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APPLICATIONS, CO, MULT DOCS - 05-00006 - BYUI Romney Building - Addition
0 * i Lw � - "� . CITY OF CERTIFICATE OF OCCUPANCY R.EXBURG AMERICA'S FAMILY COMMUNITY Building Permit No: Applicable Edition of Code: Site Address: Use and Occupancy: Type of Construction: Design Occupant Load: Sprinkler System Required: Name and Address of Owner: Contractor: Special Conditions: Occupancy: City of Rexburg Department of Community Development 19 E. Main St. / Rexburg, ID. 83440 Phone (208) 359 -3020 / Fax (208) 359 -3022 International Building Code 2003 "Mrc-4 ' ildi►g Education IC P> I un �xo��l, tnon- �omb�1'ible� Planetarium Lecuture Hall Classrooms No Q- td�ha L405 G Thysicat plan - war MX5�tzg m g - Mt90 Orland Construction Z>L6 nm l Ils cm (o((f This Certificate, issued pursuant to the requirements of Section 109 of the Intemational Building Code, certifies that, at the time time of issuance, this building or that portion of the building that vies inspected on the date listed vies found to be in compliance vuth the requirements of the code for the group and division of occupancy and the use for Mich the proposed occupancy vies classified. Date C.O. Issued: August 25, C.O Issued by: Building Official There shall be no further change in the existing occupancy classification of the building nor shall anystructural changes, modifications or additions be made to the building or any portion thereof until the Building Official has reviewed and approved said future changes. Water Departmen • Fire State of Idaho Electrical Department 208 - 356 - 4830): CITY OF REXB URG , � PERMIT # BUILDING PERMIT APPLICATION 2 • 19 E MAIN, REXBURG, ID. 83440 Please complete the entire Application! 208 - 359 -3020 X326 If the question does not apply fill in NA for non applicable PARCEL NUMBER: SUBDIVISION: UNIT# BLOCK# LOT# OWNER: 43 (Lg - i DA 140 CONTACT PHONE # 4q& — 115 $ PROPERTY ADDRESS: / XC PHONE #: Home ( ) Work 000 41�o - 0C 11 3 z 3 L3 00 , 50/.b. OWNER MAILING ADDRESS: CITY: f4f4p " TATE:_LZIP. 4 03 , d3 -95WS APPLICANT (If other than owner) Jp - , 4 (If applicant if other than owner, a statement authorizing applicant to act as agent for owner must accompany this application.) MAILING ADDRESS OF APPLICANT PHONE #: Home ( CITY: STATE; Work b 0144• Cell( CONTRACTOR '(M4C) 6*MP HONE: Home# Work# MAILING ADDRESS: La T t? !� U), TW CITY rL-G ZIP Cell# STAT T_ ZIP 0+tJ G How many houses are located on this property? Did you recently purchase this property? 62 Yes (If yes give owner's name) Is this a lot split ?0 YES (Please bring copy of new legal description of property) PROPOSED USE: (i.e., Single Family Residence, Multi Family, Apartments, Remodel, Garage, Commercial, Addition, Etc.) APPLICANT'S SIGNATURE, CERTIFICATION AND AUTHORIZATION: Under penalty of perjury, I hereby certify that I have read this application and state that the information herein is correct and I swear that any information which may hereafter be given by me in hearings before the Planning and Zoning Commission or the City Council for the City of Rexburg shall be truthful and correct. I agree to comply with all City regulations and State laws relating to the subject matter of this application and hereby authorized representatives of the City to enter upon the above - mentioned property for inspections purposes. NOTE: The building official may revoke a permit on approval issued under the provisions of the 2000 International Code in cases of any false st re ation of fact in the application or on the plans on which the permit or approval was based. Permit void if not star within 1 d _ rm' oid if work stops for 180 days. of Owner /Applicant DATE WARNING — BUILDING PERMIT MUST BE POSTED ON CONSTRUCTION SITE! Plan fees are non - refundable and are paid in full at the time of application beginning January 1, 2005. City of Rexburg's Acceptance of the plan review fee does not constitute plan approval "Building Permit Fees are due at time of application" "Building Permits are void if you check does not clear" NAME f� �hAA PROPERTY ADDRESS SUBDIVISION Dwelling Units: SETBACKS FRONT SIDE Front Footage (if applicable) Storm Water Length SURFACE SQUARE FOOTAGE: (Shall include the exterior wall measurements of the building) First Floor Area Second floor /loft area Third floor /loft area Shed or Barn Remodel (Need Estimate) $ PLUMBING Plumbing Contractor's Name: Address Contact Phone: ( ) FIXTURE COUNT SIDE IC Unfinished Basement area Finished basement area Garage area Carport/Deck (30" above grade)Area Clothes Washing Machine Sprinklers Dishwasher Tub /Showers Floor Drain Toilet/Urinal Garbage Disposal Water Heater Hot Tub /Spa Water Softener Sinks (Lavatories, kitchens, bar, mop) Plumbing Estimate $ (Commercial Only) Signature of Contractor License number • Permit# Zip Date The City of Rexburg's permit fee schedule is the same as required by the State of Idaho Parcel Acres: Business Name: State Business Phone: ( ) 2 MECHANICAL Mechanical Contractor's Name: Address Contact Phone: ( ) FIXTURES & APPL1ANCES Furnace Unit Heater Furnace -Air Conditioner Decorative Gas -Fired Combination Appliance Heat Pump Space Heater Air Conditioner Incinerator Evaporative Cooler Broiler Pool Heater EXHUAST & VENTILATION Dryer Vents Cook Stove Vents Range Hood Vents Bath Fan Vents Fuel Gas Pipe (# of Outlets) Mechanical Estimate $ (Commercial Only) Signature of Contractor License number Date The City of Rexburg's permit fee schedule is the same as required by the State of Idaho WATER METER COUNT Business Name: _ State Zip Business Phone: ( ) WATER METER SIZE HEAT (Circle all that apply) Gas Oil Coal Fireplace Electric 3 TO N) 5 evrLi E e ISEC Project Number Integrityond innovation. BYU Idaho, Romney Science Bldg 110476 ' s e c Right down to the finish. Specification Sections 525 South Center Rexburg, ID. 83460 -8015 ISEC General Notes Project Location Space Reserved for Approval Stamp Symbols and Abbreviations 1. All wall to wall dlmeneins mud be fie" verified prior to release drops for febdcallon. z.FV - moll°alesamandpn to benddwxmedpriorla rda aaadmdaddar «rmrmlwn. 3. • • Indust°. mnknum dknen4«t requlretl. 4. Y • Indicates are. If casew.k W be reduced or bloreaeed based on field verllled d-lorts. S. Twelve (12)dgt product numbers lndloeus preducb HamlNanY nonstandard product gyre aren Select one of the following prior to release. ®A roved Ap with fabrication Floor Plan Symbols Ewro.„awm.r 0 a ' n°~ s. .vm. w.rm w ` 6 ` = � and require a Ihtriean (13) weak ndri m mamdadugg Ikrlw S. AN dmanelons shown an pl New ere for work surfaces only. 7.Upperdgr for ❑ Make changes as noted and a 4- E.C..ewe Elwwlen «a TA.F W atmn, .rtearn, .4 o rarsusho nonthemu nplan dada, B. All dmonl""ehormmaloveton...far casework and related aCtasemy game only. proceed with fabrication. ..v.mn unesbm.d. Room Name Roam / S. Casework color and wok surface color are In be selected Prior to release Berry materials f« ralxl�tgn. Elevation Symbols O. Bmwa.thaw. hot. tot . - 1• diameter note unl— a6—lastoted. ❑ Revise and resubmit for approval. aw.lbn„r Waterf.ture holes to have I.=' dlemdartxdec urns otherwise noted. Electdoedestal or MoManenls ho have 1.318• aamelm holes unless alhmwise nna d, d P - AW. a�em paaaW. t ELEVATION E lawwnm w— QC PLAN All other hal- b s Will be called out on Watksurface Plans w required. Signature Date CP.ol (h_ REWIRED 1. All.... wmkdlmen.1— craneledes: w,WD- Width. H.HT °Haight. D,DP- Dept,. c p o , Room NOme/Desc /iptlm All LF(Unear Fool) material dm°nspns Le. surfaces War shelvkg) are listed sac T,THK- Thickness x D,DP =Depth x t,LG= length. .saws sl,s.rwm. M,wnrocuwe, ROOM Room Number s For Internal Use REF. ARCH Env Iz. Reeferren mss %a A tl�ss �.11tioonal Inkmeu "� - REF. ARCH PLAN Project Specific Notes ® QC Review Q- maw.w,M.iEde•dwaa swr. 1. All taps to be �ox Rei n unless otherwise noted. an drewhVs 2. See Product l IIa1s Menu (. Last Types • Deslgneled by Caidnel sum. 1' Vicinity Map REF. CASEWORK SECTION Key alt locks elks, 11roW by room, & prowde meal. key. (MOST TYPICAL Section or Detail Symbol _ _ No Locks required for this pr*d.(Nde: All Solvent Storage Cabinets Am Lockable) ❑ Field Dimensions Taken _ — a+.r a.dmru _ Keyall locks tllflereM B prowtle Inset. key. _ Key all kwl® ekka 8 pavide maaler key. Key all asks p.Lock SdWdulo,eee SCH.01 a. effie mdein m ».uppgatl anM k danad by DMsion og. - ® Color Selections Made a ,,,� e a 5.00 .a•a..aalaw.m o AA AA 4. Plug mold to be auppted by Dlvlskw 1t and l�l �y OMsbn fe . - s , °w �� n — ; 6. "I mechanicalsur'Teatlalta drq d,4nW&Wal hameby4. ELECTRICAL, MECHANICAL, AND PLUMBING CONTRACTORS ® For Fabrication And installation SECTION "AA" 6. F] I EI°dde°I connediona wit be suppled by 1 n 18 and lnslalbd by DIw.1a t lot. Abbreviations wi ewxm P. q D - 7. Find Mechaniu d cmneclN.s, rAl be 'pbad by OMSbn ib and Instated w7imi on 15. B. Find Pluming coms,ollofs, wM be auppped by 5 m M Instaka by D General Abbreviations st Material Abbreyibiw 9. Fl.kres dnka aiM outlds io Da .uppged by ISE Irwlalbtl by ONIslon= 10 .7f�e Io ec e� t be eupplWa by DWIOn 15 and In °tdbd by D/yAtlm 15 . ADA American DI°°blWas Ad A111 A.4.11" AFF Above Finished Floor ER Elxmy Resin PL Plastic LmdMle SS StdNase sbel co Cut -Out SP SolMPhend10 EXST E.I.Iig EQPM Equipment WD Wood HOWL) Hardwood C olorOptions GA Geuga PLY Plywood LH o Op h. OH Opposite Hang PVC Polyvinyl CMOdde "RD Polypropylene Steel Casework Colors QC Duality C.Wd PTESIN Poly—In COLOR CODE COLOR CODE REF Rate— RH Right Hand SIM Slmda Pfcaud Abbreviations, Fit Funs Hood P etal uMm UC UrM. CO e. oh CAV C°nstenl rV.ne Al VAV Architect Phone: 801.521.6186 shill WWlle SW Brown Br.gugy SO Ch CH Purple PA ' Abbreavle�ie Varude Alr Valu e KO rte Space Openi ameleon Kheld KK Blue BL FFKR Architects Dm.slon eIne q c.dk Pa Peg BOSrd SK SiMr Black BK Indigo IN Fax: 801.539.1916 CONT CaMlnuons, Cs cup snk Daaaorsy G1 BI.. Blue as 730 Pacific Avenue, Salt Lake City, UT. 84104 cu cm. Fad KF Work Surf O spasm Dark Khdd DK Sendslde as DIA Diameler E SD Dl AN— Platun n PL Gray Sid° G3 Owner O Inside Sevice Fixture lalbn° Pddmonl Green PM sand SA Phone: 208.496.2310 F Lk L,ear Foot aW Cold Water .orewruwcwanea e,.ss °rnoa Steel Casework a. cn a�� w _ v � U o Fax: 208.496.2319 MIN Mlnknum MAX Mead a. Nrs Not To Bode HW Hd Water HCW Hai bn B Cold Water Mg DI Distilled water Base cow Color code Michael B. Thueson, Purchasing Agent oc a.canwr DeioMhd warm DW to sand SA Do Outside Diameter SF Square Fool Ew ELEC D °/aD� 'ode Goole Denver ISEC Corporate Office Construction Services Egdpment DedonellanAbbaNatlme: A Compressed Air ® sand SA Phoenix 33 Inverness Drive East Rocky Mountian Region NIC Not In Conked OFOI Owner rumiah Dwnm lrs,let G Natural Gas v vacuum Fumehoods Los Angeles Englewood, Colorado 80112 33 Inverness Drive East CFO[ 0.— F Fur ca trod «Il.dll NIT Oxygen CFCI Conun Ftu FUmleh own. k,dm O rr oxygen Be° eDaan color coca San Diego Mailing Address Englewood, Colorado 80112 CIA Compressed yAir Aid Sand Bn San Francisco Post Office Box 6849 Submittal Date for Approval ® Dolor Dale Sacramento Englewood, Colorado 80155 Phone: 303 - 790 -1444 03/29512005 1 - TYPI01 Re Cloud Des fine bn Bend SA Seattle Phone: 303- 790 -1444 Fax: 303- 799 -6102 Drate"ReW.lens: Drawing Revdlonsc No. Bale By litmaks No Data 19y JR—,M Washington DC Fax: 303 - 799 -8652 Contact: Dave Glaesel, ISEC Proj Mgr 1132806 RUN Dw„°r.D.a.ton. Jig I a A Notice; Project Vendors A l A 5, ,1$ Documenu and drawings remain the property of ISEC, Incorporated and are proledad by capyrighl and eh.tn.1 be reproduced, copied, Indteclly described, sub Ifted to or nevlewed by other pedae without wrtian.dh.imllon by ISEC. Incoryamled. Vblaikme wN react n ur U.s. t ���� Fisher Hamllton LLC. ��b �tppy — wvaw W w., • .m-»e-ns, Watditil! �r Faucet Co. I...,, u., r,.v., �, 1.......... proseonAOn D° I OOR #519204 Pro'ect # Pro'ect # E e 48' 46" Q. 48' 72' 3/4' 29 1/4' 10" 3/4" 29 1/4- 10" 3/4' 29 1/4' 10" 3/4' 3/4" 17 1/4" 36' 10' A 1 5 k 5 1/2" 5j/2' 1T SLOT 1.'/e x2.1 T SLOT 1. /8 x21 T SLOT 1. /e x2.1 5 e 0 %ENT "SLOTS CS4 CS4 CS4 OS4 -4 -T 4 /8' 4 7 8' 30' 4 /8' 4 7 30' 4 /8' 4 7 30" 4 /8' 4 7 30" 4 /8' 4 7 30" 12 12 12 12 12 0 1 1/9" p�p�ppg Il U\UI 54L04817I1 12 1/2' o3 ELEVATION & PLAN W1 111 1 INN/ 7, 54L91000 54L0/817R a�e�. X 0018 I I I, 54L04826L �� =— _ F55 W010018 —_ LABORATORY ROOM #149 FS� �1B - II w � ROOM J100 1 I I ❑❑ ❑❑❑ 1 REF. CASEWORK SECTION - S.03 /CS -01 D _ 54 1/4' 541/4- SFS� ^� 3018'1200 1/4. 102" 102' 10 2200 3X.62200 106 1/2" 30L82200 ;f0189900 L81600 118 1/2' 1600 8 FLUSH PAM! PAM! 11 PANEL II 35 1/4 FWSH PANEL I I 35 1/4 1 ::T— wm 14458720 xESS10-x TINED 14456320 1 1/9" I ����j — 1Y 02 ELEVATION & PLAN o3 ELEVATION & PLAN W1 111 1 INN/ 7, 54L91000 54L0/817R a�e�. X 0018 I I I, 54L04826L �� =— _ mDn N�y1� qp00 I NfFYE II II II LABORATORY ROOM #149 FS� �1B - II w � ROOM J100 ROOM #100 I I ❑❑ ❑❑❑ 1 REF. CASEWORK SECTION - S.03 /CS -01 REF. CASEWORK SECTION - S.03 /CS -01 xurlls 4 -FlEFI[ ELEVATION 541/4- 54 1/4. DuOCs MOO � 10 2200 3X.62200 106 1/2" 30L82200 ;f0189900 L81600 118 1/2' 1600 8 FLUSH PANEL II FWSH PANEL I I 35 1/4 xESS10-x TINED 14456320 35 1/4 I ����j — 29' 02 ELEVATION & PLAN o3 ELEVATION & PLAN N /(C WUI ii INN/ 7, 54L91000 a�e�. X 0018 I I I, 54L04826L I mDn N�y1� qp00 I NfFYE II II II LABORATORY ROOM #149 FS� �1B - II w � ROOM J100 ROOM #100 I I FLUSH PANEL., REF. CASEWORK SECTION - S.03 /CS -01 REF. CASEWORK SECTION - S.03 /CS -01 ❑ ❑ ❑❑❑ ELEVATION & PLAN 54 1/4. DuOCs MOO � LABORATORY 121 30L82200 ;f0189900 ROOM #100 118 1/2' 1600 8 REF. CASEWORK SECTION - S.03 /CS -01 FWSH PANEL I I 35 1/4 NENS,D- IlIxO 14466320 I ����j — 02 ELEVATION & PLAN o3 ELEVATION & PLAN N /(C WUI ii n a�e�. X 0018 I I I, ❑ ❑ ❑❑❑ II 1 I mDn N�y1� qp00 I NfFYE II II II LABORATORY ROOM #149 ROOM #161 II w � ROOM J100 ROOM #100 I I FLUSH PANEL., REF. CASEWORK SECTION - S.03 /CS -01 REF. CASEWORK SECTION - S.03 /CS -01 otc ELEVATION & PLAN � 95057616 01- REQUIRED I ����j o1e ELEVATION &PLAN 02 ELEVATION & PLAN o3 ELEVATION & PLAN y � n CP.00 01- REQUIRED ��^1TIYIf OIY� I, LABORATORY LABORATORY LABORATORY ROOM #149 ROOM #161 ROOM J100 ROOM #100 REF. CASEWORK SECTION - S.Ot /CS -01 otA ELEVATION &PLAN o1e ELEVATION &PLAN 02 ELEVATION & PLAN o3 ELEVATION & PLAN CP.00 01- REQUIRED CP.00 01- REQUIRED CP.00 01- REQUIRED CP.00 04 - REQUIRED LABORATORY LABORATORY LABORATORY LABORATORY ROOM #149 ROOM #161 ROOM J100 ROOM #100 REF. CASEWORK SECTION - S.Ot /CS -01 REF. CASEWORK SECTION - S.02 /CS -01 REF. CASEWORK SECTION - S.03 /CS -01 REF. CASEWORK SECTION - S.03 /CS -01 otc ELEVATION & PLAN CP.00 01- REQUIRED LABORATORY ROOM #100 REF. CASEWORK SECTION - S.03 /CS -01 72' 3/4' 8 0 CS4 0 4 /8 4 7 " 3D' 12 o4 ELEVATION &PLAN CP.00 04 — REQUIRED LABORATORY ROOM #100 REF. CASEWORK SECTION — S.03 /CS -01 71' 58 4 /8' CS4 4 7 " ac� tl 2 71 75B 1 179' NAN �F:15fC:rF]E� 1181/2, 12D' L8 � ' rn¢o wrn[s 1�8220D 541/4' - 4- PKf1E9 30IB1200 U82200 37180000 a 8 S4 PANEL FLUSH PANEL 35 1/4' I AV <[ 12158320 12158320 121SO32D 36' 36' 72' o4 ELEVATION &PLAN CP.00 04 — REQUIRED LABORATORY ROOM #100 REF. CASEWORK SECTION — S.03 /CS -01 71' 58 4 /8' CS4 4 7 " ac� tl 2 71 75B 1 179' .. .. 72' 05 ELEVATION & PLAN CP.00 15 - REQUIRED LABORATORY ROOM #100 REF. CASEWORK SECTION - S.03 /CS -01 72 4 /B CS4 4 7 3+ 7 ", 7 5/ NAN 29' 1181/2, 12D' ' rn¢o wrn[s 1�8220D 541/4' - 4- PKf1E9 30IB1200 U82200 37180000 a 8 S4 PANEL FLUSH PANEL 35 1/4' 7r� <[ 12158320 12158320 .. .. 72' 05 ELEVATION & PLAN CP.00 15 - REQUIRED LABORATORY ROOM #100 REF. CASEWORK SECTION - S.03 /CS -01 72 4 /B CS4 4 7 3+ 7 ", 7 5/ os ELEVA110N & PLAN CP.00 01— REQUIRED LABORATORY ROOM 1 100 REF. CASEWORK SECTION - S.03 /CS -01 a ' rn¢o wrn[s 1�8220D { PIEYNE' �(IL81000 .82200 BASH PANEL FLUSH PANEL 7r� <[ 12158320 121SO32D 36' 36' 72' os ELEVA110N & PLAN CP.00 01— REQUIRED LABORATORY ROOM 1 100 REF. CASEWORK SECTION - S.03 /CS -01 (W -a1 (9`00 n -o•) . 