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16141
wtRtNG DEVTCES
1
GENERAL
1.01 SECTTON TNCLUDES
A. Wall $rr,itches.
B. wall dimmers.
PART
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C.
D.
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1.02
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1,05
NEMA WD 6 - Wiring Devices - Dimensional Requirements
NFPA 70 - National Electrical Code
REVTEw
Secfron 01300 - Submitials: Procedures for Submittals
REGULATORYREQUIREMENTS
A.
B.
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NEMA WD 'l - Geneml Requiremenb for Wiring Devlces
suBMIrrALs FoR
A.
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Sestbn 16130 - Boxes
REFERENCES
A.
B.
C.
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Device Ptates.
RELATED SECTIONS
A.
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Receptacles.
Conform to requlrements of NFPA 70.
Provlde pmducts listed and classified by Underwriters Laboratories, lnc. aE suitabt€ forthe purpose specified
and indicated.
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PARTz
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PRODUCTS
WALL SWTTCHES
A.
1.
2.
3.
4.
5.
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Manufacturer6:
B.
C.
Hubbetl
Pass and Seymour
Bryar{
Leviion
Substitutions: Under provisions of Section 01600.
Description: NEMA WD 1, heavy-duty specification grade AC only g€n€ral-use snap switch.
Device Body: Plastic wilh bggle handle. Handleto begray.
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OCMAPS Proiect No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proj€ct No.
N08079
March4,2010
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D.
E.
F.
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Indicator Light: Lighted handle type switch; red color handle.
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Voltage Raiing: 120/277 volts, AC
Cureri
Ratlng: 20 amperes.
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WALL DIMMERS
A-
Manufacturers:
1.
2.
3.
4.
5.
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Lutron
Prescolite
Lightolier
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Engineer apprcved equal
Substitutions: Under provisions of Section 01600.
ts.
Descnption: NEMA WD 1, semiconductor dimmer for incandescent lamps, Shall b€ capable of controtling
lighting intensity overthe complete range from full offto full brightness with integral onioff switch.
C.
D.
E.
F.
D€vice Body: lvory plastic with linear slide. Slide color to match device body.
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Vollage: 120 volts.
Pow€r Rating: 600 watts minimum.
Accessory Wall switch: Match Dimmer App6aranc€.
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RECEPTACLES
A.
Single Convenience Receptacle:
'1.
HubbellModelHBL5361GY
2,
Pass and Seymour
3.
Bryant
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Leviton
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Engin€er approvEd equal
Duolex Convenience Receotacle:
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1.
Hubbell Model BHL5362GY
2.
Pass and Seymour
5,
Bryant
4.
Leviton
5.
Engineer approved
GFclRece'tacle:
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equal
16141-2
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary SchoolAdditiorlRenovation, Oklahoma City, OK
Pmjecl No. N08079
Mardr 4, 2010
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Hubbell Model GF300HGY
2.
Pass and Seymour
Bryant
4.
5.
Leviton
Engineer approved equ6l
Hospital Use Receptasle:
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1.
2.
Hubbell Model 8300
Pass and Seymour
Bryant
Leviton
5.
Engineer approved equal
lsolated Ground Recepbcle:
1.
2.
Pass and Seymour
3.
Bryant
4.
Leviton
5,
Engineer approved equal
Hubbell Modal lG 5362
30-Amp, 1251250 Volt,
(NEMA 14-30R):
1.
2.
u.
5.
lpole,
4-wire Grounding Type Single Receptacle
Hubbell Model94:l0A
P€ss and Seymour
Eryanl
Engin€€r approved equal
50-Amp, 125/250 Volt,3-pol€, +wire Gmunding Type Singl8 Receptacl€
(NEMA 1+50R):
1.
2.
Hubbell Model 94504
Pass and Seymour
Bryant
Leviton
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Engineer approved equal
16141 - 3
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School AddltiorlRenovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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Telephon€ Jack (Four Conductor):
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2.
Hubbell Model C14BR
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Pass and S€ymour
Bryani
4.
5.
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Levitln
Engineer approved equal
Substitutions: under provisions of Section 01600.
Color: Gray with light walls. Brown with wood or dark walls or as indicated on the drawings.
WALL PLATES
Materials
Stainless Steel: Type 302 or 304, No. 4 finish, 0.040 inch thick, accurately die cut, protected with
r€rease paper.
B.
2.
Cast Metal:Die cast profile, ribbed primed with grey enamel, furnished complete with fourmounting
screws.
3.
4.
Gaskets: Resilient rubberorclosed cellfoam urethane.
Steel: Hot dip galvanized.
Application
1.
2.
3.
4.
Flush Mounting Plates: Beveled type with smooth rolled outer edge, stainless
Surface Box Plates: Beveled, steel, pressure formed for smooth edge tl3 fit box.
Weatherproof Plates: Cast metal, gasketed; for rec€ptacles, provide spdng loaded gasketed doors
Where two-gang boxes are required for single gang devices, provide sp6cial plates with device
opening in on€ gang and second gang blank.
EXECUTION
PART3
3.01 EMMINATION
A.
Sestion 01039 - Coordination and Meetings: Verification of existing conditions prior to beginning wo*.
Verify outlet boxes are installed at pmper height.
B.
Verify wall openings are neatly cut and will be completely covered by wall plates
C.
V€riry floor boxes are adjusied property.
D.
Veriry branch circuit wiring installation b completed, tested, and ready for connection to wiring devices
E.
3,02 PREPARATION
Provide extension rings to bring outlet boxes flush with flnished surface.
A.
16141 - 4
ocMAPS Project No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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Clean debris from outlet boxes,
3.03
INSTALLATION
lnstall Drcducb in accordance wilh manufactureFs insfuctions.
Install deviceg plumb and level.
t5.
Insbll switches with OFF Dosition down.
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Inshll wall dimmars to achiev,e tull rating specifled and indicated after derating for ganging as instructed by
manufacfurer,
E.
Do not share neutral conductor on load siCe of dimmers.
Install receptacles with grounding pole on trop.
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G.
Connect wiring devjce grounding terminalto branch circuit equipment grounding conductor,
H,
Install decorative plates on switch, receptacle, and blank outlets in finlshed ar6as,
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use jumbo size plates for outleb installed in masonry walls.
J.
Install galvanized $teel plates on outlet boxes and junction boxes in unfinished areas, above acceaslble
celllngs, and on surface mounted outlets.
MOUNTING HEIGHTS OF WIRIHG DEVICE OUTLETS
Coordinate locations of orrtlet boxes pDvided under Section 16130 to obtain rnounting heighls specified or as
othsrwise indicated on Drawings.
Install wall switch forty-iour inches (44") above finished floor.
B,
Install convenience receptacle fifteen inches (15') above finished foor.
Install convenience receptacle six inches (6') above backsplash of counter.
D.
Insiall dimmer forty-four inches (44") above finished floor.
Install telephon€ jack fiftBen inches (15") above finished floor.
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3.05
Install ielephone iack for wall telephone fiffy-four inches (54") above finlsh€d floor.
FIELD QUALTTY CONTROL
lnspect each wiring d€vics ior defBcts.
B.
Opsrat€ each wall switch with circuit energized and veriry proper operation,
VerW that each receptacle device is energized.
D,
Test each receptacle device for proper polarity,
Test each GFCI rBc€ptacl€ dBvice for proper operation.
Verify that each telephon8jack is properly connect€d and circuit is operational
3,06
ADJUST!NG
16141 - 5
OCMAPS Proieci No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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Adjust d6vic66.and wall plates to be flush and level.
CLEANING
A"
Clean exposed surbces td remove splatters and restore finish.
END OF SECTION
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16141
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ocMAPS Project No. E5-0047
Thelma R. Parks Elemeniary SchoolAddition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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16160
PANELSOARDS AND CABINETS
PART
GENERAL
1
1.01
RELATED DOCUMENTS
A.
The ganeral provisions of the Contract, including General and Supplementary Conditions and General
Requirements (if any), apply to the work specified in this seclion.
7.O2
DESCRPNON OF WORK
A.
The extent of panelboard work is indicated by drawings and schedules, and by the requitements of thls
s€ction. Panelboards are deflned to incllrde the components making up the entir€ unit, including box$ €nd
fronts.
Refer to oth€r sectbns for cable, wir€ conn€ctors and glectrical work required in conjunc{bn with panelboards,
enclogures and cabinets.
1.03
QUALITY ASSURANCE
Manufacturers: Firms regularly €ngaged in the manufacture of cabinets and panelboards of the types and
ratings required, whose produc{s have been in satisfacbry use in similar service for not less than ten (10)
ytsan},
NEMA Compliance:Complywith NationalElectdcalManufacturers
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Asocialion Standards Pub. No. PB1-1957.
UL Compliance:Comply with UndeMriter Laboraiories, Inc., Safety Standard UL67 ior pan€lboards and UL
Standard 50 for cabinets.
1.
UL Labels: Provide panelboards and cabineG which have b6en approved, listed and label€d by UL.
NEC Compliance: Comply wlth National Electrical Code (NFPA No. 70), as applicabl€ to panelboard and
cabinet construction and installation.
NECA Standard: Comply with applicabls portions of the National Electical Conbactors Associalbns'Sbndard
of lnstallation.'
1.04
SUBI'ITTALS
Product Data: Submit manufacturefs data.
B.
1.05
Shop Drawings:Submit dimensioned drawings of panelboatds showing accurately scaled construction lalrout,
including but not necessarily limited to mains, bussing, gutters and terminal connections.
PRODUCT DELIVERY, STORAGE AND HANDLING
Handle panslboards carefully to avoid damage to intemal components, snclosur€ and finish. Do not install
damaged panelboard; remov€ from proj€ct site.
Store panelboards in a clean dry space which prevents tormation oi condensata, Use stcrage space with
unlform temperature and adequate air circulation. Protect panelboards from dirt, fumes, v{aterand physical
damaga.
Do not 6tore panelboards outdoors. lf un€voidable, proyide lemporary enclosure
and dirt.
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pmtect against weather
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ocMAPS Poect No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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PART 2 - PRODUCTS
MATERIALS AND COMPONENTS
General: For each panelboard indicated, provide a complete assembly of main lugs or main circuit breaket
fuse swibhes, feeder breakers/fuses, branch breakersffuses, terminals, bussing, gutter6, boxes, neutral bar
and equipment gmund bar, all as needed to form a complBte dead front unil
Size lhe equipment ground bar equivalent In cunent carrying capacity to the incoming low voltag€ f€eder
ground conductor and suitable for brazed or approved pressure conn6ctor terminations of the ground
conductors for the associated feedens, branch circuits, etc.
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Provide main fuse or breaker and bus ratings as indicated in the pan€l schedule.
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Fumish trip fre€ branch brsakers equipped with individually insulated, braced and protocted connectors.
Breakers to be suitably numbered on each handle, with tripp€d indication cleady shown by the handle position.
Mak€ provisions for future addition of breakerE so that no additional connectors will be required. Use
common trip in all multi.pole breakers.
E.
Rate each panelboard as a complete unit equalto or greaterthan the integrated equipment rating shown in
the oanelboard schedules or as reouired to axc8ed available fault current Obtain fault current from the local
electric utility company and order panels accordingly to comply wlth Articl€E 110-9 and 110-10, 1987, NEC
F.
Fumish quick mak€, quick break branch breaker types with intemlpting ratings as reguired
Provide distdbuted phase sequencB typa bussing made of hard drawn eopperof 980/0 conduciivity.
H.
Furnish adequate gutter space i3r wir6 size usod, all per NEC.
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Cabinets: Code gage galvanized steel with knockouts. Include fronb with flush stainl€ss sleel cylinder
tumbler type locks with catches and spring loaded door pulls, K€y all panelboard locks alike. Provide
adjustable indicating trim front locks completely conc€aled when door is closed. Provide a circuit directory
fram€ and card with a clear plastic covering on the inside of the door,
Install identitication labels.
K.
Construcl panelboard interior assemblyfordead ftontwhen panelboard front b removed. Provide bani€rs for
main lugs, breakers and end of bus structure.
Provide Transient Voltage Suee Suppressor (TVSS) where shovvn on the plans.
1.
The TVSS units shallbe fumished and installed to provide multiple phase proteclion using individual
line-replaceable modules and hybrid circuitry. EMyRFI noise filtering and diagnostic LED'S
indicating protection circuit status. Built-in redundancy offerE continuous protection even after one
module is deactivated. Each replac€menv spare module is an individual suppression device
providing complet€ high speed tight-clamping protection with EMI/RFI noise suppression and
harmonic dissipation on its phEse of Power System. TVSS unil shall be Levitron 57000 Series or
approved equal for the main distribution panel. 52000 Sodes or approved €qual for the branch
oanel,
PART 3
3.01
EXECUTION
INSTALLATION OF PANELBOARDS AND CABINETS
Install in accordance with the manufacture/s instructions, th€ applicable requirements of NEC, and in
accordance with recognized industry practices to onsure that poducts serve the intsnded function.
16'160 - 2
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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B.
Install panelboads not more than 78" from floorto th6 top switch or breaker operating handle.
Connect panelboard feeder, bEnch circuits, and all grounding conducbrs,
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iry all branch circuits, b0ewrifren, in the circuit directory.
END OF SECTIOH
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16160 - 3
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elemeniary School Addition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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16161
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ELECTRICAL GROUNDING
PARTI
GENERAL
1.01 RELATED DOCUMENTS
A.
The general provisions of the contract, including General and Supplementary
Conditions and General
Requirements (if any), apply to th€ work sp€cified in this section.
1.02
DESCRIPTION OF WORK
A.
B.
The rcquirements ol this section apply to the grounding work specifled €lsewhere in these specificalions.
The extent of grounding wor* is indicated on the drawings and by the requiraments of this section.
1.
2.
1.03
Communication and sjgnaling s)€tems grounding.
OUALTYASSURANCE
A.
1.04
Power slstem grounding.
NEC Compliance: Comply with the applicable portions of the National Electrical Code (NFPA No. 70) as
applicable to grounding of main service, branch and feeder circuib, conduit, equipment, separately derived
systems, transformers, etc.
SUBMrTALS
A.
Product Data: Submit manufacturer=s data on wlre, conduit, connectors, rods, accessories and devices
required for a complete and proper building ground system.
r.05
TESTS
A.
Measure ground resistance with earth test megger and install additional ground rods and conductors as
required until resistance to ground complles with Code requirements.
PRODUCTS
PART2
2.O1 GROUNDING SYSTEM
A.
Provid€ building grounding system consisting of 3/4' by 10' copper clad steel dfiven rods with #3/0 insulated
stranded copper interconnecling conductor and connection to water main and to building structural steel,
PART
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EXECUTION
POWER SYSTEM GROUNDING
A.
Main Distribution System: From ground bus main ground eleetrode, provide one copp€r insulated ground
conductor in conduit to ground bus in main seMce panel, to nButral of main panel and to non-cunent carrying
Darts as D€r NEC.
B.
Circult Grounding: Install grounding bushings, grounding studs, and gmunding jumpers at pullboxes, motors
and panelboards.
C,
Bonding Jump€rs: Provido Gresn insulation, sized coffelated with over-cun€ni device protecting the wire,
attrch to grounding bushings on mnduit, to lugs on boxes and other enclosures. Conneclion to neutral only at
service main neutral bar.
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OCMAPS Projed No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N08079
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March 4,2010
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Bonding Wires: Install bonding wire in flexible conduit connected at each end
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a gmunding
bushing.
END OF SECTIOI'I
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OCMAPS Pmject No. ES-0047
Th€lma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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Appendix A SECTION 16170
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l,lOTOR AND CIRCUIT DISCONNECTS
PART
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GENERAL
1.01 WORK INCLUDED
A.
B,
1.02
Section 11400: Food Service Equipment
Section 15820: Air Distribution Equipmeht
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REQUIREMENTS OF REGULATORY AGENCIES
A.
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Provide and iostall circuit disconnects.
RELATED WORK
A.
B.
1.03
Provide and iostall motor disconnecls.
Conform to National Electrical Cod€ and to applicable inspection euthority
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REFERENCESTANDARDS
A,
B.
Und€rwriters Laboratory, Inc. Annual Product Directories.
Classification of Standard Types of Nonventilated Enclosures for Electric Controllers, National Electrical
Manufacturers= Association.
PRODUCTS
PART2
2.01 ACCEPTABLEMANUFACTURERS
A.
Manufacturer and Type: Square D Class 3110
Acceptable Manutacturers:
B,
1.
General Electric Co.
2.
Siemens (l.T.E.)
3.
Eaton (Westinghouse, Cutlgr Hammer)
4.
Engineer approved equal
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COMPONENTS
A.
B.
C,
PART 3
Motor and circuit disconnects shall have an Underwriters Laboratory label.
Single phase disconnect switches; Two pole switch.
Thre6 pha6e motor disconnect switches: 3 pole heavy duty, non-fusible, orfusible as shown on drawings,250
or 600 volt as required in NEMA 1 for indoor or NEMA 3R for outdoor locations
EXECUTION
16170 -
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OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No. N08079
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March 4, 2010
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INSTALLATION
A,
B.
Install motor and circuit disconnect as recomm€nded by manufacturer and as required by CodE.
Provide and install all dlsconnects for mechanical €quipment that do not have a disconnecting means
furnished as an integral part of the equipment. Coordinate with Mechanical Contl.acbr.
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END OF SECNON
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16170 - 2
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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sEcTroN r6190
SUPPORTING DEVICES
PART
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GENERAL
1.0,I WORK INCLUDED
A.
1.02
RELATED WORK
A.
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NFPA 70 - NATIONAL ELECTRICAL CODE
REGULARTORYREQUIREMENTS
A.
B.
PART 2
2.O1
Section 16111: Conduit
REFERENCESTANDARDS
A.
1.04
Conduit suDoorts
Conform to the reouirements of NFPA 70.
Provide products listed and classified by Underwriters Laboratories, Inc, as suiiable for the purpose specified
and indicated.
PRODUCTS
CONDUIT SUPPORTS
A.
Single Runs: Galvanized conduit straps or ring bolt type hangeB with specialty spring clips. Do not use
plumbers' perforated straps.
B.
C.
2'02
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lvultiple Runs: Conduit rack with 25 percent spare capacity.
Hollow Masonry: Toggle bolts or spider type €xpansion anchors.
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Solid Masonry: Lead expansion anchors or preset inserts
MetalSurfaces: Machine screws, bolts, or welded studs.
Wood Surfaces: Wood screws.
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Concrete Surfaces: Self-drilling anchors or power-driven studs.
PART3
EXECUTION
3.01 INSTALLATION
A.
Layout to mainiain
headroom, neat mechanical appearanse, and to support €quipment load requiremenls.
END OF SECTION
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OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma city,
Proiect No. N08079
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VerticalRuns; Channelsupport wlth conduit fittings.
ANCHOR METHODS
A.
B.
C.
D.
E.
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March 4, 2010
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sEcfloN't6477
FUSES
PARTI
GENERAL
I.O1 WORK INCLUDED
A.
1,02
Fuses
RELATED WORK
Section 16155: Motor Starters
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Section 16160: Panelboards and Cabin€b
Section 16170: Motor and Circuit Disconnects
D.
PART 2
2,01
Section 1642G: Dlstribution Sv'/itchboads
PRODUCTS
ACCEFTABLE MANUFACTURERS
Manufacturer and Type: Bussmann
B.
Acceptable l\4anufacturers:
1.
Gould-Shawmut
Littaltus€
J.
Enginger approv€d €qual
FUSES
Provide fuEes ofthe proper typ6 and size as shown on Drawings and specified in allfused devices throughout
the pmjesl
Fuses shall provide current ov€rload and cunent limiting protection and shall have characteristics to insure
retention of posilive selective coordination.
Allfused devices shallbe labeled as to type and size offuse, Labels shallbe afrixed ina prominent location,
D.
\ryherg noted on Drawings, fuses shall
ha\€ Underwriters Laboratories Class R rejection features.
Vvhere fuse types are not shown on Drawings, they shall be as follo$rs:
1.
Fuses 601 amps and laJger shall be UL Class L type.
Fuses 600 amps oi less shall be dual-element UL Class RKl.
F.
Fumish three spare fuses for each size and type fuse used on the project.
Fumish and install spare fus€ cabinet mounted adiacent to the service entrance equipment. Cabinet shall
have fuse compariments made with shelves sloping to the back, hinged fmnt door and each compartment
labeled as b fus€ size and type. Cablnet shafl be lockable.
16477-1
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School Additlor/Renovatbn, Oklahoma City, OK
Proiect No. N08079
Mar* 4, 2010
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EXECUTION
PART3
3.OI INSTALLATION
A.
Install fuses as required to meet fault current requiremenis.
Install fuses to meet duty cycle and characteristics of loads being served. Fuses that have been installed and
B,
do not suit the application are to be replaced, at no charge to the Owner, with appropriate fuses.
END OF SECTION
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OCMAPS Project No. ES-0047
Thelma R. Parks Elemeniary SchoolAddition/Renovation, Oklahoma City, OK
Proiect No, N08079
March 4, 2010
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sEcTroN 1650r
LAMPS
PART
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1.OI
GENEML
WORK INCLUDED
A.
1.02
RELATED WORK
A.
B.
C.
I.O3
Provide and install items as listed in schedule atend ofthis Ssction.
Section 16502: Ballasts and AccessoJies
Section 16510: Interior Building Lighting
,
Section 16530: Site Lighling
SUBMITTALS
A.
Submitmanufacturer=Einstallationinsfuctions.
PARTz
PRODUCTS
2.T1 ACCEPTABLEMANUFACTURERS
A.
Manufacturer and Type: Philips
B,
Acceptable Manuiaclurers:
tl:tr
Osram
Sylvania
Venfur€
Engine€r approved squal
2.O2
INCANDESCENTLAMPS
A.
2.03
FLUORESCENT LAMPS
A.
B.
2.O4
lncandescent Lamps: 2500 hour, 130 volt, extended seryice, Provide speciallamps ftom longest life availsble
in each category.
Fluorescert lamps: T8, rapid start 6n6rgy saving type, or as indicated on drawings.
V6rify color with ArchitecvEngineer prior to odering.
HIGH II{TENSITY DISCHARGE LAll,lPS
A,
Metal Halide Lamps: Mogul based lamps, phosphor-coated.
16501
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OCM]APS Project No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4,2010
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B.
High Pressure Sodium Lamps: Rated life of 24,000 houF.
PART3
EXECUTION
3.OI INSTALLATION
A.
Installlamps in accordance with manufacturer=a instructions.
B.
Supply and install siz€s and quaniity as required for each fixture or as shown in fixture schedule,
END OF SECTION
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16501 - 2
QCMAPS Prcject No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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BALLASTS AND ACCESSORIES
PARTI
1.01
GENERAL
WORK INCLUDED
A.
1.02
Provids and install required ballasis.
RELATED WORK
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16502
A.
B.
1.03
Section 16501: LamDs
Sestion 16510: Interior Building Lighting
REQUIREMENTS OF REGULATORY AGENCIES
.
A.
Pmvide ballasts that meet standards
of an
electrical
t$ting taboEtory and the Certfied Ballasb
Manufacturers' Association
PART2
PRODUCTS
2.T1 FLUORESCENTBALLASTS
' A.
Int6rior Ballasts; 120 volt, automatic
reset, thermal protection with 90 percent powsr factor, Grcup A noise
ralingi Mark lll energy saving type as manufaclured by Advance.
2,O2
B.
Exterior Ballasb: as specified above, bw bmparature type, providing reliable staning to -20 degrees F. Mark
lll as msnufactured by Advance,
C.
D.
Supply ballasts complete lyith heat radiators to pr€vent nuisanc€ tripping.
Equip ballasts with capacitcrs and pressure reliBf d€vic€s to prev€nt intenuptirE.
HIGH INTENSITY DISCHARGE BALLASTS
A.
Ballasts: 120 volt as indicated on drawings, of the consiant wattage high power type as manuiactured by
Advanc€.
B.
Select ext€rior ballasts
ilr
reliable starting to -20 degrees F.
3
EXECTJnON
3.OI INSTALLATION
A.
Provide ballasb of compatible design to lamps specmed.
B,
Mount high iniensity diseharge ballasts on rubber grommets to neduce noise transmhsion.
C.
Replace all defective or noisy ballasts.
PART
END OF SECTION
16502 -
1
ocMAPS Proiect No. ES-0047
Thalma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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sEcTtoN 16510
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INTERIOR BUILDING LIGHTING
PART
I
1.OI
GENEML
WORK INCLUDED
A
I.O2
RELATED WORK
A.
B.
C.
1.03
Section 16123: Building Wire and Cable
Section 16501:Lamps
I
Section 16502: Ballasts and Accessories
SUBMTTTALS
A.
B.
C.
t.o4
This S€ction includes supply and installation of luminaries, supports and accessories; and supply of ptaster
frames, trim rings and backboxes for plaster or drywall ceilings or concrete.
Submit product data in accordance with Section 16010.
Submit shop drawings for luminaies indicatirE pertinent physical characteristics.
lfrequested by th6 Enginaer/Architect, provid€ complete photometric data and heat dissipaton reports from
an independent testing laboratory.
cooRDtNATtoN
A.
Confinn compatibility and interface of other materials with luminaryand ceiling s)stem. Report discrepancies
to the Engineer/Archltect, and deter ordering until clarifiBd.
B.
C.
Supply plasterframes, trim rings and back boxes to other trades.
Coordinate with Division 15 to avoid conflicts between luminaries, supports, fittings, and mechanical
equipment.
1.05
LUMINARY DESIGNATION
A.
PARI 2
2.01
2.02
Refer to flxture schedule.
PRODUCTS
ACCEPTABLE MANUFACTURERS
A
As listed in the fixture schedule or Enging€r approved equal.
FLUORESCENTLUMINARIES
A.
Prime mat and flnish in high reflectance baked vvhite enamel, two coats minimum on exposed and reflective
sudaces, giving a minimum reflectance of 90 percent.
B.
C.
Reflective plates may be 22 gauge metal.
16510 -
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OCMAPS Project No. ES-0047
Thelma R. Parks Elementrary SchoolAddition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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2.03
Provide hinged fram€s with catches: removable for cleaning wlthout tools. Support lafin lenses on bursldes
with clip €nas on short dimension.
E.
F.
G.
H.
l.
Provide gask6ting, stops, and baniers io form light lraps and pr€vent light leaks.
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Use furmed or ribbed backplates, €ndplat€s, and reinforcing channels.
Provide virgin acrylic diffusers, 0.125 inch€s thick minimum.
Befure ordering, confirm ceillng construction details and architectural finish for each area.
Recess€d incandescent luminaries: Pre-wired type with iunction boxforming an integralpart ofthe assembly.
Supply recossad luminary complete wis| tim type required tor ceiling slrstem installed. Before ordeling,
confirm ceiling constuction details and archltectural flnish for each area.
C.
Maximum deplh of recessed fluorescent luminaries 5-718 inches inc[ding rnounting yokes or bridgss,
irininrum dlslanca from backface of luminary or lens to center of lamp 2-12 inch€s.
D.
E.
F.
Select reflector and lamp positions tc pmvide high efficiency, and even brightness, to eliminate lamp lines.
Provide integral encapsulated ballasts for rec€ss€d high intensity discharge lumjnaries.
Provide lhermal protection on fixture subject to high ambients or with insulation in close proximily.
EXIT LIGHTS
A.
B.
C.
D,
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Design luminaryto dissipats ballast and lamp heat
RECESSED LUMINARIES
A.
B.
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Rebr to ftxture schedule.
Battery powered fixtures shall have bauery packs mounted above cailingswhen fixlures are ceiling mounted.
Wall mounted fixture may have integral battery packs where approved by Architeet orEngineer.
Fixtures shall be supported from gril vyhen located In suspended ceilit€s.
MOUNnNG CHANNELS
A.
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Pmvide wiring channel for mounting fluorescent luminaries and wiring betvyeen luminaries, suspended below
m€chanical piping and duct work.
B-
Nominal size of channels 2-Zg by 2.3,/4 inches, 16 gauge steel, whits baked €namelfinish, complete with
channel conneclo|s, end closure pieces, cover pieces, mounting hickeys, luminary connectors, and joiner
pieces 12 inches long to form a rigid assembly.
f
PART3
3.01
f
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ExEcuTtoN
SUFPORTS
A.
B.
C.
Refer to Section 16190.
Support fluorescent luminaries directly frcm building structure by rod hangers and inserts or metal angle
headers supported from framing structure ofceiling suspension syst€m.
Support luminaries more than 2 ft. wide by four hangers per luminary minimum independent of ceiling
structure or tee bars.
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ocMAps proi.ct No. ES-0047
16510-2
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4,2010
RECESSED LUMINARIES
A"
B.
C.
Inslall recessed luminaries to pgrmit removal from balo,rr,, to gain access to outlet o. prewired fixture box.
Connect rocessed luminary to box6s with flexible conduit and fixture wire.
Mounted in suspended ceiling wlth exposed tee bar gdd system, suppod from the ceiling tee bar grid structure
and secure thereto.
ALIGNMENT
A.
3.04
Align luminaries and clean diffusers prior to flnal acceptanc€.
LUMINARY SCHEDULE
A.
Ref€r to Fixtura Schedule
END OF SECTION
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16510 - 3
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elemeniary Schoal AdditionlRenovation, Oklahoma City, OK
Project No. N08079
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March 4, 2010
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TSCELLANEOUS MECHANICAL EQUIPMENT
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- GENERAL
1.01
A.
1.O2
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PART
2.
