSITY AT OPTIMUM MOISTURE CONTENT IN

ACCORDANCE WITH ASTM D698. ADDITIONALLY, STRUCTURAL BACKFILL MUST HAVE A MINIMUM

COMPACTED UNIT WEIGHT OF 100 POUNDS PER CUBIC FOOT (16 kN/m3).

15. FOUNDATION DESIGNS ASSUME LEVEL GRADE AT THE SITE.

16. FOUNDATION INSTALLATION SHALL BE SUPERVISED BY PERSONNEL KNOWLEDGEABLE AND

EXPERIENCED WITH THE PROPOSED FOUNDATION TYPE. CONSTRUCTION SHALL BE IN

ACCORDANCE WITH GENERALLY ACCEPTED INSTALLATION PRACTICES.

17. FOR FOUNDATION AND ANCHOR TOLERANCES SEE DRAWING A810214.

18. LOOSE MATERIAL SHALL BE REMOVED FROM BOTTOM OF EXCAVATION PRIOR TO CONCRETE

PLACEMENT. SIDES OF EXCAVATION SHALL BE ROUGH AND FREE OF LOOSE CUTTINGS.

19. CONCRETE SHALL BE PLACED IN A MANNER THAT WILL PREVENT SEGREGATION OF CONCRETE

MATERIALS, INFILTRATION OF WATER OR SOIL AND OTHER OCCURRENCES WHICH MAY DECREASE

THE STRENGTH OR DURABILITY OF THE FOUNDATION.

20. FREE FALL CONCRETE MAY BE USED PROVIDED FALL IS VERTICAL DOWN WITHOUT HITTING

SIDES OF EXCAVATION, FORMWORK, REINFORCING BARS, FORM TIES, CAGE BRACING OR OTHER

OBSTRUCTIONS. UNDER NO CIRCUMSTANCES SHALL CONCRETE FALL THROUGH WATER.

21. CONCRETE SHALL BE PLACED AGAINST UNDISTURBED SOIL EXCEPT FOR PIERS OR PIER AND PAD

FOUNDATIONS. FORMS FOR PIERS SHALL BE REMOVED PRIOR TO PLACING STRUCTURAL BACKFILL.

22. CONSTRUCTION JOINTS, IF REQUIRED IN PIER MUST BE AT LEAST 12 INCHES (305 mm) BELOW

BOTTOM OF EMBEDMENTS AND MUST BE INTENTIONALLY ROUGHENED TO A FULL AMPLITUDE OF

1/4 INCH (6 mm). FOUNDATION DESIGN ASSUMES NO OTHER CONSTRUCTION JOINTS.

23. CASING, IF USED, SHALL NOT BE LEFT IN PLACE. EQUIPMENT, PROCEDURES, AND PROPORTIONS

OF CONCRETE MATERIALS SHALL INSURE CONCRETE WILL NOT BE ADVERSELY DISTURBED UPON

CASING REMOVAL. DRILLING FLUID, IF USED, SHALL BE FULLY DISPLACED BY CONCRETE AND

SHALL NOT BE DETRIMENTAL TO CONCRETE OR SURROUNDING SOIL. CONTAMINATED CONCRETE

SHALL BE REMOVED FROM TOP OF FOUNDATION AND REPLACED WITH FRESH CONCRETE.

24. TOP OF FOUNDATION SHALL BE SLOPED TO DRAIN WITH A FLOATED FINISHED. EXPOSED EDGES

OF CONCRETE SHALL BE CHAMFERED 3/4" X 3/4" (19 mm X 19 mm) MINIMUM.

25. FOR ANCHOR BLOCK TYPE FOUNDATIONS, FOR GUYED TOWERS, ADDITIONAL CORROSION

PROTECTION MAY BE REQUIRED FOR STEEL GUY ANCHORS IN DIRECT CONTACT WITH SOIL.

DESIGN ASSUMES PERIODIC INSPECTIONS WILL BE PERFORMED OVER THE LIFE OF THE

STRUCTURE TO DETERMINE IF ADDITIONAL ANCHOR CORROSION PROTECTION MEASURES MUST

BE IMPLEMENTED BASED ON OBSERVED SITE-SPECIFIC CONDITIONS.

DATE:

2

REVISED NOTE 7 TO 4500 PSI

2/10/2014

HAHAJHY

FOUNDATION AND ANCHOR TOLERANCES

ALL FOUNDATIONS

1. CONCRETE DIMENSIONS - PLUS OR MINUS 1" (25mm).

2. DEPTH OF FOUNDATION - PLUS 3" (76mm) OR MINUS 0".

3. DRILLED FOUNDATIONS OUT OF PLUMB - 1.0 DEGREE.

4. REINFORCING STEEL PLACEMENT - PER A.C.I. 301.

5. PROJECTION OF EMBEDMENTS - PLUS OR MINUS 1/8" (3mm).

6. VERTICAL EMBEDMENTS OUT OF PLUMB - 0.5 DEGREE.

ANCHOR BOLTS

7. MAXIMUM DISTANCE FROM CENTERLINE OF ANCHOR BOLTS TO

CENTERLINE OF FOUNDATION - 1/24 OF PIER DIAMETER UP TO A

MAXIMUM OF 2" (51mm).