6. -4• V -0 1 S-01 CASEWORK SECTION FOR: S.02 CASEWORK SECTION FOR: s.os CASEWORK SECTION FOR: cs.o1 BACKING & ROUGH —IN LOCATIONS ® cs.o1 BACKING & ROUGH —IN LOCATIONS @ cs.o1 ggCKING & ROUGH —IN LOCATIONS CONSTANT VOLUME /BYPASS FUME HOOD SUPERSTRUCTURE CONSTANT VOLUME /BYPASS FUME HOOD SUPERSTRUCTURE CONSTANT VOLUME /BYPASS FUME HOOD SUPERSTRUCTURE BENCH TYPE ON FIXED STEEL BASE CABINETS BENCH TYPE ON FIXED STEEL BASE CABINETS BENCH TYPE ON FIXED STEEL BASE CABINETS w/P LINER & 27.1/2" SASH OPENING w/P LINER & 27.1/2" SASH OPENING w/P LINER & 27.1/2" SASH OPENING Laboratory Fume Hoods Generall Purpose Fume Hoods SafeAire® Restricted Bypass Superstructure For Use With Constant Volume or Variable Air Volume Exhaust Systems ■ Designed for installation on 30" (76.2 cm) to 42" (106.7 cm) deep work surface. ■ Recommended for-use with an independent VAV controller (supplied by others). ■ Also recommended for use with horizontal or combination sashes used in conjunction with VAV or constant volume systems. • Incorporates a 2". (5.1 cm) bypass above sash when closed to minimize leakage at minimum flow. • Vertical sash is full -view, laminated safety glass with full -width recessed pull. • 28 -1/2" (72.4 cm) high opening for set -up. • Two -tube fluorescent light fixture, light switch and two duplex 120 VAC receptacles. ■ 96" (243.8 cm) wide units have two light fixtures. ■ Plugged holes for future service fixture installation standard on both posts. Shipped assembled. ■ See pages 22 -23 for additional product features common to all SafeAlre fume hoods. v Base Product 31 -114" Depth 36" Depth 37.1/4" Depth 43 -114" Depth emote Remote Remote Remote Fixed Baffle Fixed Baffle Fixed Baffle Fixed Baffle Width Baffle Adjustment Baffle Adjustment Baffle Adjustment Baffle Adjustment (91.4 cm) 541M 541_768 60L766P 60L768P 121.9 cm) 41_769 541_771 60L769P 60L771 P 61 L769P 611.771P 621-769P 621-771P (152.4 cm) 541_774 60L772P 60L774P 61 L772P 611_774P 62L772P 621-7741 �182.9cm) 541_775 541.777 60L775P 60L777P 611_775P 611_777P 621_775P 621_777P (243.8 cm) 541_ 8 541_780 60L778P 601_78013 611_778P 611_78013 621_77813 621_78013 96' C I� Exhaust Parameters 100 FPM 100 FPM Sash 8 Opening Sash Opening Hood Size collar Size CFM SP CFM SP 36" 6" X 9" 520 .22 360 .12 91. 4cm) 15.2 X 22.9cm 48" 6 760 .18 485 .09 (121.9cm) (15.2 X 38.1 cm 660 .09 1 ' 2 ' 10 .18 (152.4cm 5 8.4 6" X 23" 1250 .27 785 .13 182.9cm) (15.2 X 38.1 Cm) 1081 .09 g " 1710 .26 (243.8CM) (15.2 X 76.2cm) See page 12 for operating Instructions. *28 -1/2" opening is for set -up only; operating position Is an 18" opening. 24 t I End View Liner Materials - Insert suffix in 7th digit of product number: X P - Polyresin • R - Resisto Roc (31 -1 /4" depth only) • E - Resisto Roc/Whlte Enamel (31 -1/4" depth only) • S - Stainless Steel (31 -1/4" depth only) (Not available on 36" wide hoods) • Y - Polypropylene (31 -1/4" depth only) • C - PVC (31 -1 /4 depth only) Sash Options - Insert suffix in 8th digit of product number: Sash Type Suffix X Standard 0 • Combination B • Framed F See page 19 for additional sash Information. NOTE: 36" wide hoods are not available with optional sashes. Side Panels - Insert suffix In 9th digit of product number: • U - Without side panels • L- Left side only • R - Right side only XB -Both sides Other Information -To complete the fume hood assembly, refer to the sections listed below: • Base Cabinets (pages 94 -98) • Fixtures (pages 72 -84) ❑ Alarms (pages 85 -87) 0 Work Surfaces, Cupsinks and Traps (pages 88 -93) U Ceiling /Blower Enclosures (pages 99 -106) ❑ Accessories (pages 107 -112) Dimensions are nominal and Illustrations end specifications are based on the latest product Information available at the time of publication. Flsiror Hamilton The right Is reserved to make changes at any time without notice. Laboratory Fume Hoods • • Technical information Specifications Part 1- General 1.o1 Fume Hood General Design Requirements A. Negative variations of face velocity shall not exceed 20% of the average face velocity. B. Average illumination of work area: Minimum 80 footcandles. C. Fume hood shall be designed to minimize static pressure loss with adequate slot area and rectangular exhaust collar configuration. Maximum static pressure loss readings shall not exceed the following maximum with sash In full open position: Face Velocity: 100 FPM Measured S.P.L. (w.g.):.30 inches D. Maximum variation in exhaust CFM, static pressure and average face velocity as a result of baffle adjustment shall not exceed 5% for any baffle position. E. Noise Criteria: Test data of octave band analysis verifying hood is capable of a 50 NC value when connected to a 50 NC HVAC source. Reading taken 3' in front of open sash at 100 FPM face velocity. F Hood must be UL 1805 labeled. - 1.02 Linear Surface Finish Performance Requirements (At specifier's option, insert applicable performance requirements for type E, R. P or S liners.) 1.03 Submittals A. Test, reports: Submit test reports on each size and type of hood verifying conformance to test performance specified. 1.04 Quality Assurance A. Single source responsibility: Fume hood casework, work surfaces, and other laboratory equipment and accessories shall be manufactured or furnished by a single laboratory furniture company. 1. Five years or more experience in manufacture of laboratory fume hoods and equipment of type specified. 2. UL 1805 labeled fume hoods. Part 2- Products 2.01 Manufacturer A. Casework and equipment manufacturer: Fisher Hamilton L.L.C., 1316 -18th Street, Two Rivers, WI 54241 2.02 Fume Hood Materials A. Steel: High quality, cold rolled, mild steel meeting requirements of ASTM A366. B. Stainless Steel: Type 304. C. Ceiling enclosure panels: Minimum 18 gauge steel, upward directional louvers. D, Bypass grills: Low resistant type, 18 gauge steel, upward directional louvers, E. Safety glass: 7/32" thick laminated safety glass. R Sash cables: Stainless Steel, uncoated, 1/8" diameter military spec. quality (ML-WW 834420D -3). G. Sash guides: Corrosion- resistant poly -vinyl chloride. H. Pulley assembly for sash cable: 2" diameter, zinc dichromate finish, ball bearing type, with cable retaining device. (Nylon tire not acceptable.) I. Sash Pull: Full width oorrosion- resistant plastic, stainless steel or steel with chemical- resistant powder coating. J. Gaskets: 70 durometer PVC for Interior access panels. Gasket Interior access panels to eliminate air leakage and to retain liquids inside hood. K. Fasteners: 1. Interior fastening devices concealed. Exposed screws not acceptable. 2. Exterior panel member fastening devices to be corrosion - resistant, non - metallic material. Exposed screws not acceptable. L. Interior Liners: The liner consists of all interior surfaces, including sides, back, top, and baffles. Not all liner materials are available for every fume hood model; refer to the product information page for options applicable to a specific hood. All liner materials have low flame ratings and meet NFPA -45 standards. Descriptions of each follow bet 1. �W l The preferred fume hood - yresin is a pres s - molded, heat - converted catalyzed glass polyester sheet. A premium quality material, polyresin is excellent for use in high -abuse areas because of its excellent corrosion resistance. With a working temperature of 160 °C, polyresin is flame- retardant and self - extinguishing. Scratches are less obvious because the white color extends throughout the � material thickness. 2. k41stcXec (R) —The most economical fume hood liner material, Resisto Roc is a chemically resistant mixture of Portland cement and non - asbestos fibers formed under pressure Into dense, light gray, 144" (0.64 cm) thick monolithic sheets. Low light reflectivity Is a disadvantage. A reliable material under normal and light -duty use, Resisto Roc usually is specified when budgets are limited. Dimensions are nominal and IllustraQons and speci0oations are based on the latest product information available at the time of publication. Fisher Hamilton 142 The right Is reserved to make changes at any time without notice. . JK ,w . l" �J • 0 Laboratory Fume Hoods Technical inforlmation Specifications 3. Re oc with White Enamel Finish (E) — R isto oc Is covered and sealed with a chemical fume and splash- resistant enamel finish to provide a brighter, more comfortable working ar a enamel finish Is also easier to clean. 4. St es Steel (S) -- All interior liner surfaces a d ba es are fabricated of 16 gauge, Type 304 stainless steel with a number 4 finish. The liner top Is spot - welded to the sides, and the dished work surface is attached and caulked to the sides and back. Rear vertical corners have a 1/2" (1.3 cm) ra ius r easy cleanup. 5. St less Steel (K) Standard without interior a6cest panels, Type K Interiors are suitable for radioisotope and perchloric acid fume hoods, Made of 16 gauge Type 304 stainless steel with a number 4 finish, these Interiors are welded, ground and polished to eliminate any seams or cracks where contaminants might collect. This fully coved, seamless interior simplifies cleanup aKde ntamination p rocedures. 6. Ppylene (Y) — White polypropylene skin b o a 1 /4" (0.64 cm) thick Resisto Roc board. Provides excellent acids and solvent resistance while providing good light levels. Smooth surface for easy cleaning. Excellent alternative for the traditional painted rock (Type E) liner with superior chemical resistance at com arable costs. 7j� (C) —White in color, 1 /4 11 (0.64 cm) thick yp 1, Grade 1 with flame rating of less than 25. This liner is an excellent choice for highly corrosive applications. 2.03 Fume Hood Construction A. Superstructure: Rigid, self - supporting assembly of double wall construction, maximum 4 -7/8" thick. Panels must be attached to a full frame construction, minimum 14 gauge galvanized members. Panels and brackets attached attached to eliminate screw heads and metallic bracketry from hood Interior. B. Exhaust"outlet: Rectangular with ends radiused. C. Access opening perimeter: Air foil or streamlined shape with all right angle corners radiused or, angled. Bottom foll shall provide access areas for electrical cords. D. Fume hood sash: Full view type with clear, unobstructed, side -to -side view of fume hood Interior and service fixture connections. 1. Counterbalance system: Single weight, pulley, cable, counter balance system. Maximum 7 lbs. pull required to raise or lower sash throughout Its full length of travel. Life cycle test 100 lb., sash and weight to 100,000 cycles without sign of failure. Provide Independent test data. 0 Fisher Hamilton E. Fume hood liner: Polyresin (designated by suffix "P "). Reinforced polyester panel; smooth finish and white color in final appearance. Flexural strength: 14,000 psi. Flame spread: 25 or less per U.L. 723 and ASTM E84 -80. F Baffles: Provide exhaust slots full height on vertical sides of the baffle with upper and lower slots adjustable. Minimum depth of 19" for Interior work space is required at the extreme upper portion of the fume hood to provide maximum Interior work area. All baffle supports /brackets to be non - metallic, G. Electrical Services: Three wire grounding type receptacles rated at 120 VAC at 20 amperes. H. Work surfaces: 1 -1/4" thick surface, dished a nominal 1 /2 11 to contain spills. 2.04 Restricted Bypass Fume Hoods A. Bypass shall be sufficient In size to allow 25% flow with sash closed. Bypass must be achieved through grill or louver on face of front lintel panel. 2.05 Bypass Type Fume Hoods A. Bypass shall be sufficient In size to allow sash as it is closed to provide no more than four times increase in face velocity as measured when the sash was full open. 2.06 Metal Finish A. Preparation: Spray clean metal with a heated cleaner/ phosphate solution, pretreat with iron phosphate spray, water rinse, and neutral final seal. B. Application: Electrostatically apply urethane powder coat of selected color and bake in controlled high temperature oven. 1, Exterior and Interior surfaces exposed to view: 1.5 mil., average and 1.2 mil., minimum coverage. 2.07 Source Quality Control Testing of Fume Hoods A. Evaluation of manufacturer's standard product shall take place In manufacturer's own test facility, with testing personnel, samples, apparatus, Instruments, and test materials supplied by the manufacturer at no cost to the Owner. B. Hood shall achieve a rating of 4.0 AM 0.05 PPM or better when subjected to ASHRAE/110 -1995 test procedures. 2.08 Field Quality Control Testing of Fume Hoods A. Field testing requirements: 1. Perform tests after installation is complete, the building ventilation system has been balanced, all connections have been made, and written verification has been submitted that the above conditions have been met. B. Test procedure — SEFA 1 -1996. Dimensions are nominal and Illustrations and specfiloatiom sire based on the latest product Information available at the time of publication. The right Is reserved to make changes at any time without notice. 143 ROMNEY BUILDING FIRE ALARM SYSTEM REX N. 1. C. E. T. LEVEL IV CERTIFICATION INDEX OF DRAWINGS PAGE DESCR FA -1 COVER SHEET FA -2 TYCICAL FIRE ALARM RISER FA -B -01 BASEMENT ADDRESSABLE LOOP FA -B -02 BASEMENT NOTIFICATION CIRCUITS FA -B -03 BASEMENT RELAY CIRCUITS FA -1 -01 FIRST LEVEL ADDRESSABLE LOOP FA -1 -02 FRST LEVEL NOTIFICATION CIRCUITS FA -1 -03 FIRST LEVEL RELAY CIRCUITS FA -2 -01 SECOND LEVEL ADDRESSABLE LOOP FA -2 -02 SECOND LEVEL NOTIFICATION CIRCUITS FA -2 -03 SECON LE VEL RELAY CIRCUITS ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR ( 'M' MONITOR ) DEVICE NUMBER L O1 DAVID BURNS #92309 WIRE SCHEDULE SYMBOL DESCRIPTION SIZE ADDRESSABLE LOOP 1 PAIR #14 TWISTED HORN /STROBE CIRCUIT 2 #14 FAN /DAMPER RELAY CIRCUIT 2 #14 24VDC AUX POWER 2 #14 120 VAC POWER 3 #12 DEVICE LEGEND SYMBOL DESCR PART NUMBER MOUNTING REQUIREMENTS D SMOKE DETECTOR W /BASE ASD - IL2 /ADB -fL 3/0 MUD RING O, AUDIBLE SMOKE DETECTOR S /BASE ASD - IL2 /B501 -BH 4 SQ. 2 -1/8" DEEP W/ 1 -1/2' EXT. RING O, 120 VAC RESIDENTIAL DETECTOR FIREX 3/0 MUD RING O THERMAL DETECTOR ATD -RL2 /ADB -FL 3/0 MUD RING © MANUAL PULL STATION - MS -2 /AMM -2 I GANG MUD RING ON 2 -1/8" DEEP BOX IE DUCT SMOKE DETECTOR ADP- R /ST -5 SUPPLIED BY NFS. FOLLOW MANUFACTURERS INSTRUCTIONS 0- WATERFLOW SWITCH MONITOR MODULE AMM -4 4 SO, 2 -1 /8" MINIMUM ID TAMPER SWITCH MONITOR MODULE AMM -4 4 SQ. 2 -1 18" MINIMUM EI- HORN;STROBE NS- 24MCW -FW 4 SQ 2 -1 /8° MINIMUM s WEATHERPROOF HORN_ AH -24 -WP SUPPLIED BY NFS, MOUNT WITH DRAIN HOLES DOWN STROBE LIGHT RSS- 24MCW -FW 4 SO 2 -1/8" MINIMUM O SPEAKER /STROBE E- 70MCW -FW 4 SO, 2 -1/8" DEEP W/ 1 -112" EXT. RING O WEATHERPROOF SPEAKER ET- 1010 -W SUPPLIED BY NFS, MOUNT WITH DRAIN HOLES DOWN D- MONITOR MODULE AMM -2 /AMM -4 4 SQ, 2 -I 18" MINIMUM 2 CONTROL MODULE AOM -2R 4 SQ, 2 -1/8" MINIMUM E KITCHEN HOOD MONITOR MODULE AMM -4 4 SO 2 -118" MINIMUM O RELA)- ARB -C 14 SQ. 2 -1/8" MINIMUM 4 SQ, 2 -118" MINIMUM DOORHOLDER IDHF- 24120 -C 1 GANG MUD RING ON 2 -118" DEEP BOX 0 FIREFIGHTER PHONE JACK FFIJ 1 GANG MUD RING ON 2 -1 /8" DEEP BOX Ej REMOTE ANNUNCIATOR ENCLOSURE RHFB 1 GANG MUD RING ON 2 -1/8" DEEP BOX FIRE 4LARM CONTROL PANEL 7100 -2D SUPPLIED BY NFS. FOLLOW MANUFACTURERS INSTRUCTIONS ® 0 TRANSPONDER PANEL LONG RANGE MOTION SENSOR EN- 24 /FF8 -MP DS928i/9127U SUPPLIED BY NFS. FOLLOW MANUFACTURERS INSTRUCTIONS 1 GANG MUD RING ON 2 -118" DEEP BOX 8 WIDE RANGE MOTION SENSOR DS918i/9127U 1 GANG MUD RING ON 2 -1 /8" DEEP BOX O POPIT 9127U 1 GANG MUD RING ON 2 -1/8" DEEP BOX FLUSH MOUNT IN CEILING © DOOR CONT 1078 MOUNT IN DOOR FRAME, FOLLOW MANUFACTURERS INSTRUCTIONS _ 0 - °ati p F Q N o w m 1. a a z w ° a a 0 o w w 3 N y 3 rc i m as L a F i m � i 3 E m i o o a a z w o Z z w'a z -O I ■ c�Z� —O W p>—Q J � p �m�� C� W Z Q J Q X O W W LL Q C� m 5 NELSON FIRE SYSTEMS 801 -468 -8300 DRAWN BY: DB DES IGNED BY: XXXX APPROVE BY: XXXX DATE: 4/06/05 SCALE: N.T.S. PROJECT N0: XXXX R NO: 0001 DRAWING NAME: ROMNEY COVER. FIRE ALARM SYSTEM COVER PAGE PAGE: FA -1 �i � NOTES: SMT FLOOR TRANSPONDER �T FLOOR TRANSPONDER ?OVAC WITH GROUND VAC