2,O1
Section 15170: Mobrs
Section 16170: Motor and Circuit Disconnec{s
Section l 64gl: Enclosed Motor Controll€rs
Seclion 16913: M€chanical EouiDm€nt Contmls
PRODUCTS
PRODUCTS
A,
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Misc€llaneous Mechanical Equipment
RELATED WORK
A.
B.
C.
D.
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WORK TNCLUDED
Electrical Contractor shall fumish and inshll all nece8sary disconnect s\,vitches and start€rs as r€qurred, Note:
Some items of equipment may be fumished as a package with starters included, reference Mechanioal
Specifications and all drawings.
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PART
3. ExEcuTroN
3.OI
INSTALLATION
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A"
Electrical Confactor shall receive, un6aale, moun! connect and adj$t electdcal equipment iumiEhed under all
Sections ofthe Specifications. This includes controls, d€tached motors, controllers, starters End €lectrical
elements of temperature control system.
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Electrical Contractor shallset, align, and connact allseparate motors, and fumish lubricatlon, start-up and
test.
C.
Electrical Contr€cior shall provide stencil nameplate for each unit he mounts and shall fumish and install
required mountings.
D,
E.
Elect cal conirEctor shall complete Elgctrical work shown or noted on Electrical Drawrngs.
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Electrical Contracbr shallfumish and install powerwiring associated with HVAC Temperature Controlsystem.
Refer to Division'15, TemperatuF Controls, Work by Others.
------.-END
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$sz1-1
ocMAPS Prciect No. ES-O047
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Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No.
N08079
March 4,2010
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DIVISION SEVENTEEN
-
SPECIAL SYSTEMS
-
THELMA PARKS ELEMENTARY
17300* CCTV SYETEMS
t77OO-SECURIW SYSTEMS
1T2O
-
FIRF ALARM SYSTEMS
17730
-
GLOCK SYSTEMS
17740 -TELEPHONE SYSTEM
1 7745 - DATA INFRA.STRUCTOR
17f50
-
1r|6017975
-
ROOM DATA SCHEDULE
INTERCOM SYSTEMS
BUILDING AUTOMATION SYSTEM
.I7975A- APPENDIX A
ITIfuI
OCMAPS Prcisd 1'lo. E90047
nr"irm c. p"hi gr"tne.tatv sc*lsl Additd/R€no/atim, oklatroma city, ol(
Pmtsct No. N08079
Mar$ 4, An10
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sEcnot'r
1z3oo
CCIV SYSTEMS
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PART I - GENEML
a"
pee-x
nrnolcH
6TH AND zrH
-
8TH GRADE
ccw
EysrEM
Th9dossdcircuittel6vi6ion(ccTV)systemattheokhhomacityPUb|icschoo|'8The|maParkgElementary
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facility shatl be designed according to the follorrlng guid€line€;
1.
EQUIPMET'IT:
I
In an effort
facllitate msnaglng lh6 conslruction budg€t, the security system 6quipm6nt is lbt€d bdow in prbrity
b
a r'*.";:l:#i,x;:x#;""""*
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order and shall comist of a combination df the following as th8 budget allows:
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to b€ locatod in rscaptbn area.
Cameras (interior)to monltor all doorb that allow entry and exiting
t|e
One camera (interior) to monitor outside public ontrance to media center. 5) Morn'todng stalion
6)
7l
PART II
A.
-
DVR unlts as requir€d and to albw future additbnal cameras.
Dlgital vHeo recordsrs should be located in the MDF room.
PRODT.ICTS
"rn.ro ",*au,r
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.#""":"t:"rRcurrrvsYsrEM
1
) CqfV camsras shall be tasted
to veriry fully operational status Repair and
Replace as required.
2)
I
Cameras at €ach facility are to be UL listed and shall be compatible with
existing system complying with not l€ss than the specifrcations contained
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17300
-
1
OCMAPS Project No. ES-0047
Thdma R. Parks Elemeotary Scfiool Additiofl/Renovation, Oklahoma City, OK
Proiect No.
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One camera (exterior) to monitor stafi parking at€as.
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N08079
March 4, 2010
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b. New cameras:
1)
Installation of nern cameras where required shall include mounting
brackets and/or camgra housings fully compatible with lhe camera
provided.
2l
Camcras shall have automatic iris mntrol and shall be for interior or
exterior use under nomal and low light conditbns of illumination and shsll
be provided with a weatherprbof housing as specified.
3)
Camera shall be mounted at ot as close to lhe originsl location as
possible and shall include electronic components for automatic
adJustrnent of iris to varyjng levels of illuminatlon.
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existing system. Lens shall contain a vari-focal length.
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avoid roll during switching operatiotls.
Cameras shall have line-lock
7\
Exterior cameras shall be designed for th€ intended purpose and
environment and all shall have the following minimum specifications:
a)
Polycarbonate clear dome
b)
Weather sealed
470 TVL Color NTSC (Day) / B&W (Night Vision) switch
b
B&W at low
light.
Operating T€mp€rature range (lntedon -13 to 122 degrees FI, (exterion 50 to 140 F)
10)
Light Sensitivlty 0.8 lux @Fl.5 (B&W - 0.1 lux @F2.0)
11)
Quick change l€ns€s
12}.
Line voltage 24 VAC
17300 - 2
OCMAPS Proiecl No. ES4047
Thelma R. Par*s Elementary School Addition/Renovation, Oklahoma City, OK
Proj€€t No. N08079
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e)
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Camera shatl be CCD digital type whh auto iris lans compalible with
Power supplies slrall bB intemally protected..
8)
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March 4,2010
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2. CAMERA HOUSINGS
a.
All camera holsings shall be an inte€ral part of the dome camera and be securely attacfiEd to mounffng
surfacss.
The flush cailing mounted mits shall contain additional accesaory suppon tor
acoustic ceiling installations. Wall mounted units shall ba rated for suppoi of noi
less than 150 lbe.
Wealherproof tamperpmof housings shall be constructed of aluminum and
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AND SUPPORTS:
finished t dth a weatherproof, heat rEfletting paint Housing shall b€ intetnally
in8ulated. cover shall be secured in place wih tamperproof bolts' Housing€ shall
be supptied with a fan, heatar, sun'shield, and dBfmster glass if necessary
for
use in applied loaation.
3. MONITORS:
CCry monitors shall bs
teGted to veriry fully opsrational status' Repair or
rEplacsrnent if required shall be in hamony wlth Epecifications outlined heteln'
Monito6 shall be mounted on sh€lf in equipment tack, and mmpatible with the
total syslem specified herein and comply with these specifications Provide
Zenith 127W46 (or equal by Sony, RCA, or Philtips) LCD monitor wall moumed in
mlin reception area for display of all cameras.
4.
DIGITAL MDEO RECORDERS (DVR):
a.
Linux Basad €nbedded operatlng system that conlrols the system for
st/r,itchiJ€, recording and compleie func{ionality. Contml system shall b€
Dedicated Micms DS2 or 6qual with the following minimum specificatiom:
1)
16 video inputs (NTSC)
2)
5 matrix switch outputs
3)
24 alarm inputs
17300 - 3
OCMAPS Proi€c{ No. ES-0047
ThBlrna R. Parks Elementary SchoolAddltion/Renovation, Oklaioma City' OK
Project No. N08079
March 4, 2010
4)
b.
30 days normal recording capacity mode, 320 GB storage.
5)
Activity detection on each camera
6)
Multi-screen display of liv6 cameras on PC monitors
7)
Viewing of cameras on sdeen in 1,4,9,16 blocks
8)
60 images/second record speed
9)
Real-time playback
10)
Sofrware adiustable recording schedule
11)
High resolution MP4 compression
12)
Time, date, alam, and camera retrieval filters
13)
CE and FCC approved
14'l
Remote-Viewsoftware
15)
Keyboard and mouse
16)
Network Interface
171
DVD Recordar BuitftN
Existing and/or Ne\M lnstallations: Where applicable, control system components
shall be mounted in existing panels and tested for fully functional status. lf new
componenls are required, lhey are to be mounted in a Lowell L267-77 or
equivahm rack and located in the MDF/IDF Technology equipment room.
l)
Thk rack shall include capabillte6 for
the iollowing: control system PC,
viewing CRT, keyboard, mouse and other accessories required for a
cornplete install.
2)
Provide locking perforated front door, mounting shelves, U-1818 power
paneland l-160 auxiliary power strip. Equal to Mid-Atlantic or Atlas.
3)
Compl€te software packages shall be provided to allow program adjuslrnent
of all camera settings, recording modes, viewing modes, activity detection
17300 - 4
OCMAPS Project No. ES-0047
Thelma R. Parks Elernentary School Addltion/Renovation, Oktahoma City, OK
Proieqt No. N08079
March 4, 2010
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sensitivity, etc.
Interface sysiem wih Distict Ethen€t Netrtork to allow viewing and
adlustm€nt of system cornponenb via PC's granted accsss on the Network
as well as PC's granted access via thelr int6met connecdion. All accesB
to
lhe s!,st6m shall b6 contolled via secudty loginsi/passwords. SystEm shall
allow exporting of selec{ed vid6o clip6 or sirEle bitmap images. System shall
provide digital motion detection by m6ans of pixel change monltoring. UselE
shall have the ability to set desired area to monitor for pixel ehange
b tdsger
alam r€cording. System shall pDvide continuous loop recording of 5
seconds duration to allow ev6nb immsdiately prior to alerm recording
initiation to be recorded.
PART III
A.
-
EXECUTION
CLOSED CIRCU]r TELEVISION SYSTEMS
1,
Maintain ssqrity s)rst€ms and components, in accordance wlih equipment
marxdac{urefs written instructons, in cornpliance with Natioflal Electrieal Cod6,
and with recognized industry practices, to ensure that CCTV system complies
with requirements and serv€s Intended purposes. Coordinate initial programming
of system lrith Oklahoma City Public Schools. Prcvide sottwar€ to Oklahoma City
Public Schools for installation on other Networked PCa sor contml and
monibrinE of system.
Use e)dreme care in handling, fishing and pulling-in eledronic coaxial cable to
avoid damag€ to cable and shidding. Avoid excessive ard shaJp bends. Ensur€
manufaciurer's recommended pulling t€nsions ar€ not exceeded.
Install CCTV equipment propedy to avoid causlrE mechanical stresses, h^,igting
or misalignment of equiprnent being exerted by clamps, suppotts and cabling.
'17300 - 5
OCi,IAPS Projeat No. ES-0(M7
Thelma R. Parks Elementary
Proiect tlo. N08079
S$od
AdditiorvRenovation, Oklahoma City, OK
ME ch 4,20'10
4.
Tighten connectors and teminals, including scrsurs and bolts, in accordance
with equipmert manufac{ureis published iorque requirements. Where these are
not indicated, tighten connsctors and terminab to comply with tight€ning
torques specified in UL Standards 4864 and B, and lhe Nalional Eledrical Code
5.
Pull conductoB simultaneously where morB than on€ is being installed in same
raceway.
6.
All cables shall be a continuous homerun from the camera localion to the
equipment rmm. No splices will b€ accepted.
7.
Maintain all necessary operating powsr systsms to equipment specified in this
seclion.
8.
Maintain all cabling required for installation of complete s)rstem. AII cable not
enclosed in conduit shall be plenum rated.
B.
GROUNDING
1.
Maintain equipment grounding conneclions for television syslems as Indicated.
Tighten connectlons to comply with tightening iorques specified in UL standard
4864 to assure permanent anh affectiv€ grounds.
C.
FIELD OUALITY CONTROL
1.
Upon comptetion of inspeclion of existing system or installation of new CCTV
system components, and aft€r circuitry ha6 bsen energized with normal power
source, test systems to demonstrate capability and compliance with drawings
and specification. Where possible, correct malfunc{ioning units at site, then retest
to demonstrate compliance, otherwise remove and replace with new units and
proceed with retestrng.
D. TRAINING
1.
Provide training for Oklahoma City Public Scftools on 8ny new Closed Circuit
17300 - 6
OCMAPS Project No. ES-0047
Thelma R. Parks Elemeniary Scfiool Addition/Renovation, Oklahoma Clty, OK
Project No. N08079
March 4, 2010
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Television Slrstem. confactor shall show owner all main connection poinb for
the system, and explain the funclion of th8 sysGm and e€ch maior component
type. Contractor shall instruG{ Okhhoma City Public Schools in any mainGnahce
requir€meflts which may b€ the responsibility of lhe owner, and procedurBs
followed when new equipment ts 6.td€d
2.
be
tha MDF/IDF rmms in the future.
Provide information on all New Closed Cirdit Television Systems induding any
applioabl€ test results in the owners and operatoB manuals'
3.
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Conttaclor shall obbin a sign-of frcm lh€ owner that lhey have r6ceived
adequale training for the equlpment
END'FEE'T.N
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,ozoo -7
OCMAPS Proiect No.
Eg-frX7
Thelma R. Pa*s Elemertary School Additiori/Renovatbn, Oklahoma City, OK
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Project No.
N08079
March 4, 2010
Section 17700
Socudty System
PART
1.1
I
GENERAL
SCOPE AND RELAIED DOCUMENTS
A
The work mvered by this section of the specmcations includes the fumishirE of all labor, squipment,
materials, and parformance of all operations in connection with ths installation of lhe Security System as
shown on the drawings and as herein specified.
B.
The existing s€curity system i8 to renain and devic€s for lhe building addition shall be connected to the
existing system.
1,2
C.
The requlremsnts of the conditions of the Contract, Supplementery Conditions, and General Requirements,
apply to the wo|* specified in this section.
D.
E.
The complete installation b to comply with Local Code Requirements and the National Electrical Code.
E.
The work covered by ihis section of the specncations is to be coordinated wlth the related work as specified
elswvher€ under th€ projecl spocifications.
Mditionally, the entire installed system and all integrated system operalions shall be within the guidelines of
the Intemational Building Cod€.
QUALTTY CONTROL
A.
The security system that shall be installed by a company, approved by the
system manufacturer, whose primary work is the installalion of security systems'
B.
The security system shall be provided €nd installed by an Oklahoma Deparlment ot Haalth licensed Burglar
Alarm Company,
1.3 SYSTEM FEATURES
A.
The sysfem shall include the following features 8s a minimum:
Control panel unlt shall include a digibl $plit reporting alarm communicator with line sebure and
anti.iam features for off premises trarcmissions. The digital communicator panel shall bc compatible
with all existing l-89 School Disttict systems as well as receivers'
System shallhave continuous aupervision and unique identification offalse and/orfouble
associated with tow battgry voltaga, grounds and external communlcation failures.
System shall allow authorized personnel io select funclions such as bypassirq a troubled zone,
resetting of ihe system, aborting an alarm transmission and testing via the control keypad.
System shall provid€ an automatic transfer of operations to standby batteries should power fail.
System shall provide lightning and surge protection on all sources.
1.
2.
3.
4.
5,
I4
SUBMITTAL REQUIREi'ENTS
A.
Submittals for systgms provided underthis sec{ion ot the specilic€tion shall contain, bLd not be limit€d to, lhe
following:
Specification data sheets on €ach individual system component.
Wiring diagrams indicating all system components, number and sizes of required conductors,
intetconnecting mmponents ard conduit sizes required to house-conductors
Wiring diagrams shall be computer generated point-to-point type prepared spocifically for this
project. Typicalwiring diagrams will noi be accepted.
Provide copies of published product wananties.
Provide copies of installation and service c€rtificalion upon completion.
Provide complete mmputer generated As-Built Documents along with a copy ofthe CAD file on
comoacl disk
Pmvide copies of maintenance manuals containing all of the above items plus maintenance
reouirements.
1.
2.
3.
4.
5.
6.
7,
I.5
SYSTEITI OPERANON
17700 - 1
OCMAPS Project No. ES-0047
Thelma R. Parks Elenentary School Addition/Renovation, Oklahoffa City, OK
Prqject No. N08079
March 4, 2010
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A
B.
PART 2
2,1
r
Aotuation of any alarm shall auiomatically csuse an alarm signal to be transmitt€d ln a split rtspolting tormat
via ielephone lines fumiihed by the l-89 School Distdct to the piimary central rec€lving statbn located at the
l8g School Disfid I Servics Centor or contraded vendor.
The ke,ypad and alam devices located in the kjtchen zone shall be programmed as a separate partiilon
allo{ / llmited access to the kitchen area-
b
PRODUGTS
Provide Seourity System produc€ In stses and capabilities indicated complying wtth manufaciursis information on
standard msteJials and componenb design€d and constructed for applic€tlons iltdicat€d.
A.
Provlde an Ad6mco, Vista 128F8 Panitioned Addressabl€ Control/ Communicator Panel or approved equal.
The control panel shall be microprocessor{ased and include a type HSP - 12lBTl Surge Prut8ctor Module,
two (2) type SPRJ - 31 Tel€phons Lina Surge Protecior8, Telephone Communication Cods, twelve (12) VCD
powar Buliply and battery. The Security Control Panel shall be capabls of supervisir€ and controlling up io
eight (8) used d€finable partitions up to flfty (50) dsvice€ with up to sixteen (16) keypad co]Fol€s, Sl4tefl
shall be capable of utillzing wiEd, mullipl€xed and wireless devices tc provide up to 87 zones. Syst6m shall
provida up tc 128 user codes wifr seven (7) authority lovels.
B.
SURGE AND TAMPER PROTECTION
Surge Proiection; Proted comFonenb from voltqe surg€6 originating efemal to equipfient hou8ing ard
enGring through power, communication, signal, conttol, or sensing leads, Include surge plotectbn for
ensmd wiring of sach conductor-€nty connection to mhponents.
A.
1.
2.
B.
C.
KEYPADS
1.
2.
D.
Minimum Protection for Power Connections 120 V and More: ArDdliary panel supprE8sols
complying with r€qui€manb in Division 26 Section 'Transient -Voltage Suppression for Low.
Volbge Eloctrical Potr',Br Circuits,'
Minimum Protections for Communication, Signal, Control, and Lou/-Vohage Power Conngctions:
Comply with requirements In oivislon 26 Section "Transient Voltag€ Suppresslon for Low Voltage
Electical Power Circuits' as Gcommended by manufacturer for typa of line b€ing prDtected.
Tamper Protectionl Tamper switches on enclo€ures, contlol units, pull boxes, jundion boxs8,
cabin6b, and oth6r s)€tem components shall initiate a tamper-€larm signal wh6n unit is open€d or
partially dbassembled. Control-station conlrol-unit alam display shall identifutamper slarms ard
indic€te locations.
Pmvide an Ademco type 6139, Addressable Alphanumeric Keypad or approved aqual. Each
consolo shall pEvide a 32 character alphanumeric display and shall be progEmmed with custom
message ior each point connected to lhe system. All keypads shall be mounted with a flush wa[
mounted bcking enclosure and keyed for the Ademco Lockir€ System'
Provide lwo (2) sets of ke)rs io b€ provided for e€ch lock box.
CARD READERS (Access Control Panel)
Control Panelshall be: Topaz by Infographics (GE).
1. Topaz by Infographics (GE)
a. TPZ-SY$D, equipped with remote acc€ss softwar€, HID 2000 access cards with thgir lientity
in asce]ding order and operable with {he Infographics system'
b. Lan}€rds for prox cad shall be ADl,
c. UPS capable of holding up lhe pow€r supplies ior each of three doors wlth mag lod€, the
Access Conlrol Panel, Proximity Readers.
A.
NOTE:
E.
F.
Owner prwldes digltal camera for Access Card Photos.
INTRUSION DETECTORS
Pmvide Ademco 998 MX mplx serial number or DIP switch PIR intrusion detection devices or
approved €qual.
Provide Adem6o 4939 surface mount serial number contacts for roof habh€s andbr doofs or
approved equal.
Door contacts on interior doors shall be utilized only where a molbn device would be impractical for
normal operEtion.
Door contac'ts will be utlllzed on all exterior doors.
l.
2.
3.
4.
WIRING
1.
Provide wiring as indicated onths Final Plans and Specmcatons. AIlwi]ing shallbe color-coded.
17700 - 2
OCMAPS Project No. ES-004?
Thelma R, Parks Elernentary School Addition/Renovation, Oklahoma City, OK
Projeci No. N08079
Mrch 4, 2010
I
2.
3.
4.
3.2
A.
The Contrac'tor shall anange
a\isting securry sy6tem,
B.
The General Contractor shall take meeting minutes and distribute to all
Parties for record.
3.4
br a jobsite corfersnce
two (2) weeks pricir to any work being perfirffed on the
INSTALLATION
The manufactureis authorized representative shall povide supervision oftlnal system panel connections,
perform a complete functional te6t oi the system and submit a writt€n report to the Contractor attesting to the
Propsr operaiion of the system.
A.
B.
All equipment and wiring shall b6 guaranteed qainst defects In materials and workmanship for a iwo (2) year
period from the acceptance and beneficial use of the syst€m. Emergency repairs, programming chenges and
additiorE to the sysiem made by lhe l-89 School District's personnel shall not invalidate this wananty.
C.
Upon completion of the installation, the electical contractor shall provide to the Architect with a copy to the
mamrfacturer's representative, slgned written shtement attesting that all system equipment was installed in
accordance with these sp€cifications and in accordance with wiring diagrams, instruclions and directions
provided to the Conhactor by lhe manuiacturer.
Conlractor willfurnish upon compl€lion a complete as-buill diagram of new system forfinalwalk through and
acc€ptance by the l-89 School District.
INSTALLER
A.
Installer shatl program all informalion applicabte to the system's operation in a @ntact lD split-reporting
format, The progiamm€r shall program the syslem so that all activalions of actual alarms 6uch as fire, smoke
or intrusion will be transmitted in accordance with l-89 School Distric't guidelines. AII other supervisory
activities such as test, 2+hour check-ins, only the l-89 School District personnel shall receive openings and
closings.
B.
The l+9 School Dislrjc{ shall provide the ppgrammer wilh the system's account number and numbers to be
utilized by the receiving statione to receiv€ alarms. The l-89 School District Office shall be responsible for the
station lD numbers and all security access codes.
Waranty of all materials and laborfor a period of one year from the date of acceptance (subject to standard
C,
D.
E.
F.
exclusions),
Guarantee of rssponss of a troubte call within twentFouf hours after receipt of such call,
Make available to the Owner an Authorized and Trained Service Represefltative who will provide training for
the Ownefs Operational and Maintenanc€ Personnel. Training shall consist of a minimum of two sessions.
Prior to the end of l-year wananty period the manutacture/s representative shall furnish the Owner with a
proposal to provide an Annual Mainlenance and Service Contrast.
CONTROL PANEL ZONE PROGRAMMING
A,
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EXISTING / NEW FACILITIES
D.
3.3
prenum.
Plenum rated cable instralled in conidors shall be installed in cable hangers.
Allcableties shall be plenum rated.
EXECtmON
PART 3
3.I
AII wiring and cable installed exposed in a space, concealed inside a wall, concealed above a nonaccessible celling or underground outside the building shall b€ installed in cond uit. All line voltage
wiring shall be installed in a conduit. All low voltage wiring installed above acceesible ceiling may
be installed without conduit by usirq cable with a jacket that is UL listed for installation in a return air
Installar shall program the panel to meet the following:
Zone l shall be reserved ior fir€ sprinkler equipment.
Zone 2 shall be reserved for interior building smoke detectors.
Zone 3 shall be teserved for duct detestors'
Zone 4 Ehall be reserved for oull station activation.
Zone 5 shall be reserved for trouble / Dowerfailure.
zone 6 shall be reserved for 24-hour sheck in.
Zone 7 -9 shall be for spares and later additions
Intrusion devices shall begin with Zone 10 starting at the main front lobby keypad entrances and
shall be programmed with a 90-secqnd delay and shall continue clockwise tor each device per zon6
thmughout lhe building.
1.
2.
3.
4.
5.
6.
7.
8.
17700 - 3
OCMAPS Project No. ES4047
Thelma R. Parks Elernentary School Addition/Renovatior\ Oklahoma City, OK
Project No. N08079
March 4, 2010
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9.
All motion detecbrs shall be programmed as interior follo$,ers. Alldoor and rcof hatdr mniadshall
be programmed as perimeter.
3.5
OWNER'S ACGEPTANCE OF SYSTEIII
gl l Cent€r and shall be
All walk-through tegting of systems are to b€ completed pr'br to pufritE on line to the
conduct€d at a time lvhen students ale not present and ihere are no activities at the s€hool;
ET
Walk through testing shall indude armirE of sys{em and activ;tion of each
zone to ir6irB Foper prograrnming ard instaliation. Copies of S€mpl€s A shall be pmvided to thg Arc6tBct,
OCMAPS Program Manager and the l€9 School District prior to walk lhmugh t$ting'
w€lk thiough testing shall indude but not limlted to lhe bllor/ing persons: 8!€tBm installer, designated
School Disbicl personnel and a representativts f|om the Archltect
D.
Install€r shall coordinate the w€lk lhlough with all parties conc6m€d and provide edequatE notice'
E,
During walk thtowh dtssignated l$g School Districi personnel shall veridy that
system is rsporting as programmed to the k6ypad(s). After w€lk thrEugh, de€bnated lsg school Disltict
plrsonnel shall be responaible br vsrirying that signals ara b€ing prsp€rly received by both monitodr€
receiver stations,
END OF SECTIOT{
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17740 - 4
OCMAPS Project No. E90047
Thelma R, Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N080?9
March
4
2010
Section 17720
Automat'rc Det€c'tion Fire Alarm Syst€m
PART
GENERAL
1
1.1
A
B.
SECTION REQUIREMENTS
Summary: Verifu the make, model and installation conditions of the exisling fire alarm system. Allfire alarm additions
shall be added to the existing fira alarm system. Match existing devices and raceways, Contractor is responsible for
providing a code compliant, fully operaiional Automatic Deledion Fire Alann System.
Submit system operaling desqiption, shop drawings, data sheets, wlring diagrams, device address
lbt
battery
calculalions, and voltage drop calculations.
C.
Comply with NFPA 70, The National Electric Code; NFPA 72, The National Fire Alarm Code; Intemational Building
Code; OKC Fire Marshal's Office, and all other state and local guidelines.
D.
E.
F.
G.
Atl squipmont shall be UL listed in the U.S. for its installed application.
The Conlractor shall be licensed through the Oklahoma Department of Health as an Unllmited Fire Alarm Contrac{or.
Th€ Contractor shall be responsible forobtaining a fire alarm Installation petmit in the OKC jurisdiction.
As a minimum, ac{uation of any alarm shall automalically initiatre lhe following:
Sound all audible alsrm signals ai marcfFtime cadence and cause all visual alam signals to flash.
Flash a red LED on lhe ac,iuated device module at lhe conlrol panel annunciaior.
Aclivato the location indicator on the building snnunclator'
Activate signals to shut-off gas fuelsolenoid valves,
Aclivat€ signals to thB m€chanical contol equipmerf b shrJt-down and/or reroute air handling
systems.
Ac{ivate signals to release all magnetically held smoke and/or fire doors'
Aciivate tha digibl communicator to report the type of alarm and location to the remote central
monitoring station,
1.
2.
3.
4,
5,
6.
7.
PRODUCTS
PART 2
2.1
ALARM DEVICES
A"
B.
C.
2.2
Smoke Detectors: Malch Exlsling.
Thermel Detectors: Match Existing.
1. Alarm-lndicating Device: Match Existing.
C.
. E.
Manual Pull Stations: Match Existing.
Central Fire Alarm Control Panel: Compty with UL 864.
Wires: Solid copper, with 600-V-rated, 75 deg C, color-coded insulation, Plenum Rated.
1.
2.
Low-Voltage Circuits: No. 16 AWG, minimum.
Line-Voltage Circuits: No. 12 AWG, minimum.
SYSTEi' FEATURES
A
Sy6tem shall contain not less than the fotlowing:
Class B wiring fire alam system,
During an alarm condition, the associated device alarm LED shallflash until acknowledged (by
silencing the alarm signals); this shall allow determination of location of last alarm.
Atlow the gensral alarm dgvicgs to b6 silenced only by authorizad personnel accesslng a locked
control cabinet, then opeating an "ALARM SILENCE" switch. However, a subsequent device alarm
shall reactivate lhe signals. Engagement of th€ "ALARM SILENCE" switcfi shall be indicated by
illumination of the "ALARM SILENCED" LED and an audible troubla signalPower failures, opens, grounds, or a disanangem€nt ofthe system triring or mmponents shall be
indicated by a visual and audible trouble signal.
Grourd Fault detection.
Alarm and Trouble LED for each d€vice.
Subsequent alarm (resound) feature.
1)
2)
3)
4)
5)
6)
7)
1772D -
1
OCMAPS Project No. ES-0047
Thelma R. Parks Elemertary School Addition/Renowtion, Oklalroma City, OK
Prcject No. N08079
March 4, 2010
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8)
9)
10)
11)
12)
13)
14i
15)
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locked transparent door.
Modular pluggable solid state construction.
Superviseallalarm-receiving-circuitandsignal-circuitwiring.
Autoinatic transfer to standby bateries upon power failurc'
Lighlning and surge proteclion.
All modules shallbB placement supervised.
Provisioh ior rEmots drill and reset station: drill cordition shall not shut do!,Jn the HVAC systefi, rBr
shallit dial the Fire Deparlment or 911'
All lire alarm panels (indudirE transponder panels on multide sl,stems) shall havs a gruund wirE
(olt|erthan corduit ground) for proper operation of lightning protectbn.
CONTROL PANEL COMPONENTS
A.