8. ANCHOR BOLT SPACING - 1/16" (2mm).

9. ANCHOR BOLT CIRCLE ORIENTATION - 0.25 DEGREE.

10. ANCHOR BOLT CIRCLE DIAMETER - PLUS OR MINUS 1/16" (2mm).

SELF-SUPPORTING TOWERS

11. FACE SPREAD DIMENSION CENTER TO CENTER OF ANCHOR BOLT CIRCLES -

PLUS OR MINUS 1/16" (2mm) OR 1/16" (2mm) PER 20 FT. (6m) OF FACE

SPREAD.

12. MAXIMUM DIFFERENCE BETWEEN ANY TWO FOUNDATION ELEVATIONS -

1/2" (13mm).

GUYED TOWERS

13. GUY RADIUS - PLUS OR MINUS 5% OF DISTANCE SPECIFIED.

14. ANCHOR ELEVATION - PLUS OR MINUS 5% OF GUY RADIUS.

15. ANCHOR ALIGNMENT (PERPENDICULAR TO GUY RADIUS) - 1.0 DEGREE.

16. ANCHOR ROD SLOPE - PLUS OR MINUS 1.0 DEGREE.

17. ANCHOR ROD ALIGNMENT WITH GUY RADIUS PLUS OR MINUS 1.0 DEGREE.

18. ANCHOR HEAD OUT OF PLUMB - 1.0 DEGREE.

19. GUY INITIAL TENSION - PLUS OR MINUS 10% OF TENSION SPECIFIED.

NOTE: TOLERANCES IN NOTES 13 AND 14 CAN NOT OCCUR SIMULTANEOUSLY

WARNING!!!

AFTER ANCHOR BOLTS ARE INSTALLED IN CONCRETE HAS TAKEN ITS INITIAL

SET, ANCHOR BOLTS MUST NOT BE MOVED, BENT OR REALIGNED IN ANY

MANNER. A NUT LOCKING DEVICE MUST BE INSTALLED ON ALL ANCHOR

BOLTS.

CHK

REV:

DWN:

ENG'R:

DRAWING NO:

DATE:CHK'D:

DWG REFERENCE

DESCRIPTIONREV.

FILE NO.

REVISIONS

DWN

PRODUCTS

PEORIA, IL 61604


6718 WEST PLANK ROAD




APP

Jan/1

4/2

008 3:2

3:2

2 P

M

Sep/25/1987

\Ere

ctio

n\

8

KTLCSR

XK

A810214

Standard-SSV

8 JDA JDM H.A

GROUND LUG

(IF PROVIDED)

GROUND WIRE

ATTACHMENT LUG

ANCHOR BOLT MUST

BE STAKED IF PAL

NUT IS OMITTED

TINNED BARE

COPPER WIRE

(NO. 4 MAX)

GROUND ROD

CLAMP6.00" MIN.

(152mm)

8' (2.438M) GALV.

STEEL GROUND ROD

SELF-SUPPORTING

TOWERS AND GUYED

TOWERS WITH ANCHOR

BOLTS.

APPLICATION

ATTACH TO LEG IF CLAMP

PROVIDED: ATTACH TO JOINT BOLT

IF GROUND WIRE ATTACHMENT

LUG PROVIDED.

GROUND ROD

CLAMP

TINNED BARE

COPPER WIRE

(NO. 4 MAX)

8' (2.438M) GALV.

STEEL GROUND ROD

NO. 25, 45 & 55 TOWERS

WITH FLAT BASE

APPLICATION

6.00" MIN.

(152mm)

6.00" MIN.

(152mm)

6.00" MIN.

(152mm)GROUND ROD

CLAMP

8' (2.438M) GALV.

STEEL GROUND ROD

TINNED BARE

COPPER WIRE

(NO. 4 MAX)

GROUND WIRE

ATTACHMENT LUG

TINNED BARE

COPPER WIRE

(NO. 4 MAX)

ATTACH TO LEG IF CLAMP

PROVIDED, ATTACH TO BRACE

BOLT IF GROUND WIRE

ATTACHMENT LUG PROVIDED

GROUND ROD

CLAMP

8' (2.438M) GALV.

STEEL GROUND ROD

NO. 25, 45, 55, 36, 48,

80, 90, CC & DD TOWERS

WITH TAPERED BASE

APPLICATION

NO. 65 & JJ TOWERS

WITH TAPERED BASE

APPLICATION

BASE GROUNDING KITS (BGK)

6.00" MIN.

(152mm)GROUND ROD

CLAMP

8' (2.438M) GALV.

STEEL GROUND ROD

GUY WIRE GROUNDING

(AGK)

ANCHOR GROUNDING KITS

NOTE: REMOVE ALL SHARP BENDS

FROM GROUND WIRE

REV:

DWN:

ENG'R:

DRAWING NO:

DATE:CHK'D:

DESCRIPTIONREV.

FILE NO.

REVISIONS

DWN

PRODUCTS LLC

PEORIA, IL 61601-5999


PO BOX 5999




CHK APP

DWG REFERENCE

9

WDUAED

CW

C731105

Standard-SSV

Nov/27/1973

\Ere

ctio

n\

Jan/1

8/2

010 1:0

1:1

1 P

M

8 JDA JDM H.A

9 JDA JDM HA