POP FAN SHUTDOWN HONE BOARD LEVATOR CONTROLLER FOR FIRE RECALL ADDRESS LABEL CLARIFICATION 'ADDRESSABLE LOOP NUMBER SENSOR ( 'M' MONITOR ) DEVICE NUMBER 1501 HORN STROBE CIRCUIT NUMBER F DE VICE NUMBER N.I.C.E.T. LEVEL IV CERTIFICATION DAVID BURNS #92309 WIRE SCHEDULE :SCRIPTION SIZE DRESSABLE LOOP #1 11 PAIR #14 TWISTED ROBE /HORN CIRCUIT 2 #14 EVATOR RECALL 2 #14 VDC AUX POWER 2 #14 MOTE ANNUNCIATOR 2 PAIR #14 TWISTED & 2 #14 I VAC POWER 3 #12 N SHUTDOWN 2 #14 ONE LINES FOR DIALER 8 #22 N /DAMPER RELAY CIRCUIT 2 #14 o= - m °Q� �<w zo� zay� ; w 3 y w z w a w a N o LL 3 3 Nw Nw� " �= F soy �s� N aN«�S ■ r1 >- E J f' W W L U) L r J Q j J N D m Of Q Q (D LLJ Z c Q w m O ` W Q cr } Iz 1 (L CL Q 0 Of m NF5 NELSON FIRE SYSTEMS 801- 468 -8300 DRAWN B Y DB DES IGNED BY: XXXX APPROVED BY: RS DATE: 11/14/03 SCALE: 1/16' =I' P NO XXXX R NO: XXXX DRAWING NAME: ROMNEYB.DWG FIRE ALARM SYSTEM PAGE: FA -B -01 i i M NOTES: ;SMT FLOOR TRANSPONDER ST FLOOR TRANSPONDER 20VAC WITH GROUND VAC FOR FAN SHUTDOWN HONE BOARD LE VATOR CONTROLLER FOR FIRE RECALL STROBE CANDELA SETTINGS ARE 30 SS NOTED OTHERWISE 0 _ wNao� m� a a a< o a r W o w a �o� ar ° way Hz w _ yi -3 zzv a z N a w w w z w z V a 3 yw ° mo ' w ° viri aw O1�xa Ego - a - z °� ADDRESS LABEL CLARIFICATION E ADDRESSABLE LOOP NUMBER SENSOR ( 'M' MONITOR DEVICE NUMBER 1 01 HORN STROBE CIRCUIT NUMBER "VICE VICE NUMBER Y1-1 N. 1. C.E. T. LEVEL IV CERTIFICATION DAVID BURNS #92309 WIRE SCHEDULE DRAWN BY SYMBOL DESCRIPTION SIZE A ADDRESSABLE LOOP #1 l PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 #14 C ELEVATOR RECALL 2 #14 D 24 VDC AUX POWER 2 #14 E REMOTE ANNUNCIATOR 2 PAIR #14 TWISTED & 2 #14 F 120 VAC POWER 3 #12 G FAN SHUTDOWN 2 #14 H PHONE LINES FOR DIALER 8 #22 I FAN /DAMPER RELAY CIRCUIT 2 #14 J F— (.D Lu LL1 N Z F— W O 7 } J D N M �uJ_j � E U LL! X O 0 r Q � 37 LL 11 Q 0 m N F S NELSON FIRE SYSTEMS 801- 468 -8300 1 ROMNEYB.DWG I FIRE ALARM SYSTEM PAGE: FA -B -02 DRAWN BY DB DESIGNED BY: XXXX APPROVED BY RS DATE: 11/14/03 SC ALE: 1/16' =1' PROJECT NO: XXXX REV N XXXX DRAWING NAME: 1 ROMNEYB.DWG I FIRE ALARM SYSTEM PAGE: FA -B -02 1 � NOTES: SMT FLOOR TRANSPONDER �T FLOOR TRANSPONDER DOVAC WITH GROUND VAC FOR FAN SHUTDOWN HONE BOARD LE VATOR CONTROLLER FOR FIRE RECALL ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR < 'M' MONITOR DEVICE NUMBER Isol HORN STROBE CE NUMBER E V NUM DEV ICE BER , N.I.C. E.T. LEVEL IV CERTIFICATION DAVID BURNS #92309 WIRE SCHEDULE SERIPTIEN SIZE 1DRESSABLE LOOP #1 1 PAIR #14 TWISTED ROBE /HORN CIRCUIT 2 #14 EVATOR RECALL 2 #14 VDC AUX POWER 2 #14 MOTE ANNUNCIATOR 2 PAIR #14 TWISTED & 2 #14 0 VAC POWER 3 #12 N SHUTDOWN 2 #14 ONE LINES FOR DIALER 8 #22 N /DAMPER RELAY CIRCUIT 2 #14 a ° 4 � w�W >o T >o a �QO °� N "az�'oazo w<w woH N� > 3�s o� NQ�w =aLLa�az - °� ■ >- 3� J I — O ui LIJ Z W O LLJ D >- J J Q N Zm D o cDw J m Q L J X Z Z O W - J LL- 0- Q C7 m N F S NELSON FIRE SYSTEMS 801- 468 -8300 D RAWN BY: De DESIGNED BY: XXXX APPROVED BY: RS DA 11/14/03 SCALE: 1 / 16' =1' PROJECT NO: XXXX REV N O: XXXX D R AW ING NAME: ROMNEYB.DWG FIRE ALARM SYSTEM PAGE: FA —B -03 I 0 0 S 1 1 EM NOTES 01 T❑ BSMT PL ❑❑R TRANSPONDER T❑ IST FLOOR TRANSPONDER 03 TO 120VAC WITH GROUND o ® TO HVAC F OR PAN SHUTDOWN 1 EIRESM❑KE DAMPERS 0 0 ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR C "M" MONITOR ) DEVICE NUMBER 1S01 HORN STROBE CIRCUIT NUMBER DEVICE NUMBER H1 -I N. 1. C. E. T. LEVEL IV CERTIFICATION DAVID BURNS #92309 WIRE SCHEDULE DRAWN BY: SYMBOL I DESCRIPTION SIZE A ADDRESSABLE LOOP #1 1 PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 #14 C FAN /DAMPER RELAY CIRCUIT 2 #14 D 24 VDC AUX POWER 2 #14 E REMOTE ANNUNCIATOR 2 PAIR #14 TWISTED & 2 #14 F 120 VAC POWER 3 #12 Ci FAN SHUTDOWN 2 #14 H PHONE LINES FOR DIALER 8 #22 i z z a z _ a J a � Q i z o'�.3 ° z a o a i a r o ¢ raw .E' w� °a `"a z w a w a i N N 3 w zz� w y= w a a 3 J o '^ w o 0 0 o N r w Q z o F w z m a F i-,nu ol �ozw z I I cD w O Z N J 2 LL1 LLI Q > Zp (D LLl a C/) D Z Z Q m C : 0 ) w -LU w of LL Q 2 C� m NFS NELSON FIRE SYSTEMS 801_ 468 -8300 ROMNEYI.DWG I FIRE ALARM SYSTEM PAGE. FA -1 -01 _ - - - -- 0 ,�D —-- - - - - -- - - - - - -_ R� FT 1 ❑ I I 1 F f L I - L '2�7 I s �_- - - - - -_ -__ - - - - -- - __ - - -- - - -- I I 1 - - - _ - _ _ _ _ _ - -0 _ - -(D- DRAWN BY: DB DE SIGNED BY: XXXX APPROVED BY: DS DATE: 4/04/05 SC 1/16' =I' PR OJECT N0: XXXX REV NO XXXX DRAWING NAME: ROMNEYI.DWG I FIRE ALARM SYSTEM PAGE. FA -1 -01 _ - - - -- 0 ,�D —-- - - - - -- - - - - - -_ R� FT 1 ❑ I I 1 F f L I - L '2�7 I s �_- - - - - -_ -__ - - - - -- - __ - - -- - - -- I I 1 - - - _ - _ _ _ _ _ - -0 _ - -(D- V B� 0 B / 1 / H7 -33 Hs r , \ / 1 1 r G 1 s H7- Hs H7 -1 WP � 0 B / IJL-- H11 -5 H HS I r H7 -63 J 75 _ - Ha_3 30 8 -a Hs PH7- s 7 -7 7 HS HS H7 -8 - J _ - ` He -z 75 - - HS 75 H8 -5 H He -6 , Q B ' - H8 -7 HS I B Hs H11 -1 Hs H8 -1 , r _ r � 75 Hs H10 -8 O. � a HS H11 -2 I / I i . V / \ a \ / \ H10 -7 B —� 110 0 H10 -1 11 0 Ha-a 75 .., 11 -3 ,•�vr, q / / H9-1, / HS B / 1 / H7 -33 Hs r , \ / 1 1 r G 1 s H7- Hs H7 -1 WP � 0 B / IJL-- H11 -5 H HS I / H 75 HS H12 - 2 T 75H1e- Hs ' 10 -6 HS Hl0 -s 1 r H� H HI1-4 HIO -3 B WP H9 -3 Hs H9 -4 Hs 75 \ \ H13 -6 1 I H9 -5 I I B Hs 75 VVV,IL IV ❑VV>' 0 <1 TO BSMT FLOOR TRANSPONDER TO IST FLOOR TRANSPONDER <3> TO 120VAC WITH GROUND ® TO HVAC FOR FAN SHUTDOWN TO FIRE /SMOKE DAMPERS 0 0 ALL STROBE CANDELA RATINGS ARE 30 UNLESS NOTED OTHERWISE ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR ('M' MONITOR DEVICE NUMBER 1S01 HORN STROBE CIRCUIT NUMBER DEVICE NUMBER H1 -1 N.I.C.E.T. LEVEL IV CERTIFICATION DAVID BURNS #92309 WIRE SCHEDULE SYMBOL DESCRIPTION SIZE A ADDRESSABLE LOOP #1 1 PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 #14 C FAN /DAMPER RELAY CIRCUIT 12 #14 D 24 VDC AUX POWER 2 #14 E REMOTE ANNUNCIATOR 2 PAIR 414 TWISTED & 2 #14 F 120 VAC POWER 3 #12 G FAN SHUTDOWN 2 #14 H PHONE LINES FOR DIALER 8 #22 s— ( —� 0 oaN w -ya `tea N a i• a x a o a F W a w d y N a o z 1 r o w 3 � z o ww J w w c o z W r r z m d a a w i N �= sz�ooF z r -1 O N Z C/) J = W � N > o uj ZIM1 :-J� c.�wac O z W � X W 0 Of G u- a m ! ! F S NELSON FIRE SYSTEMS 801- 468 -8300 DRAWN BY: DB DESIGNED BY: XXXX APPROVED BY: DS D 4/04/05 SCALE: 1 /16' =I' PR OJE C T NO: XXXX REV NO XXXX D RAWIN G NAME: ROMNEYI.DWG FIRE ALARM SYSTEM PAGE: FA -1 -02 i12 -4 B� �\ H12 -5 s— ( —� 0 oaN w -ya `tea N a i• a x a o a F W a w d y N a o z 1 r o w 3 � z o ww J w w c o z W r r z m d a a w i N �= sz�ooF z r -1 O N Z C/) J = W � N > o uj ZIM1 :-J� c.�wac O z W � X W 0 Of G u- a m ! ! F S NELSON FIRE SYSTEMS 801- 468 -8300 DRAWN BY: DB DESIGNED BY: XXXX APPROVED BY: DS D 4/04/05 SCALE: 1 /16' =I' PR OJE C T NO: XXXX REV NO XXXX D RAWIN G NAME: ROMNEYI.DWG FIRE ALARM SYSTEM PAGE: FA -1 -02 i12 -4 B� �\ H12 -5 Nil m 0 p L TYTT ® TO TO O T 0 ® T TO O O E NETE� BSMT FLOOR TRANSPONDER 1ST FLOOR TRANSPONDER 120VAC WITH GROUND HVAC FOR PAN SHUTDOWN FIRE /SMOKE DAMPERS ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR C 'M' MONITOR ? DEVICE NUMBER 1SOI HORN STROBE CIRCUIT NUMBER DEVICE NUMBER I -1 N. 1. C. E. T. LEVEL IV CERTIFICATION DAVID BURNS #92309 WIRE SCHEDULE SYMBOL DESCRIPTI ❑N SIZE A ADDRESSABLE LOOP #1 1 PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 #14 C FAN /DAMPER RELAY CIRCUIT 2 #14 D 24 VDC AUX POWER 2 #14 E REMOTE ANNUNCIATOR 2 PAIR #14 TWISTED & 2 #14 F 120 VAC POWER 3 #12 Ci FAN SHUTDOWN 2 #14 H PHONE LINES FOR DIALER 8 #22 a- i -� a w � ma�QpaLL.ri o w ==N a i�'r ac °1 yz vow ° po'w ° ui �-iQ z F z m a F a w F a E o i z o o a a z - �w° o� u�QZw . r ■ i (7 Lu z/5 Z N J = j N j LLJ ZEn1 :-1� (7uj J(n zzQof m po wu -w Q LL c� m N F S NELSON FIRE SYSTEMS 801- 468 -8300 DRAWN BY: DB DESIGNED BY: XXXX APPROVED BY: DS DA 4/04/05 SCAL 1/16' =I' PROJEC NO: XXXX R NO: XXXX DRAWING NAME: ROMNEYI.DWG FIRE ALARM SYSTEM PAGE: FA -1 -03 DN I � I _ TTfT'Ti'T1TTT�TfTTITr � _ I _ _ s i � I I � I i I � �-./ i , Ll UP T❑ UP TD A PENTHOUSE pENTHOUSE Y / v I� I i --- - - - - -0 - - 1 I i I i s / 1t7 / 0 Q WIRE SCHEDULE RS SYMBOL I DESCRIPTION SIZE A (ADDRESSABLE LOOP 41 1 PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 #14 C FAN /DAMPER RELAY CIRCUIT 2 #14 D 24 VDC AUX POWER 2 #14 E REMOTE ANNUNCIATOR 2 PAIR #14 TWISTED, 4 414 F 120 VAC POWER 3 #12 G FAN SHUTDOWN 2 #14 H PHONE LINES FOR DIALER 8 #22 CD W N_ZF - J� UJ � Q > — W W D J _ > < - z: Of c�Wa0ZD Z Z Q U X 0 0 Uj 0 W of IL Q ' 2 N V 1..L m F S NELSON FIRE SYSTEMS 801 - 468 -8300 DR BY: DB DESIGNED BY: XXXX APPROVED BY: RS DATE: 4/06/05 SCALE: 1/16' =I' PR OJECT NO: XXXX REV N0: XXXX DRAWING NAME: 1 ROMNEY2.DWG i FIRE ALARM S YSTEM PAGE: FA -2 -01 J �/ `% I - V E ! L <j> TO IST FLOOR TRANSPONDER TO 2ND FLOOR TRANSPONDER a 03 TO 120VAC WITH GROUND w � a N d z ® TO HVAC FOR PAN SHUTDOWN =NJw J °ya oa r.ao a TO FIRE /SMOKE DAMPERS LL m�w Nw==3 �a� LL= 4 � m i � a w M E a�� z a a z F ° rtii; d z z a LL ��'n a z ° u s ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR C "M" MONITOR ) DEVICE NUMBER 1S01 HORN STROBE CIRCUIT NUMBER EF DEVICE NUMBER HI -1 DOWN TO 2ND FLOOR A Q / DN _ f DOWN TO (� - 2ND FLOOR / / A� PENTHOUSE N. 1, C. E. T. LEVEL IV CERTIFICATION DAVID BURNS #92309 Q-1 v SYSTEN N❑TFS I <T> TO IST FLOOR TRANSPONDER <Z> TO 2ND FLOOR TRANSPONDER 30 TO 120VAC WITH GROUND ® TO HVAC FOR F AN SHUTDOWN TO EIRE /SMOKE DAMPERS ALL STROBE CANDELA RATINGS ARE 30 UNLESS NOTED OTHERWISE ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR C "M" MONITOR ? DEVICE NUMBER ISOl HORN STROBE CIRCUIT NUMBER DEVICE NUMBER 1. 1 �- 9, B PENTHOUSE N.I.C.E.T. LEVEL IV CERTIFICATION DAVID BURNS #92309 WIRE SCHEDULE SYMBOL DESCRIPTI ❑N SIZE A ADDRESSABLE LOOP #1 1 PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 #14 C FAN /DAMPER RELAY CIRCUIT 2 #14 D 24 VDC AUX POWER 2 #14 E REMOTE ANNUNCIATOR 2 PAIR #14 TWISTED, 4 414 F 120 VAC POWER 3 #12 G FAN SHUTDOWN 2 #14 H PHONE LINES FOR DIALER 8 #22 1 -o' a _ o po a � a Nao�s3H a z�NNa=oa=o ° waw w 3 , z ii a z w ==� o F a o o z - r z ° iaLL..,Na r W, ol tD W U)Z(nW W _ >Q > — co W Z M J D ix W' CAW JO Z Z Q U 0 0 Lu W LL 0 m NFS NELSON FIRE SYSTEMS 801 -468 -8300 DRAWN BY: DB DESIGNED BY: XXXX APPROVED BY: RS DATE: 4/06/05 SCALE: 1 / 16' =P P ROJECT N0: XXXX REV N0: XXXX DRAWING N AME: ROMNEY2.DWG FIRE ALARM SYSTEM PAGE: FA -2 -02 SYS EM Mf�TES <1> TO 1ST FLOOR TRANSPONDER TO 2ND FLOOR TRANSPONDER <3> T❑ 120VAC WITH GROUND ® TO HVAC FOR FAN SHUTDOWN TO FIRE /SMOKE DAMPERS ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR < "M" MONITOR ) DEVICE NUMBER 1S01 HORN STROBE iff CIRCUIT NUMBER DEVICE NUMBER H1 -1 PENTHOUSE N.1.C.E.T. LEVEL IV CERTIFICATION DAVID BURNS #92309 WIRE SCHEDULE SYMBOL DESCRIPTION SIZE A ADDRESSABLE LOOP #1 1 PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 #14 C FAN /DAMPER RELAY CIRCUIT 2 #14 D 24 VDC AUX POWER 2 #14 E REMOTE ANNUNCIATOR 2 PAIR #14 TWISTED, 4 #14 F 120 VAC POWER 3 #12 Ci FAN SHUTDOWN 2 #14 H PHONE LINES FOR DIALER 8 #22 -l "' 0 a w =. �`i,00 °a 3N�a N = ° ^N `"azoa i o ° =N w =�oaoNw=a p=m�E a F i LL= s a F a � z z zaLL�. • ■ C� W � E 0 W O= W _j?-> Q ] - w W D J < Z � W J O Z Z Q U m 00 O Lu w lz E LL_ Q C7 m NFS NELSON FIRE SYSTEMS 801- 468 -8300 DRAWN BY: DB DESIG BY: XXXX APPROVED BY RS DATE: 4/06/05 SC ALE: 1/16' =1' PROJECT NO: XXXX R NOLNAME XXXX DRAWIN 2.DWG FIRE ALARM SYSTEM PAGE: FA -2 -03 REXBURG - MADISON COUNTY EMERGENCY SERVICES 26 NORTH CENTER STREET REXBURG, IDAHO 83440 208 - 359 -3010 Nelson Fire Systems 1481 South Major Street Salt Lake City, Utah 84115 Dear Nelson Fire Systems, May 12, 2005 On the above date I have reviewed the fire alarm plans for the BYUI Romney and Clarke Buildings located in Rexburg, Idaho with David Burns of your company. Both sets of plan have been approved with minor changes as noted on the drawings. If you have any questions please feel free to contact me. Sincerely, Chris Huskinson Fire Inspector 208 - 705 -1312 (cell) April 5, 2005 ROMNEY SCIENCE BUILDING BYU -IDAHO FIRE ALARM SYSTEM SUBMITTAL "0 Equipment Manufacturer: Authorized Distributor: Data Sheet FCI FCI FCI FCI FCI FCI FCI FCI FCI FCI Gamewell Wheelock Wheelock Fire Control Instruments Nelson Fire Systems 1481 South Major Street Salt Lake City, Utah 84115 (801) 468 -8300 Part No. FC -7100 LCD -7100 ASD -IL2 /ADB -FL ATD -RL2 /ADB -FL ADP -R MS -2 /AMM -2 AMM -2 AMM -4 AOM -2R ARB -C Fireforce 8 NS- 24MCW -FW AH- 24WP -R Description Addressable Fire Alarm Control Panel Remote Annunciator Analog Smoke Detector /Base Analog Heat Detector /Base Analog Duct Detector w/Relays Manual Pull Station Addressable Monitor Module Addressable Monitor Module Analog Output Module Auxiliary Relay Supplementary Notification Power Supply Strobe Horn Weatherproof Horn Battery Calculations Prints I]OFIRE CONTROL INSTRUMENTS Building Intelligent Networks r1 L J 0 7100 SERIES www.ffrecontrolinstruments.com DESCRIPTION The FCI 7100 series fire alarm control panel is a multiprocessor - based, analog addressable system in a compact, yet expandable, plat- form. Intended for commercial, industrial and institutional installations, it is ideal for life safety and property protection applications. The basic 7100 series control panel pro- vides two analog addressable signaling line circuits (SLCs): Each SLC supports up to 99 analog addressable sensors, as well as up to 99 addressable monitor modules and /or con- trol points.With 198 addresses available on each SLC, total system capacity reaches 396 add resses.The 7100 uses an advanced pro- tocol that ensures an almost instant response to events while at the same time suppressing nuisance alarms. The system may be programmed with ei- thertheWindowe -based Field Configuration Program (FCP -7100) or through a compre- hensive set of intuitive, securely password protected front -panel programming options. This important feature allows the system to quickly adapt to any future requirements brought on by changes in occupancies, build- ing remodels, or other contingencies. The sophisticated circuitry and powerful analog software enables the 7100 series fire alarm control panel to read the specific sen- sitivity level of each sensor and compensate for any changes due to age, dust accumula- tion or other environmental factors.The 7100 incorporates the FCI Listed Integrated Sens itivityTesti ng (LIST) which meets NFPA 72 sensitivity testing and maintenance re- quirements The LIST testing allows substan- tial savings in both maintenance and service while virtually eliminating nuisance alarms. The Model 7100 -2D (non -FM) features an integral DigitalAlarm CommunicatorTrans- mitter (DACT) with all popular transmission formats and a 16 -digit telephone number field. It is 8 -digit Carrier Information Code (CIC) compliant and also prevents "dialer- runaway" in the event of intermittent system faultsThe 7100-2D is UL Listed for Remote Station, Pro - prietary,and Central Station fire alarm sys- tems. The 7100 is housed in an attractive, con- temporary styled cabinet. It allows ample space for wiring and room for batteries up to 7A /H capacity. FEATURES • Integral DigitalAlarm Communicator (with the 7100 -2D) • 120 or 240VAC (optional) input Line Voltage • intuitive Front Panel Programming • 80- characterAlpha- numeric Display • Two Style 4 (Class "B") Signaling Line Circuits. Style 6 (Class "A") with optional CAOM module • Two Style (Class "B") Regulated Notification Appliance Circuits rated for 1. S A m p. each. Style Z (Class "A ") with optional CAOM module • Suitable for Pre - Action Deluge applications with optional MCOM module • Available with Plastic orMetal Door • PeriodicTrouble Reminder • Individual Sensor Drift Compensation • Listed Integral SensitivityTesting (LIST) • Dual -stage Maintenance alerts ( "Dirty" and" Very Dirty ") • Multilevel Sensor Sensitivity Adjustments (Front Panel programmable) • Day/Night SensitivityAdjustments (Front Panel programmable) • Alarm Verification per Individual Sensor • PositiveAlarm Sequence for Sensors or Monitor Modules • Four Levels of SystemAccess using Six Digit Passwords with up to Five User Passwords per Level • Duplicate and ExtraA ddress indications • March Time (60 or 120 BPM) /Temporal Pattern/ Coded FoursiCali fornia Code/ User-Defined Zone Coding • Cross Zoning • System Configuration Programming and 500 Event Log stored in Non - Volatile Memory • Fan Restart with Sequential Restart Delay • Upload/ Download of Panel Configuration between Panel and FCP -7100 program (Password Protected feature) • Up to 64 7100 panels in NetSOLO network with optional INI -7100 module COMPACTANALOG ADDRESSABLE FIRE CONTROL PANEL UL FM S1869 APPROVED EA N71 307 -99 -E '• 307-99-EVol. I I i 'rEgVIGE 7165- 0694:219 (7100) 7300 - 0694:231 (LCD -7100) 7300 - 0694:241 (LDM -7100) Specifications are provided for information only end are not intended to be used for insc Ilaton purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Speck f cations subject to change without notice. 