Upgrade the exbting conllol pansl lo handle new areas as r€quired and have the following:
Common alam contml module that allows an alarm from one (l) device b b€ silerlc€d, bijt a ows
sub€equert alams from other devlcea to re€ound the alarm. Ptor./ido monibring cf a{ gtatus __
€fiang;s within th€ systsm, system rese! signal sllanca, system tolble LED, alaffn 8fi6nced LED;
common system ahrm LED, AC pot er on LED, bouble sibnce, and lamp tsst'
Alarm reciiving modules Clas8 B type. Each circuit shall be suitable for conneclion to manualfirE
alarm stations,-heat detectors, appmved smgka detectors, and water flow alarm switches. Upon
recsipt of an alarm, B|e receiving circuit Bhall lock into alarm, pulss itE individual rcd dwice LED€nd
signalthe Common Control Unil Silencing of the sudibl€ devices shallcause thefashlng device
ght st€adily. The Class B device cirorits shall be individually supervlsed for open wiring and
L-D
ground faults.
Signal circ|'rit modules required for 6ach circuil capable of supplying a minimum of 2.0 amps 8t2&
volt DC br the operation of polarized alarm signaling devic€6. Each circuit shall be pro\rldEd with
over cunent protoclion and Ehall light an indlvidual LED trouble indicaior when any of ihs folloving
condilion$ occur:
Open or shorled wiring.
Operation of th8 over curent device.
Ground fault.
The avaihblllty of z+volt DC signal pot rer al lhs module shall be supervbed; proviie io
Eignal all devlc€s plus prswire for adding two (2) ftrh.|re signal cirrults'
Requires two (2) posltion swltchas to disconnect auxiliary contEl cirqJits. A system trouble mndiiion
shail be generated whsn an auxiliary system function (HVAC contol, remote mnnec{on circuit, etc.}
has been dismnnected. Provide a switch module for each auxlllary circuit plus ptewiring {or addlng
tvlo (2) ftnure circuits.
Proyid€ auxiliary relay modules ior each auxlliary circuit function; each relay requir€d b have a
contact rating d 5 amps at l2Svolls Ac/z+volts DC. Each relay shall have one sot of
programmab-le 1N.O./N.C.) SPST contacts. Provide prswired capacity for twi) future cirflits.
1.
2.
b
3.
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'Dead Front" design contml panelwith all LED alarm, trouble, and power indicators located behind
a)
b)
c)
d)
4.
PART3
3,I
'
EXECUTIONS
INSTALLATIO''I
A.
lnstallation cf equipm€nt 8rd devices that pertain to other work in the contrad shall be closely coordinated
with the appropriate Subcontractors.
B.
C.
D.
Witing Method: Install widng in metal raceways lhat match the existing installalion matedals'
Provide and irctallthe system additions in accordance with the plans and specifcations, all applicsbl€ codss,
and the manutaclure/s recommsndatiorF. All wiring shall be installed in accordanca with all applicable codeS
and standards. Upon completion of installalbn, the Contractor shall so cerlity, in writing, to the Owner and
General Contractor.
Upon completion, the entire fire alarm system shall be fully tested in accordance u,ith NFPA 72 and local Fire
Departmeflt Requirements. The completlon iesting shall be performed by the installing lic€nsed alam
company in the presence ofthe ownefs representative and the localfire marshal, Once complete a mpy of
the Record ot Completion shall be submitted to the school and lhe projeci Architect.
1)
Require system manutactur€/s authorized representatlve shall prortide supervision offinalsystgm
2)
instalhlion, panel connections, and eheci(-oul,
Specify Contractor shall make all anang€ments and pay all fees in connection with the testing of the
system.
17720 - 2
OCMAPS Project No. ES-0047
Thslma R. Parks Elementary School AdditiodRonovation, Oklahome City, OK
Proiect No. N08079
March
4
2010
Provide conduits with pull strings from the Main Control Center to each jundion box localion for planned
ftJture additions.
F.
Smoke detector heads shall not be installed until the tinal testing of the HVAC systam (including Test and
Balance) has been compl6t6d, and all dust-creating construction has caased. Heads installed prematurely
shall be remov6d, cl€an€d, and rsinstallsd per manufacturer recommsndations to the satigfaclion of lhe
Architect.
Remot€ relays shall be located within 25' of the item being controlled (or signaled), and shall have all wirlrE
uo to fre coil suDervised.
LABELING
1,
2.
3.
Color code and label all conduc{ors at control panels, iundion boxes, and devices
Label (not handMitten) each dsrice (initiating, sbnaling, and circult) with its associated device
address inside the housing or on the connecting iunclion box. lf e,rposed, label sh6ll be visible from
the floor.
Provide a 9" X 12" legibls drawing of the building floor plan showing allfire alarm devices to bs
framed under tempered glass as part of the annunciator panel. Locate in main administration area
and include a\isting building zoning.
CERTIFICATIONS
1.
2.
An oficer of the Bectrical subcontactor shall submit (through the Contractor) to the Architect and
the system manufaciure/s rgpr6sentative, a signed written statemsnt attesting that all syBiem
equipment was installed in accordance with lhe code, tinal plan$ and specitications, and instructions
and directives provided by lhe system manufacturer. The NFPA form shall be used and submitted.
The system manufachire/s authorized represefltative shall provide writtan certification that the
system has been properly installed, tested, and is func{ioning properly.
END OF SECTION
17720 - 3
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School Addition&.enovatior; Oklahoma City, OK
Project No. N08079
March 4, 2010
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Section 17730
GPS Wireloss Cloqk syslem
PARTI
GENERAL
1.1 SUMMARY
Section Includes: Division
B.
1.2
appfiBs to this s€ction. PmvHe GPS wkeless clock sy€tem,
compld6.
Related Work Soecified Ebewhere:
1 20 volt gourded electsical outlat at tranqmitter location'
1.
DEFINITIONS
A.
1.3
I
GPS: Global Positbning System, a worldwide syslem ttlat emploirs 24 satrtlit€G in an integrated r€t-{rork to
deiermin€ geographic location an!,where in the world, and which emp!o),s and trancmlb atomic ti]ne, the nrost
accurate and rdiable timd.
SYSTEII DESCRIFTION
cPS wireless clock sygtem shall continually synchmnize clocks througtput the facility, and shall bacapable o{
clock rcadouts in muftiple tim€ zones where desired.
B.
The syslem shall synchronlze all clocks to each othsr. The sysiem shall ulilize GPS techndogy to pro-vi{ts
atomG iima. The slrstsm shall not require hard wiring. Clocks shall automatkplly adiust for Day'ight Savings
C.
Analog Clocks Bhall ba synchronized to witl$n 10 milllsesonds 6 times per day, and lhe syst6m thal have an
int6m;l oscillabr that maintains plus or minus one second per day between synchronizations, 50 that do€k
accuraay shall not exceed plus or mlnus 0.2 seconds.
D.
The system shall include an intemal clock rBference so that failure of tha GPS signal shal not calt$e lhe
clocks to fail in indicating lim€.
.fall€ate" dssign so that failure of any componsnt shall not cau86 failure of [rE
The system shall incorporaie a
syBiem. Upon restoration of pow6r or repair of iailed mmponenl, lhe system shall resums normal opsalion
wihout ths ne€d to r€6et the system or any component thar€of.
Clock bcatiom shall be as indicated, and clocks shall be tully portable, capable of being rdocated at arry
tima,
1.4
REGULATORY REQUIREMENTS
A.
Equipment and components fumished shall be of manufasturers latest model.
R
Transmitter and receiver shall comply with Part 90 of FCC rules, as icllows:
1.
2.
c.
1.5
This device may not cause hannful interfefence, and
This devic€ must accept interference received, including interference that may cauEe undesired
operation.
Transmlter frequency shall be governed by FCC Part 90.35.
Transmitter output power shall be govemed by FCC Pad 90.257 (b).
Syslem shall be installed in compliance with local and st€te aulhorities having jurbdiction.
SUBii|ITTALS
Product Data: Submit complete c€talog data for each component, describing physlcal charactetistics and
method of installation. Submlt broahure showing available colorE and finishe€ of dockE.
B.
Operatlng License: Submit evid€nce of application for operating license priorb insblling equipment' Fumish
the llcanE€, or ifthe licanse has nol been received, a copy ofiha application for the liceme, to lhe Own€r prior
to operating *|e equipmenl When license is received, ddiver original liceirse to Owner.
Samples: Submit one clock for approval. Approved sample shall be taggod and shall be installed ln th€
at ldcation dir€cted.
1Tt30 -1
OCMAPS Project No. ES-0047
Thekna R. Parks Elementary School Addiiion/Renovaiion, Oklahoma City, oK
Project No. N08079
March 4,2010
wo*
D.
I
Mansfacture/s Instruclions: Submit complats installation, set-up and maintenance instructions.
SUq9TITUTIONS:
1.6
Proposed sub€titutions, lo be considered, shall b€ manufactured of equivalefit materials that meet ot exce€d
specified requirements of this Section.
B.
Proposed substitutions shall be identified not less than 10 days priorto bid dat6.
other systems requiring wiring and/or conduit b€tw€en master and clocK, or which require connection of
clocks io extemal electrical power supply wil| not be acceptable,
1.7
QUAL]TY ASSURANCE
A.
B.
1.8
1.9
Oualifications:
Manufacturer; Company specialElng in manufacturing commercial time systems with a minlmum of
1 0 continu,ous years of documenied experienseInstaller: Company with docflmented experience in the installation of commercial time syslems
1.
2.
DELIVERY, STORAGE AND HANDLING
A.
Deliver alt components to ths sit€ in the manufacturer's original packaging. Packaging shall contain
manufacturer's name and address, produc't identification number, ard other related information'
B.
Store equipment in finished building, unopened containers untll ready for installation.
PROJECT SITE COND'TIONS
A.
B.
1.10
Permits: Obtain operaling license forthe transmitter from the FCC.
Clocl.,s shall not be installed until painting and otherfinish work in €ach room is compl€te.
Coordinate installation of GPS receiver ior access to the mof or ext€rior side wall so that ths bracket and
relaied fasteners are watertight.
SYSTEM STARTUP
A.
At completion of installation ard prior to finat acceplance, tum on the equipmEnt, ensure that all equipment i5
operating propedy, and $at all clocks are funclioning.
PRODUCTS
PARTz
21
i'ANUFACTURER:
A.
GPS wheless clock system
shall be manulactured by Primex Wireless, Inc., N321 1 County Road H, Lake
Geneva Wl 53147 (800) S:ZO+O+ pnX {Z62)248-006l www.primexwireless.com, Rauland, simplex, Dukane
or approv€d equal.
2.2
.
SEOUENCE OF OPERATION
A,
Transmitter Operation: When power is lirst appli€d to the transmitter, it checks for and displays the soft-ware
version, then it checks the position of the switches and stores their position in memory. The transmitl€r then
look for the GPS time signat. Once the transmitter has received the GPS time, it sets its intemal clock to that
lime. The transmitter the; starts to transmit ib intemal time once €very second. The transmitter updates its
internal clock every tlme it re€eiv€s valid time data from the GPS'
B.
Analog Clock Operation:
'1.
When the batteries are inserted into the clock A) Press lhe red button w|len the rcd second hand is
at the 12:00 position. At this time tlte microprocessor will lock in lhe location of the second hand. B)
After the red second hand has passed over the minuie hand (first second hash mark after minute
hand), press and release the red button. At this time the microprocessor will lock in the location of
the minute hand. The microorocessor then aSsumes the location oflhe hour hand.
17730 -2
OCMAPS Proisct No. Es-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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2;3
After the red button has been pressed twic6, the micro processor will start searching th€ chanrEls.
It will start at channel No. 1 and proced one by one until it eiiher d€mdgs a valid signal or reaches
channel llo. 1 6. lf no signal ls detect€d the receiver will be shut off and will W again later. lf a
stgnal lE recBivBd, the micro processorwill store the channel numbsr, set the cb* to thd receive the
tim6. For lhe n€xt minutB tite clock will beep every time that it recdv€6 a valid lime sigml. f the
clock is in a good sigml area it will beep once a sscond. ff the clock beeps every fevr, se6rds, the
clock b in a maqinalsignal area. Analog clocks can operate in mslglnalsigmal araas, but baltery
life wlll be about 25 oercent shorter.
Aft6r initial s€t, the clock will shut off th€ receiver. On a presch€dul€d basis, the microprccesorwill
tum lhe receiver back on and starting vvit| the sbr€d channd, it will again look for a valid 0me
signal. However, lhe beep€r wlll not op€rate
lf the clock has not decoded a valid time signal for seven days, then it wi[ go back to a doublF€iep
mode. Non-signal rcception can be caused by low battery voltsge. lfthis ocsurs, replace th€
battedes.
EQUIFiIENT
Gen6rdl: The clock s)'stem shall include a lransmitter, a loof or window mount€d GPS rsceiwr, indlcEtng
clock, and all accessories for mmplete operalbn.
B.
Transmitler: Prtmex Wireless Model FM-72, consisting of wireless trarsmltier wlth GPS r€ceiue(. Unit shal
obtain curent abmic time from satellite. The clock system shall tran$nit time continuoBly to €ll clod(s In th€
system.
1,
Transmission:
Frequency Range: 72.100 to 72.400 MHz
h
Transmission Range: one mil6, opan field,
Radio tschnologF nanowband FM
Number of channels: 16
d.
e.
Channel bandwldlh: 20 kHz maximum
l.
Transition mode: onc-way communication
Data €te: 2 KBps
s.
n.
Operating rang6: 0 dggrses C. to 70 degrees C.
Transnitter
a.
b.
c.
d.
e.
TrarEmifter output pou'ec +26to+30dBm
Frequency deviation: +/- 4 kFts
Transmitter pow€r raquirements: 12q VAC 80 Fk
Intemal porryer requirements: 5 VDC
Canier frgquency sbhility: +/- 20 ppm
Transmitter shall have 16 selectable channds to assurs intarfarence-free receplion.
Trammitter shall have the iollowlng s1li,itd|e6:
Time zone adjustment switches for alltime zones in the world. Includss a[ US tme zones
' Eastem, Cenlral, Mountain, Pacific, Alaska and Hawaii.
a.
b.
c.
E
6.
7.
c.
Daylight Saving Time bypass switch.
12-hour or 24hour display.
Transmitter houslng shall be bl6ck metial case, 16-34 irEhes by 12 inche$ by l-7l8 Inch63 in Eize'
Ant€nna shall be 46 inches high, commercial type, mounted on top center of transrnitter houslng.
Antenna gain shall be < 2.2 dB. Antenna polarlzallon shall be vertical.
Transmitter housing shall incorporaie a displaywhich shall include the following:
Time readout
AM and PM indicator if '12-hourlime dbplay is set
Day and date readoul
c.
d.
lrdicalor for daylight Bavings or standard time
LED which shall llash red in event of reception problem
t.
GPS receplion indicator
Transmitter shall contain an intemal clock such thal failure of receFtion fiom the GPS will not disaHe
the operation of the clocks.
a,
Power supply: Model NumbeE 140003 Input 120 volt AC 50/80 H2, 0.4 amp. Outpt t g volt DC, 1.5 amp.
GPS Receiver: Model Number Q11695, GPS roof mounted, with 15 foot cable attached {additional PrtmEX
Wireless extension cable available: 50, 100, 150, 200 foot).
The GPS Receiver shall be a mmplete GPS receiver includlrE anterna in a waterproof ca8e, $7/8
inch€s by 4-3116 inehes by 2 inches, deslgned for roof or outdoor mounting. Provide m.iunting
bracket for attachment to roof structur€.
1.
Traditional analog clocks: Primex Wireless analog clocks, 12-112 inch diameter or 16 inc+l diameter as
selected, color and finish as selested from manufacturer's standard colors and finishes. Analog dock€ thall be
'|
7730 -3
OCMAPS Prciect No. ES.0047
Thelma R, Parks Elementary School AdditiortRenovation, Oklahoma City, OK
Projec't No. N08079
March 4, 2010
wall mounted, and 12-12 inch diameler clocks shall have polycarbdnate frame and polycarbonate lens. Face
shall be white. Hour and minute hands shall be black, Analog clocks shall be provided with red sweep second
hand.
.
2.
1
5.
L
q
F.
F.
12-112 it\ch analog clocks Ehall bo battery-operated, and shall have s-year battery life.
Analog clocks shall be capable of automatically adjusting for Daylight Saving Time. An on-off switch
located on the ransminer shall disable this tunction it d€sired.
Time shall be automatlcally updated frcm lhe transmitter 6 times per day.
Analog docks shall r€member the time during changing of batteries.
12-112 inch analog cbck lock Tampsr-proof/theft resistant hangers and slots in the backs of th€
analog clocks.
Provide 2 alkaline D-cell bafteries vvith each 12-112 or 16-inch analog clock.
Analog dock receivers shall be as follows:
Receiver sensitivitla >-110 dBm
Receiver por,rer: two alkaline D-celb
Antenna iype: intemal
Antenna gain: -7 dBd
lf transmitter stoFe transmitiing valid time signals due to powerfailure, the cloiks will continue to
function as accurate quafts clocks until a valid time signal is decoded.
Analog dock iac€s shall bear Owner's logo as indicated.
a.
b.
c.
d.
Wire guards: Provide one ior each anabg clock as follo\,rrs:
Model No. 14131, 14by 14 inch size, for nominal 12-112 inch diameter analog clocks.
Model No. 14123, 18 by '18 inch size, for 16 Inch diameter analog clocks.
1.
2.
Cabte Connection Sealanf Radio Shack Coaxial Cable Connector Sealant 278-1645, or approved el€clrical
grade sllicone seelant.
H.
Additional Equioment
1.
Wireless reseiver switcfies: Swttches shall r€ceive time packets from the master transmitter and
rel6y the synchronized tim6 to th€ satellite transmitter connecied to lt. The unil shall include the follot /ing:
Antenna mounted on top ofthe switch housing, 11-112 inehes long
a.
b.
Polrer Supply
Input 120 VAC 50/60 Hz, 0.4amp
Output: I voltDC, 1.5 amps
RS 232 data cable, 5 feet long
2.
Daylight Saving Time bypass switch
e.
Dimensions: 4-1l4 inches long, 5-3i4" wid€, l-114 inches deep
f.
Weight t2 ounces
g. Operating range: 3? degrees F to 158 degrees F (G70 degree$ C)
Satellite transmifters: Satellite transmltters shall receive the signal irom the wireless receiver switches and transmit the signal to th€ devices in its vicinity, which are out of range from the mastar transmiiter. The unit shall include the following:
Antenna mounted on top of the housing, 46 inches long
Power Supply:
lnput: 120 VAC,50i60 Hz,0.4 amp
Output:9 volt DC, 1.5 amps.
a.
b.
6 foot
d
f.
h.
i.
j.
k.
t.
16 seleclable shannels
Tims zone adjuSlment switch
LCD display showing time, date and signal verification
Housing: black m6tal casing:
Dimensions: 16 inches wide by 12 inches deep by 1-718 inches high
Weight 7-gl4 pounds
Operating rang6: 32 degrces F to 158 degrees F (0-70 degrees C)
EXECUTIONS
PART 3
3.1
cod
Approximately one Watt transmlssion
72 MHz frequ€ncy
EXAMINATION
A"
B,
Verifo that construction is complete in spaces to recdve equipment ard that rooms are clean and dry.
that 120 votl eloctrical outlat is localed w:thin 6 feet of location of transmitter, and that outlet is
operational and properly grounded.
. Veriry
17730
4
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Projed No. N08079
March 4, 2010
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INSTALLATION
A"
GpS Unit lnstall on ro6f in locatlon indic€ted, in clear view of the sky. Install unit in location free fmm
standing water, and above accumulations of leaves or debfis. Seal cable conr€dion to GPS wi$ cable
connec{ion sealarit. Any added cable lengths must be protected from oubide el€rnenls'
B.
Tmnsmitler:
J.
C.
.
Locate transmltter where indicated, a minimum of 2 b 3 fuet above the floor, away fiom large metal
objeck such as filing cabinets, bckeB or metal framed walls. The prefenEd transmitter location icr
best trdnsmission co\€rage is centrally located on the bp floor df lhe building.
Attach receiver io lransmlfter using cable.
Connect sntenna to transmitter, lFing care not to strip threadg.
Conn€cl pou/er supply to $e traJrsmitt€r.
Set the channel number on th€ display to conespond to the FCC license.
Plug pow€r supply into electricsl outlel
Analog clocks: Perform lhe following operations with each clock:
1.
lnstall D-cell batteties.
2,
$6t dock to conact time in accotdancts with manufacturefs instuctions,
Observe analog clock until valid signal$ are received ard analog clock adiusts lls€lf to con€ct lime.
3.
lnstall the ana6g dock on the wall in the indicat€d location, plumb, level an.t tight against wall lf
4.
using 12-115 inch clock, attach tEing clock-lo.* hanging method and sultablg fssbners as appmwd
by clock manufuc{urer.
3.3
D,
E,
wire guards: Secure to wall, using approved theft-rssistant fasteners.
F.
Satelllte lransmitten lnstall within 5 feet of lhe recelver 61,vitch and connec{ uslng the Eupplied cabls.
Set the satellite transm itter to tho channel as indicated on the approved submittal and FCC licsnss.
Set switch B for time zone ofhet from UTC.
Set switch lf3 to do\{n position.
Prlor to {inal acceptancr, clean exposed surfaces of clocks, using sleaning rnethods recommerded by clock
manufacturet Remove temporary labels from clock faces, Do not remove labels from backs of clocks.
DEMONSTRANO
A.
3,6
Prior to final acceptance, inspect each clock, adjust as required, and r€ptace parts, which are found ddedive.
CLEANING
A.
3,5
1.
2.
3.
ADJUSTING
A
3.4
Recei\ef switches: Locaie as required to provide complete coverage of the area designatsd for each switch.
lnstalllhe receiver switch in the bcation or locatbns indicated, ard secur€ b support8 r|sing iasieners
suitable for lhe surface to vyhlch lt is attached.
l.
Align the antenna vertically.
2.
Sei receiver switch to the aame chann€l numberofthe fansmitbr it will be rec€iving Rs signaltom.
Provide training to Owr|eds representative on setting ard adjusting clocks, replacing batteries and rcutine
maintenance.
PROTECTION
A.
Protect finished installation until final acceptance of the project.
END OF SECTION
17730 -5
OCMAPS Proiect No. ES-0047
Thelma R. Pafts Elementary School AdditionlRenovation, Oklahoma City, OK
Proied No. N08079
March 4, 20'10
Section I ?740
Tsl€phons Syst€m
PART
1.I
.I
GENERAL
ELECTRICAL DESIGN COORDINATION
A.
B.
Modffy existing ielephone cabinet and associated wiring as indicated belot /.
lnstall new telephone board for new data cabling for interfacing with secudty, intercommunications, fire alarm
data, energy managemenl, and other building systems requiring phone lines. Interphase these systems
b€tween the efsting tslephon€ cakinet and th€ nstr.
_
C.
Work covered in this sedion inc[des:
R€storing exlstlng tElEphone seMce to existing conditions.
Wiring for equipment cDver€d in this section.
The flowing work is not covered in this section and will be done by oth6r subcontractors:
The wiring io rglated syst€ms such as fre alarm and energy management sy$tem8.
All new communications cabling of security s)rstems.
Data infrastructure cabling of computer and voice communicatbns in all rooms except those mentioned
in this section.
D.
Comply wilh Section 16100 and Section 16143 critaria. Coordinate milhrork at Administration reception
counter to achieve access to telephone receptacle and routing of phone cords,
E.
Provide two (2) dedicated telephone lines for fre alarm panel, one (1) line for the primary and one (1 ) lin€ for
the s€condary service line. Provida ona (1) dedicated line for elevators (allelevators In the building willshare
this line). Provide tr o (2) dedicated lines that can be shared with the security panel, sflergy management and
two (2) 911 holphones.
F.
These telephone lines will run to the new "TB' (Telephone Board) in mom 025.
a.
b.
a.
b.
c.
I
1.2 TELEPHONE RECEPTACLE LOCATIONS
I.3
A.
B.
See S6c{ion 16140 criteria.
C.
One (i) can use the same line as the energy managemenl line and one {1) can share with the securjly
system,
Prvide two {2) telephon€ liftes in the Adminisfative area, behind the front de6k in the reception atea, that
can be utilized for failsafe and for 911.
SECURITY SYSTEM
A,
B.
14
Design ior necessary components of securry system.
See Section 17700 desion criteria.
FIRE ALARM SYSTEM
A.
1.5
Provide necessary componer*s for the fire alarm system and sprinkler system's flolr/ switch.
ENERGY MANAGEMENT SYSTEM
A.
Provide necessary components to accommodate the eneBy management system.
1,6 ELEVATORS
A.
PART?
2.1
Provide necessisary components to accomidate elevator.
PRODUCTS
CONDUTTS & BOXES
A
Comply with Section 16130 design criteria.
'177 40 - 1
OCMAPS Project No. E5{047
Thelma R- Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No. N08079
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March 4, 2001
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B.
C.
2.2
3.2
For onsite telephone wire only if any exist.
Comply witn Sediorc
l6t,t0.
'JUMBO" sizs brushed stainless steel cover with bushed corfer hole br telephone outlet corerB.
'fUMBo" size bt€nk covers at all unussd telephons boxes.
EQUIPMENTCABINETSI
A.
B.
PARTS
3.I
Bushed ends at backboard locations.
COVEnpLeTeS
A.
B.
C.
D.
2.3
Minimum 3r4' conduit size required
'Square-D' Oas3 6650 lockable cabingt to hold required spare parts and tools'
Locate at Main Backboard.
EXECUTION
SERVICE ENTRANCE
A
Minimum 4: unde4round mrduit with hrid*6w€€p elbows lma{mum of four (4)l from utility
the t€leDhone bacldoard.
B.
Tenninate condult wlth smooth insulated bushed end at edge of backboard (minimum 16'A.F.F.).
tiein
eosrce
b
GROUNDING
A.
6' long X 1" high X 1/8" thick copper gmunding bw on each babkboard. Provkle minimum twelve (12)
grounding set screws.
B.
#i/0 AWG insulat€d copper ground conductor
in a 3/4" rigiC mnduit from each backboard to the maln
eledrical service ground bus 6nd bond.
3.3
BOX iI|OUNTING
A
B.
For onsitB tslephone wire only.
lnsccordancewilhSectionl6100criterb,verticallywithbottomsotbox68at16'A.F.F.,setontopof
second CMU course. Flush-mount with wall sufaces.
C.
E.
E,
3.4
Do not position boxes belween diffedni, wall materiab.
Offsat tetephone boxas and othel device boxes on opposlte face6 of wall6 a minimum of 6"; no bad(-to-back
device€ are allowed.
COIIERPLATES
A.
B.
C.
3.5
Groui flll aJound sll boxes in CMU pattitions to solidly ancfior in place
For onsite telephone wire only.
Instatl with pair of matching screws, box snug io finished surface on all sides.
Instalt plumb and level; adjust box as required.
CONDUTTS
A.
B.
For onsite tslephons wire only.
Each febphone receptacle box shalt have its ot,/n conduit run io top of partltrons ard tumad out above lhe
ceilings.
17740
-2
OCMAPS Proiect No. ES4047
Thelma R. Parks Elementary School Addition/Renovaiion, Oklahorna City, OK
Proiect No. Me079
March 4, 2001
I
C.
ln the (MDF), neatly teminate conduits above th€ ceiling and at uniirrm hebht,f inside the pedmeter of the
backboard with smmth insulated bush€d ends and secure conduits to wall consbucibn.
I
IDENTIFICATION
A.
3,7
Label the outlets in the Administrative area for the emergency 911 lines.
TIENNS
A
Provide for telephone system vendor tie-in to building security system, lntercom s),stem, fire alarm systerns,
data systems, aM 6n6rgy management E/stems.
END OF SECTION
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17740 - 3
OCMAFS Pro.ject No. ES-0047
Thetma R. Parks Elemeniary Sehool Additior/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2001
I
sEcTloN 17745
DATA INFRASTRUCTURE
GENERAL
PART 1
1'O.I
DATASYATEMS
A.
'
This document defines the cabling system and subs!€tem componenb to include cable, ierminatlon
hardware, supporting hardware, and miscellaneous items required to fumish ard install I mmplde
.cablirE.lrfrastruclure supporting voics and data. This de8ign will be rFed for all K-12 educational
faciliti€€. Thi$ document describes cable muting for dassrooms, labe, administrative area, technology
support araas and arry other area that r€quires cabllng and also, shows diagrams sf tydcal
classiooms lal,oub, parb, labeling etc. to enhance clarification.
B.
1
.O2
A data drop can be used for both data and/or voice. Refer to the Seciion 1 6Z ) for spedlic
lnbrmaiion about telephone. The Data and Teledron€ Ssctions will be cros6.rofer6nced.
STANDARDS
A.
The copper based netwerk infrasiruc'ture will be an Enhanced Category 6 (CAT- 6) mmpliant
Structured Cabling System with a ten (10) year minimum ssrvice and product waranty,
Contracior wi[ corfigure and install this equhment as to provide a conligured and lrvorking
Category 6, drop(s) integrated into the Wide Are€ Network oflhe l-89 School Dbtrlct.
B.
C.
Wiring Scheme will be TIA/EIA 568-8 compliant.
CAT-6 media twist cabie runs in clasemoms 6nd offices or visibls to lhose who use the buiHing
will b€ 6it|er in th8 wans at dmp bcations with flu6h mount faceplates {whenever possibl€} or'in
a hodzontal surfaee mount around Derimeter of the room.
D.
Each wall plate will have its own conduit run to the iop of partitions and tumed out above
oeiling, including the blank wall plates.
E.
All racervay used on exterior will be mechanically fastened and of metallic construciion where
acce$ible to studeds. J-Boxes will be mechanically tastened.
F.
All worh will be designed in accordance with the BICSI TDMM, and will be ircialled in
accordance Mth th6 BICSI ClM. In addition. all u/ork will conform to:
2002 NEC (or most curreflt) including 110-3, and 800-6.
ANSUTIA/EIA BuildirE Wiring Standards.
OEM lnstallation directlons.
Applicabl€ Stale and localcode.
1)
'21
3)
4)
G.
Allfloor and wall penetratlons will be fire and smoke stopped
H.
Pathwalrs will be installed using wide J-hoole with minimum berd radius. Wire bridle rings or
cable ties will not be accepiable. ln the classroom, Bmall bundle support wids,lhooks may be
used to attach to ceiling wir€ supporl IAW 1997 TIIJEIA 569A Standard. Complete building
cabling palhways will be installed, where deamed app|opriate, forfutire building structur6d
cabling systems raquir€menb on those routes requir€d by this RFP. J+ook load will not
€r(ceed 40% qf capacity.
l.
Plenum CAT-6 Belden MEdia Twist Bonded-Pair Network Cable 1874A or equalwill be utilized.
Cable iacket color of rcd.
J.
Fiber oplic cable wlll run between the Main Distribulion Room (MDF) and Remote Distribution
Room (lDF) (not including Lab, Medh Room, ard Trade and Industdal Closets) for telephone.
The slack will be coiled up above the ceiling in lhe lDF.
b rssbre th6 stuElur€s b the
originalfir€ or smoke rating by deslgn, code and standard. Preexbting pen€lrations will be fire
or smoke stopped if used fur cable routes. All fiber optic cables to annex 6r outer buildir€s wlll
be buded in mnformance wiih lhe standads listed In paragraph F.
17745-1
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Proieci No. N08O79
March 4, 2010
K.
L.
M.
All connections between widng closets will be multimode 501125 pm duplex fiber optic.
N.
O.
UTP modules will be Panduit Mini4om TX-6 PLUS, part number CJ688TPRD' Red in color'
P.
Each fiber oDtic cabl€ run will be a minimum of o-ffber strands
Each tiber oDtic cable conneclions will be terminated with SC connectoc to TlA,/ElA
speciication ard installed in Jiber oplic rack mount t€rmination cabinets.
Technology support areas io be located no furth€r than 300' from the jack location in classroom
to the patch panel in the technology support area. This assumes the use of Belden or equal
CAT-6 media lwist cable. whidr allows 10% over run from lhe CAT-6 standard fur patch ard
classroom runs. lf distance or the wire run is anticipated to exceed 300', a separate technobgy
support area must be provided, or alt€rative distribution melhod must be identified.
lfthe Panduit part that is specified is not available then the Panduit replacement part
is
acceotable.
O.
R.
S.
T.
Raceway, faceplates and J-Boxes will b€ lvory in color and matched as closely as possible.
Two (2) 4" conduits witl extend to facillty exterior for telephone and data communicalions from
the MDF to the property lin€ locaiion designated by the OCMAPS Program Manager.
Generally, the standard articulated will be used in both nev, construclion and remodelirE.
Existing CAT-6 cable may be utilized bd it is lhe responsibility of the contractor to ensure the
infrasdjctur€ is certified tb these specifications. lf existing CAT-s cabl€ exists it will be removed
unleSs directed otherwise by the OCMAPS Program Manag6r.
DESIGN REQUIREMENTS
A
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Technology Support Areas
1.
2.
3.
4.
5.
MDF is the centml equipment room tor the school site. Some scf|oob may have some
lDF. The environmental controls ior the MDF and lDFs should be saparate from
building system for year-rcund opeEtbn.
f an IDF is required and util'rzed, provide two (2) 2' mrduits betw€en the MDF and
the lDF.
f an IDF is required and i5 utilized, run one (1) bundle - 12 strands of multi mode
50/125 um fiber oplic duplex home runs to the MDF and terminate with SC
@nnectors,
Must be sealred to designated l-89 OKCPS staff, with a single common key between
all technology suppon areas for all schools in the Distdct
FLOOR RACK .
A 19'Standard R€ck (7 Aluminum), Panduit pari number CMR1gX84,
Chatsworth part number 4635&703, B-Line part number S8556084XU or
equivalent will be placed in the MDF' Two (2) or more racks will be placed in
the MDF for schools with classroom totals 50 or less a.d three (3) or more
racks with classroom totals over 50'
One (1) addilionat rack will be placed in ths IDF (Used when cable lengths
would exceed ANSI/TIA/EIA Standards).
Racks in the MDF and IDF will be placed as close to the demarcation point
as possible, allowlng BICSI standards compliant spaee between walls and
walkway6.
Racks till be ganged iogethsr with verticsl cable manager centered.
Derween and on each end (Panduit oart number NCMVS' Chatsworth part
number 3O0g$703, B'Line part numb€r SB-571-66D084 or equivalent)
Two (2) ve.tical Power Distribution Units (PDU) will be mounted to the rear
of each rack' The PDU will have ten (10) EF'l5R oudets and one (1) 5-15P
Plug with at least an I' cable.
Rack will be secur€ly attached to the floor'
All racks will be grounded to the talecommunications ground bus bar in
accordance with the grounding sedion of this document.
TECHNOLOGY SUPPORT AREA WALL LININGS
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17745-2
ocMAPS Project No. ES-0047
Thelma R. Parks Elementary School Addiiion/Renovation, Oklahoma City, OK
Proiect No. N08079
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March 4, 2010
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a.
b.
c.
7.
8.
At least one (1) closet wall should be lined with trade size %' ACgrade
plywood I' high. Plywood should be void fee and eittl€r firs rat€d or tr€sted
ofl all sides with at least t' o (2) coab of fir€resisbri painl
Walls, floors ard c€lllng should bs treated with coalings that minimize dust
and statlc electricity.
Watls will contain ladder cable trays to facilitats managem€flt routing and
distribution of cables.
TECHNOLOGY SUPPORT AREA EQUIPMENT RACK CLEAMNCES
Allow a minimum of3'-4'(1m) of clear working spaoa frum Equipment atd
cross-conned fteldg.
EquhmEnt racks should be Fovided within the Teclfiology Support ArBa&
Allocatg a spacs of at leaet 32' (80crn) deep and 7'-ff (2.3m) higfi for each
rack. Provide spaca br an alsle of at least 32" (80crn) widE in the .front and
in the rear ot each equipmgnt rack,
TECHNOLOGY SUPPORT AREA ELECTRICAL CIRCUTTS
Dedicaled 120V nominat, non-swltched, ac duplax el€chical outlet
receptades, (NEMA S20R) each on a separate branch cirqit p€r raclq wlll
be pmvided for equipment power. These recephcles should bts rabd at
a.
b.
a.
b.
20A
ldentified and mark€d conveni€nce duplex non-switched outle{s lnlll ba
placed on each wall which may be provided dn a slngle but separ€tB brgnch
circuit.
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PATCH PANEL
These speclflcation8 roquire sole us€ of Panduit patch panels br cdniinuity,
expansion and ease of mair enance. No substifuuon will be accepted.
Forty-elght (tl8) port copper patch panels in the MDF and IDF will be Parduit
Dart numb6r UICMPPA,'SBL.
A fiber paich panel (Panduit part number FRME2) will be in lhe MDFA rack
in the MDF and a fiber patch panel (Panduit part number FRMEI) will be in
a rack in each lDF.
a.
b.
c.
1n45-3
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elemeniary SchoolAddition/Renovatlon, Oklahoma City, OK
Pmiec* No. N08079
Marfi 4, 2010
The MDF fib€r patch panelwill have six (6) Adapler Panels loaded with blue
SC duplex adapt€fs wth ceramic slseves (Panduit part number
FAPoWBUDSCZ}.
The IDF liber patch panel will have one
( l ) Adapt€r Pangl loaded with blue
SC duplex adaplers wlth c6ramic Eleeves (Panduit part number
FAPOWBUDSCZ) and luo (2) blank adapter panels (Panduit part numbsr
FAPB).
Teminate fiber cables propetly with adequate slack left at both entrance
location and temination unil
MDFIIDF fiber optic strands will be ierminated in th€ fullov/ing ord€r
f.
o.
Position Cobr
1
2
3
4
5
6
Blu€
Orange
Green
Brown
Slate
White
Red
Black
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Yellovr.
10
Violet
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Rose
Aoua
Equipment racks MDF-A and MDF-B will house the copper patch panels for
horizontral cabling for all moms that are within the 300' cable limit (not
Including Labs, Media Rooms and the Trade and lrdustial area).
All copper and tiber patch panels will be located in MDF-A, but larger
schools will require soflie copper patch panels b be placed in MDF-B to
accommodate all equipment lisled in lhe rack order qf Figure 2.
lf the copper patch panels utilhed in MDF-A excesd 14U then install the
remaining patch panels in MDF-B.
All MOF equipmfft will be rack mounted in the order as spscified in Figure
2.
K.
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Erlpr}l E:rrh
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17745-4
OCMAPS Projecl No. ES{047
Thelma R. Pad€ Elemeniary SchoolAddition/Renovation, Oklahoma City, QK
Proj€d No. N08079
March 4,2010
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Equipment racks In lhe IDF'$ will hotE€ the copper paict panels for
horizontal connedivity for ths do€est noom exehding Labs, Media Rooms
and the Trade ard lndustrial Area.
All IDF equipment will be rack mounted ln lhe oder as specified in Figure 3.
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CLASSROOM CABLING
L
Six {6) CAT6 media twist cable in each classroom and will be terminated in the
closest MDF or lDF, three (3) dmps in one comer and three (3) In thB othsr (see
Figure 4).
2.
An additbnal stx (6) CAT6 cable will run frcm the MDF or IDF b each dassmom wllh
I 00' sladf coiled up in the csiling in the dassroom for future AP.
3.
Two (2) blank wall plates with matching cobr blank modules for future nEtwork drop
locations will be placed in each classroom aB shown inFigute
Coax will be placed opposits door and adjacent to the white board.
S6e Figurg 4 for placement locations.
a.
b.
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17745_5
OCMAPS Project No. ES-0M7
Thelma R. Pad<s Elementary SchoolAddition/Renovation, Oklahoma City, OK
Proiect No. N08079
Marcfi 4, 2010
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Typical Classroan
c.
LABS, MEDIA CENTER, TRADE AND INDUSTRIAL CTASSROOMS (lnduding Businoss
Education and Career Technology classrooms)
Eouioment Closet:
A network closet will be placed in the media cent6r, one (1) closet in each
lab and one (1) closet in the Trad€ and IndustdalArea. The doorwill be
locat€d in the hall to discourage anyone from trying to use it for other
reasons besides network equipment. The door will be ver*ilated.
The closet will be at least 70' wide X 40' deep allowing enough mom to
manage the cables in the rack
Must be secured to Technology staff only, with a sillgle common key
c.
b6twe6n alltechnology support areas for all schools in the Distict.
o.
A 19" Standard F€ck (7' Aluminum), Panduit part number CMRl9X84,
Chatsworth psrt number 46353-703, B-Line part number S8556084XU or
equivalent will be placed in each lab/media room closst.
Vertic€l cable managerwill be mount€d on both sides of the rack (Panduit
part number NCMV8, Chatsworth part number 30095- 703, B-Line patt
number SB-571-66D-084 or equivalent).
One (1) Power Distribution Unit will be mounted to the rack (2 AMPS draw
anticipated). The PDU will have ten (10) 5-15R outlets and (1) 5-15P plug
wlth at le6st an 8' cable.
Tha rack wilt b€ securly attached to the floor and grounded to the
ielecommunications ground bus bar in accordance with the grounding
section of this document.
h.
Forly-eight (48) port copper patch panels in the closet will b€ Panduit part
number UICMPPA4SBL.
t.
A flber palch panel in the closet will be Panduit part number FRME1.
j.
This fiber patch panel will have one (1) Adapier Panel Loaded with blue SC
duplex adapters with ceramic sleeves (Panduit part numb€r
FAPoWBUDSCZ) ard two (2) blank adapter panels (Panduit part number
FAPB).
The rack order is shown in Figure 5.
l.
17745-6
OCMAPS Prolect No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No, N08079
March 4, 2o10
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Fiblr Prtsb
P3ne1
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LAB AND MEDIA CENTER CABLING
OnE {1) bundls - 6-sbands of multmode 50/125 pm fiber optic duplex cabls
will run from the MDF and terminatgd with SC connecbrs in lhe equlpmsnt
a.
b.
cbseL
MDF/IDF tiber optic strands will be terminated in the following order:
Position Color
Blue
13
OrarEe
14
Green
Brown
Slate
12
15
16
17
d.
T.
White
Three (3) CAT6 dtopa and one coax will be locat€d in tha wall plate beside
the whitdchalk board at standard gang height opposite the entry door. The
three (3) CAT4 drops will be terminated in the patch pan€l in the lab
equipment clos€t and the coax will be terminated in the MDF
There will be a total of 30 CAT€ droDs in the lab.
On opposite walls grcup four (4) quads of three (3) Data^/oice drops. This
plscement will ba d€tsnnined by rmm dimenBions and furnihlre size.
Two (2) blank wall plates with matching color blank modules ior tuture
network drop loc€tions wlll be placgd in each lab and medla room'
See diagram below (Figure 6) for placement locatlons.
17745-7
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No. N08079
Mtrch 4, 2010
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TRADE AND INDUSTRIAL AREA CABLING
One (1) bundle - &strands of multimoda 50/125 um fiber optic duplex cable
will run from the MDF and terminated with SC connec{ors in the T|ade and
Industial equipment closet.
MDF/IDF fiber optic strands will be terminated in the following order
Position Color
Blue
a.
b.
18
19
Orange
20
Green
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22
23
Slate
White
The following li6t contains the number of CATS drops br each area. These
drops will be terminated in ihe Trade and Indusbial closet:
Agriculture (AG Mechanics and Animal Science) - 15 drops
Agriculture (Horticulture) - 15 drops
Aulomotive - 15 drops
Cosmeiology. 10 drops
Hsalth Science Technology - 20 drops
Marketing/l.C.E. * 10 drops
Graphic Communication Lab - 30 drops
Construction orWelding Lab -10 drops
Vid€o produciion - 2 drops
Office - 2 drops per omc6
Placement ot the dmps depends on room layouu dimensions and fumiture
Dlacement,
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
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17745-8
OCMAPS Proiect No. ES-0047
Thslma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N08079
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March 4, 2010
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ADMINISTRATIVE OFFICES
I.
Three (3) CAT-6 drops in eacfi adminisHive offce will be tominated in lhe close8t
MDF or lDF.
2.
Placement of the drops dep6nds on rDom lsyout/ dimensions and fumitu]B plscernenl
E.
SCIENCE I-ABS
Five (5) CAT-6 drops plus one (1) drop for eacft d€monstratidn table in sach lab and
will be teminated in tha closest MDF or IDF
1.
ALL OTHER SPACES
Reference Ed Sp€cificatbns for speclfic number of drops and terminatB in lhe closest
MDF or lDF.
1.
FACEPLATES
Faceplaies wlil be eirgle gang, horizontal slop€d, holding up tc four (4) Mini-Com
Modules. (Parduit part number UICFPHSE4IW).
Outlets will pmvide a means of supporting modular jacks during teminalbn'
Module lcons - Contractor will install the following module icons for eadl
classrcom/adminbtration work area:
one (1) yEllow voics module icon, Panduit part number UlclPYL'C next to
the tsacheis desk.
Provide all remaining drcps in work area wlth grs€n data rnodule icDni
Panduft part numb€r UICIDGR -c.
1.
2.
3.
a.
b.
H.
LABELING
1.
2.
Labding scheme per classroom will contain assignod idsfifierE forspace' panel and
gort peaTlA,/ElA 606 standards. Atl labeb must b6 machine generated and inEartBd
into faceplatE th€n secured with clear plastic cover.
All faceplates will denoG the MDF or IDF room numbsr on each faceplaie. The
individual CAT$ modulss will b€ identified with ths dassroom number follow€d byt|e
porUc€ble numb€r. For example, the label for the faceplate is IDFOI 00 which mean8
ihe cables in this faceDlate a€ tetminated in neiwo* closet 0100. Figure 7 sholvs tha
detailed labeling required for a faceplate for classroom C104.
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LABELING MAIN EQUIPMENT ROOM {MDF)
All MDF €quipment racks will have a visible label using $e following
convention 'MDF-a" which would represent equipment rack A and 'MDF-B"
would represent aquipment rack B and so on as shown in Figure 2.
Porb on ths patch panels will be group€d and labeled in order frcm lstt to
riglrt, iop io bottom.
a.
b.
1774r9
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary Schdol Addition/Renovation, Oktahoma City, OK
Proiect No. N08079
March 4, 2010
The {ollowing Figure I explairE how all copper patch panels will bs lab6led.
Each port will be lab€led with "Room Number- Cabl€ Numbef. For
example, class|oom A'104 would have ports lab3led A104-1, 4104-2,...
410+6 and administrative rooms are labeled 801-1, 801-2, B0l-3, 802-1,
802-2. etc.
Fb.
t
Fiber patch panels are labeled similar to the copper patch panels. The labal
represents where the fiber is terminated on the olher and of the cable.
The tollowing Figure I is th€ liber patch panel in the MDF. In this example,
the cable is running b thre€ (3) different lDF s. Each port is labeled with the
room numbef - cable number.
d.
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E
E
D
g
D
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u
U
q q q q g
q
il
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! !
g
H
g g
E
E
B
EI
Lc
E
u
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n
E
g q g
D
D
0
-rr-r-r-l-t
-:F-:F=
Ft9l
LABELING SECONDARY NETWORK CLOSE|S (IDF.I,IDF2, ETC...)
All IDF equipment racks will have a visible label using the followirE
conveniion "lDF-mom numbef As shorn on Figure 3.
IDF rack and patch pairels will be populated in accordance wilh MDF
lab€ling in Figures I and 9.
LABELING LAB. MEDIA ROOM AND TMDE AND INDUSTRIAL AREA IDF'S
Th€ [acks in these closets will have a visible labal uslr€ the following
convention: "lDF-Room Numbef and placed as shown on Figure 5.
Th€ following Figure 10 explains hor/ copper patch paneb will bs labeled for
a lab. Note each port is labeled with'Room Number- Cable Numbei which
r€lat€s to th6 wall Dlats Dort in lhe classroom. For example C10+1 thru
C104-30 are labeled below.
a.
b.
5.
a.
b.
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Fi!, t0
d.
Fiber patch panels ar€ laboled similario the copper patch panels. The label
represents where the fiber is terminated on the othsr end of the cable,
The follo/,/ing Figure 11 is an example of a fiber patch panel in an lDF. In
this examole. the cable is terminated in the MDF.
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1774r10
OCMAPS Projecl No. ES-0047
Thelma R. Parks Elemeniary SchoolAddition/Renovation, Oklahoma City, OK
Proiect No. N08079
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March 4, 2010
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-ffiHHHHHE [
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ffiFffiGFffiffiififfiFDEfrEii]FflEETEF Il@
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LABELING FIBER AND CAT4 CABLE
ldentiry cables according to lhe labelirE scheme per TIAJEIA 606 standards
on the cable and each terminating location.
The cable will b6 lab€l€d with this brmat room number - cabla numh€r rcom number. For example cable 1 in room C104 teminating in lhe IDF lhat
is in mom Dl00, the cablewillbe lab€led C104-1-Dl00. For cable t in rcom
Cl04 terminating in ths MDF-B rack, it will be labeled Cl04-J-MDF€.
a.
b.
GROUNDING AND BONDING
1.
Provlde a Telecommunications Bonding Backbone CrBB). This backbone will b€ u6€d
to ground all ielecommunications cable shields, equipment, rack, cabhets,
raceways, and other asgooiated hardwar€ that has the potential for acting ae a curer{
carrying corductor. Tha TBB will be installed independent ofthe buildlnga eltsclrical
and building ground.
2.
The main enrance facility/equipment room in each building will be equipped with a
telecommunicalions maln grounding bus bar (TMGB). Each lechnology support ar€as
wlll be pr€vided wif| a t€lacommunicatiorB ground bue bar (TGB). The TMGB will b€
connected to the building electrical entranca grounding facility.
Ground all racks, metallic backboards, cable sheaths, melallic strength members,
splica cas€s, cable trays, etc. entering or residing in ths MDF or IDF to the respectiYs
TGB oTTMGB using I minimum #6 AwG sirandBd copp€r bonding condudor and
comDrasaion connaclors.
All wires used tor tdecommunicatbns grourding purposes will be idenl'fied
with green Insulailon. Non-insulated wires will be identiffed at each
teminalion point with a wrap of green tape. All cableE and bus bars wlll be
identified and labeled consistent wlth the labeling system.
The TBB wlll be designed and/or appmved ry a qualified PE licenssd h
Oklahoma. The TBB will adhere id t|e recommendations of tha TllUElq4oT
Telecommunicalioru Bonding ard Grounding Shndard, and will be inslalled
In aecordance wlth bast industry prac{ices. Installalion and terminaiion of lhg
main bonding conductor to ttle building servlce gntrancs grcund, at a
minimum. will be oerirrmed by I lic€n€€d electrical 6nt-actor.
a.
b.
WARRANTY
1.
The Contrac'tor shall piovide a slrstem wananty covering the installed cable system
against defacts in workmanship, component8, and performance, and bllow-on
support after proied completion.
2.
The Coniraetor shall wanant the cabling s!,stem against ddects in uiorlimanship for a
period ot on6 ysar from th€ dat6 of slrstem acceptance. The wanEnly shall covi all
labor and materials neceasary to correc{ a failed portion of ths s},stdm and to
demonstrate pedomanse within the origlnal installation sp€ciftcalions after repaiB are
accomplished. This wananty shall be provided at no additibnal cost to the l+9 School
3.
District.
CABLING SYSTEM WARRANTY: The contactor shall facilitate at least a ten (10)
year performance wananty between the manufacturer and lhe I 89 School DistdcL
An exterded component warranty shall be provided which watrants functionality of all
components used In the system for at least 10 years from the date of trceptance,
Coppsr links shall be warant€d against the link performance minimum expected
results defined in lhe TlA,/ElA 5688, TS867. Fib3r oplic links 6hall be wananted
against the link and segment performance minimum expected results defned in lhe
TlA,/ElA 5688, Ann€x H.
TESTING AND VALIDATION
1.
GENEML
17745-11
OCMAPS Project No. ES-0047
Thelma R. PadG Elementary $chool Addition/Renovation, Oklahoma City, OK
Projed No. N08079
March 4, 2010
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f.
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h.
Testing and validation is to variry cabling system and perfomance and to
ensure accuracy, Test all cables in accordance with this doalment, f|e
ANSI/TIAJEIA standards and best industry prac{ics€. lf atry are in conflicf,
the Contractor will be responsibls to bring any discrepancies to th€ attonlion
of lhe Architect for clarificalion ard/or resolution.
A third party contractor will do random testing. Morg than one (1) Failure to
the threstpld reouirements c,ould result, at l-89 School Distric't s discretion, a
third party conective acibn and retesting of all cables at the installatbn
vendorE expense.
The OCMAPS Program ManagErwill have approvalon allsubmlthl
process€s,
Provide equipment for evaluatiotvvalidation and testing, including a copy of
all seMce manuals.
A sch€dula of alt validation tests will be developed as required regarding onsite assembly, installation, hardwar€, software and neiwork teslirE.
Print scanner tests on 8-l/2" x 11'.
Upon completion ol the iBstallation, the contractor will provide three (3) full
documentaiion sets lfwo (2) books and one (1) elec{tonlc deliversd to the
OCMAPS Program Managsrl containing all reference and validation
infomation, including:
Documentaiion showing indtuidual listing of each cable pulled in ths facility,
with detall including:
Type ofcabling.
Source location.
Destination location.
Vvire number label consistent with specified label system.
Validation sign off
Comment area - leave blank if not used.
All cabllng copper and Jiber must be validatd through
L€val lll Tester or OTDR.
The Contrastor wlll provide a copy of the mntractors
Quality Assurance Document
1)
2.
Copper
o.
Test each cable for mntinuity on all pairs and/or conductors. Twlst6d-pair
voice backtone cables will bs tested for continuity, pait reversals, shorts,
and op6ns using a 'green liJhf' type test set Horizontal UTP cables for
data, voice or video will be tested for the Ell of the abov€ requirements, plus
tesb that indicate installed cable perfornance. The test conducted will meet
or exceed the requirements for an installed link of the respedive category
rating as delined by the 568-9 Standard and associated documents.
Test each cable for continuity on all pairs and/or conduc'tors' Twistcd-pair
voic6 backbone cables will be tested for continuity, pair reversals, shorts,
and opens using a 'green lighf type t€st set. Horizontal UTP cables for
data, voice or video will be tested for the all of the abov€ requiremenb, plus
tests that indicats installed cable Derformanca. The iest conduded will meet
or exce€d the requirements for an installed link of the respective cat€gory
rating as delined by the 568-8 Standard and associat€d documents.
Pericrmance Verification: Performance verify high speed UTP horizontal
distribution cable using an automated test set. This test set will be capable
of testing ior the mntinuity and length param€t€rs defined above, and
provide results for the following tgsts:
N€ar End Cross-Talk (NEXT)
1)
2)
3)
3.
a)
b)
c)
d)
e)
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Attenuaiion
Power Sum Altenuation to cross-Talk Ratio (PSACR)
Test results will be automatically evaluated by the equipment, using the
most up to date criteria from ths TIA/EIA Strandard, and the result shown as
pass/fail. Test results will be printed dhectly from lhe test unit or from a
download file using an application from the test equipment manufaclurer.
The printed test results wlll include all tests perbrmed, lhe expected test
resutt, the actual test result achieved, and a passlfail indication for €ach .
installed link under test
Fiber Optic:
All fiber terminations will be visually inspected with a minimum 100 X
microscope to ensure that no surface imperfections exist afler tinal
a.
17745-12
OCMAPS Project No. ES{047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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polishir€. Fiber stands will be tested for atbnuation with an optical potrer
meter and light source.
Link loss speGiflcaflons: Each iber link less than or equal io 2km wnl be
tested acmding to ANSI'8 Fiber Optic Test Proredures (FOTP) 171 and
must bs less than or equal to 3.5.d8. An OpticalTima Domain
Reflectometer (OTDR) trace must bs done on links gre6t'et than zkm. Al
fber strards wlll be tested with Light Source and Optical meter for maximurn
dB loss.
Attenuation:
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Horizontal distdbution multimode optical fiber atienuation will be
measuEd in ons dir€ction at either 850 nanomeblB {nm} or 1300
nm using an LED ligM gource and po\,v6r metor. Backbon€
multirnode fiber will be tested at both 850 n and 1300 nm in one
dlr€ction. Teat set-up and p€form€nce will be conductad in
accordance with ANSVTII,/EIA-526-14 stadad, Method B. One
(1) 2-meJer patch cord will be usBd for the test referenc€ ard t'flo
(2) z{neter patch co.ds will be used for the ac,tual test. ThiE tBEt
method uEed a one (1) jumper r€ferBncs, tttio (2) jumper t€st to
estimate the actual link loss of the inshll€d cable€ plus the loss of
two (2) eonnectors, This measurement b consielent wllh fte b8s
wtrich hetwork equipment will be under nomal inst6llation and [F6.
Test svaluation for the panel to panel (backbone) or panel to outld
(horEontal) r^rill be based on lhe values set furth in lhe TIA/EIA"
568-8 Ann6x H, Optical Fiber Link Performanee Teeting.
Single-mode optical fiber aftenuation will ba measur€d at 1310 nm
and 1500 nm using a laser light source and power moter. Tesb $rlll
be perfomed at both wavelerE$s In on€ dlrectlon ofi eadr stEnd
of fiber. The set-up and test will be psrform€d in accordance with
TlA,/ElA-52&7 standard, Mehod 1A. Two (2) m€ier patch cords
will be us6d as test refer€ne€s and for lhe actud t€st Thls test
method uiilhes a on€ (1) jumpar reference, t\4o {2) iwnper test
estimaie the ac'tual link loss of the install cable pbs rwo (2) patch
cords,
Tesi evaluation for the panal to pansl (backbone) vvill be b6€d on
the values s€t forth in the TIA/E|A-56&B annex H, Optlcalflb6r link
perfomance testing,
Attenuatbn testing Mll ba parfomed with a stable launch conditbn
using two (2) meter jumpers to attach lhe test equipment b the
cablo phnt. The light source will be ld in phce aftBr calibxation
and the power meter mor'€d to th€ far end to take merguremenF.
Maximun att€nuation for installed cables will be evaluEted bassd
on thefollo /ing brmul6: Manufacture/s maximum attenuation per
ldlomeGr, divided by 1000 and then multiplied by the instafled
cabls lsngth in meters. For this application, th€ length bassd on
cable length measurements marked on thg iacket, will b€ suitable.
If OTDR testing is performed in ac@rdance with statements
above, th6n the actual measuEd length will be used. ConvElEbn
from metric to US siandald measurement will us6 3.2808 as a
constant with the result rounded to the ne)d highest whole number.
The adjusted cablo attenualion value will be added to ihe
manufacturer's mean loss per mat6d pair of mnnecbrs multiplied
by the number of matad pairs und€I test. The testir€ for this
project is measuring the loss over the installed cable plus two (2)
iump€[s which acmunt for three (3) mated pallE of connectots.