62002 All Rights Reserved 9020- 04661VER. 12 Page I of S _ FIRE CONTROL INSTRUMENTS Building Intelligent Networks LCD -7100 The LCD -7100 remote serial display offers an 80 -char- acter alphanumeric readout for remote display of all sys- tem events. It duplicates all the information on the 7100 series panel display and provides key switch protected func- tions such as System ResetAlarmAcknowledge,Trouble Acknowledge, Signal Silence,and DrillTest. LEDs on the LCD -7100 indicateAlarm, Supervisory, Sys.- temTrouble, Power Fault,Systems Silenced,NAC #I,and NAC #2 Silenced conditions. The LCD -7100 can be surface or semi -flush mounted on a standard four -gang electrical box and it can be in- stalled up to 4,000 feet (1,219 m) from the main control panel.The 7100 series fire alarm control panel can sup- port up to five (5) remote LCD -7100 annunciators using one pair of twisted, non-shielded 18AWG min.wire for serial communication and another pair of 16AWG min. for operating voltage. (Refer to 9020 -0486) www.firecontrolinstruments.com OPTIONAL ACCESSORIES • LDM -7100 The LED Driver module (LDM -7100) is designed to mount in a U.L. Listed remote annunciator and provides outputs for remote panel switches and 33 remote LEDs. Three LDM -7100 modules may be installed in a single an- nunciator for a total of 99 LEDs per annunciator. This combination may be repeated up to five times for a total of fifteen (15) LDM -7100 at up to five different locations. Maximum distances of up to 4,000 feet (1,219`m) can be achieved using one pair of twisted, non - shielded wire for serial communication and another pair of straight -lay wire. for operating voltage. (Refer to 9020 - 0519) CAOM The Class "A" Optional module (CAOM) allows StyleY and Z (Class "B" and "A ") operation for both Notification Appliance Circuits and Style 4 and 6 (Class "B" and "A ") for both Signaling Line Circuit.. It also provides discon- nect switches for each signaling line circuit and a com- mon disconnect switch for both notification appliance cir- cuits. 0 MCOM The Municipal Connection Option Module (MCOM) provides three choices of outputs. It can be configured as a Municipal Circuit (City Box) output at: *24VDC nominal voltage •0.0018 amp supervisory current •0.510 amp maximum alarm current •35 ohms maximum line resistance • 14.5 ohms maximum trip coil resistance It may also be set to serve as a Reverse Polarity output with a nominal voltage output of 24VDC at 0.012 amp maximum alarm and supervisory current. The third option the MCOM provides is as a releasing solenoid output rated at: • 24VDC nominal voltage • 0.005 amp supervisory current 00.710 amp maximum alarm current 12 ohms maximum line resistance It is suitable to be used with: *Skinner LV2LBX25 • Asco T82 I OA 107 • Asco 821 OG207 •Skinner 73218BN4UNLVNOC I I I C2 'Skinner 73212BN4TNLVNOC322C2 • Skinner 71395SN2ENJ I NOH I I I C2 PTRM The PrinterTransient module (PTRM) provides RS -232 Isolator /Transient protection for the 7100's RS -232 port (BSM cohnector J2). It is used in conjunction with a serial printer applied to the RS -232 port for permanent record keeping. INI -7100 The Intelligent Network Interface module allows the 7100 series fire alarm control panel to become the platform of a peer -to -peer, token ring,self regenerative network comprised of up to sixty -four (64) 7100s. Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. Hovever, no resposibility is assumed by Fire Control Instruments for their use Specifications are subject to change without notice. 1100 SERIES C 2002Ai1 Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood MA 02090 USA Te1:781 -471 -3000 • Fax:781 -471 -3099 • www.firecontrolinstruments.com 9020- 0466IVER. 12 1 Page 2 of 5 FIRE CONTROL INSTRUMENTS 7100 SERIES Building Intelligent Networks wwwfirecontrolinstruments.com 00 T87 BATTERY I.) BATTERY ( -) LL X ® I C E I #}#}( lkfflf f4}4F NEUTRAL GROUND Ito VA[, 60 MZ HOT • FIRE CONTROL INSTRUMENTS 16 Southwest ParkMestwood MA 02090 USA • Te1:781 -471 -3000 • Fax:781 -471 -3099 • www.firecontrolinstruments.com n2002A11 Rights Reserved T89 2 3 4 5 6 7 8 A m m p $ C 3 G 3 f v C SPECIFICATIONS NOTIFICATION APPLIANCE CIRCUITS (TBU TWO SUPERVISED, REGULATED, POWER LIMITED OUTPUTS (NON- COOEO) MAX. ALARM LOAD 1.5 AMD PER CIRCUIT FOR USE WITH ANY LISTED APPLIANCE W/ OPERATING VOLTAGE RANGE 17 -26 VDC USE UL LISTED END OF LINE RESISTOR EOL-N (47K). P/N 470M512 TROUBLE DRY CONTACTS (TB2) FORM 'C' RATED FOR 2 AMPS 0 30 VDC ALARM DRY CONTACTS (TB2) FORM 'C' RATED FOR 2 AMPS 0 30 VDC TRANSFER RELAY CONTROL(TB2) TRANSMITS LOSS OR BROWN OUT OF AC POWER TO DRBC -I BATTERY CHARGER PDWER LIMITED UNSUPERVISED SIGNALING LINE CIRCUITS (TB3) 24 VDC NOMINAL POWER LIMITED B SUPERVISED 40 OHMS MAX. LINE RESISTANCE 0.5 OF MAX. CAPACITANCE CAPACITY OF 99 ANALOG SENSORS AND 99 ADDRESSABLE DEVICES PER CIRCUIT 24 VDC EXTERNAL POWER (TB4) RESE TTAOLE B NON- RESETTABLE UNREGULATED UNSUPERVISED 1.0 AMP MAX.FROM EACH CIRCUIT/ 1.0 AMP MAX. COMBINED EARTH GROUND CONNECTION (TB4) AC INPUT (TED) 120 VAC, 60 Hz, 2 AMPS NON -POWER LIMITED BATTERY CONNECTION (TB7) SUPERVISED 24 VDC NOMINAL MAX. BATTERY 112E 31 A/H NON -POWER LIMITED 0.6 AMP MAX. BATTERY CHARGING CURRENT TELEPHONE REQUIREMENTS(TB9) DC RINGER EQUIVALENCE NUMBER (REN) - 0.58 AC RINGER EQUIVALENCE NUMBER • 1.3 COMPLIES WITH FCC PART 8 Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. H owever, no resposibility is assumed by fire Control Instruments, Inc. for their use Specifications are subject to change without notice. 9020- 04661VER. 2.2 1 Page 3 of 5 a a 5 9< a G L 3 2 I 8 7 6 5 4 3 2 1 L 3 2 I L 3 2 I 4 3 2 1 TBI TB2 T83 TB4 TB5 ® I C E I #}#}( lkfflf f4}4F NEUTRAL GROUND Ito VA[, 60 MZ HOT • FIRE CONTROL INSTRUMENTS 16 Southwest ParkMestwood MA 02090 USA • Te1:781 -471 -3000 • Fax:781 -471 -3099 • www.firecontrolinstruments.com n2002A11 Rights Reserved T89 2 3 4 5 6 7 8 A m m p $ C 3 G 3 f v C SPECIFICATIONS NOTIFICATION APPLIANCE CIRCUITS (TBU TWO SUPERVISED, REGULATED, POWER LIMITED OUTPUTS (NON- COOEO) MAX. ALARM LOAD 1.5 AMD PER CIRCUIT FOR USE WITH ANY LISTED APPLIANCE W/ OPERATING VOLTAGE RANGE 17 -26 VDC USE UL LISTED END OF LINE RESISTOR EOL-N (47K). P/N 470M512 TROUBLE DRY CONTACTS (TB2) FORM 'C' RATED FOR 2 AMPS 0 30 VDC ALARM DRY CONTACTS (TB2) FORM 'C' RATED FOR 2 AMPS 0 30 VDC TRANSFER RELAY CONTROL(TB2) TRANSMITS LOSS OR BROWN OUT OF AC POWER TO DRBC -I BATTERY CHARGER PDWER LIMITED UNSUPERVISED SIGNALING LINE CIRCUITS (TB3) 24 VDC NOMINAL POWER LIMITED B SUPERVISED 40 OHMS MAX. LINE RESISTANCE 0.5 OF MAX. CAPACITANCE CAPACITY OF 99 ANALOG SENSORS AND 99 ADDRESSABLE DEVICES PER CIRCUIT 24 VDC EXTERNAL POWER (TB4) RESE TTAOLE B NON- RESETTABLE UNREGULATED UNSUPERVISED 1.0 AMP MAX.FROM EACH CIRCUIT/ 1.0 AMP MAX. COMBINED EARTH GROUND CONNECTION (TB4) AC INPUT (TED) 120 VAC, 60 Hz, 2 AMPS NON -POWER LIMITED BATTERY CONNECTION (TB7) SUPERVISED 24 VDC NOMINAL MAX. BATTERY 112E 31 A/H NON -POWER LIMITED 0.6 AMP MAX. BATTERY CHARGING CURRENT TELEPHONE REQUIREMENTS(TB9) DC RINGER EQUIVALENCE NUMBER (REN) - 0.58 AC RINGER EQUIVALENCE NUMBER • 1.3 COMPLIES WITH FCC PART 8 Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. H owever, no resposibility is assumed by fire Control Instruments, Inc. for their use Specifications are subject to change without notice. 9020- 04661VER. 2.2 1 Page 3 of 5 FIRE CONTROL INSTRUMENTS 1100 SERIES Building Intelligent Networks wwwfirecontrolinstruments.com SPECIFICATIONS Primary Input Power 120VAC, 50/60 Hz @ 2.0 amps or 240VAC, 50/60 Hz @ 1.0 amp Output Power 4 amps.@ 24VDC (total) Non- resettable Power 1.0 amp. max. Resettable Power 1.0 amp. max. 1.0 amp. max. from both circuits Two (2) NotificationAppliance Circuits 1.5 amp. each @ 24VDC Current Supervisory Alarm 7100 -2 (Two Loop) 0.065 amp. 0.085 amp. 7100 -2D (Two Loop w /Dialer) 0.085 amp. 0.105 amp. LCD -7100 0.050 amp. 0.075 amp. LDM -7100 - 0.035 amp. 0.200 amp. (All LEDs lit) INI- 7100- UTP -FO 0.040 amp. 0.040 amp. OperatingTemperature 32 - 120 F (0 - 49 C) Relative Humidity 85 % (non- condensing) Battery Charger Capacity 31 A/H (Cabinet accommodates 7A /H size batteries) • Alarm &Trouble Relay Contacts Form "C ",2 amps.@ 24VDC (resistive) Dimensions 7100 16.9" H x 14.5"W x 3" D (40 x 37 x 7.5 cm) LCD -7100 4.25 " H x 8.25 "W x 1.88" D (1 1.5 x 20.5 x 4.6 cm) LDM -7100 6 "W x 4 1/2"W (15.24 x 1 1.5 cm) Weight (7100) 24 Ibs (I I kg) AGENCYAPPROVALS U. L. File S 1869 FM Approved CSFM 307 -99 -E 307-99-EVol. I I MEA 7165 - 0694:219 (7100) 7300 - 0694:231 (LCD -7100) 7300 - 0694:241 (LDM -7100) • Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. H ovever, no resposibility is assumed by fire Control Instruments for their use. Specifications are subject to change without notice. 02002AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood MA 02090 USA • Tel:781 -471 -3000 • Fax:781 -471 -3099 • www.firecontrolinstruments.com 9020- 0466/VER. 2.2 / Page 4 of 5 I[Z O FIRE CONTROL INSTRUMENTS 7100 SERIES Building Intelligent Networks www.firecontrolinstruments.com ORDERING INFORMATION BASIC KITS Part Number Model Description 1 100 -131 1 BK- 7100 -2 Basic System Kit,2 SLC (BSM,Keypad DisplayTransfarmer) 1100-1312 BK- 7100 -2D Basic System Kit w/ DACT,2 SLC 1 100 -1313 BK- 7100- 2 -240V Basic System Kit,2 SLC,240VAC 1100-1314 BK- 7100- 2D -240V Basic System Kit w/ DACT, 2 SLC, 240VAC CABINETS 1 100 -1307 7100 -ENC- PLASTIC Enclosure with Plastic Door, standard (16.9" H x 14.4" D x 3" D) 1 100 -1308 7100 -ENC -METAL Enclosure with Metal Door, standard (16.9" H x 14.4" D x 3" D) 1 100 -0480 NS -7100B Enclosure, NetS0LO' Broad ban d, black (19" H x 19 "W x 4" D) 1 100 -0481 NS -7100R Enclosure, NetSOLOI Broadband, red (19" H x 19 "W x 4" D) OPTIONAL MODULES 1 100 -0399 LCD -7100 Remote SerialAnnunciator (80- character) 1100-0428 LDM -7100 Remote LED Driver Module 1 100 -1233 CAOM ClassA Option combination module with disconnect switches for both Signaling Line Circuits and Notification Appliance Circuits 1 100 -1234 MCOM Municipal Connection Option Module for Local Energy City Box, Reverse Polarity Signaling, or Releasing Solenoid 1 100 -1235 PTRM PrinterTransient Module 1 100 -0440 INI- 7100 -UTP Intelligent Network Interface module- UnshieldedTwisted Pair 1 100 -0439 INI - 7100 -FO Intelligent Network Interface module- Fiber Optic REPLACEMENT PARTS 1420 -0429 EN -7100 Enclosure (replacement) 1 120 -0779 CS -7100 Plastic Door (replacement) 1 120 -0867 CS -7100M Metal Door (replacement) 1120 -0778 T-7 100 Transformer,120VAC input (replacement) 1 120 -0801 T -7100 -240 Transformer,240VAC input (replacement) 1 120 -0781 BSM -2 Basic System Module, 2 SLC (replacement) 1 120 -0780 BSM -2D Basic System Module,2 SLC w /DACT (replacement) 1 120 -0767 KeypadAssembly (replacement) Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. 1— evegno resposibility is assumed by fire Con rol Instruments for their use. Specifications are subject to change without notice. @2002AII Rights Reserved FIRE CONTROL INSTRUMENTS. 16 Southwest Park, Westwood MA 02090 USA •Te1:781 -471 -3000 • Fax: 471-3099 • www.firecontroIinstruments.com 9020- 0466NER. 2.2 / Page 5 of 5 0 FC9 DESCRIPTION The LCD -7100 Remote Serial Display provides superior flexibility to the 7100 Series installations. It features an 80- character display which duplicates all the infonnation on the 7100 Series panel display with the exception of menus. The LCD -7100 contains the following function keys: • Alarm Acknowledge • Trouble Acknowledge • Signal Silence._ • System Reset/Lamp Test • System Drill Test A keylock must be placed in the "ON" position to enable the function keys with the exception of the "Trouble Ac- knowledge" key which is used to silence the trouble sounder on the LCD- 7100. LEDs on the LCD -7100 are: • Alarm • Supervisory •System Trouble • Power Fault • System Silenced • NAC #1 Silenced • NAC #2 Silenced INSTALLATION The LCD -7100 can be surface or flush mounted on a stan- dard four -gang electrical box and installed up to 4,000 feet away from the main control. The 7100 Series control panel can accommodate up to five (5) remote LCD -7100 annuncia- tors. 7100 SERIES UL LCD -7100 REMOTE SERI.AL LCD DISPLAY FEATURES • 80- Character LCD Display • Full Complement of Function Keys and LEDs • Remote Location up to 4,000 Feet Away from Control Panel • 7100 Series will Accommodate up to Five (5) Annunciators • Surface or Flush Mount on Standard Four -gang Electrical Box • Compact, Attractive Appearance SPECIFICATIONS Operating Voltage 24 VDC (nominal) Supervisory current .050 amp. Alarm current .075 amp. Operating temperature (recommended) 60 to 80 F (15 to 27 C) Absolute maximum operating temperature range 32 to 120 F (0 to 49 C) Relative humidity 85% max., non - condensing at 90 F (32 C) Dimensions 8'/4 "L x 4 ', /�" H x 1 7/8" D (20.5 x 11.5 x 4.6 cm) ORDERING INFORMATION Part No. Model Description 1100 -0399 LCD -7100 Remote Serial LCD Display • Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. © 1999 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 9020 -0486 /Ver. 1.2 I[Z FIRE CONTROL INSTRUMENTS Building Intelligent Networks C. • AS0=1L2 wwwfirecontrolinstruments.com ANALOGADDRESSABLE IONIZATION SMOKE GENERAL The Fire Control InstrumentsASD Series intelligent plug -in smoke detectors with integral communication provide features that surpass conventional detectors. Detector sensitivity can be programmed in the control panel software. Sensitivity is continuously monitored and reported to the panel. Point ID capability allows each detector's address to be set with decade address switches, providing exact detector locations for selective maintenance when chamber contamination reaches an unacceptable level. The ASD -IL2 ionization detector incorporates a unique single- source, dual - chamber design to respond quickly and dependably to a broad range of fires. INSTALLATION ASD -I1_2 plug -in detectors use a separate base to simplify installation, service, and maintenance. A special tool allows maintenance personnel to plug in and remove detectors without using a ladder. Mount base on a box which is at least 1.5" (3.81 cm) deep. Suitable mounting base boxes include: • 4.0" (10.16 cm) square box. • 3.5" (8.89 cm) or 4.0" (10.16 cm) octago- nal box. • Single -gang box (except relay or isolator base). • With B501 BH base, use a 4.0" (10.16 cm) square box. With B224RB or B224B1 base, use a 3.5" (8.89 cm) octagonal box, or a 4.0" (10.16 cm) octagonal or square box. NOTE: Because of the inherent supervision provided by the SLC loop, end- of-line resistors are not required Wiring" Ttaps" or branches are permitted for Style 4 (ClassrB ") wiring. FEATURES • Sleek, low-profile design. • Addressable - analog communication. • Stable communication technique with noise immunity. • Low standby current. • Rotary 01 99 add ress switches • Optional remote, single -gang LED accessory (RA400Z). • Dual LED design provides 360° viewing angle. • Visible red LEDs blink every time the detector is polled, and illuminate steady on alarm. • Built -in functional test switch activated by external magnet. • Optional relay, isolator, or sounder bases. • Listed to UL 268. DETECTOR SPACING: FCI recommends spacing detectors in compliance with NFPA 72. In low airflow applications with smooth ceilings, space detectors 30 feet (9.144 m). For specific information regarding detector spacing, placement, and special applications, refer to N F PA 72, System Smoke DetectorApplication Guide, documentA05- 1003,is available at systemsensor.com. DETECTOR ASD -IL2 ( 5 k <FM � APPROVED , 'r te '• , ` r EgY1G.