Subtrac{ one (1 ) mated pair for the equipment interface to anive at
a total of two (2) mated pairs under test.
The a\pecled resulb for €ach cable {or group of c€bles of the
sam€ norninal length) will be calculated before the start of testing
and recordEd in a space provided on lhe Contractor's iest matriK
Each strand offiber in th€ rssp8ctive cable will be evaluated
agalnst this targei number. Arry fibers that exceed lhis value by
mor€ than (.5 dB) will be repaired or redaced 6t no cost io th6 189
School Distdct.
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17745-13
OCMAPS Proj€ct No. E$0047
Thelma R. Pad€ Elementary Sctrool Addition/Renovation, Oklahoma City, OK
ProJect No. N08079
March 4, 2010
L,
SUBMTTTALS
Provide specmcsfion data sh€eb on each individualsystem component
As-Built Drawings
Sp€cifo the Contrastor shall be r€sponsible for creating red'line as-bullt
drawings during the conatruction shou/ing all deviations from plarE and to
submit lhes€ as-built drawings to the Architect after Substantidl Completbn.
Specifo the Contractor shall provide test results of the installed components'
1.
2.
a.
3.
PRODUCTS
PARTz
1.01 Refer to the previous Design Sections for product information.
EXECUTION
PART3
1
.01
INSTALLATI'ON
A,
General
1.
2
o_
8.
10.
12.
13.
14.
15.
16.
17.
18.
R
Pmvide all equipment, cable, conneclorE, conduil oudet boxes and all othar devices
requtred for tha erBclion of a complete and operaling system in accordance with
applicable local, state and national mdes, thl manufacture/s recommendations, the
contract drawings and specificatbns. Color code shall be used throughout
WhBr€ slack cable is prescribed, it shall be neatly coilsd, bound and siorcd in tha
ceiling and independently supported.
Cable raceways shall not be fllled greatetthan the NEC maximum filliorthe particular
rac€way type,
Cables shall be installed in continuous lengths from origin to destination with no
splices unless specifically addressed in this documenl
Wh€r6 c€ble splices are allo ed, they shall be in accsssible localions and housed in
an enclosure intended and suitable ior lhe pupose.
The c€ble's minimum bend radius ard maximum pulling tension shall not be
excseded. Bend radius in the termination 6rea shall not be less lhan 4 times th6
outside diameter ot the cablE.
All cables shall eith€r be in conduit or cable tray, or J-tooks or trapeze syetem for
entire length. J-hook systems shall be supported at a minimum of 4' intervals. Refer to
drawings for mnduit size and cable tray locations. Minimum conduit size shall be 7a"'
Bundle horizontal distribution c€bl6s in groups not greaterthan 40 cables,
Install cablB above fire.$prinlder sysiems and do not attacft to the system or any
ancillary equipment or hardware.
Install the cable system and support hardware so lt does not obscure any valves, ire
alarm conduit, boxes. or other cont|ol devices.
Cables shall not be attached to ceiling grid or lighting support wires Where
lightweight support fordrop cable legs are required, the Contracior shall install clips to
support the cabling.
Arry cable damaged or exceeding recommended installation param€tsrs during
installaiion shall be r€placed by the Confactor prior to final acceptance at no cost to
the l-89 School Districl
ldentify cabl€s by a self-adhesive label in accordance with the System Documentation
Section of this specification. Apply the cable label to the cable behind the faceplate on
a section of cable that can be accessed by removing the outlet plate.
Backbone cables shall be instalted separately fmm horizontal distlibution cables.
Where cables are housed in cotduits, the backbone and horizontal cables shall bs
installed in saparate conduits or in separate inner duc{s within condufts
Where backbone cables and distributlon cabl€s are installed in a cable tray or wire
way, backbone cables shall be installed first and bundl€d separately from the
horlzontal distribution cables.
Cables shall be neatly bundled and dressed to their respeclive panels or blocks. Each
panel or block thall bs fsd by an individual bundle separated and dressed back to the
point ofcable entrance into the rack or frame,
The cable jacket shall be maintain€d as close as possible to the termination point.
Hodzontal Unshielded Twisted Pah Cabling
1.
Pair cables shall be colled in lhe ir}.wall or surface-mount boxes if adequate space is
present to house the cable coil without exceeding the manufacturer's band radius. ln
1774U14
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School Additior/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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2.
3.
4.
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C.
1.02
I.O3
Horizontal Fiberoptlc Cablirq
Fiberfe€d-lhrough inserts shall exit the tac€plate parallel io ttle mowfing surfuc€ and
the bottom of the faceplste in a verlical orientation'
at the terminatioar encloeulE.
Stor€ a minimum of 36' of slack at the drop end and
1.
2.
A.
Provide UL Chssified to ASTM E8 l 4 (UL 1 479) firestopping system rated to match respectiw
wall or floor where cable andlor conduit pas6 through a firerated wall or floor' Fite stopping 3fiall
be approyed by a qualified Professional Engineer (PE) licerE6d h the state where the work ls
to be psrformed. A drawing showing the pnjposed fire sbpped system, stamped/gmbo€sad by
ttle cognizant PE shall be provlded to th€ F89 School Distict's Technlcal Reprs€niative prior
to installlr€ tha fir6 sbp system(s).
B.
All fire stop s).stems €hall be installed in accordance with the manufaciur€/s f€commeldalionsand shall be completely install€d and availablefor inspec'tlon by thc local irEpection authoritiec
prior tc dabling syst€m acceptance.
SYSTE!'DOCUI{ENTATION
A.
General:
B.
Labelir€:
1.
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The following s€ction describes the labding, as-built doctrmertation, and test
documcntalion required io be pmduc€d and/or maintained by ihe Contrac'tor during
the course of the ingtallatbn.
The Contractor shall devebp and submit for approval a tabeling system for lhe FablE
installation. The t-89 S.hool District will negotiate an appmpriate labeling sch€me with
the succe8sful Contracbr. The Contractor, using lhe drawings aE a reference, ghall
cleady idantify all componenb of the system: racks, cables, panels and outl6b. The
labelirE system br horizontat cable shall d€signate the cables origin and destination.
Backbone cables, coax and voic6, shall designate ihe cables origin and destination.
Racks atd patch panels shall be labebd tc identify th€ localbn within the cable
s)rst€m infrastructure. All test documents shall rafiect the apFopriate labeling
scheme. All labelir€ information shall be recorded on the as-bullt drawings'
AII labd printing will ba machine generated using indelible ink ribbons or cartridges.
Self-laminating labels lnill be used on cable jackets, appropriatsly Ebed b the ot{sids
diameter of the cable, and placed within view at the temlnation point on each end.
Outlet labels will ba the manufacture/s label provided with the outld assembly, on the
faceDlate,
C.
AE-Built DrawittgE:
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the holtow wall installations whsre box eliminators are used, €xcesa wire can be
siored In the wall. tlo more than 12" of slack shall bs sbr€d in an in-wall box, modular
fumiture racsway, or insulaled v/alls. Excess slack may be coiled and stored in the
ceiling above each drop location where insufficient space exlsts in tho outlet box'
Pair untwbt of UTP cable at the termination area shall not $(ceed %'.
lnstall the unshielded twisted pair cable so *lere ars no bends less than iour timeB th€
cable6 outside diameter (4 X cable O'D.) at arry point in the run and at thE te]minafon
fietd.
Pulling ten8ion on il-pair UTP cables shall not exceed 2s-pounds br a single cabl€ or
cable bundle.
2.
The instalhtion contrac-tor wlll be provided with onsset ofdrawings at the stari of the
proiect. This set will be designabd used to document all as-built infomation as it
ocflr5 throughout the proiect. The set will be maintained by the ContEctor on a daily
basb, and will be svailable to the OCMAPS Program Manager and the Program
Cortsultant upon requ€st during the course of the proJect Anticipated variations fmm
tha build to drawings will be allowed tor such things as cable routing and actualoullet
placement No variations will be alloflsd to the planned temination positlons of
horkontal and backbone cabl6s, grourding conductors and hadwale unl€€E
approved in writing by the l-89 Scfiodl Dbtrict.
The Conhactor shall provide the as-built drawing set to lhe l8g School Distrlci at th€
mncluslon cd the p|ojed. Ths marked up drawing set wlll accurately depict the a.s-built
1n45-15
OCMAPS Project tlo. ES-0047
Thelma R. Pa*s Elementary School Addition/Renovation, Oklahoma Cny, OK
Pmjec{ No. N08079
March 4, 2010
of the system including termination localions, cabls routing, and all
administration labeling for lhe cable sysiem. In addition, a nanative will be pmvided
that describes any areas of difficulty encountered during the installation that could
potentialty cause ploblems to the telecommunications system' The Contractor shall
provide at least two (2) seb of drawirEs in color hard copy and AutoCAD flle.
sktus
D.
TEST DOCUMENTATION
't.
Provide tesl documentation in a thres (9) dng bindo(s) within three (3) weeks of th6
completion of iJ6iall€tion. The binde(s) shall be clearly marked on the outside front
mver and splne with lhe words Test Results", the project nam€, and the date of
completion (month and year). The binder shall ba divided by maior heading tabs.
Each major heading shall be further 86c{ioned by test type. Tesl data within eacfl
section shall b€ presented in lhe sequence listed in th€ administration recods. The
test €quipment by name, marulfucturer, model number and last calibration date will
also be provided at the eM ofthe document, Unless a more frequent calibratbn cycle
is specified by thE manufadurar, an annual calibration cycle is anticipated on all test
equipment used for this installatiori. The test document shall detallthe test method
used and the specmc sstings ofthe equipment during th€ test
Print scanner tests on 8-l /2' x i I ". Document hand written test results (attenuation
results and conflnulty results) on a test form provided by lhe Contactor.
When repairs and re-tests ara perbrmed, the problem tound and conective action
tak6n shall be noted, and both the failed and pass€d test dat, shall be collocatd in
the binder.
END OF SECNON
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1774N16
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City,
Proiect No. N08079
oK
March 4, 2010
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Sec on 17750-1
Room Data Schsdule
PART
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GENEML
SUBi'ITTAL OF THE ROOfl DATA SCHEDULE
A.
This submittal shall consbt of a completed Room Data Schedule as provided
One for equlpment submittal procedures.
B.
The Room Data Schedul€ shall b€ submitted by the Conllactor for apprcval by th8 General Cor*iactor,
Architect, OCMAPS, and The Facility Group. Submit as a shop drawing.
In
this
s€ctbn. Refer to Dlvision
END OF $ECTION
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17750
.
OCMAPS Pmject No. ES-0O47
Thelma R. Parks Elementary School Additior/Renovaiion, Oklahoma City, OK
Pmject No. N08079
March 4, 2010
Section 17760
Intermm Systems
PART 1 - GENEML
1.01
RELATED DOCUMENTS
Drawings and general provisions of confact, Including gengraland supplemeniary mnditions and Dlvbion specification section, apply b work of tr|is s€ction.
1.02
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DESBIETSNroES
The contractor shall fumish a mmplets intarcom system in the addition to maich and extend from central
systems and similar compon€nts of tha €xisting building. The complete installation shall meet the
roquir€ments of the National Electric, and other prevailing codes. The system shall include the devices as
shovvn on the plans, and anyothercontrol panels, power supplies, initialing d€vices and accessorie$ requir€d
to provide a complete operating intercom systems, both in the exbting and new building sddition.
B.
Allequipment shall be labeled with lhe same manutacturBr5 name to assure the integration ofthe complete
system. "Mk and Match" syslems are nol approved.
Th€ system supplier and installer shall be a factory authorhed distributor and shallstock sufficient spaje palts
to properly maintain lhe sysbm.
1.03
SYSTEM OPERATION
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Submit Ehop drawings ofthe entire system and proposed zoning with sequence ofoperation.
PART 2 - MATERIALS
2.01
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Refer to Electrical plans.
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END OF SECTION-
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OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School Additior/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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Building Automation System
PART 1 - GENERAL
1.1
SCOPE OF WORK
A.
Th6 Building Automation System (BAS) manufacturer shallfurnish and install a fully integrabd
building automafion system, incorporating direci digftal contrd (DDC) for ene(gv manaq€flB4t
equipment monitcring and control, and subsystems with op€n communications capabifities as
herein specified. The DDC panel(s) shall be Siemens, b n€tuolk with the exbting ,SlgmerE
moniiodng system. The intsrface must, in 'every pglticulaf, povide transpafent op€ralion do$rn
to and licltiding full programmirg capabilty from the exbting Siemerts sysbm' Refer {o
OCMAP$ Chrifications, Attachments 'T and 'Tl'. PmvlEions of this section shall meet all
r€quirements therein. Communication to existing Siemens Building Technologies BAS may be
dde via P1/BACNgI. Please contact Matt Kwiatkowski at (405) 62F9728 wlth questiorE or br
addltlonal lnbrmation.
B.
The DDC contraclor shsll include atl programming and graphic8 creation necessary b provlde
a complet€ and functional syst'em. inogramming shall indude Siem€{rs Management Lev6l
llolwork workstation and client programming, field panel programming, and feld devic€
programming. Slemens workstatbn ard client programming shall be performed by Mory
fained and authorized tedtnicians utilizing the most recent veEiom of SiemEns prugramming
tools ard software sets.
C.
The DDC contrrol sysiem shall communicate with the a\is0ng Si€m€ns en€rgy manag€ment
system via the disticts existing Ettl€ net nelwork Duplicate and dislinct communicalionc
trunks or systBms are not acc@table.
D.
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17975
The installation of the controt system shall be peformed under the dired supervlslon of the
controb manufactrrer with the shop drawings, flor/ diagrams, bill of materisls, component
de€ignation or idenlification number and sequenc€ of operation Bll bearing lhe name of lha
manufacturer. Th€ installing manufacturer shall cediry in writing, that the shop drawings have
been prepared by the equipment manufacturer and that the equipment manufacturcr has
su9orvi6€d their installalion. In addition, lhe oquipment manufacturer Ehall csrtify, in wriling' that
the shop drawings were prepar€d by their company and that all temperature control eguipment
was lnstalled und€r their direct supervision,
E.
All materiab and equipm€nt used shall be standad components, regularly mandacfi'lred for
F.
BAS manufacturer shall be responsible for all BAS and Temperature Contlol wiring for a
complete 6nd operable system. All wiring shall be don€ in accordance with 811 local and
this and/or other systems and not custom designed specially for ftis project Al sl€tems and
components shall have been thoroughly tested and provan in acfual use for at least two years'
nalional codes,
WORK BY OTHERS
A.
Mschanical contractor installs all wells, valves, taps, dampers, flov/ stations' etc.
iumisM by
BAS manufusturer if required,
B.
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EbctricalContractorpmvides:
1.
2.
120V power to all BAS anlor Temperature control panels
Wiring of atl power feeds through all disconnect starters to electrical
motor.
17975
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Pmject No. N08079
March 4, 2010
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Wiring of any remote starl/stop switdres and manual or automatic motor
speed control dwices not fumished by BAS manufacturer
Wiring of any electical sub-metering devices furnlshed by BAS
manufacturer or others.
Ethernet drops and lP addresses pror'ided and lnstalled asi^/here requir€d by BAS
contractor. (lP addresses by OCPS lT Group)
ContactoB br lighting mntol (if r€quircd) within 10 ft. of BAS panel.
4.
5.
6.
RELATED WORK
Division
B.
c.
1.4
01000
Division15000
Dlvision16000
Generaland Special Conditions
Mechanical
Electrical
QUALTTY ASSURANCE
The BAS si.stBm shall ba designed and installed, commissioned and
serviced by manufacturer empbyed, fac'tory trained personnel, Manufacturer shall have an inplace support facility wlthln I 00 mllBs of the sits with technical staff, spare palts Inventcry and
necessary t€st and diagnostic equipmeflt. Distribubrs or licensed Insialling contractors are not
acceptable.
The Bidder shall be regularly engaged in the manuiaaturlng, installation and maintenance of
BMS systems ard sh6ll have a mlnlmum often (10) years of demonstrated technical e)Qertise
and exp€rienc€ in the manufacture, imtallation and mainlenance of B.M.S. systems similar in
size and complexity to this prorect. A maintained servlce organization consisting of at least ten
(10) competent servlcemen for a p6|iod of not le6s than ten years and provide a list of 10
projecb, similar in size and scope to this project, mmpleled wiihln the lastfive )€ars.
E.
Materials and equipment shall be the caialogued products of manufacturem regularly engaged
in produc,tlon and installation of aubmatic temperature control systems and shall be
manufactureds latest standard design that complies with th6 spacification requirements.
All BAS p€€r-to-peer network controller3, ceflfal s)€tem conlrollers and local user displays
shall be UL Listed under Standard UL 916, category PAa( Standard ULC C100, cat€gory
UUKLT; and under Stardard UL 864, categories UUKL, UDTZ, and QVAX. and be so listed at
the lime of bid. Allfloor level conlrollers shall comply, at a minimum, with UL Standard UL 91
6cat6gory PAZX; Standard UL 864, categories UDTZ, and QVAX, and be so lisied at the time
of Bid.
D,
The BAS peer-to-p€er network controllers and local us€r display shall also comply with the
Australian Elec{romagnetic Compatibility (EMC} Framework, and bear the GTic Mark to show
compliance. The purpose of the regulation is to minimize electomagnetic interference between
electronic products, which may dimjnish the performance of electrjcal products or disrupt
essential communic€tiom,
E.
DDC peerlo-peer cotrtrollers shall be compliant with the European EMC Directive, Standards
EN 50081-2 and EN 50082-2, at the tndustrial Levels. Additionally the equipmsnt shall be
compliant with the European LVD Directive and b€ar the CE mark in order to show compliance
to both Directives."
F.
Allelectronic equipment shall conform to the requirements of FCC Regulation, Part 15,
Goveming Radio Frequency Electromagnetic lnlerference and be so labeled
The manufacturer of the bullding automation system shall provide documgntation supporting
compliance wlth ISO-9002 (Model for Quality Assurance in Production, Installatbn, and
Servicing) and ISO-140001 (The application ot well-accepted business management principles
l,o the environment). The intent of this specification requirement is to ensure that the products
from the manufacturor are delivered throl€h a Quality System and Framework lhat will assure
consistency in the products delivered for this pmject.
This system shall have a documented history ofcompatibility by design for a minimum of 15
years. Future compatibility shall be supported for no less lhan 10 years. Compatibility shall be
'17975
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ocMAPS Proiect No. ES-0047
Thelma R. Parks Elementary Sohool Addition/Renovation, Oklahoma Gity, OK
Project No. N08079
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March 4, 2010
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defined as the ability to upgrade existing field pan€ls
ner r lield panals on a previously installed neiworlc
The building automation s)rstem (BAS) shall coflform to fte tollot ring standard for Year 2000
Comoliance:
1.
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The s),stem shall not produce enors when proc€sshg date data (including calculating,
sorting or disptayirg) from, into and betwssn the years 1999 and 2000 and lsp lrear
calculations in the year 2000, to the extent that dab Inbrmslifi provided from olher
swtems. ls accurate,
T'he BAS supptiier shall pmvide documEnbtion to support the individual device(6)
Year 2000 Compliance. This documenl shall include a listing of complianc€ bY device
and any exceplions to the abov6 definition.
1.5
SUBMITTALS
A.
Submit 10 completg sets of documentation in the following phased delivery schedule:
1,
2.
3.
Valve and damper schedules
Equipment data cut sheeb
Sy€tem schematics, including:
seouence of oo€rations
,oirt names
4.
B.
point addresses
interface wiring dlagrams
p6nel layouts.
sYstem riser diagrams
fudrCAD compatible as-built drawings
_
Upon projeci completion, submit operatbn and maint€fiance manuals, conslsting
oflhe
followirE:
lndex sheet, listir€ conients in alphabelical order
Manufac{ureds equlpment parG list of allfunctional componBnb ot the
system, Auto-CAD disk of Eyst€m schematics, induding widng diagrams
Description oi sequence of operalions
As-Built intarconnsclion widng diagrams
Operato/s Manual
Trunk cable schemaiic showing r€mote electronic panel locations, ard all tunk data
List of eonnected data points, including panels to which they are
connected atd input derr'ice (ionbation de{ector, s€[|$ors, eta)
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leYel oftechnology, and ext'Bnd
Compatitility shall be defined as the ability for any existing field pan6l micloprocessor to be
connected and directly communicate with new lield panals without bridges, Iouters or protocol
conveflEra,
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1.6
WARMNTY
A.
Provide all services, materials ard equipmer necessary for the successful operatbn of the
entire BAS system for a period of one year afiBr beneticial use.
B.
ThG adjustm€nt requircd testing, and repair
C.
The on-l ie support seMces shall allor tha local BAS subcdntractor to dialout over trelephone
lines io monitor and contnrl lhe facititys building automalion systam. Thb remote conneclion to
the tacility shall be within I hours of the time that th€ problem b reporled, normal buslnass
nours.
ofihe system indudes allcompuier equipment
transmission equipment and all sensors and control devices.
lfthe prcblem cannot b€ rosolv€d online by the bcslofilcs, the national office of the buildlng
automatbn system manufacturer shall have the same capabilities for remoG connection to th€
facility. f the pmblem cannot be resolved wlth oniine support seryices, the EAS manufacturer
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shall dispatch the appropriate personnel to tha job site to resolve the problem within 4 hours of
the time that the problem is rsported.
PART 2 . PRODUCTS
2.1
ACCEPTABLEMANUFACTURERS
A
2.2
Siemens Building Technologies, Inc.
NETWORKINGCOMMUNICATIONS
A.
The design of ihe BAS shall network operator workstations and DDC Contollers. The network
B.
The design of BAS Ehall allow the ceexistence of new DDC Conlrollers in the existing Siemans
architechrre consists of multiple levels for communicatlon eficisncy, a campus-wide (Management
Level) Ethemet network based on TCPIP protocol, high performance peer-tGpeEr buitding level
network(s) and DDC Controll€r floor level local area netwo*s with access being totally transpareflt
to th6 userwhen accessing data or developir€ cDntrol programs.
MLN without the use of gateways or proiocol convetter$,
1.
System shall have the capability to communicate with a network over Ethernet or
MCneUlP. Minimum system tunctionality must include monitoring, commanding, and
alarming for daily operator funclions from the existing workstation.
2.
R€fer
to chart located on page 7, seclion 2.41 for apPropfate equiFfient interface
reourrementg,
3.
System shatl have
a.
b.
4.
the capability to be an OPC Client and Server for
dynamic
communication wlth OPC Cll€nts or Servers over an Ethemet n€twork' At a minimum' the
follou,ing must bs supported:
Data Access 1.0 (96), 1.0A (97) and 2'0 (r 1/98)
Aldrms & Events 1.0 (1199)
lf the existing DDC contlollers do not have the specified capabilities, the controller must bE
upgraded to meet the specific€tions in Part ll. BAS manuiacturer shall be responsible for
hardware, software
&
labor
to
update the existing DDC controll€r
to
meet the
specifications.
C.
Peer-io-Peer Building Level Network:
1.
All operdtor devices that reside on lhe shall have the ability to access all point status and
application repon data or execute control func{ions for any and all other devices via the
pe€Fto-peer network. No hardware or sdftware limits shall be imposed on tho number of
devices with global access to the n€twork data at any time.
2.
The peer-to-peer network shall support a minimum of 100 DDC coDtrollers and PC
wo*stations
3.
4.
Each PC u,orkstation shall support a minimum of 4 peer-lG'peer net\,!,/orks hardwiEd.
5.
The system shall suppon integration of third party systems (fire alarm, security' lighting'
PCL, chitler, boile0 via panel mounted op€n protocol prccessor. This processor shall
exchange data between lhe two systsms for interprocess control. All exchange points shall
have full system functionality as specified herein tor hardwircd points.
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Fleld panels must b€ capable of integration with open standards including Modbus'
BACnet, and Lonworks as well as with third party devices vh existing vendor prolocols.
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OCMAPS Project No. ES-0M7
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6.
The peeFto-peer Bullding Levsl Network shall be capable of using lhe TCP/IP over
Ethernet All da/ices must
a.
b.
Aub-sens€ 10/100 MbDs networks
c.
Resolve Name to lP Addresses for devices using a Domain Name SeMce (DNS)
SBrver on fte Elhemet netwoJk
d.
All access using Telnet
Receive an lP Addross from a Dynamic HoBt Configuration Prolocdl(DHCP)
Server or be configured with a Fked lP Addross'
Existing Managemer Lev6l tt6two* (MLN)
D.
Mamgemenl
All Ethernet-capable PCs wlll simultansously direci connect to ths Ethsrnet
Level Netyvork without th6 use of an interposir€ deviee,
Operator Wo*statlon
c.
16
cabablg of simultaneous direct connection
and
communication $/lth
BACnet, OPC, and Apogee MLN netwod(s wlthout the !6€ of inlerposil€ deviees'
The Management Level Network does not impose a maximum constraint on
oDerator workstalions,
th€
A mntrcller residing on the p€er-to-peer building level networks shall connec't
network without the use of a PC or a gataway with a hard ddve.
b
number
d
Eth€met
Any PC on tha Ehgrnet Management Level tletwork shall have transparent communication
with conlrollers on th€ building level networks connacted via Ettlemet, as well 48, dirBctly
connected buibing le\rel natuvorks. Any PC shall be able to Intsrogate arry coitiollor on tbe
buildlng lev6l nelwork
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t.
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Any break in Elhernet communlc€tion from the PC to the coJttroll€rs on lhe building level
n€tworks shall result in an alarm notification at thB PC.
Th€ siandard client and server woftstalbns on tha Management Levgl Networl( shall tBsua ofl
indusfy standard Ethemet utilizing standard TCP/IP, IEEE 802'3
Any break in Etherrct communication belu/een the standard client ard server workstatlona on
the Management Level Netwolk shall result in a notiftcation within the WindcMrs taskbar 8t each
workstation.
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Access to the s)€tem database shall be available from any skndard client workstatbn on lhe
Management Levd Network.
Cllent accesg
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client-server workstatlon configurations over low-bandwidth net$,grk
technologies shall be available optlonally via Windows Teminal Servicee or Web browser
int€rface: Rembt€ dient access via Windows Tffminal Services shall provlde multiple,
independent sessions of the workstations software - Terminal SeMces clients shall have
workstallon soflwarE acc€ss, without the need to install th€ workstation software on the local
had drivs.
2.3
DDC @NTROLLER FLOOR LEVEL NETWORK:
A
This level commuhicalion shall support a family of application specific contollers and shsll
communicate wlth th6 peer-to-peer network lhrough DDC Conttollers for transmi$ion of global data.
may utilize the EIA Etandard 709.1, LonTalk pmtocol for pegr-t&poer communicstion
and integratlon of 3d party Lon Mark devices.
B. This network
2.4
DDC & HVAC MECHANICAL EOUIPMENT @NTROLLERS
A.
The DDC & HVAC Mechanical Equipment Controll€rs shall reside on the
Bullding
Level Netvrork'
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OCMAPS Project No. ES{047
Theha R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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DDC & HVAC Mechanical Equipment Controllers shall us6 lhe sam6 prcgEmming language and
tools. DDC & HVAC Mechanical Equipmant Controllers which require different programming
language or tools on a nslwork are not acceptable.
& HVAC Mechanical Equipment Controllers which do not meet the functions specified in
Sedion 2.4.2 and Section 2.5 for DDC Controllers or Section 2.4.3 and Section 2.5.for HVAC
DDC
M€chanical Equipment Controllers are not acceptable.
2.4.2
DDC CONTROLLER
DDC Cordrollers shall be a 1&bit stand-alone, multi-bsking, multi-user, real-time digital contml
proc€ssors consisting of modular hardware with plug-in enclosed processoG, communication
controllers, power supplies and input/outpr.f poini modulss. Confoller size shall be sufficient to
fully mest the requiremarts of this specificatun ard the attached point yO 8chedul6. Each
cDntroller shall support a minimum of three (3) Floor Level Application Specific Controller
Device Netv/orks.
B.
Each DDC Controller shall have sufficient memory lo supporl its own operating system and
databases, including:
1.
2.
3.
4.
5.
6.
7.
8.
9.
Control processes
Energy management applications
Alarm management applications including custom alarm messages for €ach level
alarm for each point in the system.
Historical/trend data ior points specified
Maintenancesupportapplications
Custom oroce5ses
Oo€rator UO
Dial-up communications
Manualovenidemonitoriry
Each DDC Controller shall support firmware upgrades wlthout the need to replace hardware.
D,
processors, power supplies and communication controllers so that the
implementation of a point onv requires the addition of th€ appropriate point inpuuoutput
Pmvld€
all
termination module and wlring.
DDC Controllers shatl provide a RS-232C serial data communication porls for operation of
operator l/O devices such as industry stardard printers, operator tarminals, modems and
portable laptop operatoas terminals. DDC Controllers shall allow temporary |-tse of portable
devices without inte.rupting lhe normal operation of permanenlly connecied modems, printers
or terminals.
F.
As irdicated in the poirf llo schedule, the operator shall have the ability io manually ovenida
automatic or centrally executed commands at the DOC Conlroller via local, point discrete,
on-board hand/ofi/auic operator override switches for digital control type poinb and gradual
switches for analog control type points.
1.
Switches shall be mounted eith€rwlthin the DDC controllers key-accessed enclosure,
or axtemally mounted with each switch keyed to prevent unauthorized overrides.
2.
DDC Controllers shall monitor ft|e status of all ovenidas and inform the operator that
automatic control hss been inhibited. DDC Controllers shall also coll€ct ovenide
activity information for reports.
DDC Controllers shall provide local LED status indication for each digltal input and output for
constant, utrto-date verification of all point conditions wlthout ths ne€d for an operator l/O
device. Graduated intensity LEDS or analog indication of value shall also be provlded br each
analog output. Status indieation shall be visiblB without opening the panel door.
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OCMAPS Project No. ES-0047
Thelma R. Parks Elementary School AdditiodRenovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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H.
Each DDC Controller shall contin(lousv peform salf-diagt|ostics, communication diagnosis and
diagno$is of all panel components. The DDC ControllBr shall provide bolh local and remotE
annunciation of any dete.ted compone failures, low battery conditions or rep€al€d fEilws b
establbh communlcalion,
lsolation shall be provided at all peer-tGpeer network terminations, as w€ll as
termindtions to suppress Induced voltage transients corEistent with:
1.
2.
RF{onducted lmmunity (RFCI) per ENV 50141 (lEC l 0004-6) at
lield poirf
V
Ele6,tro Statb Discharge (ESD) lmmuqity per EN 61000-4-2 (lEC 1000-4-2) at
discharge, 4 kV contact
3.
Elec-trical Fsst Tr€mient (EFT) per EN 61000-4'4 (lEC
kV Do\rer
4.
5.
Output Circuit Transi€nts per UL 864 (2,400V, 10A, 1.2 Joule max)
10004)
I
kV sir
at 500 V sbnal,
I
lsolatbn shall be provided at all peer-to-p€€r panefs AC input terminals to supp|ess
induced voltage trsnsients mnsistent withi
a.
b.
c.
J.
3
atl
IEEE Standard 587-1980
UL 864 Supply Lins Transients
Voltage Sags, Surge, and Dropout p6r EN 610004-11 (EN 1000-+11)
In lhB 6v6nt of the loss of normal porver, ftere shall be an o]dedry shuidown of all DDC
Controllers to prevent the los3 of database or oparalirE system software. l.lon-volatile mEmory
shall bs incorporat€d for all critical cortroller eonfiguration data snd battery backup shsll be
provid€d tc support lhe real-time clock and all volalile memory for a minimum of 60 dalrs.
1.
Upon restoration of rD]mal power, the DDc controller shall aubmatically tesum€ full
opefation without manual interventkm.
2.
Should DDC Cortroller memory be lost for any reason, lhe user thall ha\te the
capability of reloading the DDC Cdntmller vla the lo€al RS-232C po4 via telephone
line dial in or frbm a network workstalion PC.
K.
2.4.3
Pfovide a separate DDC Cohtoller for each AHU or othsr HVAC $ystem as indicated in Sedion
3.02. lt is intended that each unique systam be prcvided with iE own point r$ident DOC
Contrcll€r.
HVAC MECHANICAL EQUIPMENT CONTROLLERS
A
HVAC Mectanical Equipm€nt Controllers shall be a 12-bit stard-alonB, mulli'tasking,
multi-user, real-time digital control proce3s6r3 consistlng of modular hardware wif| ph.€in
enclosed Dmcesgors.
B.
Each HVAC Mechanical Cont|"oller shall have sufficient memory to support
system and databases, induding:
'1.
2,
3,
co-
7.
8.
ib own operating
Control Drocesses
Energy managemer applications
Alarm managsment applications including custom alarm messages fur each b'/el
alarm fur each point in th€ system,
Hisbrical/trend deta for points specified
Maintenance support applicalions
Custom processes
Operator l/O
Remote communicatiorE
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OCMAPS Project No. ES-t)047
Thelma R- Parks Ehmentary SdroolAddition/Renovation, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
HVAC Mechanical Equipment Controllers shall provide a RS-232C serial data communication
port for operation of operator l/O deviees such as industry standard printers, operator terminals,
modems and portable laptop operatoFs tenninals.
D.
HVAC Mechanical Equipment Controllers shall provide local LED status indication for each
digiial inp|Jt and ouhut for cofistant, up-Mate verification of all point conditions without lhe
need for an ooerator l/O devics.
Each HVAC M€chanical Equipment Controller shall continuously perfonn seff-diagnostica,
communication diagnosis and diagnosis of all components. The HVAC Mechanical Equipment
Controller shall prtvide both local and remotg annunciation of any detected mmponent failures,
low battery conditions or repeated hilure to establish communication.
F.
lsolation shall be provkled at all peer-t}.peet network terminations, as well as all field poittt
terminalions to suppress induced voltage irarEients consislenl with:
. RF-Condud€d lmmunity (RFCI) per ENV 50141 0EC 1000-4-6) at 3 V
. Electro Siatic Discharge (ESD) lmmunity p€r EN 61000-+2 (lEC 1000-+2) at I kV air
discharge, 4 kV mntact
. Electrical Fast Transient (EFT) per EN 61000-4-4 (|EC 1000-4-4) at 500 V signal, I
kV power
. Output Circuit Transients per UL 864 (2,400V, l0A, 1.2 Joule max) lsolation shall b€
provided at all peer-to-peer pan€fs AC input terminals to suppress Induced voltage
lransients consistent with:
IEEE Standard 5871980
UL 864 Supply Lln€ Transi€nts
Voltage Sags, Surge, and Dropout per EN 610004-11 (EN 1000-4-11)
G.
ln the event oi the loss of normal pov'rer, there shall be an orderly shutdown of all HVAC
Mechanical Equipment Controll€rs to prevent the loss of daiaba$ or operaling system
sof1war6. Non-volatile memory shall be incorporated for all critical controller configuration data
and battery backup shall be provided to support lhe r€al-time clock and all volatil€ m€mory for a
minimum of 72 hours,
2.5
1.
Upon restoration of normal power, the HVAC Mechanical Equipment Conttoller shall
automatically resume full operation withoui manual intervention.
2,
Should HVAC Mechanical Equipment Controller memory be lost tor any reaaon, the
user shall have the capability of reloading the HVAC MeEhanical Equipment
Controller via the local RS-232C Dort, via telephone line dial-in or from a network
workstation PC.
DDC & HVAC MECHANICAL EQUIPMENT CONTROLLER RESIDENT SOFTWARE FEATURES
A.
General:
'1.
The softwars programs specmed in this Secfion shall be provided as an integra! patt
of DDC and HVAC Mechanical Equipment Controllers and shall not be dependent
upon arry higher level computer for execution,
2.
All points shallbe identified byupto 30 character point name and 16 character point
PC worl$tation'
descriptar. The same names shall be used at
tho
3.
All digital points shall have user detined two€tat€ status indication
(descriptors with minimum of I sharacters allowed per state (i.e.
summer/winter)).
B.
Control Sofh,vare Description,
1.
The DDC and HVAC Mechanical Equipment Controllers shall havs the ability to
perfom the iollowing pr+-tested control algorithms:
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OCMAPS Proiect No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Project No. N08079
Mareh 4, 2010
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Two-position conrol
b.
Proportional conlrol
Proporiional plus integral contol
d.
Poportional, integral, plus derivative mntrol
Automatic tuning of control loop€
f.
Model-Free Adaptive Conftd
DDC and HVAC Mechanical Equipm8nt @ntrollers shall provide the fotrowing ehergy
management butines for the purpose of optimizing ensrgy consumption while maintaining
occupant comfort.
Start-Stop Time Optimization (SSTO) shall automatlcally be coordinated with event
scheduling. The SSTO program shall start HVAC squipm€rt at the latest posslble_
tims that will allow the equipment to achia!r'e the desired mne condition by lime of
occupancy. The SSTO program shall also shut do$,n HVAC equipmsnt al lhe earlieet
possible lime before th€ end of the occupancy pariod, and still maintain deslrBd
mmfort mnditions.
a)
I
The SSTO program shalloperate in both the h€aling and cooling seasons.
1)
2)
I
b)
lt shall be posslble to apply the SSTO program to individual fan
systems.
Th6 SSTO program shall operate on bolh outside w€ather
conditions as well as inside zone condilions and empirical factols.
Th€ SSTO program shall meet the local code requiremel s for minimum
outside air while the building is occupied.
Event Sch€duling: Provide a comprehensiva menu driven program to automatically
start and stop design€ted polnts or groups of points accotdlng to a storcd time.
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a)
b)
lt shall be possible to individually command a point or group of
poinb.
For points assigned !o one common load group, it shall be posibls to
assign variable time delays betw€Bn each succe$ive start or stop within
that group.
c)
Ths opsratot shall be able to define tha folbwing informatbn:
1
2.
3,
4.
Time, day
Commands such as on, off, auto, and so forth.
Time delays b€twe€n suceessive commands.
There shall ba provisiorE ior manual oveniding of each schedule
by an appropriate operator.
d)
3.
lt shall be possible to schedule events up to one ysar in advance.
Scheduling shall be calendar based'
Holidays shall allow for different schedules.
1.
2.
Elrthalpy switchover feconomizer) .The Energy Management Conliol Softvare
(EMCS) will control the position of the air handler relief, return, and outside air
dampeB. li the outside ah dry bulb temperature falls belou/ cfiang€over set point lhe
EMCS will modulat€ th€ damperE to provide 100 percent oubide air. The user will be
abls to quickly changeover to an economizer Eystem based on dry bulb temperature
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OCMAPS Proiec't No. ES-0047
Thelma R. Parks Elemenlary SchoolAddltion/Renovation, Oklahoma City, OK
Proiect llo. N08O79
March 4, 2010
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and will be 6ble to override the economizer cyde and retum to minimum outside air
operation at any time.
4.
I
Temperatur+compensateddutycycling,
a)
The DCCP (Duty Cycle Conlrol Progmm) thall periodically stop and start
loads according to various pattems,
b)
Tha loads shall be c)€led such thal there i3 a net reduc-tion in both the
electrical demands and lhe energy consum€d,
5.
6.
7.
n
Automatic Daylight Savings Time Switchover: The sysiem shall provide automatic
time adjustment for switching to/ftom Daylight Savings Time.
Night setback contlol: The system shall provide the ability to
setpoints for night control.
Loop Contol.
A
automatically
Model Free Adaptive Control algorithm
or
altemately
adjust
a
PID
(proportional-integral-derivative) closed-loop with direct or reverEe aclion and antiwindup shall be supplied. The algorithm shall calculate a time-varyirE analog value
that is used to position an output or stage a series of outputs. Th€ controlled variable,
set point, and weigtrting parameters shall be user-selechble.
DDC and HVAC Mechanical Equipment Controllers shall be able to execute custom,
job-specific prclcesses defined by lhe user, to automatically perform calculations and special
control routines.
1.
2.
A single process shall be able io incorporate measured or calculated data from any
and all other DDC and HVAC Mechanical Equipment Controllers on th€ n6twork' In
addition, a single process shall be able to issue commands to points in any and all
other DDC and HVAC Mechanical Eouioment Controllers on the network. Database
shall support 30 character, English language point name€, structured for searching
and logs.
Processes shall be able to generate operator messages and advisories to operator
l/O devices. A process shall be able to directly send a message to a specified device
or cause lhe execution of a dial-uo connection to a remote device such as a printer or
pager.
E.
3.
DDC and HVAC Me€hanical Equipment Controllat shall provide a HELP tunction key,
providing enhanc€d mntexi sensltiv€ onlioe help with task orientated information
from the user manual.
4,
DDC and HVAC M€chanical Equipment Controller shall be capable of comment lines
for seouence of ooeration exDlanation.
Alarm managemerd shall be provided to monitor and direct alatm information to operator
devices. Each DDC and HVAC Mechanical Equipment Controller shall perform disttibuted,
independent alarm analysis and filtering to minimize operator interruptions due to non-critical
alarms, minimize netu/o* traffc and prevent alarms frcm being bst. At no time shallthe DDC
and HVAC Mechanical Equipment Controllers ability to report alarms be affected by either
operator or activity at a PC \,t/orkstation, local l/O device or communications with other panels
on the network.
1.
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All alarm or point change reports shall include the point's English
language
dessription and the time and date of occufienc€.
The user shall be able to define the speciflc system reaction for each point, Alarms
shall be prioritized to minimizs nuisance reporting and to speed operator rcsponse to
critical alams- A minimum of six priority levels shall be provided for each point. Point
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Thelma R. Parks Elementary School Additioni Renovatlon, Oklahoma City, OK
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March 4, 2010
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priority levels shall be combined with |.6€r definable dEstinatiofl categorle8 (PC'
irintei, ooc controthr, 6tc.) to provide full fexibility in de-fining the handling of syEt8m
alarms. Each DDC and FtVAc M€chanical Equipmgnt Contollar shall automati€lly
inhibit the t€potting of sel6c{ed alsrms during systgm shutdown ard Etart-up. Us€ts
shall have the ability io manually inhibit slarm r€po ing for each point.
Alarm reports and messagea will be direcied to a u66rd€tined list of operabr devices
or PCs bas6d on time (after hours destinations) or based on pdority.
4.
the poinl's deBcriptor ard th€ time and datq ths user shall be abla to
print, dbplay ot sbre a 2OO charader ahrm messgge b more fully descri.be fle alanI..
ln additbn
b
coJdition or direct operator response.
5.
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In dial-up applications, operator-selecled alarms shall inniate a call to a r€rnote
operator dsvice.
F.
.
A variety of hisiorical data collection utilltes shall be provlded to manually of automaticslly
sample, store and disptay sFtem data for points as specified in the l/o 8ummary'
1.
Any point, physical or calculated may be deslgnatsd for trending' AlY pont
rejarbtesa ot ftrysical location in lhe netwolk may be collected and sbred in each
DDC and FIVAC Mechanical Equipment Contrcllers point group' Two melhods of
collection shall be allowed; eiher by a predefined lime inteffal or upon a pr+deflned
chande of valua. Samole intervals ot I minute to ? days shall be provided' Eaeh DDC
ano FveC Mechanicil Equlpmant controller shall ha\€ a dddicaied Mh&based
data 8aflpls'
butfer for trend data and 6hall be capable of storing e minimum of
- without mantEl
All trend data shall be available for t€nsfur tc a Workstation
lntervEntion.
2.
DDc and I-WAC Mechanical Equipm€nt Controllers shall also Provide high resolution
sampling capabllity for wrification od control loop pefformance.
evid;nd
a.
-
Documefited
toop control shall be provided on a regular basis, (rflor h' seaEorl
For Model-Free AdapflvB controt loopS, evidenca of tmed loop control shall
be provided via graphicat plots of trendad data logs' Graphical plot shall
minimally include depictions of s€tpoint, proeess vadable (output)' and
mntrol variabls (e g.; temperature)' Other param€t'srs that may influence
loop control shal ,lso bs included in the plot (e 9., fan orvof, mixed air
temP)'
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tned
quarter, annual)
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b.
For PID control loops, operator'initiated aubmatic ard manual loop tuning
algodthms shall be provided for all operaior-selscted PID contml loops'
Evidancs of tuned loop perfomance shall be prcvid€d via graphical plotB or
trended data logs for all loops.
1- ln automatic mode, the contuolter shall pErform a step respons€ t€6t wilh
a minimum on+second resolution, evaluate the lrend data, cakulate lhe
net r PID gains and input thess values into lhe sel€cted LOOP statement'
2.
and
Loop tuning shall be capable of being initiated either locally at the DDc
fl/AC Mechanlcal Equipment Controller, from a netwolk work8iation or
ismotdy using dial-in modema' For all loop-lunlng funclbns, access shall bc
limited to authorized pelsonnel through password prctection'
G.
DDC ard HVAC Mechanical Equipment Controllers shall be capabl€ of automatlc€lly
accumula ng and storing run-time hours for digital input and output poinG and autom€tically
sample, calculate and sdre consumption totals for analog and digital pulse input type points, a$
specified in thd point UO schedule.
H.
The peer-tGpeer nelwork shall allow the DDC and HVAC Mechahlcal Equlpment Contollar5-E
accep any data from or send conlml mmmands and alarm reporF direcdy to any- other.DDc
and HVAC Mechanieal Equlpm€nt Confoller or combination of controll€rs on lhe neti'od(
17975
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma Ciiy' OK
Project No. N08079
March 4, 2010
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a centlal or iniermediate processing device. DDC and HVAC
Mechanical Equipmenl Controller3 shall send alarm reports to multiple workstations wlthout
dependence upon a ceniral or irtermediate pmcessing device. The peer to peer network shall
also allow any DDC and HVAC Meohanical Equipment Controller to acces6, €dit, modify, add,
delete, back up, ard restore all system point database and all programs.
wlthorjt dependence updn
l.
The oeer to oeer nehvork shall allow the DDC and HVAC Mechanical EquiDment Controllers to
assign a minimum of 50 passwords access and controt priorities io each point individuatly, The
logon pas$/vord (at any PC v/oftstation or portable oparalor terminal) shall €nable the ope€tor
to monitor, adjust and control the poinb that the op€rator is authorized for. All other points shall
not b€ displayed on the PC woftstation or portable terminal (e.9. all base bulldlng and all lenant
points shall be accessible to any bas€ building operators, but only tenant poinb shall be
accessible to lenant building operators). Passwords and priorities for every point shall be fully
programmable and adJustable.
J.
When part of a Lonworks network, the DDC or I-IVAC Mechanical Equipment controller shall
have a mmmon database server ior all Lonwo*s network lniormation embedd€d, This
€mbedded Lonworks network database s€rver maintalns a dynamic, r6al tim€ repres€ntalion of
the Lonworks netwsrk including connections/bindings, node status, and corfiguration
properties. A PC must NOT be required for this database.
FLOOR LEVEL NETWORK APPLICATION SPECIFIC CONTROLLERS (ASC}
A.
Each DDC Controller shall be abla lo s,\tend its performance and capacity through the use of
remote applicalion specific controllers (ASCS) lhrough Floor Level LAN Devlce Networks.
B.
Each ASC shall opeEte as a stard-alone controller capable of performing its specified conirol
responsibilities independently of oth€r confollers in the nelwork Each ASC shall be a
microprocessor-based, multi-tasking, real-time digital control processor. Each ASC shall be
capable of contol of the terminal device indeperdent of the manufacturer of the terminal
device.
C.
TerminalEquipmentControllers:
1.
Provide for contrsl of each piece of equlpment, including, but not limited to, the
fdllowing:
b.
c.
o.
f.
2.
Unit Heaters
Humidifiers
Rooftop Units
Unit Conditioners
Heat Pumps
Unit Ventllators
Room Pressurization
Controllers shall include all point inputs and outputs necsssary to p€rform the
specified control sequsnceE. Analog outsuts shall be industry standard signals such
as 24V floating control, 3-15 psi pneumatic, 0-10v allowing for interface to a varlety of
modulating 6c'tuators.
3.
All controller sequences and operation shall provide closed loop contrcl of the
intended application. Closing control loops over the FLN, BLN or MLN is not
acceptable
FIELD DEVICES
A
B.
Provide instrumentation as required for moniioring, control or optimizaion functions.
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Room Temoerature Sensors
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OCMAPS Project No. ES-0047
Theima R. Parks Elementary School AdditiodRenovation, Oklahoma City, OK
Pmject No. N08079
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Digital room sensors shall haw LCD display, day / night ovsftidB bufion, and seQolnt
sliae adjuslrnent oyenide options. The seFoint sllde adiustment can be softlvare
limited by the autcmation s}€tem to limlt the amount of room adiusfnent
1.
Or.Jtput
signal
Accuracy at Calibration point
Set Point and Display RarEe
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55'to 95'
. Duct (single poini) tsmperature;
Temperafu ra monibring range
Otnpln signal
AccuGcy at Calibration poirt
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+20/120'F -13" to 49'C)
Changing resistanca
10.5'F (+/- 0.3"C)
Tsmperafu re monitoring range
F
(13'io 35'c)
+20n20'F (-7"149"c1
ChangirE resistance
t0.s'F (+/-0.3"cI
Ducl Average tetnperature:
+20"
T€mpsrature monitoril€ range
Output signal
lr
20"F(-7'l+"49'C)
4-20mADC
10.5"F (103'C)
25' L {7.3m)
Accuracy at Calibration poirt
Sensor Prob€ Length
Outside air tempgratur€:
T€mperature monitoril€ range
Output signal
Accuracy at Callbratlon point
-58':122"
FG50qC
b
+50oC)
4-20mADC
10.5'F (+10.3'C).
Differential pres6urs:
'1.
Unit for air flow shall be SiemerB Building Technologies SW141.
Sst point ranses: 0.s" wG to.1.0'
D.
.
E.
wG
.,r.0"
#24.0
Static pressure sensor:
Range
ATdtet;Lr.u
r"l
to .5 WG (0 to 124.4 Pa)
to 1'wG (0 to 2/t8.8 Pa)
to 2' WG (0 b 497.7 Pa)
to 5' WG (0 to 1.2 kPa
to 10" WG (0 tc 2.5 kPa)
- 20 m,q VDC
0.5% tull range
-40P to I 7so F (-40C b 79.5oC)
0
0
0
0
0
4
ou$d shnsl
Combinsd stalic error
Operating Tsmperature
Air Pressure Senson
Range:
0
0
0
0
0
0
0
to 0.1 in. water (0 to 24.9 Pa)
to 0.25 in. waler (0 to 63.2 Pa)
io 0.5 in. waier (0 to 124.5 Pa)
to 1.0 in. water (o to 249 Pa)
io 2.0 in watar 90 to 498 Pa)
lo 5.0 in. wal€r (0 to 1.25 kPa)
to 10.0 in.water (0 to 2.49 kPa)
4to20mA
Output signal
Acqlracy
F.
"
11.0%o of
tull scale
Humidity Sensors:
0 to 100% RH
Range
Sensing Element
Bulk Polymer
4-20mADC
OutprJt Signal
17975
OCMAPS Project No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Project No. N08079
March 4, 2010
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At 77"F(25oC)
Accuracy
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Contlol Valvos (all control valves shall have electric ac'tustors).
I.
Elechic Confol
Range ability
Modified. Equal percentage
Flow Charactedstlcs
Normalooen or closed as sehded
ControlAdion
Medium
Steam, water, glycol
Body Type
Sclew€d ends 2" and smaller, flanged
Valves
Bronze
Bronze
Stainless Steel
Actuabr
0-10 VDC, +20 MA or 2 position
24 VAC/12oVAC
All automatic temparaturs control valves in water lines shall be piovided with
characteriz€d thmtding plugs and shall be sized for minimum 2570 otthe s)€tem
prcssure drop or 5 psi, whichever is lass.
Body Matorial
Body Trim
Stem
2,
J.
a)
Positive positioning relays shall bs provided on pneumatic contIol when
requirBd to provide suffici€nt power for sequencing.
b)
Two position valves shall be line siza.
1.
Electric control shall be Slemens Building Tachnologies OpenAirft direct coupled
actuators,
l
2.
Damper aciuators shall b€ Btushless DC Motor Technology wlth stall protection, bidirectional, fail safe spring retum, all metal housing, manualovenide, independently
adjustable dual auxiliary switch.
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Damper Actuators
a)
B.
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The sc'tuator assembly shall include the necessary hardwar€ and proper
mounting and connection to a standard %" diameter shaft or damper blade.
3.
Aclualors shall be d€signed for mounting direc,tly to the damper shaft without the need
for connecting linkag$,
4.
Alt actuators having more than 100 lb-in iorque output shall have a self-centering
damper shaft clamp that guarantees concentric alhnment of the actuato/s output
coupling with the damper shaft. The self-centeting clamp shall have a palr of
opposed 'v' shaped toothed cradles; each having two m\{s ot te€th to maximize
holding strength. A single clamping bolt shall simul€neously drive both ffadles into
contact with the damper shafl
5,
Allactuators having more than a 1OO lb-in iorque output shall accept a
shaft directly, without the need for auxiliary adapters.
6.
All actuatorE shall be designed and manufactured using lsogooregistered
procedures, and shall be Listed under Standards U1873 and CSA22.2 No 2+93 l.
'1"
diameter
Duct Smoke Detectors:
1.
Duct smoke datectors will be provided and installed by fte Division 16 Contractor in
supply and retum air ducts installed in accordance with local codes.
17975
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovation, Oklahoma City, OK
Proiect No. N08079
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2.
BAS Contractor shall connBd the DDC System to tha auxiliary conia.ts provided on
the Smoke Detedor as required for system safeties and to Fovide alarms to ths DDC
system.
PART 3 - EXECUTION
3.I
PROJECT MANAGEMENT
Provlde a dsignated project manager who will be responsible iDr the follor,/ing:
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Gonstrudl and maintBin pmlecl schedule
On-site coodination with all applicable trades, subcont?c1ors, 8nd other integralion vendors
Arthoriz€d b accept and exedjte orders or irFtructions from owner/aldlitect
Attend project meetings as necessary to avoid conflicb 8M dela]'s
Make necessary fleH decisions relalirq to this scope of wolk
SEOUENCE OF OPERATION
A.
FCU Sequence of Op€tation
1.
An application specific DDC contrcller using eledric aclualiofi controls the fan coil qJilt
heatlng or cooling c)'cles based on contul
s!'stem intsrlock to indicate whe{her hsating or cooling is available. The spacs sarved
(FCtj). The contots wi|| opeBte on
bythe FCU is controlled in Occupied and Unoccupied modes as follours:
2.
Occupied
The FCU fan opsates conlinuously. The mntroll€r monitors lhe room tempclatwe
aerreor and modulat€s th€ FCU heating/cooling valvs io mairfaln ft6 Epac€
temD€rature at set ooint.
3.
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A.
FC1J
fan is off when the space is satisfed. The controller may r€s€( b the Occupied mode
for a predetermined tim€ pedod upon a signal from the cont|ol system or manually
from a switch at lhe room sensor.
4.
B.
Unoccupied
The FCU is controlled u$ing the Unoccupied space temp€ratwe set point ThE
The DDC system uses a current swltch
b
monitor the FCU fan status'
ERV Soquenc€ of Oporation
l.
The bulldlng automation system shall enable or givs the ERV a start mmmand wh€n
the buildir€ is occupied. On board mnfob control the ERV system' Ses Spsc
Seciion 157O.
2.
3.
MonitorO,S. alr supply temperature from the ERV'
Provide dirv filter switch alarm on the ERV. Two switcheg
START-UP AND COMMISSIOFIING
when insbllation of lhe s!,stem is complete, calibrate equipm€nt.ind verity trarNsmlssbn media
operation before the system is placed on-line. All te6ting, calibrating, sdlusting and final field
tesG sh€ll be completed by ths manufacturer. Verify that all systems are operable irom local
cont]3ls in lhe specm€d failwe mode upon panel fallure or bss of power'
B.
Provide any recommendation ior system modificatbn in writilE to owner. Do not make any
system modmcation, induding operating parameters and control seflingF, without prior approval
of ownsr.
17975
OCMAPS Proiect No. ES4047
Thelma R. Parks Elementary SchoolAddilion/Renovation, Oklahoma City, OK
Proiect No. N08079
Madr 4, 2010
C.
After manufacturer has complBted system start-up and commissioning. Joint commlssioning of
int€grated system segments shall be completed. Equipment manufacfurers must irrclud€
necessary lime for joint commissioning.
a.
Stad-Up and Check-out Procedures
The BACTBI client supplier shall independently start-up, cheek-out and t€st all
hardware and sofiware and verify communication between all componanb of th€
BACnet client.
b. Joint Commissioning
b l
- Verify operation of the integraied system.
)Upon review of software, a polnt io polnt tsst ofthe integrated control installation shall
commenc€. Th€ BACnet client supplier representalive in conJuncfon with th€ building
control vendor shall test acfual field operation of each control and sensing point.
Compare the values read in the BACnet client and the Apogee system.
b2) When the point to point inpuuoutput lesting i8 successfully completed, a series
of
hardware/softwa€ systems tests shall be performed. All groups of points that yield a
system control shall be testsd for compliance wlth th€ sequences of oPeration. The
tests shall lnclude but not ba limited to:
a, Control interlocks and any miscellaneous sequ€nces slrall be tested.
b. All
alam and shutdown modes shall be tested for prop€r operation.
b3) The engineer and Owner may elect to be present to observe and review these tests.
They shall be notifled at least ten dalrE in advance of the start ofthe testing procedures
3.4
ELECTRICAL WIRING AND MATERIALS
A.
Install, connecl and wire tha it6ms includ€d under this Section. This r,r,o* includes prcviding
required conduit, wire, fittings, and relaied wiring accessories, All wiring shall be installed in
condult where reouired.
B.
Proyide wiring between thermostats, aquastats and unit heater motors, all control and alarm wiring
for all control and alarm d€vic68 for all Sections of Specifications. Siemens wireless
product$/solutiom are acceptable.
C.
Provide 120 volL single phase, 60 hertr emergency power to every B.M.S. DDC Controller panel,
HvAo/Mechanical Equipment Controller, PC mnsole, powet supply, transtorm€r, annunciator,
modems, printers and to other devices as r€quired. lt is the intent that the eniire building
manag€ment systgm except ierminal eguipment shall be operative under emergency power
conditions in the building. The power supplies are to be extended in conduit and wire trom
emergency circuit breakers,
D.
E,
F.
G.
H.
Provide status function conduit and wiring for equipmenl covered under this Section.
Provide conduit and wiring b€twe€n the B.M.S. panels and lhe temperature, humidity, or pressure
sensing elements, including low voltage control wiring In conduit.
Provide conduit and control wiring for devices specified in this Section.
Provide conduit and signal wiring bstween molor starteF in motor confol centers and high and/or
low temperature relay contacts and remote relays in B.M.S. panels located in ths vicinity of motor
control centers.