£� An ISO 9001 Comuanv Specifications are provided for information only, and are belie tended to be used for installation purposes and are ved to be accurate. H -er,no responsibility is med n y Fire Control Instruments for their use. Specificadons subject to change without notice. 02003 All Rights Reserved 9020 -0558Ner. 1.0 Page 1 of 2 A Honeywell Company FIRE CONTROL INSTRUMENTS AS0=1L2 Building Intelligent Networks wwwfirecontr REMOTE ANNUNCIATOR +��- +- I 1 I I Listed Compatible 1 CONTROL 3 2 3 2 PANEL 1 i 1 1 1 1 1 I I I 1 1 1 I I I 1 I - 1 1 --- - - - - -- 1 OPTIONAL RETURN LOOP • - ----------------------------------------------------- -- + SPECIFICATIONS Size:2.1" (5.1 cm) high x4.1" (10.4 cm) diameter installed in B501 base, 6.1" (15.5 cm) diameter installed inADB -FL base. Shipping weight: 5.4 oz. (154 g). Operating temperature: 0 ° C to 49 ° C (32 ° F to 120 ° F). UL- Listed velocity range: ION: 0 - 1200 ft. /min. (365.76 m /min.). Relative humidity: 10% - 93% noncondensing. ELECTRICAL SPECIFICATIONS Voltage range: 15 - 32 volts DC peak. Standby current(max.avg.): 200 pA @ 24VDC (without communication);300 pA @ 24VDC (one communication every 5 seconds with LED enabled). LED current (max.): 6.5 mA @ 24VDC ( "ON "). BASESAVAILABLE ADB -FL: 6.1 " (15.5 cm) diameter. B50I:4.1" (10.4 cm) diameter. B501 BH orB501BHT: Sounder base assembly (13501 BHT produces aTemporal Pattern). Includes 8501 base. B224RB Relay Base: Screw terminals: up to 14AWG (2.0 mmz).Relaytype: Form- C.Rating. 2.OA @30VDC resistive; 0.3A @ I IOVDC inductive; I.OA @ 30VDC inductive. Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). B524BI Isolator Base: Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). Maximum: 25 devices between isolator bases. • Specifications are provided for information on y, and are not intended to be used for installation purposes and are beloved to be accurate. _ Howeverno responsibility is assumed by Fire Contro l Instruments for their use. Specifications subject to change without notice. ©2003AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood,MA 02090 USA • Tel:781 -471 -3000 • Fax:781 -471 -3099 • www.firecontrolinstruments.com A Honeywell Company 9020- 0558NER. 1.0 / Page 2of2 I[O FIRE CONTROL INSTRUMENTS Building Intelligent Networks 0 • FEATURES wwwfirecontroIinstruments.com GENERAL The FCI Series intelligent plug -in thermal detectors with integral communication provide features that surpass conventional detectors. Detector sensitivity can be programmed in the control panel software. Sensitivity is continuously monitored and reported to the panel. Point ID capability allows each detector's address to be set with decade address switches, providing exact detector locations for selective maintenance when chamber contamination reaches an unacceptable Ievel.ATD Series thermal detectors use an innovative thermistor sensing circuit to produce 135 ° C fixed - temperature (ATD -L2) and rate -of -rise thermal detection (ATD -RL2) in a low - profile package.TheATD -HL2 provides fixed high - temperature detection at 190 ° F /88 thermal detectors provide cost effective, intelligent property protection in a variety of applications. INSTALLATION ATD -1_2 plug -in detectors use a separate base to simplify installation, service, and main - tenance.A special tool allows maintenance personnel to plug in and remove detectors without using a ladder. Mount base on a box which is at least 1.5" (3.81 cm) deep. Suitable mounting base boxes include: • 4.0" (10.16 cm) square box. • 3.5" (8.89 cm) or 4.0" (10.16 cm) octago- nal box. • Single -gang box (except relay or isolator base). • With B501 BH base, use a 4.0" (10.16 cm) square box. • With B224RB or B224B1 base, use a 3.5" (8.89 cm) octagonal box, or a 4.0" (10.16 cm) octagonal or square box. NOTE: Because of the inherent supervision provided by the SLC loop, end -of -line resistors are not requimd.Wiring" Ttaps" or branches are permitted for Style 4 (Class`rB ") wiring. ANALOG ADDRESSABLE THERMAL DETECTOR AT042 • Sleek, low- profile, stylish design. • State-o f-the-art thermistor technology for fast response. • Rote -of -rise model (ATD -RL2), 15 °F (8.3 °C) per minute. • Factory preset at 135 °F (S7 °C);high- temperature modelATD -HL2 at 190 °F (88 °C). • Addressable by device. • Rotary 01— 99 address switches • Two -wire loop connection. • Visible LEDs "blink" every time the unit is polled. • 360° -field viewing angle of the visual alarm indicators (Two red LEDs). LEDs blink in Normal condition and turn on steady inAlarm. • Integral communications and built -in device -type identification. • Remote test feature from the panel. • Built -in functional test switch activated by external magnet. • Low standby current. • Listed to UL 521. • Built -in tamper - resistant feature. • Designed for direct - surface or electrical -box mounting. • Sealed against back pressure. • Plugs into separate base for ease of installation and maintenance. Separate base allows interchange of photoelec- tric, ionization and thermal sensors. • SEMS screws for wiring of the separate base. • 94 -5V plastic flammability rating. • Remote LED output connection to optional RA40OZ remote LED annunciator. • Optional sounder, relay, and isolator bases. t� ATD -L2 ( K ) FM APPROVED Sfgv{ An ISO 9001 Comnan Specifications are provided for information onfy,and are not intended to be used for installation Purposes and are believed to be accurate. H-s r, no responsibility is med by Fire Control Instruments for their use. Specifications subject co change without notice. ©2003 All Rights Reserved 9020.0660Ner. 1.0 Page 1 of 2 A Honeywell Company FIRE CONTROL INSTRUMENTS Building Intelligent Networks AT042 wwwfirecontroIinstruments.com REMOTE ANNUNCIATOR + II — + ---- - - - - -- I I I l I Listed Compatible CONTROL 3 2 3 2 PANEL 1 i I 1 l I I I I I I I I I I I I I — I I I 1 OPTIONAL RETURN LOOP ----------------------------------------------------- • SPECIFICATIONS Size:2.I" (5.1 cm) high x 4.1" (10.4 cm) diameter installed in B501 base, 6.1" (15.5 cm) diameter installed inADB -FL base. Shipping weight: 4.8 oz. (137 g). Operating temperature range: ATD- L2,ATD -RL2: —20 °C to 38 °C (-4 °F to I OOoF);ATD -HL2: —20 °C to 66 °C (-4 °F to 150 °F). Detector spacing: LIL approved for 50 ft. (15.24 m) center to center. FM approved for 25 x 25 ft. (7.62 x 7.62 m) spacing. Relative humidity: 10% — 93% noncondensing. Thermal ratings: fixed- temperature setpoint 135 °F (57 °C), rate -of -rise detection 15 °F (8.3 °C) per minute, high temperature heat 1907 (88 °C). ELECTRICAL SPECIFICATIONS Voltage range: 15 - 32 volts DC peak. Standby current(max.avg.): 200 pA @ 24VDC (without communication); 300 pA @ 24VDC (one communication every 5 seconds with LED enabled). LED current (max.): 6.5 mA @ 24VDC (" ON ").Voltage range: 15 - 32 volts DC peak. BASESAVAILABLE ADB- FL: 6.1" (15.5 cm) diameter. 13501:4.1" (10.4 cm) diameter. B501 BH or B501 BHT: Sounder base assembly (B501 BHT produces aTemporal Pattern). Includes B501 base. B224RB Relay Base: Screw terminals: up to 14AWG (2.0 mm Relay type: Form -C. Rating: 2.OA @30VDC resistive; 0.3A @ I I OVDC inductive; LOA @ 30VDC inductive. Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). B524BI Isolator Base: Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). Maximum: 25 devices between isolator bases. • Specifications are provided for information only, and are not! n tended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. 02003AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood,MA 02090 USA - Tel:781 -471 -3000 - Fax:781 -471 -3099 • www.firecontroIinstruments.com A Honeywell Company 9020- OS60NER. 1.0 / Page 2of2 / I]OFIRE CONTROL INSTRUMENTS B uihbg In telIi3en tN etw o2*s • C] ADP Series www.firecontrolinstruments.com DESCRIPTION The Fire Control Instruments ADP Low -Flow Series photoelectronic air duct smoke sensors are capable of sensing smoke in air velocities from 100 to 4,000 feet per minute (0.5 to 20.32 m /sec). The ADP series features low -flow tech- nology that enables duct smoke detection throughout a broad range of airflow environments. Many difficult to solve HVAC applications occur in low airflow duct applications where reliable smoke detection is critical. ADP low -flow tech- nology can detect smoke at air speed ve- locities of 100 feet per minute or greater, while continuing the same reliable perfor- mance to 4,000 feet per minute. The ADP Series sensor samples air cur- rents passing through a duct and gives de- pendable performance for shutdown of fans, blowers, and air conditioning systems, pre- venting the spread of toxic smoke and fire gases through the protected area. These intelligent sensors communicate and are continuously monitored through the signaling line circuit. Sensor sensitivity changes caused by dirt, temperature, or humidity are reported to the panel, allow- ing compensation algorithms to maintain the sensor's set sensitivity. An advance indication at the panel specifies the sen- sor address, allowing for selected main- tenance to be performed as needed. Remote alarm annunciation can be accomplished by using the RA40OZ Re- mote Annunciator or the RTS451 or RTS451 KEY Remote Test Station. Both these devices allow testing of the sensor from a remote location. The ADP series low -flow duct sensors are designed for simplified installation and easy maintenance. The modular construc- tion allows for easy cleaning and uncom- plicated field replacement of the UL rec- ognized power and sensor boards. The ADP (non - relay) has outputs for a remote LED display and remote test switch. It incorporates zener diodes to con- serve power for communications to other devices. The ADP is a 2 -wire device that requires signaling line circuit power only. The ADP -R (with relay) has powered outputs for remote LED indication with a remote test switch and audible sounder. Two form "C" auxiliary contacts can be configured as a relay version orjumpered to mimic the non -relay version. It has a patented cover tamper trouble signal. The ADP -R is a 4 -wire device that requires both signaling line circuit power and either 24VAC /DC or 120/240VAC for proper op- eration. FEATURES • Air Velocity rating from 100 to 4000 feet per minute (0.5 to 20.32 m /sec.) • Patented Telescopic Sampling Tube • Easily accessible Code Switches • Outside Mounting Tabs • Easy and quick mounting to Round or Rectangular Ducts from 1' -12' (0.3- 3.7meters) wide • Easy to clean • UL Recognized Field - replaceable Power and Sensor boards • Transparent Cover for convenient Visual Inspection • UL 268A listed ANALOG, ADDRESSABLE LOW -FLOW DUCT SENSOR ADP ADP -R V FM APPROVED - Nltao An ISO 9001 Comaan Specifications are provided for information only, and are not intended to be used forinstallation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. 02003 All Rights Reserved 9020- 0567Ner. 1.0 Page 1of 5 A Honeywell Company FIRE CONTROL INSTRUMENTS ABP Series B uaHaig fi telli3en t N e by orlcs COMMU CATION LE UL 41 TED CONTROL PEAL • z F G Q =X0 y JJJ 1ST IETECTOR IN LOOP Wiring diagram for ADP Duct Smoke Sensor using a UL Listed control panel z C DETECTOR ICI, LOOS' FOR RT "S 4, 59 TERtJtNAL a IS NOT USED. (RTS45I �')E S �;.,�T HAYE A TEI rVII NAL G.3 F RTC,+51 TERMINALS 3 AND ADP ATS451J' TS451 Wiring diagram for ADP Duct Smoke Sensor with RTS451 /RTS451 KEY • Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. ®2003 All Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA • Tel: 781- 471 -3000 • Fax: 781- 471 -3099 • www.firecontrolinstruments.com A Honeywell Company 9020 -0567Ner. 1.0 / Paoe2of5 ADP RA40OZ Wiring diagram for ADP Duct Smoke Sensor with optional RA40OZ (Must break tab on back of RA40OZ when used with ADP.) CL1f4 ON T 4T LY p 1 0 =PER � 4 l; LE fT C DETECTOR ICI, LOOS' FOR RT "S 4, 59 TERtJtNAL a IS NOT USED. (RTS45I �')E S �;.,�T HAYE A TEI rVII NAL G.3 F RTC,+51 TERMINALS 3 AND ADP ATS451J' TS451 Wiring diagram for ADP Duct Smoke Sensor with RTS451 /RTS451 KEY • Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. ®2003 All Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA • Tel: 781- 471 -3000 • Fax: 781- 471 -3099 • www.firecontrolinstruments.com A Honeywell Company 9020 -0567Ner. 1.0 / Paoe2of5 ADP RA40OZ Wiring diagram for ADP Duct Smoke Sensor with optional RA40OZ (Must break tab on back of RA40OZ when used with ADP.) - FIRE CONTROL INSTRUMENTS B u ADP Series a�g In telli�en t N e kv ozi�s f 1XIMMMUN+ CAT40N UNE UL LISTED CONTROL � }� PANP -1 if JU 1' 5T DETEC"N'OA J1 JIU R ' ND DIFTE TOt IN LOOP IN LOOP Wiring diagram for ADP -R Duct Smoke Sensor using a UL Listed control panel NOTE: Jumper J1 shunt must be installed for 2 -wire applications. J1 shunt must be removed for power PCB supervision. M- Z ` e f C'y w)fLSP€.'ar.traHOtdMa.��3; mot: a P„ g f U i i a a Alum S q=ial T Aux—Power. —e Wiring diagram for ADP -R Duct Smoke Sensor with optional PA400 PA40G bpi € .„, avtisu,... A�A 1 � A� -1; °• 7 roux. pmer i 90k A-T t :.tas�iNat ?': tct:�f Wiring diagram forADP -R DuctSmoke Sensorwith A7"ERVINALC' <RW:aT-54fiIKEM optional RA40OZ EFIlikkNALS SAND 6 . E N07u 11' Wiring diagram for ADP -R Duct Smoke Sensor with RTS451 /RTS451 KEY Specifications are provided for information only and are not intendedto be used forinstallation purposes and arebelievedto be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. ® 2003 An Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA • Tel 781- 471 -3000 • Fax: 781- 471 -3099 • �ww-firec,,tmiinstruments.co- A Honeywell Company so2aoes7iver. f.o i Pao. ,of5 FIRE CONTROL INSTRUMENTS ADP Series B u ik9s�g .M tell jen t N e try o:3cs ADP SERIES LOW -FLOW SPECIFICATIONS Operating Temperature Range 32 to 131'F (0° to 55 °C) Operating Humidity Range 10% to 93% relative humidity (non- condensing) Storage Temperature Range -22° to +158 °F ( -30° to +70° C) Duct Air velocity 100 - 4000 ft. /min. (0.5 - 20.32 m /s) Shipping Weight ADP: 3.35lbs. (1.5 kg) ADP -R: 3.90lbs. (1.8 kg) Length 14 -3/4" (37 cm) Width 5 -1/2" (14 cm) Depth 2 -3/4" (7 cm) ADP SPECIFICATIONS Voltage Range 15 to 32 VDC Standby Current 300pA @ 24 VDC (one communication every 5 seconds with LED flash enabled) Accessory Current Loads Device Standby Alarm RA40OZ 0 mA 10 mA Max. RTS451 /RTS451KEY 0 mA • 7.5 mA Max. ADP -R SPECIFICATIONS Current Requirements (using no accessories) Power supply voltage: 20 -30 VDC 24 VAC, 50 -60HZ 120VAC, 50 -60Hz 220/240 VAC, 50 -60Hz Max. standby current: 26 mA 65 mA RMS 44 mA RMS 25 mA RMS Max. alarm current: 87 mA 182 mA RMS 52 mA RMS 30 mA RMS Alarm response tim:e 3 to 10 sec. 3 to 10 sec. 3 to 10 sec. 3 to 10 sec. Power up time: 2 sec. 2 sec. 2 sec. 2 sec. Contact Ratings Alarm auxiliary contacts" (DPDT) 10 A @ 30 VDC 10 A @ 277 VAC (0.75 power factor) 240 VA @ 249 VAC (0.4 power factor) 1/8 HP @120 VAC 1/4 HP @240 VAC Supervisory contact (SPST) 2.0 A @ 30 VDC (resistive) *Minimum switching current for auxiliary contact must be 100 mA DC minimum @ 5 VDC. Accessory Current Loads at 24 VDC Device Standby Alarm PA400 0 mA 15 mA Max. RA40OZ 0 mA 12 mA Max. RTS451 /RTS451KEY 0 mA 10 mA Max. C Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. ©2003 All Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA • Tel 781- 471 -3000 - Fax:781- 471 -3099 - www.firewntrolinstruments.com A Honeywell Company so21.1"Ner. f.11 1.,. 