Provtde conduit and wiring between the PC workstation, electrical pan6ls, metedng
insbumentation, indicating deviseg, miscellaneous alarm points, remotely operated contractors, and
B.M,S, panels, as shown on the d€wings or as specified.
l.
All whing to be compliant to local building code and the NEC.
17975
ocMAPS Project No. ES-0047
Thelma R. Parks Elementary School Addition/Renovation, Oklahoma City, OK
Project No. N08079
Mardr 4, 2010
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Proyide declrical wall box ard conduit sleeve for all wall mounted devicea'
PERFORMANCE
A"
3.6
Unlsss stated otherwis€, control temperatures within plus or minus 2oF humidity within plus or
minus 3% of the set polnt and Etatic pre$sure within 1qoi6 of sst point.
COMMISSIONING, TESTING AND ACCEPTANCE
A,
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Perfom a three-phase commlssbning procedure consisting of fteH UO calibration and
commi8sionlng, systom oommissioning and integrat€d slrstem pmglam cornmissioning. Dodment
all commissioning infurmation on commicBloning datd sheeB wliich shall be suknilted prior to
accepiance testi;g. Commlssioning work whic$ requires shutdou/n of system or deviaiion from
normal fundion sliall be performed when the operaiion of the system is not Equlred' ThB
commissio]|ing must be coordinated wlth the owner and construc'tlon manager to ensureli'ster-ns
are available when ne€ded. Notity the operating petsonal in writing of the testng schodule so that
authotized Dersonnel trom lhe owner and construdion manager are pres€nt ftoughout lhe
commissioning Procedure.
1.
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b.
c.
d.
e,
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installed
on
Prior to s)€t€m pngrarn mmmissionir€, verify that each cofltrol panel has been
accordin6 to plarE,lpecifications and approved shop drawings' T€s1' calibrate ard brir€
line each contml sensor and devic6. Commissionhg io include, but not be limfted b:
S€nsor accuracy at 10, 50 and 90% of range.
sensor range,
VeriF/ analog limit and binary alarm reporting'
Point value repofting.
Binary atam and switch settings.
Acluator rang96,
Failsafe operation on loss of control signal, electric powsr, network
communicaiions.
B.
After controldevices have been mmmissioned (i.e. calibrated, tesled and signed off), each BMS
program shall be put on line and commi$ioned The confactor shall, in the pres€nc€ of the owner
and construction manager, demonsfaG e€ch programmed sequence cd opBratbn and compare
the resulk in wdling. In addition, €ach control loop thall be tested to verify proper resFonse and
stable corilml, within specified acqJracys. System program test results thellbe recorded on
mmmissioning data sheets aM submitt€d tor record. Arry discropancies between the spedffcation
and the aciual performancs witl bs immediately rectified and r€te€ted.
C.
After aill BMS pograms have been commissioned, lhe contrac,tor shall verit the overall q/stem
perbmance as specmed. Tesb shall inciude, but not be limited to:
1.
2.
3.
4.
5.
6.
Data communication, both normal and failute modes.
Fully loaded system r€sponse time.
lmpact of component failures on system parformance and system operation.
Tlme/Date chang€s.
End of montff and of year operation.
Season changeover.
17575
OCMAPS Proiect No. ES-0047
Thelma R. Park Elementary School Addition/Renovation, Oklahoma City, OK
Pro!:ct l$o. N08079
March 4, 2010
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7.
L
9.
10.
11.
12.
13.
14.
Global applicalion programs and poirt sharing.
System backup and reloading.
System status displays.
Diagnosticfunclions.
Power fuilure routines.
Battery backup.
Smoke Control, stair pressurtsatlon, stair, vents, In concert with Fire Alarm S!.stem testing.
Testing of all electrical and HVAC systems with olher division of work.
D.
Submit for approval, a ddailed acceptance test procedure designed to demonstrate compliance
with contractual requirements. This Acceptance test proc€dur€ will tak6 placa afiff the
commissioning procedure but before final acceptance, to verify that sensors and control devices
mainiain spacified accuracy's and the system perfomance does not degrade over time.
E.
Using the commissioning test data sheets, the confactor shall demonstrate 10% of the total points.
Ths contractor shall also demonstrate all system func'tions. The contrac'tor shall demonstrate points
and system functions until all device8 and functlons meet specification.
F.
The contractorshall supply all InstrumenG for testing and tum or'er same tJ lh6 own€r aft€r
acceptance testing.
1.
Alliest instruments shall be submitted for approval.
Test Instrumem nccuracy:
Temperature: 1l4F ot 1l2lo lull scale, whichever is less.
Pressure:
High Pressure (psi): % psior 1/2% fullscale, whlchever
iB
Low Pressure: i/2"i6 of?us;;cate
(in w.c.)
2% RH
1/4% full scale
Humidity:
Electrical:
G,
After the above tesb are complete and the system is demonstrated to be functioning as spesified, a
thifty day p€riormance test period shall begin. If the system performs as specified throughout the
test period, requiring only routine maintenance, lh€ system shall be accepted. lfthe s),stem fails
during the test, and cannot be fully correcled within eight hours, the owner may request that
oerformance tests be reoeat€d.
EXISTING CONTROL DEVICES
A
The bid for th€ control work shall be based on the premisB that existing control device6 are
operational and are not in need of repairor replacement, unless olherwise noted.
B.
This subcontractor shall notify the owner's representative of existing control devices that need
to be replaced of repaired that may b€ noted in the process of installation of lhe new work.
TRAINING
A,
The manufacturer shall provide facbry trained instructor !o give tull instruction to designated
personnel in the operation ofthe system installed. Instructors shall be thoroughly familiar with
all aspects of the subiect matter they are to teach. The manufacturer shall provide all studenls
a student binder containing product specific faining modules for the system installed. The
',flith
scheduling oftraining shall be coordinated through the Architect and OCMAPS Program
17975
OCMAPS Proiect No. ES-0047
Thelma R. Parks Elemeniary School Additiory'Renovation, Oklahoma City, OK
Project No, N08079
March 4, 2010
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Consultant (The Faclllty Group). Alt tEining shall be held duritq normal working houts of 8:00
am to 4:30 PM we€kdays.
B.
Provide up to two (2) ea€fi, four (4) hour training sessions for O^'neds designaled operating
personnel. Training shall include:
Explanation of drawings, opeft ions and maintenance manuals
Walk-{hrough of the iob to locate control cotnponents
Operator workstation and p6ripherals
DDc controller and ASC operation/fundion
Operator control functions including graphic generdion and field panel programming
Operation of portable operato/s t€rminal
Explanation of adjustmsnt, calibration and replacement procedures
SMent bindsr with training modules
Since the Owner may require personnel to have more comprehenslve undsrstarding of the
hardware and software, additional training must be availabla from th€ Manufaotwer. lf such
training is required by tha Owner, it will be contrac'ted at a later date.
END OF
SECTION-
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OCMAPS Prc'iect No. ES-0047
Thelma R. Parks Elementary SchoolAddition/Renovaiion, Oklahoma City, OK
Proiect No. N08079
March 4, 2010
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ARCHITECTURE
PLANNING
INTERIORS
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OxlenoMA Crw MernopoltrAN
Anea Puelrc Scnool Tnusr
THewR R. Penxs
El-euenranv Scuool
Aoomoru/Reruovnnou
15ol N.w.30* srnesr
Oxl*roun Grw, OKLAHoMA
NORMAN
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ROOM FINISH
SCHEDULE
DALLAS
TULSA
900 36th Ave. N.W.
SUITE l OO
NORMAN, OK73072
405-329-0423
FAX 405-364-1439
A Professioaal Corporation
Arreric$ Inrtitute of Architeots
Membe!:
Architect Project Number
N08079
OCMAPS Project Number
ES-0047
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RooM FtNtsH LEGEND
SCHOOL
OKLAHOMA
THELMA R. PARKS ELEMENATRY
OKLAHOMA CITY,
FLOORTNG
F1:
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VINYLTILE
MANUFACTURER: ARMSTRONG, STANDARD EXCELON
COLOR: 52513 CIROUE WHITE
SIZE. 12"X12"
F2:
CARPET
MANUFACTURER: BIGELOW,ARTROOM
COLOR: MC143,8s6s HOBBYIST
F3:
CERAMIC TILE
F|ELD COLOR
MANUFACTURER: AMERICAN OLEAN
COLOR: Al2SALTANDPEPPER
AccENT COLOR - G|RLS
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PNOIECT NUIIIEER NO8O79
JANUARY 15, 2O1O
MANUFACTURER AMERICAN OLEAN
COLOR: A74 CHILIPEPPER SPECKLED
ACCENTCOLOR-BOYS
MANUFACTURER: AMERICAN OLEAN
COLOR: A09 SAPPHIRE SKY SPECKLED
F4:
F5:
SEALEDCONCRETE
P'R.ELATN'LE
MANUFACTURE: AMERCAN OLEAN -
CW:
COLOR:TOBESELECTED
srZE: 12'X12"
CLEANAND PREP. FORWAX
81:
RUBBERBASE
TERM PAVER
MANUFACTURER: RoPPE
139 DEEP NAVY
SIZE: 4"
coLoR:
82:
CERAMIC TILE BASE
MANUFACTURER: AMERICAN OLEAN
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83:
AI2sALTANDPEPPER
WOODBASE
REDoAK
COLOR: NATUML FINISH
SIZE:4'MATCH EXISTING
WALLS
Pase
1
ROOM FINISH LEGEND
SCHOOL
OKLAHOMA
THELMA R. PARKS ELEMENATRY
OKLAHOMA CITY,
PROJECT NUMBER NO8O79
JANUARY
15' 2010
Wl:
LATEX PAINT
W2:
CARPET WAINSCOTT TO BOTTOM OF WOOD RAIL IN CORRIDOR AREA ONLY
MANUFACTURER: BIGELOW -ART ROOM
COLOR: SELECT BY ARCHITECT
W3:
oERAMIC T|LE (TO 5'-6" HEIGHT) EPOXY PAINT TO 8' ABOVE CEILING HT.
FIELD COLOR
MANUFACTURER: AMERICAN OLEAN' BRIGHT
COLOR: 0045 SALTAND PEPPER
SIZE: 6" X 6"
ACCENT COLOR - GIRLS
MANUFACTURER: AMERICAN OLEAN
COLOR: Q072 POMEGRANATE
SIZE: 6'X 6"
ACCENT COLOR - BOYS
MANUFACTURER: AMERICAN OLEAN
COLOR: 0070 SAPPHIRE SKY
SIZE: 6" X 6"
W4:
CEILING
2'x4' l-AY-lN ACOUSTICAL CEILING TILE
2'x4'MOISTURE RESISTANT LAY-IN ACOUSTICAL CEILING TILE
C3:
PAINTED GYPSUM BOARD (ACRYLIC)
Q4:
PAINTED GYPSUM BOARD (EPOXY)
C5:
EXPOSED STRUCTURE
C6:
EXISTING 2'x4'CEILING REPLACE DAMAGED TILE (WITH MATCHING
EXISTING TILES) PAINT TILES AND GRID.
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EPOXY PAINT TO 8'ABOVE CEILING HT.
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CABINETS
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MANUFACTURER: WILSONART CONTMCT FACTORY SPECIALS
COLOR: 7062-60 CONGO SPRUCE
Page 2
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ROOM FINISH LEGEND
scHoOL
OKLAHOMA
THELMA R. PARKS ELEMENATRY
OKI-AHOMA CITY,
PRoJECT NuMBER NO8O79
JANUARY 15,2010
couNrERroP
PLAMI: PLASTIC LAMINATE
MANUFAcTURER: WILSoNART LAMINATE
COLOR: 4651-60 NAVY LEGACY
pooRs
D1:
D2:
DB:
NATURAL FINISH RED OAK
HOLLOW METAL PAINTED (INTERIOR)
FAcroRy FrNrsH MATcHTNG EXrsrNG (EXTERToR)
DOOR FRAME
_--t,
*ow
MErAL pArNrED (rNrERloR)
wrNpowFMMES
WF1: HOLLOW METAL PAINTED (INTERIOR)
wF2: FACroRy FrNrsH (EXTERT'R)
r
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ws1:
sYNTHETTC MARBLE
WC1: MlNl BLINDS
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,o93ro*,2e0BoRDEAUX
MANUFACTURER: GENERAL PARTITIONS
CoLoR:220 coBALr
Page 3
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ROOM FINISH SGHEDULE
Thelma R. Parks Elementary School
Oklahoma Gity, Oklahoma
Project No.N08079
09/25/09
ROOM NAME
ROOM NUMBER
Administration
Art
Music
OP/PT
4101
A102
A1U3
A104
FLOOR
BASE
FI,F2
B1
NORTH WALL
SOUTH WALL
EASTWALL
WESTWALL
CEIUNG
CEILING HEIGHT
CABINET
B1
B1
B1
W1
W1
W1
w1
W1
W1
W1
W1
W1
c6
c6
c6
COUNTERTOP
DOOR
DOOR FRAME
D1
DF1
WN, FRA'UIE
wtN. stLL
WIN. COVERING
OTHER
NOTES
ROOM NAME
ROOM NUMBER
NOTE 1, 2
Art Storage
Klln
{I05
A106
B1
B1
NORTH WALL
SOUTH WALL
w1
EASTWALL
WESTWALI
W1
W1
W1
W1
W1
W1
CEILING
c6
c3
FLOOR
BASE
wl
CEILING HEIGHT
CABINET
COUNTERTOP
DOOR
DOOR FRAME
WIN. FRAME
Assistant P
A10i
Financial
4106
F2
F2
B1
W1
W1
B1
W1
W1
w1
W1
W1
W1
c1
c1
9',-o"
9'-0"
PLAM
PLAM
PLAMl
D1
DF1
D1
DF1
D1
D1
DF1
wrN. stLl
WIN. COVERING
OTHER
NOTES
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1
ROOM FINISH SCHEDULE
ROOM NAME
ROOM NUMBER
FLOOR
BASE
IIIORTH WALL
SOUTH WALL
EASTWALL
WESTWALL
CEILING
CEILING HEIGHT
CABINET
COUNTERTOP
DOOR
DOOR FRAME
VUN. FRAME
WIN. SILL
General Storage
Counselor Office
4110
Colridor
4112
F1
B1
I
t1
B1
B1
W1
W1
W1
W1
W1
W
W1
W1
W1
W1
W1
W1
a-',|
g'-0'
9',-o'
AM
W1
W1
W1
W
c1
9'-0'
PLAM
PLAMl
D1
DF1
D1
ROOM NAME
ROOM NUMBER
MDCC SDecial Ne6dg
Psvc Area
B{08
8109
FLOOR
BASE
CW
CW
wtN.
A111
Parent Resource
)F1
D1
D1
DF1
DF1
co
OTHER
NOTES
NORTH WALL
SOUTH WALL
EASTWALL
WESTWALL
B1
wl
W1
W1
W1
W1
W1
W1
\
GEILING
t-4
CEILING HEIGHT
CABINET
COUI{TERTOP
9'-0"
PLAM
PLAM
PLAMl
PLAMl
DOOR
DOOR FRAME
D1
D1
DF1
DF1
WIN. FRAI'E
WIN. SILL
WIN. COVERING
OTHER
NOTES
Page 2
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ROOM FINISH SCHEDULE
ROOM NAME
ROOM NUMBER
Restroom
Dl10
FLOOR
BASE
F3
82
NORTH WALL
SOUTH WALI
EAST WALL
W3.W1
W3,W1
W3.W1
W3.W1
WESTWALL
GEILING
HEIGHT
c4
9'-0"
CABINET
COUNTERTOP
DOOR
DOOR FRAME
D1
DF1
WIN. FRAME
T
w|N. SILL
YllN. {,LrV
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OTHER
NOTES
t{Al,lE
ROOM NUMBER
FLOOR
BASE
NORTHWALL
SOUTH WALL
EASTWALL
WESTWALL
Speach Arca
MDCG Special N
E107
CW
E108
CW
E109
CW
W1
W1
W1
W1
W1
W1
w1
wl
w1
W1
W1
W1
c1
HEIGHT
9'-0'
CABINET
PLAM
COUNTERTOP
DOOR
DOOR FRAI'E
PLAMl
D1
DF1
9'-0'
D1
D1
DF1
WIN, FRAME
wtil. slLL
wN. covERtN(
OTHER
NOTES
Page 3
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ROOM FINISH SCHEDULE
ROOM NAME
ROOM NUMBER
Classroom
Fl01
Classloom
Classroom
F102
F103
Classroom
F104
FLOOR
BASE
t-l
F1
B1
F1
B1
F1
B1
W1
W1
W1
W1
W1
W1
/v1
W1
o'-nn
9',-o"
NORTH WALL
SOUTH WALL
E/\STWALL
WESTWALL
B1
w1
W1
W1
W1
w1
CEILING
CEILING HEIGHT
CABINET
9'-0"
PLAM
PLAM
wl
wl
w1
c'l
PLAM
PLAM
COUNTERTOP
PLAMl
PLAMl
PLAMl
PLAMl
DOOR
D1
D1
D1
DF1
DF1
wF2
ws1
D1
DOOR FRAME
DF1
DF1
WIN. FRAIIE
WF2
WFI
WIN, SILL
WS1
WS
WS1
wcl
wc1
wc1
wcl
ROOM NAME
ROOM NUI'BER
Classroom
ESL StoraEe
Glassroom
Glaasroom
Fl06
F107
FlOE
FLOOR
BASE
rl
F1
F
B1
B1
B
NORTH WALL
SOUTH WALL
W1
W1
w1
EASTWALL
WESTWALL
CEILING
CEILING HEIGHT
CABINET
W1
W1
W1
W1
W1
a\1
c1
PLAM
PLAM
PLAM
PLAMl
wlN, covERlNGi
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OTHER
NOTES
F105
w1
c1
9'-0'
PLAM
W1
W1
W1
F1
B1
W1
W1
W1
W1
c1
9'-0'
COUNTERTOP
DOOR
DOOR FRAME
PLAMl
PLAMl
PLAMl
D1
D1
DF1
DF1
D1
DF1
DF1
WIN. FRAME
wF2
WF2
wlN. stLL
WS1
wF2
ws1
WIN. COVERING
wc1
ws1
wc1
WF2
WS1
wc1
wcl
OTHER
NOTES
Page 4
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ROOM FINISH SCHEDULE
ROOM NAME
ROOM NUMBER
Class.oom
Fl09
Self Gontained Sl'l
Fl10
Resource Rm. SN
Fl11
FLOOR
F1
B1
F1
F1
F1
B1
B1
W1
W1
W1
B1
W1
W1
W1
W1
BAI
WALL
SOUTH WALL
EASTWALL
WESTWALL
CEILING
CEILING HEIGHT
G
COUNTERTOP
DOOR
DOOR FRAME
WIN, FRAME
W1
W1
W1
wl
w1
c1
w1
Health Area SN
F112
W'
W
W1
a1
9'-0"
PLAM
o'-n
o,-n'
9'-0"
PLAM
PLAM
PLAM
PLAMl
PLAMl
PLAMl
PLAMl
D1
D1
D1
D1
DF1
DF1
DFl
DF1
wF2
ws1
[uF2
WS1
WC1
wc1
wF2
ws1
wc1
ROOM NAME
ROOM NUMBER
Reatroom
Fl13
Mobile Labs
F114
FLOOR
BASE
F3
B2
F1
F115
F4
B1
B1
NORTH WALL
SOUTH WALL
w3
EASTWALL
WESTWALL
CEILlNG
CEILING HEIGHT
CABINEI
W3
W3
W1
W1
W1
W1
W1
W1
W1
W1
C4
c1
wtN. stLL
WlN. COVERING
OTHER
NOTES
COUNTERTOP
DOOR
DOOR FRAME
WIN. FRAME
WlN. SILL
WIN, COVERING
OTHER
NOTES
W3
Electrlcal
Janitor
Fl16
F4
B1
W4
W4
W4
W4
9'-0"
9',-o'
D1
D1
D1
D1
DFl
DF1
DF1
DF1
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ROOM FINISH SCHEDULE
ROOM h IE
ROOM NUMBER
FLOOR
BASE
NORTHWALI
SOUTH I ALL
EAST V dLL
WESTWALL
CEILING
CElLING HEIGHT
CAB!NET
COUNTERTOI
DOOR
DOORFRAME
Girls
F117
Bovs
Corridor
Conidor
FllE
F119
F120
T
F1
F3
B2
B2
B3
B
w3
w3
w1,w2
W1.W2
W3
W3
W3
W1,W
W1,W2
w1,\ /2
W3
W3
9'-0'
9'-0"
9'-0"
D1
D1
D3
D3
)F1
DF1
c4
DF1
W1,W2
r4
W1.W2
W1,W2
c1
wtN,
wtN. stLL
WIN. COVERING
OTH
NOTES
ROOM NAME
ROOM NUMBER
Coridor
FLOOR
BASE
rl
Itc
F1
NORTH WALL
SOUTH WALL
EAST WALL
W1,W2
W1
W1
W1
WESTWALL
CElLING
CEILING HEIGHT
CABINET
COUNTERTOP
Dl
DOOR FRAME
F121
w1,w2
W1,W2
W1.W2
Office/Work SN
F122
B1
wl
c1
9'-0'
9'-0"
D3
D1
DFl
DF1
wlN. FRAME
$nN. srLL
WIN. COVERING
OTHER
NOTES
KEYED NOTES FOR ROOM FINISH SCHEDULE:
1.
2.
FOR ROOMS IN ADMINISTRATION TO RECEIVE NEW FLOOR FINISH REF. SHEET 3A3
ENTRY VESTIBULE RECEIVES NEW PORCELAIN TILE AND WOOD BASE REF. SHEET 3A3
Page 6
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DOOR SCHEDULE
FOR
ARCHITECTURE
PLANNING
INTEFIORS
Tneuae R. PRRrs
ElemeuranY ScnootAoorroru/Renovnnou
lsol N.w. 30*srnEsr
Oxlarpua Grw, OKLAHoMA
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DALLAS
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OrlenoMA GmY M ernopoLtrAN
Anen Pueuc ScHool Tnusr
9OO 36rh
Ave. N.W.
sutTE 100
NORMAN, OK73072
405-329-0423
FAX 405-364-1439
A hofessiodl Coryomtiotr
Afierical Institrte of Architects
Member:
Architect Proiect Number
N08079
OCMAPS Project Number
ES-0047
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ARCHITECTURE
PLANNING
INTERIORS
GEOTEGHNICAL
REPORT
FOR
Orlanoue Crw M erRopoLrrAN
Anee Pueuc Scnool Tnusr
Tueuua R. Pnnrs
EleuerurRRY
Scnool
Aoomon/Rrruovanon
15ol N.w. 3ot"slneer
OKLAHoMA CITY, OKLAHoMA
NORMAN
DALLAS
TULSA
900 36th Ave. N.W.
SUITE l OO
NOFMAN, OK73072
405-329-0423
FAX 405-364-1439
A ProfsssioDal Coeoratio!
MEmbeI: ADericatr Institute of Arcbtects
Architect Project
Nu mb6r
N08079
OCMAPS Proiect Number
ES-0047
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GEOTECHNICAL
SERVICES
This document is preliminary
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signed and sealed doeument'
SUB$URFAGE H(PtORffiIST{
OCMAPS ES-' OM7
Thelma R. Parks Elementary School Building Addition
15Ol N.E. 30s Street
Oklahoma City, Oklahoma
PROJECT NO. 0309-3097
nls oocument
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AHO CNGINEERING COMPANY
Situ" t gl t
pfellFllfrary
3400
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2l
,Terit,
CORPORA
ST]ANDARD
}TESTINGI
15
N
(4Os) s28-0541r
Loop
- rieor z:z-:rso
goe Trails West
ettra.
oklSZOf-Osjg
ieooi
zzs-rrro
elx
rsibi irz-zsrr
Ave
3s3-0872
2OZ SE "1"
tEh,ton, OK
(soo)
isoo)
1s6o;
53Se S 125 East Ave Ste
lulsa, OK 74146-6208
73501-2481
zzs+eza
rax
rs:-rze:
B
(918) 459-2700
(800) 7zs-4s92
(s18) 459'271s FA,\
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June 26, 2009
Oklahoma City Metropolihn Area Public Schools Trust
420 W. Main
Oklahoma CitY, OK 73102
Atin:
Mr. EricWenger, P.E.
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Program Manager
Re:
SubsurfaceElploration
OCMAPS E$0047, Thelma R. Parks Elementary School Building Addition
1501 N.E 30s streel
Okhhoma CitY, Oklahoma 73111
Dear Mr. Wenger:
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Enolosed herewith are the original and two (2).copies of our report covering the subsurface exploration for ttre subject
project. This study was authorized by a letter signed by Mr. Eric J. t /enger, dated May 21, 2009.
Standard Teeting and Enginearing Company conducted a geotechnical investigation at the site of a nanv building addilion
contalns
for Thetma R. pjrks Etementary School located at 1501 N.E. 3O!' Strc€t, Oklahoma City, Oklahome. This report
consideratione'
as
consiruction
as
well
recommandations,
foundation
includihg
of
the
investigation,
results
detailed
'The
subsurface soils consist of appoximately 2.5to 15 fe€t of nonplastic to fairly
and sandy shale over siltston€ (rock) and sandy Ehale (rock).
lo
plasticity silty sand, sandy clay'
Foundation recommendai'Fns include either {1) shalloL frootings or (2) oast-in-place concretg
piers.
We trust that the results and recommendations contained hercin willpermit adequate economicaldesign and construction
of the pmpos€d structure. Unless you speciff otherwise, we will keep sampl* obtained from these borings in our
Oklahoma Ciiy laboratory for the next thirty (30) days.
V\ie appreciate the opportunity to assist on this
proiect. Please call on ue if we can be of further seruice.
Respectfully submitted,
STANDARD TESTING AND ENGINEERING COMPANY
Vajra Rai
Slaff Geotechnical Engineer
Project No. 0309€097
Account No. 0230oKC18
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rnent is Frelimina
in nature and i$ n lt a ?lnal'
signed and sealed tlncument'
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SUBEURFAGE H(PLORATION
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OCMAPS ES- OO47
R.
Parks
Elementary School Building Addition
Thelma
1501 N.E. 30u Street
Oklahoma City, Oklahoma .
PROJECT NO. 0309-3097
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PREPARED FOR
Oklahoma City Metropolitan Area Public Schools Truet
420 W. Main
Oklahoma City, OK 73102
PREPARED BY
STANDARD TESTTNG AND ENGINEERING COMPANY
3400 N. Lincoln Blvd.
Oklahoma City, OK 73105
Certificate of Authorization No. 77, Expiration 6/30109
(405) 52&0541
Prepared By:
Reviewed By:
Vajra Rai
Ming-Cheng Peter Shau, P.E.
Manager, Geotechnical Services
Staff Geotechnical Engineer
June 26, 2009
STANDARq
}TESTING{
iro elcttr:ERtttG cottlPlttt
GEOTECHNICAL SEFVICES
This documeni is Preliminary
signed and sealed documetrt.
TABLE OF CONTENTS
1
4
INTRODUCTION
Authorization
Purpose and ScoPe
Project Location and DescriPtion
FIELD EXPLORATION
Drilling Information . ..
Equipment
TestsPerformed
Paqe
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2
?
2
2
.......
a
Subsurface Conditions
Groundwater......
I.ABORATORY TESTING
Tests Performed . .
ENGINEERING EVALUATION
AND RECOMMENDATIONS
Soil Condiiions
Seismic Site Class
Earthwork Recommendations . .
lnert Fill Requirements ... '
Subgrade Preparation
Compaction Requirements
Drainage . .
Foundation Recommendations
Footing Foundation SYstem ..
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PierFoundationSystem
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Floor Slabs
Basis for Recommendations . .
Appendix A - VicinitY MaP
Site and Boring Locaiion Plan.
AppendixB-BoringLogs
Key to SYmbols
Definition of DescriPtive Terms
Appendix C - MSHTO Soil Classification System
Unified Soil Classificaiion SYstem
Appendix D - Summary of Laboratory Test Results
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GEOTECHNTCAL SERVICES
in nature and !$ not a Tinal.
siEned and seaied documerrf,
LIST OF TABLES
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Relative Elevation of Rock Material
Relaiive Elevation of Groundwater
Paqp
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STAND_A_Eq
GEorEcHNrcAL sERvrcES
r-rF.-s.I^lry"FJ
Seetion
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This ciocument is Preliminary
n naturg ano i5 llur d rrrtqr'
signed and sealed document'
INTRODUCTION
Authorization
performed by standard Tesiing and
This report presents the resuEs of a subsurface exploration
proposal prepared for oklahoma
Engineering company (standard Testing) in accordance with the
identified as standard Testing
city MetropolitanArea Public schoolsTrust, dated April29, 2009, and
a lefter signed by Mr'
project number 0309-3097. We received authorization for this study through
Wenger, Program Manager
Dennis Clowers, Directorof PublicWorks/City Engineerand Mr. EricJ.
of Oklahoma City Metropolitan Area Public Schools Trust, dated May 21 ' 2009'
Purpose and Scope
the subsurface
A geotechnical investigation was performed for the purpose of ('l) determining
of the soils' and (3)
conditions, (2) evaluating the bearing capacity and plasticity characteristics
proposed facility:
making recommendations conceming the earthwork and foundation systemsforthe
Mr. Wenger. The depths qf:ltlg
Five (5) exploratory borings were drilled on the site as requested by
of work proposed by $qnq,9{E
boring$, and types of tesiing were performed accordihg to the scope
and recommendations'afe
Testing and accepted by Mr. Wenger. Nanative descriptions of ourfindings
plan, the boring logs, and summary,ol
, contained in the body of this report. A site and boring location
laboratory test results are included in the Appendices of this report'
Project Location and DescriPtion
Parks Elementary school
The proposed project will be a single story building addition to Thelma R.
is located on thewestsidq
tocated at 1501 N.E. 30h Street in Oklahoma City, Oklahoma, The addition
and wall loads were not knownwhile
of the existing elementary school building. The anticipaied column
this report was written.
must be notified in
lf the project is not as described or has changed, standard Testing
reevaluate the recommendations for the project.