4 .11 ® FIRE CONTROL INSTRUMENTS B u ih!2g 73 te.11fgren t N e tv oiks ADP Series ORDERING INFORMATION Part No. Description ADP Analog addressable low -flow photoelectronic non -relay duct smoke sensor ADP -R Analog addresable low -flow photoelectronic with relay duct smoke sensor ST -1.5 Metal sampling tube duct widths 1' -2' ST -3 Metal sampling tube duct widths 2'-4' ST -5 Metal sampling tube duct widths 4' -8' ST -10 Metal sampling tube duct widths 8' -12' A5053 Replacement photoelectric sensor board A5060 Replacement power board for ADP -R (w /relay) A5067 Replacement power board for ADP (w /o relay) Accessories Description RTS451 Remote test station RTS451 KEY Remote test station w /key RA40OZ Remote LED PA400 Mini- Alerttm Sounder- Note: Device cannot be wired directly to ADP (non - relay). F36 -09 -11 Replacement filters MO2 -04 -00 Test magnet P48 -21 -00 End cap for metal sampling tube P48 -61 -00 End cap for plastic sampling tube S08 -39 -01 Replacement photo insect screen T80 -71 -00 Replacement plastic sampling tube i j W "ice fs ((I F. `MAe RA -4OOZ PA -40OZ RTS -451 4 w (' � t l ff �� RTS -451KEY • Specifications are provided for information only, and are not intended to be used forinstallation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use, Specifications subject to change without notice, ©2003 All Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA • Tel: 781- 471 -3000 • Fax: 781- 471 -3099 • www.firecontrolinstruments.com A Honeyw Comp 9020- 0567Ner. 1.0 / Page 5 of 5 ® CONTROL INSTRUMENTS MS SERIES Building Intelligent Networks www.firecontrolinstruments.com Model MS -2, MS -2H The MS -2 manual fire alarm stations are d.ual action devices.These stations require that the outer door be lifted to expose the ac- tuation door which is then pulled forward to operate the alarm toggle switch The ac- tuation door is now locked in the readily observable "alarm" position. To reset the station,a key (common to FCI control panels) must be inserted and turned %, turn clockwise, opening the sta- tion. Closing the station resets the switch automatically. An optional breakglass rod is available for positive indication of station operation. Model MS -2P (Presignal) • Operation of the Model MS -2P presignal station is similar to that of the MS -2, with the addition of a key- operated switch mounted on the lower door. This switch m ay be used for" general alarm" signaling. Model MS -2L (Institutional) Operation of the Model MS -2L institu- tional station requires that a special key be used to release the actuation door before it can be operated. Model MS -2 -D (Multiple Contact) The MS -2 -D features a DPST switch for multiple signaling via wire lead connections. Model MS -6 (Single Action) . The MS -6 station is a single action device, requiring only the pulling of the action door to release the compressed button switch. It is available either with terminals (MS -6T) or wire leads (MS -6). The station resets in the same manner as the MS -2.The reset key is common to FCI control panels. • NON - CODED, MANUAL FEATURES FIREALARM STATIONS • Single and Dual Action Versions • Tumbler Lock forTest and Reset Keyed Alike with FCI Control Panels • Rugged Metal Construction • Positive Indication of Operation over 180° Viewing Angle • Surface or Semi -flush Mounting • Shock and Vibration Resistant • Institutional Version (MS -2L) • Presignal Version (MS -2P) • Optional "FIRE SUPPRESSION SYSTEM RELEASE" Markings (MS -2H) • Optional DPST Switch (MS -2 -D) U L F M APPROVED a' tAV1G� An ISO 9001 CornDa.n Specifications are provided for information only, are not intended to be used for Installation purposes and are beli —d to be accurate However, no responsibility is assumed by Fire Control Instruments for their use. Speck f cations subject to change without notice. X2003 Alf Rights Reserved 9020.03SSIVEFL 1.6 Page loft I]O CR) FIRE CONTROL INSTRUMENTS INS SERIES Building Intelligent Networks www.firecontrolinstruments.com I �.hb— FW tmg , pv o.l Model BB-2 SuKace Backbox FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood,MA 02090 USA - Te1:781 -471 -3000 - Fax:781 -471 -3099 - www.firecontrolinstruments.com 9020- 0358NER. 1.5 / Page 2 of 2 AGENCYAPPROVALS UL (Std 38) File S2465 FM (MS -2) OJ 3A9.AY/ 12880 (MS -6, MS -6T) 1 D4A7.AY C.S.F.M. 7150- 0694:107 NYC BS&A (MS -2, MS -6) 960 -81 -SA NYC MEA(MS -2, MS -6) 103 -93 -E • SPECIFICATIONS Material (MS -2, MS -6) Extruded 6063/T5 aluminium Doors (MS -2, MS -6) Clear anodize Switch Type 1 100 -0617 MS -2 Enclosed toggle MS -6 Enclosed push button Contact Material Silver plated bronze or copper Contact Ratings Single action station, terminals MS -2 6 amp, max.@ 30VDC (resistive) MS -6 0,5 amp. max.@ 30VDC (resistive) Dimensions (overall) Package of two replacement breakglass rods for MS -2 station MS -2, MS -6 5" H x 3.4 "W x 2.8" D (12.7 cm x 8.64 cm x 7.11 cm) FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood,MA 02090 USA - Te1:781 -471 -3000 - Fax:781 -471 -3099 - www.firecontrolinstruments.com 9020- 0358NER. 1.5 / Page 2 of 2 ORDERING INFORMATION Part No. Model Description 1 100 -0615 MS -2 Dual action fire alarm station 1 100 -0634 MS -21-1 Dual action station with "FIRE SUPPRESSION SYSTEM RELEASE" markings 1 100 -0619 MS -2P Presignal fire alarm station 1 100 -0621 MS -21- Institutional fire alarm station 1 100 -0617 MS -2 -D Dual action station with DPST switch 1 100 -0632 MS -6 Single action station, wire leads 1 100 -0633 MS -6T Single action station, terminals 2520 -0023 1313-2 Surface back box for MS -2, MS -6 stations 1 120 -0206 Package of two replacement breakglass rods for MS -2 station Specifications are provided for information • only, are not intended to be used for installation purposes and are believed to be accurate. However,no responsibility is assumed by Fire Control Instruments,for their use. Specifications subject to change without notice. 2003AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood,MA 02090 USA - Te1:781 -471 -3000 - Fax:781 -471 -3099 - www.firecontrolinstruments.com 9020- 0358NER. 1.5 / Page 2 of 2 ;F FC9 FIRE CONTROL INSTRUMENTS AMM -2 (K) ADDRESSABLE MONITOR MODUL FM DESCRIPTION The Addressable Monitor Module AMM -2 features a single Style B, Class B initiating circuit with end of line resistor. This module provides an address for any device or group of devices connected to this circuit. Any alarm initiating devices with nor- mally open (N.O.) dry contacts, such as heat detectors, linear heat detection devices, projected beam smoke detectors, 4 -wire smoke detectors, water flow switches, tamper switches, manual stations, etc. may be installed in this circuit. The AMM -2 module is designed for installation in the signal- ing line circuit of any FCI analog addressable control panel. The signaling line circuits of FCI analog addressable panels are designed to accommodate up to 99 monitor modules per circuit. The initiating circuit of the AMM -2 has a maximum line resis- tance of 40 ohms, allowing the module to accommodate initiat- ing devices at a distance from the module. • The compact size facilitates the installation of the module in- side manual stations, or mounting boxes of various types of alarm initiating devices. AGENCY APPROVALS IL S1949 IM 3006398 NYC MEA427- 91- EVo1.III CSFM Approved FEATURES • Compact Size Allows Easy Installation • Class B, Style B Initiating Circuit • 40 Ohm Line Resistance for Initiating Circuit • Accommodates any N/O Dry Contact Device Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. c2000 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 www.firecontrolinstruments.com An ISO 9001 certified Company 9020- 0502Ner. 1.2 TECHNICAL INFORMATION Supervisory current .0004 amp. Alarm current .0006 amp. Operating temperature 32 to 120 °F (0 to 49° C) Relative humidity 10 to 93% (non- condensing) Dimensions 1.3" H x 2.75" W x 0.5" D (3.3 x 5.5 x 1.25 cm) ORDERING INFORMATION Part Number Model Description 190 -00002 AMM -2 Addressable Monitor Module, Single circuit, Style B, Class B Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. c2000 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 www.firecontrolinstruments.com An ISO 9001 certified Company 9020- 0502Ner. 1.2 - FIRE CONTROL INSTRUMENTS DESCRIPTION The Addressable Monitor Module AMM -4 features a single Style D, Class A circuit. It may also be configured as a Style B, Class B initiating circuit with end of line resistor. This module provides an address for any device or group of devices con- nected to this circuit. Any alarm initiating devices with nor- mally open (N.O.) dry contacts, such as heat detectors, linear heat detection devices, projected beam smoke detectors, 4 -wire smoke detectors, water flow switches, tamper switches, manual stations, etc. may be installed in this circuit. The AMM -4 module is designed for installation in the signal- ing line circuit of any FCI analog addressable control panel. The signaling line circuits of FCI analog addressable panels are designed to accommodate up to 99 monitor modules per circuit. i s The initiating circuit of the AMM -4 has a maximum line resis- tance of 40 ohms, allowing the module to accommodate a num- ber of initiating devices at a distance from the module. The AMM -4 is designed to mount in a 4" square junction box 2 1/8" deep. AGENCY APPROVALS LL S1949 FM 3006398 NYC MEA 427 -91 -E Vol. III CSFM Approved AMM -4 R ADDRESSABLE MONITOR MODULE F M FEATURES • Compact Size Allows Easy Installation • Class A, Style D, or Class B, Style B Initiating Circuit • 40 Ohm Line Resistance for Initiating Circuit • Accommodates any N/O Dry Contact Device TECHNICAL INFORMATION Supervisory current .0004 amp. Alarm current .00575 amp. Operating temperature 32 to 120 °F (0 to 49 C) Relative humidity 10 to 93% (non- condensing) Dimensions 41/2" H x 4" W x 1 1/4" D (3.3 x 5.5 x 1.25 cm) ORDERING INFORMATION PartNumber Model Description 190 -00003 AMM -4 Addressable Monitor Module, Single circuit, Style D, Class A Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. °2000 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 www.fire oontrolinstruments.com An ISO 9001 certified Company 9020- 0503Ner. 1.2 FIRE CONTROL INSTRUMENTS DESCRIPTION The Addressable Output Relay Control Module (AOM -2R) allows an FCI analog addressable fire alarm con- trol to switch discrete relay contacts by code command. The relay provides two (2) isolated sets ofForm -C contacts which transfer simultaneously. Circuit connections to the relay con- tacts are not supervised by the module. The AOM -2R module is designed for installation in the sig- naling line circuit of any FCI analog addressable control panel. The signaling line circuits of FCI analog addressable control panels are designed to accommodate up to 98 control modules per circuit. The module contains a panel controlled LED. The AOM -2R is designed to mount in a 4" square junction box 2 1/8" deep. AGENCY APPROVALS UL S1949 • Factory Mutual 3006398 CSFM Pending AOM -2R UL ADDRESSABLE OUTPUT RELAY CONTROL MODULE FEATURES • Two (2) Sets of Form "C" Contacts • Compact Size Allows Easy Installation Current Rating Maximum Voltage Load Description Application 3A 30 VDC Resistive Non Coded 2A 30 VDC Resistive Coded 0.9A 110 VDC Resistive Non Coded 0.5A 125 VAC Resistive Non Coded 0.5A 30 VDC Inductive L/R =5ms Coded 1A 30 VDC Inductive L/R =2ms Coded 0.5A 125 VAC Inductive (PF=.35) Non Coded 0.7A 75 VAC Inductive (PF=.35) Non Coded TECHNICAL INFORMATION Supervisory current .00030 amp. Alarm current .00030 amp. Operating temperature 32 to 120 F (0 to 49 C) Relative humidity 10 to 93% relative humidity (non- condensing) Dimensions 4 1/2" H x 4" W x 1 1/4" D( 3.3 x 5.5 x 1.25 cm) ORDERING INFORMATION Part Number Model Description 190 -90022 AOM -2R Addressable output relay control module • Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control In- struments, Inc. for their use. Specifications subject to change without notice © 2001 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 An ISO 9001 certified company 9020- 0520/Ver. 1.1 FIRE CONTROL INSTRUMENTS AUXILIARY RELAY BOARD, ACCESSORIES (ARB -C, CA -ARB) t DESCRIPTION The Model ARB Auxiliary Relay Board provides a Form "C" control output for the purpose of operating auxiliary circuits used in conjunction with fire alarm applications. (i.e. fan and smoke controls, door holders, annunciators, etc.) The ARB module has a polarized input for use as an extension relay on supervised notification appliance circuits and contains an LED which lights to indicate relay activation. Also available is a model CA -ARB cabinet which can mount up to six (6) ARB modules. It features a hinged, locked door keyed alike with FCI control panels. The ARB relay board is also available as model ARB -C, pre- mounted on a 4" square cover, for universal mounting in commercially available electrical boxes. APPROVALS U.L. S1869 C.S.F.M. 7300 - 0694:158 NYC BS &A 960 -81 -SA • ORDERING INFORMATION Part No. Model Description 1100 -0194 ARB Relay board 1100 -0196 ARB -C Relay board mounted on 4" (10.16 cm) square cover 1100 -0197 CA -ARB Cabinet only FEATURES • Form "C" Control Output • LED Indication upon activation of Relay • Capable of Switching Loads up to 20 amps (N /O) and 10 amps (N /C) • Small, Compact Size • Optional Mounting on 4" Electrical Cover SPECIFICATIONS Input voltage 24 VDC (nominal) Input current .036 ampere Contact ratings N/O - 20 amperes (resistive) @ 28 VDC or 240 VAC N/C - 10 amperes (resistive) @ 28 VDC or 240 VAC Operating temperature 32 F to 120 F (0 C to 49 C) Relative humidity 85% PC board dimensions 3" x 3" (7.62 x 7.62 cm) CA -ARB Cabinet dimensions 13.2" W x 9.2" H x 3.5" D (33.53 x 23.37 x 8.89 cm) • Specifications are provided for information only and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. © 1997 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 9020 - 0225 /Ver. 1.3 Fire Control Instruments, Inc. 0 • CABINET, MODEL CA -ARB P/N 1100 -0197 °'��� L' DO Qo �� 0 N M Y N 000 00 3 ao � 0 0 0 0 F O - F0 13.2" — mo >ea F`) t`1 Qo 0 000 00 1 -6 ARB UNITS MAY BE SNAPPED INTO MOUNTING TRACKS. (ORDER ARB UNITS SEPARATELY) M z >� o ao �� 0 0 0 0 0 0 <o 0 0 0 0 0 0 ao � 0 N M < N 0 0 0 0 0 OPA 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 2 of 2 9020 -0225 • Gamewell Description The FireForce 8 (FF8) from Gamewell is a notification appliance circuit extender panel designed to extend the power capabilities of existing notification appliance circuits and to provide power (1.5A) for other ancillary devices. It also includes an internal battery charger. The FF8 may be connected to any UL Listed Fire Alarm Control Panel to provide Notification Appliance Circuit expansion. Designed with advanced switchmode power supply technology, the FireForce 8 provides filtered and electronically regulated power distributed to four Notification Appliance Circuits (NAC). Each NAC is rated at 3 Amp maximum with a total output capacity of 8 Amp.. The outputs may be configured as Four Class "B" (Style W, X,Y) or Two Class "A" (Style 7") or Two Class "B" and One Class "A" or Four Class A (Style 7") with the optional Class A adaptor installed. Gamewell's FF8 provides independent output circuit supervision. In the event of a NAC fault, the FF8 can be configured to notify the FACP. The FF8 has field selectable built -in strobe and horn sync protocols, to support Gamewell, Faraday, Gentex, System Sensor, Amseco and Wheelock devices, or pass thru a pre - generated sync protocol from a single synchronization source eliminating the need for additional individual sync modules. Independent horn silencing via sync protocol allows synchronized horns and strobes to operate on a single circuit. Field Selectable NAC Sianalina Input Output Follow's input Steady Temporal Steady Steady - Sync Steady Steady with noise eliminated • In retrofit applications that have EOL values different from the 3.9K ohm EOL resistor normally used with the FF8, a single resistor matching the existing EOL can be used as a reference EOL for all outputs. The reference resistor can be within a range of 2K ohm to 25K ohm; resistors outside this range will cause a trouble indication. For enhanced notification appliance circuit survivability, the FF8 can utilize its dual activation inputs for redundant trip operation. To maximize retrofit possibilities including non - Gamewell systems, the FireForce8 label only is placed on shipping cartons and cabinet front. FireForce 8 Expander Power Supply Notification Appliance Circuit Approvals UL Listed, CSFM and MEA Approved (CSFM and MEA Approvals Pending for FF8 -MP, FF8 -CM) Features • Provides two fully - supervised input/control circuits • Redundant activation option for survivability • Multiple Sync Protocols compatible with the following appliances: Field selectable - Gamewell, Wheelock, Faraday, System Sensor, Amseco and Gentex • Four (4) configurable supervised NAC outputs • 8 Amp 24 VDC, fully regulated full load output (Power limited) • Output fault notification to FACP • 1.5A auxiliary power output • Eight (8) trouble and status LEDs • Common trouble Form -C relay • Isolated AC fail Form -C relay immediate or delayed 6hrs. • Ground fault detection • 26 Amp battery charger capability • Selectable temporal coding • Facilitates multiple Notification Appliance Circuit synchronization for large areas • Optional multipack for up to four (4) FF8 in a single lockable enclosure Optional Class A adaptor CS -2282 Rev. 0103 -7 Page 1 Engineer's Specification The Fire Alarm System shall be designed with remotely located Notification Appliance Circuit expander /power supplies for the support of notification appliances. The remote power supplies shall be fully supervised and shall provide 8 Amps of notification applicance power and 1.5 Amps of auxiliary power output. The notification appliance circuit extender panel shall be able to select strobe synchronization protocol via an internal dip switch. There shall be five (5) selectable protocols available. The extender panel shall synchronize all outputs simultaneously. The notification appliance circuit extender panel shall be able to use existing notification appliance circuit's end of line resistors in the range of 2K - 25K ohms for retrofit applications. The NAC Expander /Power Supply shall be a Gamewell FireForce 8. c: • =9 31081 - SCE -95 Mounting plate This plate provies a means to install two (2) SCE -95 modules. The addition of SCE -95s provides a means to run on FF8 outputs via a panel command on an SLC. The 31081 mounts over the main PCB and is hinged for access to FF8 terminal. FF8 -MP - Multipack FF8 Option provides a means to locate up to four (4) FF8s or 31085 XP95 device mounting plates in a single lockable enclosure. 31076 - Class A adaptor converts the four (4) Class B outputs to four (4) Class A outputs. Specifications Primary Input Power: 120 VAC, 60 Hz, 3.0 A or 220V 1.5 Amp Jumper selectable Secondary Power: 24 -volt: (2) 7 -24 AH batteries Battery Charging Capacity: Up to 26 AH batteries Total Output Power: 8.0 Amp maximum Cabinet Dimensions -FF8: 18 "H x 12 1 / 2 " W x 4' / Cabinet Dimensions - FF8 -MP: 37.2 "H x 24 "W x 6 "D Battery Space: Up to two 12 AH batteries max internal (larger batteries would require a separate battery cabinet) Standby current: .040Amp Auxiliary Power Output: 0.15 Amp under all conditions Relative Humidity: 10 -93% non - condensing 1.5 Amp, if load is removed during Temperature Rating: 0 °C - 49 °C (32 °F - 120 °F) operation (external relay or Common Trouble Relay: 2A/28VDC or 120 VAC AC fail relay use required) NAC Output Ratings: 24 VDC Fully Regulated AC Fail Relay: 2A/28 VDC or 120 VAC 3 Amp max. /ckt. (8 A total) Input Control Circuit: 16 -30 VDC @ 5mA min. EOLR Range 2k -25k 1/2 W Ordering Information Part Number Description FF8 24 VDC, 8 Amp Fire Alarm Notification Appliance Circuit Expander /Power Supply with integral battery charger FF8-MP Multipack Cabinet with one FF8 and space for up to 3 additional FF8 -CM or 31085s FF8 - CM Chassis Assembly - FF8 for mounting in FF8 -MP 31076 Class A adaptor converts signal circuits to Class A wiring 31081 FF8 Mounting Plate - for up to two (2) SCE -95 modules (FF8 and FF8 -MP compatible) 31085 FF8 -MP XP95 device Mounting Plate includes standoffs for 8 devices 30957 Optional 24 VDC Notification Appliance Relay B12V7 Battery, 12 VDC, 7 Amp hour (2 required for 24 volt operation) B12V12 Battery, 12 VDC, 12 Amp hour (2 required for 24 volt operation) Specifications and wiring information are provided for information only and are believed to be accurate. Gamewell assumes no responsibility for their use. Data and design are subject to change without notice. Installation and wiring instructions shipped with the product shall always be used for actual installation. For more information, contact Gamewell. �Ar The Gamewell Company Voice (508) 231 -1400 l S VV��I a Ashland, MA 01721 FAX 0 AX (508) 231- 09008) 347 -3269 WORLDWIDE www.gamewell.com ;e-')Gamewell 2003 CS -2282 Rev. 0103 -7 Page 2 Description The Series NS Horn Strobe Appliances will satisfy virtually all requirements for indoor, wall mount applications. The Series NH Horn and the horn portion of the Series NS include a selectable continuous horn tone or temporal pattern (Code 3) with selectable dBA settings of 90 or 95 dBA. Strobe options include 15/75cd or Wheelock's patented Multi- Candela strobe with field selectable candela settings • of: 15, 30, 75 or 110cd. These versatile Horn Strobe Appliances may be synchronized when used in conjunction with the Wheelock SM, DSM Sync Modules or the PS- 12/24 -8 Power Supply with Wheelock's patented Sync Protocol. Additionally, the audible may be silenced while maintaining strobe activation. All models of the Series NS are designed for maximum performance, reliability and cost - effectiveness while meeting or exceeding the latest requirements of NFPA 72 /ANSI 117.1/UFC and UL Standards 1971 and 464 as well as meeting ADA requirements concerning photosensitive epilepsy. Wheelock's patented 2 -Wire Series NS Horn Strobes and Series NH Horns offer more features with low current draw. Your Choice • Models are available in 2 -Wire, 12 or 24 VDC • 24 VDC models are available with Wheelock's patented Multi - Candela Strobe that offers field selectable candela settings of: 15, 30, 75 or 110cd • Also available are 15/75 candela models in either • 12 or 24 VDC SERIES NS SINGLE &MULTI - CANDELA HORN STROBE APPLIANCES SERIES NH HORNS Series NH Series NS Multi - Candela Indicator (bottom of Strobe Lens) Features • Approvals include: UL Standard 1971, UL Standard 464, New York City (MEA), California State Fire Marshal (CSFM) and Factory Mutual (FM) Pending: Chicago (BFP) • ADA/NFPA/UFC /ANSI compliant • Complies with OSHA 29, Part 1910.165 • Field Selectable Candela Settings: 15, 30, 75 or 110 cd (Multi - Candela models) or 15/75 cd • Selectable Continuous Horn or Temporal (Code 3) • 2 Selectable dBA settings of 90 and 95 dBA in both tones • Patented Universal Mounting Plate • 12 and 24 VDC models with UL "Regulated Voltage" using filtered DC or unfiltered VRMS input voltage • Wall Mount • Synchronize with Wheelock SM, DSM Sync Module or PS- 12/24 -8 Power Supplywith built -in sync protocol • Fast installation with IN /OUT screw terminals using #12 to #18 AWG wires • Backward compatible with other Wheelock Appliances Copyright 2003 Wheelock Inc_ All rights reserved. le Take vrtterf MkA 1E ALARM SYSTEMS Description The Series NS Horn Strobe Appliances will satisfy virtually all requirements for indoor, wall mount applications. The Series NH Horn and the horn portion of the Series NS include a selectable continuous horn tone or temporal pattern (Code 3) with selectable dBA settings of 90 or 95 dBA. Strobe options include 15/75cd or Wheelock's patented Multi- Candela strobe with field selectable candela settings • of: 15, 30, 75 or 110cd. These versatile Horn Strobe Appliances may be synchronized when used in conjunction with the Wheelock SM, DSM Sync Modules or the PS- 12/24 -8 Power Supply with Wheelock's patented Sync Protocol. Additionally, the audible may be silenced while maintaining strobe activation. All models of the Series NS are designed for maximum performance, reliability and cost - effectiveness while meeting or exceeding the latest requirements of NFPA 72 /ANSI 117.1/UFC and UL Standards 1971 and 464 as well as meeting ADA requirements concerning photosensitive epilepsy. Wheelock's patented 2 -Wire Series NS Horn Strobes and Series NH Horns offer more features with low current draw. Your Choice • Models are available in 2 -Wire, 12 or 24 VDC • 24 VDC models are available with Wheelock's patented Multi - Candela Strobe that offers field selectable candela settings of: 15, 30, 75 or 110cd • Also available are 15/75 candela models in either • 12 or 24 VDC SERIES NS SINGLE &MULTI - CANDELA HORN STROBE APPLIANCES SERIES NH HORNS Series NH Series NS Multi - Candela Indicator (bottom of Strobe Lens) Features • Approvals include: UL Standard 1971, UL Standard 464, New York City (MEA), California State Fire Marshal (CSFM) and Factory Mutual (FM) Pending: Chicago (BFP) • ADA/NFPA/UFC /ANSI compliant • Complies with OSHA 29, Part 1910.165 • Field Selectable Candela Settings: 15, 30, 75 or 110 cd (Multi - Candela models) or 15/75 cd • Selectable Continuous Horn or Temporal (Code 3) • 2 Selectable dBA settings of 90 and 95 dBA in both tones • Patented Universal Mounting Plate • 12 and 24 VDC models with UL "Regulated Voltage" using filtered DC or unfiltered VRMS input voltage • Wall Mount • Synchronize with Wheelock SM, DSM Sync Module or PS- 12/24 -8 Power Supplywith built -in sync protocol • Fast installation with IN /OUT screw terminals using #12 to #18 AWG wires • Backward compatible with other Wheelock Appliances Copyright 2003 Wheelock Inc_ All rights reserved. le Take NOTE: All CAUTIONS and WARNINGS are identified by the symbol A. All warnings are printed in bold capital letters. A WARNING: PLEASE READ THESE SPECIFICATIONS AND ASSOCIATED INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING • OR APPLYING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS OR WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. Genera! Notes: • Strobes are designed to flash at 1 flash per second minimum over their 'Regulated Voltage Range ". Note that NFPA -72 specifies a flash rate of 1 to 2 flashes per second and ADA Guidelines specify a flash rate of 1 to 3 flashes per second. • All candela ratings represent minimum effective Strobe intensity based on UL Standard 1971. Series NS Strobe products are listed under UL Standard 1971 for indoor use with a temperature range of 327 to 120 *F (0 °C to 49 °C) and maximum humidity of 93% (t 2 %). • Series NH horns are listed under UL Standard 464 for audible signal appliances (Indoor use only). "Regulated Voltage Range" is the newest terminology used by UL to identify the voltage range. Prior to this change UL used the terminology "Listed Voltage Range ". Table 1: Ratings Per UL Standard 1971 Voltage Input Regulated 75cd Model Voltage Voltage Strobe .195 VDC Range Candela (CD) .087 .134 VDC /FWR 33.0 VDC NS -24MCW 24 16.0-33.0 15/30/75/110 NS- 241575W 24 16.0-33.0 15 (75 on Axis) NS- 121575W 12 8.0 - 17.5 15 (75 on Axis) Table 2: *Average RMS Current Ratings NS -24MCW with High (95 dBA) Setting Voltage 15cd 30cd 75cd 110cd 16.0 VDC .077 .113 .195 .268 24.0 VDC .065 .087 .134 .174 33.0 VDC .069 .082 .117 .134 NS -24MCW with Low (90 dBA) Setting Voltage 15cd 30cd 75cd 110cd 16.0 VDC .070 .106 .188 .261 24.0 VDC .052 .072 .126 .158 33.0 VDC .045 .060 .097 .114 Table 4: *Average Mean Current Ratings NH Horn 24 Volt Models Voltage High (95) dBA Low (90) dBA 16.0 VDC .019 .017 24.0 VDC .028 .022 33.0 VDC .039 .027 * Average RMS Current is per UL average RMS method and Average Mean Current is per UL average mean method. For rate In Rush and Peak current across the UL listed voltage range for both filtered DC and unfiltered VRMS (FWR), see installation instructions. Table 5: dBA Ratings for Series NSMC /NH Horn Description Volume Reverberant dBA @ 10ft per UL 464 Anechoic dBA @ 10 ft 12VDC 24VDC 12VDC 24VDC Continuous High 83 87 89 95 Horn Low 76 81 84 90 Code 3 High 79 82 89 95 Horn Low 72 76 84 90 Table 3: Series NS 15f75CD *Average RMS Current Ratings Description VOLTAGE 8.0 12.0 16.0 17.5 24.0 33.0 Mean Mounting VDC VDC VDC VDC VDC VDC 24 Volt NS 15/75 cd @ 24 VDC SM- 12/24 -R# 6369 24 with High (95 dBA) W DSM-12/24-R" 1 .120 24 .094. .102 Setting 8114 120 VAC 24 Volt NS 15175 cd with Low (90 dBA) .116 093 .078 Setting 12 Volt 15/75 cd (High) .341 .251 - .216 12 Volt 15(75 cd (Low) .324 165 168 SYNC MODULES /POWER SUPPLY Input *Average Model Number Order Voltage Mean Mounting Code (VDC) Current Options*** @ 24 VDC SM- 12/24 -R# 6369 24 .028 W DSM-12/24-R" 1 6374 24 .035 W PS- 12124 -8- 1 8114 120 VAC # SM Sync Module is rated for 3.0 amperes @ 24 VDC; ##DSM Sync Module is rated for 3.0 amperes per circuit. The maximum number of interconnected DSM Modules is twenty (20). Refer to Data Sheet S3000 or Installation Instructions P83123 for SM and P83177 for DSM. ###Refer to Data Sheet S9001 or Installation Instructions P83862 for PS- 12/24 -8 Power Supply, is A WARNING: CONTACT WHEELOCK FOR THE CURRENT INSTALLATION INSTRUCTIONS (P83983) SERIES NS- 24MCW, (P84030) SERIES NS -12 AND 24 VDC SINGLE CANDELA MODELS, (P83600) SERIES NH AND "GENERAL INFORMATION" SHEET (P82380) ON THESE • PRODUCTS. THESE DOCUMENTS UNDERGO PERIODIC CHANGES. IT IS IMPORTANT THATYOU HAVE CURRENT INFORMATION ON THESE PRODUCTS. THESE MATERIALS CONTAIN IMPORTANT INFORMATION THAT SHOULD BE READ PRIOR TO SPECIFYING OR INSTALLING THESE PRODUCTS, INCLUDING: TOTAL CURRENT REQUIRED BYALLAPPLIANCES CONNECTED TO SYSTEM SECONDARY POWER SOURCES. • FUSE RATINGS ON NOTIFICATION APPLIANCE CIRCUITS TO HANDLE PEAK CURRENTS FROM ALLAPPLIANCES ON THOSE CIRCUITS. COMPOSITE FLASH RATE FROM MULTIPLE STROBES WITHIN A PERSON'S FIELD OF VIEW. • ADDING, REPLACING OR CHANGING APPLIANCES OR CHANGING CANDELA SETTINGS WILLAFFECT CURRENT DRAW. RECALCULATE CURRENT DRAW TO INSURE THATTHE TOTALAVERAGE CURRENTAND TOTAL PEAK REQUIRED BYALL APPLIANCES DO NOT EXCEED THE RATED CAPACITY OF THE POWER SOURCES OR FUSES. • THE VOLTAGE APPLIED TO THESE PRODUCTS MUST BE WITHIN THEIR "REGULATED VOLTAGE RANGE ". • INSTALLATION OF 110 CANDELA STROBE PRODUCTS IN SLEEPING AREAS. • INSTALLATION IN OFFICE AREAS AND OTHER SPECIFICATION AND INSTALLATION ISSUES. • THESE APPLIANCES ARE NOT DESIGNED TO BE USED ON CODED SYSTEMS IN WHICH THE APPLIED VOLTAGE IS CYCLED ON AND OFF. • FAILURE TO COMPLY WITH THE INSTALLATION INSTRUCTIONS OR GENERAL INFORMATION SHEETS COULD RESULT IN IMPROPER INSTALLATION, APPLICATION, AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. • CONDUCTOR SIZE (AWG), LENGTH AND AAPACITY SHOULD BE TAKEN INTO CONSIDERATION PRIOR TO DESIGN AND INSTALLATION OF THESE PRODUCTS, PARTICULARLY IN RETROFIT INSTALLATIONS. I] wring utagrams- NS/NH APPLIANCE FROM + + TO NEXT PRECEDING - _ APPLIANCE APPLIANCE, SM /DSM, OR EOLR PS- 12/24 -8 OR FACP SIGNAL NS AND NH APPLIANCES SYNCHRONIZED WITH SM MODULE SINGLE CLASS "B" NAC CIRCUIT WITH AUDIBLE SILENCE FEATURE SM F STROBE Strobe STROBE A NAC Circuit NS NH C *Audible P EOLR Audible 'Audible NAC Circuit NOTE: NS /NH must be set on Code 3 horn tone to achieve synchronized temporal (Code 3) tone. Refer to installation instruction (P83983, P83600 respectively). a For detail using SM or DSM Sync Module refer to Data Sheet S3000 or Installation Instructions P83123 for SM and P83177 for .DSM. For wiring information on the PS- 12/24 -8 Power Supply refer to Installation Instructions P83862. Wheelock products must be used within their published specifications and must be PROPERLY specified, applied, installed, operated, maintained and operationally tested in accordance with their installation instructions at the time of installation and at least twice a year or more often and in accordance with local, state and federal codes, regulations and laws. Specification, • application, installation, operation, maintenance and testing must be performed by qualified personnel for proper operation in accordance with all of the latest National Fire Protection Association (NFPA), Underwriters' Laboratories (UL), National Electrical Code (NEC), Occupational