Project No. 0309-3097
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STANDARD
}TESTING{
idD E
GEOTECHNICAL SERVICES
GIIEERII,IG COI'IPANY
This document is preliminary.
signed and sealed document.
Section 2
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FIELD EXPLORATION
Drilling Information
The field exploration work was performed and compleied on June 3 and 8' 2009.
Conditions atthe sitewere investigatedwithfive (5) borings atthe locations indicated onthe site'and
'16.5 to 20.0
boring location plan, included inAppendix'4." Boring depths ranged from
building addition footprint. Surface elevation
of
feetwithiill:
the borings were measured relativeto thefinish flcqr
elevation of ihe existing school building. This temporary benchmark was assigned a reference
elevationofl00.0feet. Foraccuratesampling,cuttingswereobservedcontinuouslyduringdrillingyiflr
specific samples being taken at distinct lithologic changes. The equipment used, field tests
performed, and soil samples iaken are discussed below.
Equipment
.
Five (5) boringswere drydrilledwith airuck-mounted CME-55 rotarydrilling unit
equippedwith3.2S"l.D.XT.25"O.D.hollorrrrstemaugers. Standardpenetration
tests (SPT) used a 1.375" |D split-spoon sampler driven by an automatic. .,
hammer utilizing a 140 lb. weight falling 30 inches.
Tests
Performed
.
fwent/-one
.
(21) standard penetration tests were performed in orderto
'.,.,' i "'
..:ri ir,.,s.i
estimate
- ""-"
the shear strengths ofthe soils in their naturalstate. Thetestwas conducted at
specified by ASTM D1586, "Penetration Test and Split Banel Sampling of' ' .'
Soils." Thein-situshearstrengthofasoilisrelatedtotheN-valuefromthistest.
"N" isthe numberof blows requiredto drive a split-spoon samplertwelve inches,
after a 6 inch seating, into undisturbed soil. The soil samples recovered in the
'
split-spoon banel were removed from the sample tool in the field, visually
ctassified, and labeled according to boring number and depth. Results of the
Proiect No. 0309-3097
June 26, 2009
STANDARq
lTESTll.lc{
iNo tleluegntlc
GEOTECHNICAL SERVICES
cot'tP,rnr
This document !s Preliminary
:
signed and sealed document.
standardpenetration tests are denoted attheir respective depths on the
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boring ;
logs.
grab samples are indicaied on the boring logs
Depths of individual standard penetration tesb and
were labeled and sealed in water
included in Appendix "B." Split- spoon and grab (bag) samples
evaluation and testing'
tight, protective containers and returned io the laboratory for further
Subsurface Conditions
sandy shale over siltstone (rock) and
The soils encountered consist of silty sand, sandy clay, and
to fairly low plasiicity chara*"11?
sandy shale (rock). These near sudace soils exhibit nonplastic
SPT "N" value of 50 blows per 6
Rock material (i.e., defined by standard Penetration test refusal,
relative elevations indicated in the
inches or less penetration) was encountered in the borings at the
following
table;
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Groundwater
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borings ai the depths
During the drilling operation, groundwaterwas encountered in the indicated
should be anticipated in any
shown in the Relative Elevation of Groundwateriable. Presence of water
unpredic{able and may be present
excavation. Watertraveling through soil (subsurface water) is often
the unpredictable nature of
at shallow depths. Due to the seasonal changes in groundwater and
during construction to
groundwaterpaths, groundwaier levels willfluctuaie. Therefore, itis necessary
Proieot No. 0309-3097
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$TANIAEQ
}T'ESTING{
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dto elc
This document is PreliminarY
cEorECHNrcAL sERVToES
tneen
and mdke
be observant for groundwater seepage in excavations in order io assess the situation
necessarychanges. We cannot assume responsibilityfor difficulties experienced during construction
or for future operational problems due to relative elevation or volume of water
Boring No.
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Relative Surface
Elevation
(fee0
Depth (feet)
encountered.
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Relative Elevation
(feet)
93.1
B-1
98.1
B-2
97.3
5.0
YZ.J
B-3
97.3
12.0
6C..t
B-4
uc.z
12.0
83.2
B-5
99.6
.{E n
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Project No. 0309-3097
lr
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9A
9OOQ
STANI)-AE4
GEoTECHNTcAL sERvrcES
Tiris document is prellminary
signed and seated
tIFp,L,[ry"F^f
Jo;;;i.
Section 3
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LABOMTORY TESTING
T
plasticity characterist!cs of the subsuiface'
Laboratory testing was performed in orderto determine the
descriptions of the encountered soils
materials as well as confirm the soil classifications. General
values of the test results are on the
together with visual and laboratory classifications and numerical
nsummary of Laboraiory Test Results" is included in Appendix
boring logs included in Appendix "B." A
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Tests Performed
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samples' in
Moisture content tests were performed on split-spoon and bag
conditions'
accordance with ASTM D2216, to determine the in-situ moisture
.
with
Densitytests were Performed on intact split-spoon samples in accordance
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.Atterberg|imitstestswereperformedonsix(6)soilsamplestodeterminethei
p|asticitycharacteristicsandswe||potentia|ofthesoil.ThetesFwerePerfomed-.r|.'::11.
in accordance with ASTM
.
D4318.
,.
ir-1.
li;lil!
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sieve analysis was periormed ontwo (2) soilsamples, in accordancewith
to.th!,,,;,':,ii:r
aid in classification. These soils were classified according
DZ4g7,for
UnifiedSoilC|assificationSystem(Uscs)andtheAmericanAssociationof
StateHighwayandTransportationofficia|s(AASHTo)soi|c|assificaiionsystem'
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Project No. 0309-3097
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ri,:
June 26, 2009
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STANDARq
)TESTINGT
collPAilY
alo E|l6l
GEOTECHNICAL SEBVICES
This document is Prelinrinary
signed and sealed document'
l{EERlalG
Section 4
ENGINEERING EVALUATION
AND RECOMMENDATIONS
SoilConditions
The soils encountered in this investigation consist of silty sand, sandy clay, and sandy shale over
silistone (rock) and sandy shale (rock). The cohesionless soils were found to have a very loose to
medium dense relative density and the cohesive soils were found to be soft to very stiff in consistency.
per
The underlying rocksiltstone and sandyshaleexhibits SPT refusal(i.e., SPT"N"value of 50 blows
6 inches or less penetraiion) at the relative elevations indicated in the ' Relative Elevation of Rock
Material" table in section 2 of this report. The plasticity characterisiics of the soils encountered indicate
that these soils are inactive for consideration of soil expansion on foundation design'
Seismic Site Glass
Based on the results of our investigation, this site is classified as Seismic Site Class
D.
This
recommendation is based on the criteria given in Table 1613.5.2 of the International Building Code
(lBC) 2006, entitled "Site Class Definitions."
:r,;_;'l..l!'
Earthwork Recommendations
Only nonplastic to low plasticity on-site soils or imported inertfillshould be used forfill under struclur9-
Inert fill should meet the following requirements:
lnert Fill Requirements
Amount finer than 2 inch sieve
= 100%
Amouni finerthan No. 200 sieve
= 12% minimum and, if Pl s7, 60% maximum
Liquid Limit
=
Plasticity Index (Pl)
= 17 maximum
Project No. 0309-3097
40 maximum
STANDAEq
cEorEcHNrcAL sERvrcES
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T;tis c"ocurnent is prelinrinary
signed ancl seaied
strippedofa|lvegetaiion,topsoi|,andanyotherde|eteriousmateria|s,
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a
permanent subgrade deformation exceeding 0'5 inch wien traversed by
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Subqrade Preparation
The existing subgrade should be:
.
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tesied for moisture and density and, if deficient, scarified to a depth of
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moisture'
moisture conditioned io within -2 to +4 percentage points of optimum
andcompactediogSpercentormoreofstandardProctormaximumdrydensity
(ASTM D6s8).
ofsubgrade elevation' nor
Removal of soft subgrade should not exceed a 3 foot depth belowfinaltop
extendbetowthestaticarounduraterelevation. lfsuchadepthisreachedwithoutencounteringstable
subgradeconditions'l2inchesofODoTTypeAorTypeBaggregatebaseshou|dbeplacedinthE
placed and compacted to bring the
bottom of the overexcavated area and suitable fll material
subgrade to design elevation.
Compaction Requirements
All fill in the structural area should be:
.compactecttoat|eastg5percentofstandardProctormaximumdrydensity
(ASTMD698)atamoisturecontentwithin-2o/o|o+4o/ooftheoptimum'
.p|acedinliftsnottoexceedeight(8)inchesincompactedthickness.
.testedforfie|ddensityforeachliftoffi||atfrequenciesofevery5000sq.ft'in
areas under structure'
.
especially in structural
Moisture should be maintained up until the ptacement of concrete,
prevent shrinkage (and subsequent post-construction swell) of the soil'
Project No. 0309-3097
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June 26, 2009
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rcAL sERVTcES
--}TESTiNG{
iNo
ENGrr.rtERlNG cottFANY
Tnis document is Preliminaqt
*0"**
sea'led docunnent'
"na
Drainaqe
water
Allareas adjacenttothe building should be sloped awayfrom the structureto preventponding of
near the building.
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Foundation Recommendations
Considering the soils encountered and based on the tesi results of this exploration, the following
foundation design parameters are recommended for the indicated foundation systems:
A.
Footing Foundation Svstem
shallowfoundaiions (e.g., spot orcontinuous cast-in-place concretefootings) may be
usedatthissite, Footingsmustbeplacedaminimumof2.0feetbelowfinishedgrade
to provide adequate protection from frost action. Footings may be used with an
the
allowable net bearing capacity of 2,500 psf if bearing in undisturbed native soil or
compacted inert
fill or
stabilized subgrade as specified
in the
.
Earthwork
Recommendations section of this report. Footings should have a width of at least
1
6
'
': ''i
inches.
,; ,;
'''lt
Footingsareexpectedtoundergonomorethanl.0inchsettlementwhendesignedfor
'
the recommended bearing pressure.
B.
::
'
"itjirin
Pier Foundation Svstem
A satisfactoryfoundaiion alternativeto shallow spread footings may be the use of drilled
cast-in-place concrete piersfounded 2.0feet ormore belowthedepths indicated inthe
"Relative Elevaiion of Rock Material" table provided in Section 2 of this report. Using
this type of foundation, each column is supporied on a single drilled pier and the building
walls are placed on grade beams supported by a series of piers. Loads applied to the
piers are transmitted tothe rock partiallythrough skin friction along the sides of the
pier
.
:
and partially through end bearing pressure.
.i:
Project No. 0309-3097
June 26, 2009
STANDARD
}TESTING{
ino gre tHtentle colPllt
Trris clocument Is preliminary
GEOTECHNICAL SERVICES
v
signeri an,{ s*;ried r{ftcu'.?1elrt.
All drilled Piers should:
.
greater'
extend at least 2.0 feet or at least one (1) pier diameier, whichever is
belowthe depths and etevations indicated in the "Relative Elevation of Rock
Material",
.
have an aspect ratio (length/diameter) of four (4) or more'
.haveaspacingbeiweenindividua|piersofthreediametersormore(c|ear
spacing).
.
grade beams
be adequately reinforced with the reinforcement extending intothe
and/or pier caPs.
of 14,000 psf
Piers may be proportioned using an allowable net end bearing capacity
pier in direct
and an allowable skin friction capacity of 1 ,080 psf for that portion of the
shaft in the
contact with the sandy shale (rock) formations. skin friction along the
this same
overlying soils should be ignored. upliff on the piers can be resisted by using
skin friction value plus an allowance for pierweight. Maximumverticaldisplacementof
piers designed in this manner is expected to be on the order of 0.7% of the pier base
diameter,
be placed
Drilled shafts will require casing or slurry-drilling methods. Concrete should
preventweathering of
in pier holes as soon as practicable after completion of drilling io
pier holes cannot
the bearing stratum and relaxaiion of horizontal ground stlesses' lf the
concrete must be placed by tremie method so as to assure no
be dewatered,
contaminationofthefreshconcretebygroundwaterordrillingfluids. Asufficienthead
its
of plastic concrete should be maintained within the casing at all times during
the
extraction in order to overcome the hydrosiatic groundwater pressure outside
casing.
Proiect No. 0309-3097
June 26, 2009
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lJ-EP,fil.+.F,^"f'GEorEc
HNr
cAL sEFvrcES
Tiiis C,ccunrent is Preliminary
signed and seaied documerrt'
Floor Slabs
constructed as follovtrs:
Concrete slabs-on-grade floors for shallow foundation should be
prepared as described in the
The subgrade, inertfill, or stabilized soil building pad should be
.
Earthwork Recommendations section of this report'
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should be placed
Four (4) inches ormore of granular base, meeting thefollowing requiremenb,
over the subgrade:
passing the
l.5
inches sieve .
passing the #200 sieve .
plasticityindex
.
.
.' "
'
"""
100 %
" 15
""
or less
0/o
oorless
setfAt the time of concrete placement, the granular base should be moist, but free of anY
draining water.
.
areas
The concrete slab should be ptaced a minimum of four (4) inches thick in lighily loaded
the fgotings'
and up to six (6) inches thick in heavily loaded areas and should not be tied into
walls,
stemwalls, or strucluralframe. lf it is necessary to tie the floor slab into the foundation
the
exteriorwalls, and/or pitwalls, the floor should be jointed no more than 10 to 15 feetfrom
. - !:_: :tl
pointofthereskaint(ACl360R-92,Section9,7). othercontroljoinisshouldbeprovided,each
way, ataspacing of 24to 36timesthestabthicknessbutnomorethan 18feet(ACl 302.1R44,
section 3.2.5.3).
;i'- 'j.
moisture)areto
(capillary
conditions
lf floor coverings susceptible to moisture damage bymoistfloor
be used, avaporretarderconsisting of one ormore polyethylene orpolypropylenefabricreinioroement
be
layerswithone ormore bonded polyethylenefilm layers, at least 10 mils in toialthickness, should
placedbelowiheslab. Thevaporretardershouldbelapped6inchesandiapedatjointsandfitted
industry
around all service openings. Section 3.2.3 of ACI 302.1 R-04 provides the most cunent
recommendationsforuseandplacementofvaporretarders.
Figure3.l,inACl 302.1R-04,provides
guidance for determining whetherto place the vapor retarder above or below the "granular material'
below the slab.
Floor slabs can be designed using a modulus of subgrade reaction, kr, of 150 pcifor native soilor
inert fill or stabilized subgrade described in the Earthwork Recommendations section of this report'
Proiect No. 0309-3097
10
June 26, 2009
iriis docun'lent
GEOTECHNICAL SERVICES
irr nalrrra
s:Jret. anii si.'a;( d ri;rc t' nir t.
Basis for
.
.:'.
.: -:i.
Recommendations
The recommendations and conclusions coniained
I
Is preliminary
-.a-l :- _ _r -, ,i:_ ^
in
this report are based on ihe borings drilled and
in material propert'res overthefite.,
tests performed. We would point outthatthere may be variations
differseriouslyfrornthbde
andwould cautionthatthere maybe unknown conditions in existencewhich
at all, cannot be' and havd nbt
encountered by the test borings. Such conditions, if indeed they exist
and conclusiohs
been, accounted for in this report. Therefore, the descriptions, recommendations,
only to the immediate vicinity ofthe
coniained herein should be considered as generalized, applylng
borings.
design, the finalized soil and
Since this report is being prepared in advance of much of the deiailed
system and loading' vertical
sfucture parameters (i.e., floor elevaiion, fill and cut provisions, structural
preparation of this report'
movementtolerance, etc.) may differfrom the ones considered duringthe
requestthe opportunityto revierrythe!
lf such a designvariance is substantial, standardTestingwould
inthis
plansand speciftcations of the proposed facilityforapplicabilitytothe soilconditions
assuran@ of consistency with its
rep"t"ij$
. .:rilil /
intent.
:
.
It is recommended
i.tiltii
,.:,iLir:,.!jj::
earthwork and
that Standard Testing be retained fortesting and observation during
foundationconstructionphases,iohelpdeterminethatthedesignrequirementsarefulfilled'
li:9?l?,:
the pier drilling operationst
recommended that Standard Testing's pier inspector be present during
of embedment
veriry the hardness of the support soil stratum and the proper depth
-o
application tothe project
This report has been prepared forthe exclusive use of our6lientforspecific
geotechnical pT"l*:
discussed, and has been prepared in accordance with generally accepted
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Project No. 0309-3097
11
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STAN9-AE4
GEorEcHNrcAL sERVTcES
Tnis a'ocument is preliminasy
slgned and seaied dacu,ner:t'
I-IFFF,,1ry"F,J
:
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APPENDIX A
Vicinity MaP
Site and Boring Location Plan
"'
Tiiis Cocument Is prelintinary
rn naiure and is nst a final,
o'3nec and sealed docu:net t.
'El
.iuli
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naiure and !s n.lt a ;ina,,
s:gneci and sealed documer:t.
6l'7BIl.=lJ
t!
dl
=
E
o
o
!
f..
i9
.r,fi_,el
irllS COGUfllef ll lJ XJlElirrrrrrert
GEOTECHNICAL SERVICES
in naiure ;lnrj ls not a .inai'
APPENDIX B
Boring Logs
Key to SYmbols
Detinition of DescriPtive Terms
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This Cocument is prelinrinary
GEOTECHNICAL SERVICES
siir:td tiocu:nert
SOIL BORING LOG:;rec;an;i
Boring
Project:
Thetma Parks Elemenrary School Building
Location:
No.
B-1
Addition
Project
Boring Location: S. end ot the Bldo. addition
Drill Method: cME- 55 w /9-,25"1.D' - 7.25" o.D.
Surface Elevation:
.
lootprint
HSA-
Project No.: 0309-3097
Date Drilled': 6/3/09
ProjeCt Engineerl Vaira Rai
Field Logger: Chris Mcmullen
Water Depthi 5 fr. @ Conpletion
-
Moisturs/Plqstioity
Ele\,./Depth
EI
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ol
-E
P
-I
0-5
6
PL#LI
0 20 30 ,l.o 60 Eo
1
content, 96 - a
ro 20 30 rto 50 6{)
Wfifi
Reddish Bm. SILTY SAND
Sl, Moist, Nonplastic
XI
7
Soll DBs.ription
HEE
6/6'
36/6"
50/6.
VI
(ROCK) Reddish Brn. SILTSTONE
Moist, NonplaEtic, Soft
106
a,
a:
Al
d
49/6'
50t2'
I
-7
VI
AI
A
a
-
50/4"
28i6"
50/3'
Tr. Plssticity
LL= 18. Pl=
2
{RocK} Reddish Brn. SANDY SHALE
Sl. Moist, Fl. Low Plastlclty, Soft
LL= 27. Pl= 12
118
) ll
=L
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sTAl{DARq
}TESTING{
dro ercttgentnc colPllv
ls PreltnitnatY
i"iis cccun'en'r l(.r
i,,"a r nri
GEOTECHNICAL SERVICES
sou ronrNG LdHt*-*
Boring No. -9-?
iddition
Thelma Parks Elementarv School Buildinp
Project:
Proiect fBoring Locationr s.w "ornuffi
Drill Method: cMe- ss * I s;FlD' -1J5" 05'
97'3 ft'
Surface Elevation:
Remarks: BM: F.F, of exisitins school bldg'
-
HSe
lroje1Drilled
$,o';
FI
*altd
clt a ;il'l
document'
q?o::'g#gl-
Date
': 6/8iog Rai
Project Engine€r:. v-ajra
Field Logger: chris Mcmullon
Water Depth: 5 ft' @ Completion
rr r'> lJ! Erlattlt tcll y
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GEOTECHNICAL SERVICES
:n na'-ure ; nd is not a i"inal
ilcu:neri
SOIL BORING LOG
Boring
No.
B-3
Project: Thelma Parks Elementarv Sohool Building Addition
erolect Location: oklahoma citv, oK
Boring Location: C;;ier of thg Btdg. addttion footprint
Drill Method: CME- 55 w / 3.25"l.D' - 7.25" o,D, HSA
97.3 ft.
Surface Elevation:
schgol
bldg.
F.F.
exisiting
BMt
of
Remarks:
Ele\r.rDsp*l
Feet
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Project N.o.: 0309-3097
Date Drilled..l 6/3/09
Project Engineer: EjIq l.eiField Logger: chris Mcmullen
Water Depth: 12 ft, @ Completion
Mqisturg/Ft stblty
Soil De8cilption
ftEE
-6
Ft
6
_o.
g
Brt
flg
8fl
PL#tL
10 20 30 40 50
Wslcr Content, %
.
to 20 30 40 50
Feddish Brn. SILTY SAND
Sl. Moist, Nonplastic
fl ,*,*,
a
a
il;i;ii fi
. s-riiiioi'ii
iA'oCKi
Sl. Moigt, Nonplastic, Ssft
Wet
[;,
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4
30/6"
(FocK) neddish Btn. &
GraY SANDY SHALE
122
Moist, Low Hasticity, Soft
LL= 23, Pl= 7
115
60
a
60
..
STANDARD
}TESTINC{
dxo ele trt tlo coxPlnv
en
'r-,iis cccun.ent is Preliminary
GEOTECHNICAL SERVICES
solL
BORING LOG"il"*':
Boring
Project:
Thelma Parks Elementarv School Buildinq
No.
B-4
Addition
Project L
rl,e Btdc'.
Boring Location: N.W
"ddition
"ornJii
g:r't.o.
- l.es'
o.o,
Drill liiethod: Ctue- 6s w /
Surface Eleva
Remarks: BM: F.F. of exisiting school blds.
footptint
Hsn
en"i
si.:{
d dncu:ne'L
Project No': 0309-3097
Date Drilled.': 6/8/99
P.roject Engineer: Vaira Ral
Field Logger: Chris Mcmullen
Water Depth: 1 2 ft' @ compl€tion
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GEOTECHNICAL SEFVICES
1n
na'-ure anci is not
a'iinal'
SOIL BORING LOG
Bor:ing No. e-s
Project: Thelma Parks Elsmentsry School Buildins Addition
.
Project L
Boring Location: N.i. corner of the Blds. addition iootprint
Drill Method: CME- 55 w 13.25"1.D. - 7.25" o.D. HSA
s9,6 ft.
Surface gl"uuti*,
Remarks: BM: F.F. of exishing
school blds.
Projecl Ng'; o!9.9i-3.W7
Date Drilled.': 6/8lop
Project Engineer: Vaira Rai
Field Logger: Chris Mcmullen
Water Depth: 15 ft' @ complet;on
'i'tis iccun:ent is Prelinrinary
ln t?A"r.rr?.rrii
GEOTECHNICAL SERVICES :4
na'rn"o an-d !s:-E
rlsjirre.le;ineit
;ci n':'t
sr3;1.1r'-
KEY TO SYMBOLS
S1rrnlcol
. DescriPtion
srRerg
SYMBOT-,s
SiLty
Fffi
lltitid
S
ffi
'
wwl
Sand
il-tstone
SandY Shale
sandy ClaY
W
Misc.
SvmboLg
water level- at comPletion of
diilliag oPerations
+
SoiL SamPlers
.
sampLe taken
f rom aug-er f lightE, ASTM Dl-452
N7
lA
Bulk
n
7_)
standard Penetratlon Test, AsTu D1586
anii st;i:( d documer:t
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STANDARD
}'TESTIHG{
CO
AND ENGI{EERING
GEOTECHNICAL SERVICES
T,Tis Cccun.ent is Prelintinary
slgnec an,i seale.d documenL
PA}IY
DEFINITION OF DESCRIPTIVE TERMS
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Consistency of Cohesive Soils (at moisture content near Plastic limit):
verysoft - Easily penetrated 4'to 6'by fist; tall core will 8ag under its own weight.
Soft - Easily molded bY fingers.
Firm - Can be penetrated 2" to 3" by thumb with moderate effort, imprinted with fingers'
Stiff - Readily indented by thumb but penetraied only with great effort'
Very Stifi- R-eadily indenied by thumbnail, imprinted very slightly with pressure from ftngers.
Hard - Indented with difficulty by thumbnail, cannot be imprinted with fingers'
Density of Cohesionless Soils:
Very Loose - less than 4 SPT "N' value c,orrected for overburden.
Loose - 5 to 10 SPT "Nn value corrected for overburden.
Medium Dense - 1'1 to 30 SPT "N" value conected for overburden.
Dense - 31 to 50 SPT "N" value conected for overburden.
Very Dense - 51 to 50/6' SPT'N' value conected ior overburden.
Harfo - bss than 6" penetration in 50 SPT 'N. blows conected for overburden (cemented).
Hardness of Rock:
Very Soft - can be scratched readily by fingemail
Soft - can be grooved readily by knife or pick
Medium - can be grooved 0.05" deep by firm pressure of knife
Moderately Hard - can be scratched by knife
Hard - can be scratched by knife or pick only with difflculty
Very Hard - cannot be scratched by knife or sharp pick
Other Terms Descriptive of Consistency:
Brittle - Ruptures with little defcrmation
. .. ;r
Friable - Crumbles or pufuerizes
Elasiic - Returns to original length after small deformation.
Spongy - ls very porous, loose and
Sticky - Adheres or sticks to tools or hands.
ln Situ Moisture Descriptions:
Dry - powdery
Slightly Moist - water not readily absorbed by paper
Moist - water readily absorbed by paper
Very Moist - water condenses on sample tray
Wet - water drips from sample
Degree of Plasiicity \Athen Moist to Very Moist:
Nonplastic - cannot be rolled into a ball
Trace of Plasticity - can be rolled into a ball but not into a 1/8" thread
Low Plasticiiy - barely holds ib shape when rolled into a 1/8" thread
Fairly Low Plasticity - 1/8" thread quickly ruptures when bent
Medium Plasticity - 1/8" thread withstands considerable deformation without rupture.
Fairly High Plasticity - difficult to rupture a 1/8" thread by bending
High Plasticity - can be kneaded without rupture; greasy texture.
Abbreviaiions:
Blk. - Black
V. - Very
Drk. - Dark
Brn. - Brown
Lt. - Light
Tr. - Trace
Medium
Fl, Fairly
Med. Sl. - Slighfly
easily.
elastic.
i..i,
GEOTECHNICAL SEBVICES
jn naiure e:nd is n,Jt a linal'
slgreei enii seaied documer:t
APPENDIX C
AASHTO Soil Classificaffon SYstem
Unified Soil Classification SYstem
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Classifiaation Svsten
- Ameriaan '&ssoaiatiou of State ffi!}irigqdfiSr}g5\!1ffi,ry*t
anrl sf€!:ed docu:n-^1 t.
Iec,
.
tr'.rstlo.r.o.norrl
Nrticily
lirdcd,
L
stl
, Liquid l- JF
20
-lotFq.n
u
c' plrriDs no. 200 rbvc. L
r 1r".r
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dllr A.?-6 6nd A.r.? su$F!rypc ll|r Prrrkl
|)
li dutcarinBd froin tlre
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inlrl lhrlid Cro$I lrdk{ra.. na*rivc, rllcJ
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pC I .?,4 forp t
Gl ' l5
GrouP lndcx chcrl
tolls cnd Solldggrrgst! MixfuFec (wlth Suggesrad SubgrouPE)
Onrrwlct
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Chqrsc itlis of ttodiotl
pr$l|t€ Nc, a0'
liquid lhnll
Plaltlrhy iod.x
iFl.tirh
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silhdcv
!|chtilh
p.r ..d !r h|t Plr.li| lto,
(t{orr thoD
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no' zo0 sl""e
PI.2l
l"tili+limfr ottd Posllolt}Akldsr lon!|ss ter lhe
.A4, A$, A-6 qrd A-7 subgrocle Ctoq$'
loo
l!$ thon L!'
|r|inur 30'
Sllly or
cht
Y
grord onq rEnd
|J' ol A'7'6 rtbgtoup !! 9r!dl6r t$or LL' lnlnu'
30
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ir:-a.i'
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Summary of Laboratory Test Results
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SIDEWALK RECOMMENDATIONS
THELMA R. PARKS ELEMENTARY SCHOOL IN OKLAHOMA CITY, OKLAHOMA
BOYNTON WILLIAMS AND ASSOCIATES
MR. STEVE CHESSER
AUGUST 7, 2009
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sidewalk recommendations presented below are based on the report of
geotechnical investigation of ihe Thelma R. Parks Elementary School Building
[OOition in Oklahomia City, Oktahoma prepared for OCMAPS; Project No. 0309-
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3097 dated June 30, 2009.
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Concrete Paving Recommendations for Sidewalk:
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SubgradePreparation:
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minimum thic*ness of sand: 2 inches
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minimum thickness of conciete: 4 inches
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subgrade should be stripped of the all vegetation, and any other deleterious
mat[rials, and packed down tightly using jumbo jack or equivalent equipment.
2.)
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Staff Geotech
MII{G4HENG
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Ming-Cheng Peter Shau, P.E.
Certificate of Authorization No.77, Expiration 6130120ll
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