Safety and Health Administration (OSHA), local, state, county, province, district, federal and other applicable building and fire standards, guidelines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local authority having jurisdiction (AHJ). /4KL;n1I t(: I S ANU ENGIN SPECIFICATIONS • • The audible /visual notification appliances shall be Wheelock Series NS Horn Strobe appliances and Series NH Horn appli- ances or approved equals. The Series NS appliances shall meet and be listed for UL Standard 1971(Emergency Devices for the Hearing - Impaired for Indoor Fire Protection Service). The Series NH Horn shall be UL Listed under Standard 464 (Fire Protective Signaling). The horn strobe shall be listed for indoor use and shall meet the requirements of FCC Part 15 Class B. All inputs shall be compatible with standard reverse polarity supervision of circuit wiring by the Fire Alarm Control Panel (FACP). The audible portion of the appliance shall have a minimum of two (2) field selectable settings for dBA levels and shall have a choice of continuous or temporal (Code 3) audible outputs. The strobe portion of the appliance shall produce a flash rate of one (1) flash per second over the Regulated Voltage Range and shall incorporate a Xenon flashtube enclosed in a rugged Lexan lens. The Series NS shall be of low current design. Where wall mount, Multi - Candela appliances are specified, the strobe intensity shall have a minimum of four (4) field selectable settings and shall be rated per UL Standard 1971 for: 15, 30, 75 or 110 candela. The selector switch for selecting the candela setting shall be tamper resistant and not accessible from the front of the appliance. The 15/75 candela strobe shall be specified when 15 candela UL Standard 1971 Listing with 75 candela on -axis is required (e.g. ADA compliance). When synchronization is required, the appliance shall be compatible with Wheelock's SM, DSM Sync Modules or Wheelock's PS- 12/24 -8 Power Supply with built -in Patented Sync Protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync module or Power Supply fails to operate, (i.e., contacts remain closed), the strobes shall revert to a non - synchronized flash -rate. The appliance shall also be designed so that the audible signal may be silenced while maintaining strobe activation. The Series NS Horn Strobes shall incorporate a Patented Universal Mounting Plate that shall allow mounting to a single -gang, double -gang, 4 -inch square, 100mm European type backbones, or the SHBB Surface Backbox. If required, an NATP (Notification Appliance Trimplate) shall be provided. All notification appliances shall be backward compatible. SPECIFICATION & ORDERING INFORMATION Order Model Code Non- Strobe Candela Sync Sync w/ SM, DSM or PS- 12/24 -8 24 VDC 12 2 VDC WIRE Mounting Options# Agency Approvals - -- UL MEA;'CSFM FM BFP NS- 24MCW -FR 9404 15/30/75/110 X X X X B,D,E,F,C;H,J,N,O,R,X X X X X NS- 24MCW -FW 9405 15/30!75/110 X X X X B,D,E,F,CxH,J,N,QR,X X X X X NS- 241575W -FR 7806 15 (75 on Abs) X X X X B,D,E,F,GH,J,N,O,R,X X X X X X NS- 121575W -FR 7816 _..._......_... ..... 15 (75 on A)ds) X _......_...._ ................ .. _ X .... .........__._........._...... -- -..._.....---..... X X ».....__...... B,D,E,F,GH,J,N.O,R,X X X X X X NH- 12/24 -R 7449 24V X X X i -- X X ........._.._._ _ .............................. B,D,E,F,G,H,J,N,O,R,X X X j X i X _ X #Refer to Data Sheet S7000 for Mounting Options 'Pending NOTE: Due to continuous development of our products, specifications and offerings are subject to change without notice in accordance with Wheelock Inc. standard terms and conditions. WE ENCOURAGE AND SUPPORT NICET CERTIFICATION • National Sales Office 800 - 631 -2148 Canada 800 - 397 -5777 E -Mail: Info @wheelockinc.com http: / /www.wheelockinc.com 3 YEAR WARRANTY Made in USA Member Distributed By: 273 Branchport Avenue • Long Branch, NJ 07740 • TEL: 732 - 222 -6880 - FAX: 732- 222 -2588 S2100 06/03 • • • DESCRIPTION: Wheelock's Weatherproof Strobe, Audible Strobe, Audible Horn and Multitone Strobe appliances have an extended temperature range of -31 °F to 150 °F ( -35 °C to 66 °C) that will satisfy virtually all outdoor and severe environment applications. All strobes are Indoor /Outdoor UL Standard 1638 Listed and rated for 180 candela on axis @ 77 °F (25 °C) and 75 candela at -31 °F (35 °C) with low current draw. The Wheelock Weatherproof Appliances are designed for maximum performance, reliability, and cost effectiveness while meeting or exceeding the latest requirements of NFPA 72 (National Fire Alarm Code), UL Standard 1638 (Standard for Visual Signaling Appliances), and UL Standard 464 (Standard for Audible Signaling Appliances). Series RSSWP Strobes, Series ASWP Audible Strobes and Series AHWP Audibles may be synchronized when used in conjunction with the Wheelock SM and DSM Sync Modules or the PS- 12/24 -8CP and PS- 12/24 -8MP Power Supplies with Patented Sync Protocol. The Series MTWP is a true 4 -wire appliance. The strobe portion can be synchronized as stated above. The multitone portion cannot, but it can be connected to a coded fire alarm system. Weatherproof Strobe Series RSSWP Is UL Standard 1638 approved for Indoor /Outdoor use. The appliances use a Xenon flashtube with solid state circuitry enclosed in a rugged LexanO lens to provide maximum visibility and reliability for effective visual signaling. The Series RSSWP mounts to a Series WPSBB Weatherproof Backbox. Weatherproof Audible Strobe and Audible Series ASWP and AHWP Is UL Standard 1638 and UL Standard 464 approved for Indoor /Outdoor use and offer a field selectable choice of continuous horn or temporal pattern (Code 3) when constant voltage from the Fire Alarm Control Panel (FACP) is applied. Additionally, the audible has three (3) selectable dBA settings of 99, 95, and 90 dBA in both tones and, when synchronized, may be silenced while maintaining strobe activation. The Series ASWP mounts to a WPBB Weatherproof Backbox while the Series AH mounts to a WBB Weatherproof Backbox. Weatherproof Multitone Strobe and Multitone Horn Series MTWP and MT -12/24 Is UL Standard 1638 and UL Standard 464 approved for Indoor /Outdoor use and offers a field selectable choice of 8 nationally and internationally recognized alerting signals. Additionally, the audible has 2 installer selectable sound output levels: Standard and high covering a range (depending on selected signal) of 76 -94 dBA reverberant. The Series MTWP is a true 4 wire appliance. The Strobe portion can be synchronized or non - synchronized. The multitone (audible) portion cannot be synchronized, but it can be connected to a coded fire alarm system. The Series MTWP and the MT -12/24 mount to a series IOB Backbox. Copyright 2004 Wheelock, Inc. All rights reserved SERIES RSSWP, ASWP, AHWP, MTWP and MT -12/24 WEATHERPROOF STROBE WEATHERPROOF AUDIBLE STROBE AND WEATHERPROOF AUDIBLES SERIES MTWP Mounted to IOB -R SERIES RSSWP Mounted to WPSBB -R SERIES AHWP Mounted to WBB -R SERIES ASWP Mounted to WPBB -R FIRE I ( Features • Approvals include: UL Standard 1971, California State Fire Marshal (CSFM) and New York City (MEA), Factory Mutual (FM) and Chicago (BFP) See approvals by model in Table 8 • Designed to meet or exceed NFPA, /UFC /ANSI 117.1/ OSHA Part 29, 1910.165, and ADA requirements • UL Standard 1638 and UL Standard 464 listed with extended temperature range of -31° to 150 °F ( -35 °C to 66 °C) • 24 VDC with new UL "Regulated" Voltage Range: of 16 -33 VDC using filtered DC or unfiltered FWR voltage Note: The Series MT -12/24 voltage range is 10.5 - 15.6 VDC (for 12V) and 20 -31 VDC (for 24V) • Sync /Non -Sync in each product. ,Note: The audible portion of the Series MTWP and MT -12/24 is non sync only • Synchronize with Series SM, DSM Sync Modules or PS- 12/24 -8CP and PS- 12124 -8MP Power Supplies with built -in patented sync protocol • Selectable dBA settings • Selectable alert signals • IN and OUT wiring termination that accepts two #12 -18 AWG wires at each terminal • Inputs are polarized for compatibility with industry standard reverse polarity supervision Helping People NOTE: All CAUTIONS and WARNINGS are identified by the symbol A All WARNINGS are printed in bold capital letters. ®WARNING: PLEASE READ THESE SPECIFICATIONS AND ASSOCIATED INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS, OR WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION, AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH ,,&OULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. neral Notes: Wheelock UL Standard 1638 Strobes are designed to produce 30 -62 flashes per minute over the Regulated Voltage Range. If used in an indoor application, UL Standard 1638 strobes must be operated at a minimum of 20 VDC to meet the NFPA -72 flash rate of 1 to 2 flashes per second and ADA Guideline flash rate of 1 to 3 flashes per second. • Wheelock Weatherproof Appliances are designed to operate over an extended temperature range of -317 to 150`F ( -35`C to 66'C) and all candela ratings represent minimum effective strobe intensity based on UL Standard 1638. Maximum humidity of 93% RH t2 %. • "Regulated Voltage Range" is`the newest terminology used by UL to identify the voltage range. Prior to this change, UL, used the terminology "Listed Voltage Range ". AWARNING: CONTACT WHEELOCK FOR THE CURRENT "INSTALLATION INSTRUCTIONS" AND "GENERAL INFORMATION" SHEET (P82380) ON THESE PRODUCTS. THE INSTALLATION INSTRUCTIONS AREAS FOLLOWS: P84135 FOR SERIES RSSWP, P83957 FOR SERIESASWP, P83641 FOR SERIESAH -WP, P84150 FOR SERIES MTWPAND P824671 FOR SERIES MT- 12/24 -R. THESE DOCUMENTS UNDERGO PERIODIC CHANGES. IT IS IMPORTANTTHATYOU HAVE CURRENT INFORMATION ON THESE PRODUCTS. THESE MATERIALS CONTAIN IMPORTANT INFORMATION THAT SHOULD BE READ PRIOR TO SPECIFYING OR INSTALLING THESE PRODUCTS, INCLUDING: • Total current required by all appliances connected to system secondary power sources. • Fuse ratings on notification appliance circuits to handle peak currents from all appliances on those circuits. • Adding, replacing or changing appliances will effect current draw. Recalculate current draw to insure that the total average current and total peak required by all appliances does not exceed the rated capacity of the power source or fuses. • Composite flash rate from multiple strobes within a person's field of view. • The voltage applied to these products must be within their "REGULATED VOLTAGE RANGE ". • Use strobe only on circuits with continuously applied operating voltage. Do not use strobes on coded or interrupted circuits in which fhe applied voltage is cycled on and off as the strobe may not flash. • Conductor size (AWG), length and ampacity should be taken into consideration prior to design and installation of these products, particu larly in retrofit installations. Table 1: Average Current* for Series RSSWP and Strobe in MTWP ....................... ............................... ---- ................. ...._ ......................_.._..... _._....._._..........._.....,..............._......._. ..._._....._.............._.._. Medium dBA Avg. Current * Strobe 75 cd @ Regulated .........._ -31 °F ( -35•C) Voltage Range 24.0 UL Max* VDC 10M] - 2475W -FR ......__......._................................._.................... 16.0 - 33.0 VDC 0.094 ITable 2: Average Current* (AMPS) For Series ASWP* dBA Ratings for Series ASWP & AHWP High dBA Medium dBA Low dBA Voltage Setting Setting Setting UL Max* (99) dBA (95) dBA (90) dBA 24.0 VDC 0.128 _ ...................... 0.105 ...._........._ ....... .................. _.........__.........._..... 0.098 UL Max* 0.168 0.155 0.150 *Audible and Visual combined. Current* (AMPS) for Series AHWP dBA Ratings for Series ASWP & AHWP H -24WP Volta ge AH -12WP W 3:Average Med /Low AH -12WP Hi/Med /Low UL Max* /0.033/0.017 12.0 VDC 0.163/0.076/0.039 Tone /0.043/0.021 UL Max* 0.192/0.108/0.058 Table 5: Average Current* (AMPS) for 24 V Series MTWP Table 4: ....... dBA Ratings for Series ASWP & AHWP Audible Reverberant dBA j Strobe Description 24.0 VDC I UL Max* 24.0 UL Tone High 91 99 Continuous VDC Max* SInd High ! Standard High 0.108 95 Low Horn _._ ....__.._......__.........._ ---........ 0.074 i 0.044 Bell .. 0.040 i ............................... 0.024 ....__...._ ................_......._._......._.-..........-__............_.........._..._. 0.053 Horn Med 82 95 ................._._....__............ 0.038 75 ............................_.Marc0.067 0.104 3 Horn 0.069 ...._ ..................... 0.035 ...........................Code 0.091 0.075 0.098 0.104 j 0.057 0.094 0.138 Code 3 Tone 0.026 0.061 j 0.035 Slow Whoop 0.028 0.069 0.037 Siren 0.027 0.080 i , 0.036 Hi /Lo 0.020 0.044 0.026 Table 6: dBA Ratings for Series MTWP and MT -12/24 Tone Standard MTWP MT -12124 High 16.0 ! 24.0 V 33.0 20.0 ! 24.0: 10.5 12.0 I Setting VDC DC VDC VDC 'VDC VDC I VDC j HtBell Standard 84 87 90 62 85 82 85 .._.... High Setting ; 89 92 94 88 91 _ 88 ..... 91 Standard 76 80 83 75 79 75 79 ...._ .._.............._.._..._......._.........._ igh Setting 83 86 88 85 I 82 ; 85 Standard 80 84 87 __ _....82.. 79 82 ; 79 82 High Setting 86 89 91 85 88 85 88 Code 3 Hom Standard 79 j 83 86 75 j 79 j 75 j 79 High Setting 85 88 90 85 85 85 85 Code 3 Tone Standard 76 i 80 82 1 75 75 75 75 j High Setting j 81 85 86 79 82 79 82 Slow Whoop Standard 1 81 ; 85 87 82 82 82 1 82 High . ...... ....... .................._..__....._.......;..._... Setting 87 90 ._.._......__......._..._. .... 92 88 i 88 88 I 88 Siren Standard 81 _ `: 84 _....__. .__...... 87 ........._......._.... ............ 82 82 82 82 High Setting 86 ! 89 92 85 88 85 88 Hi /Lo Standard 77 81 84 79 79 ! 79 79 High Setting 83 86 89 82 85 82........1........85 Table 4: ....... dBA Ratings for Series ASWP & AHWP Reverberant dBA j - Anecholc dBA Description Volume Per UL 464 @ 10 ft. @ 10 fL 24 VDC 24 VDC High 91 99 Continuous Horn Med 88 95 Low 82 90 High 85 99 Code3 ....__...._ ................_......._._......._.-..........-__............_.........._..._. ......._....................._. Horn Med 82 95 Low 75 90 S current ratinas are ner III average RMS methnri l 11 may ci grant rating is the maximum RMS current within the listed voltage range (16- 33v for 24v units). For strobes the UL max current is usually at the minimum listed voltage (16v for 24v units). For audibles the max current is usually at the maximum listed voltage (33v for 24v units). For unfiltered FWR ratings, see installation instructions. 1 1 11 u • Wiring Diagrams SERIES MTWP AUDIBLE APPLIANCE AND STROBE OPERATE INDEPENDENTLY NAC CIRCUIT FROM DSM PRECEDING + TO NEXT + AUDIBLE OR _ AUDIBLE OR — FACP SYNC EOLR FROM + MEA + TO NEXT PRECEDING _ +OUT 1 9013 _ STROBE OR STROBE OR 24 VDC T 0+ IN 1 EOLR FACP X I X RSSWP - 2475W -FW MINUS 1 180cd STROBE AUDIBLE SERIES MTWP AUDIBLE APPLIANCE AND STROBE OPERATE IN UNISON. RED AND BLACK SHUNT-WIRES ARE SUPPLIED. FROM P + + TO NEXT RECEDING APPLIANCE APPLIANCE RED OR EOLR OR FACP BLACK STROBE AUDIBLE SERIES RSSWP, ASWP, AHWP, MTWP AND MT -12/24 APPLIANCES FROM + + TO NEXT PRECEDING _ _ APPLIANCE APPLIANCE OR OR EOLR FACP JtMir -0 Rq I WY At Il`LIAN(itS bTNL;NKUNILtU STROBE OPERATION WITH CODED FACP MTWP B Strobe Sync Circuit NAC 41 Module or PS- 12/248 Audible Paver Circuit FACP supply NAC #2 N ote: St circuit requires constant voltage. SERIES RSSWP /ASWP APPLIANCES SYNCHRONIZED W/ DSM MODULE SINGLE CLASS "A" NAC CIRCUIT ........._. _.......... _. Strobe cd @ -31 - F ( -35 °C) DSM Input Voltage I STROBE + n _ _...__... ........... _ .._ ........................... Agency Approvals NAC SYNC CIRCUIT MEA CSFMI FM OUT +OUT 1 9013 180cd 75cd 24 VDC T 0+ IN 1 Rs A—P RSS X X I X RSSWP - 2475W -FW MINUS 1 180cd FACP +AUDIBLE T WPSBB -W (3033) X X X X MINUS 2 Audible Strobe +IN2 RSS swa RSS STROBE 9012 180cd NAC + OUT 2 24 VDC CIRCUIT WPBB -R (9014) X RETURN X I X X Model Number Order Code Strobe cd @ 77 - F (25 °C) ........._. _.......... _. Strobe cd @ -31 - F ( -35 °C) ......_._.. dBA Input Voltage I ........ Outdoor Mounting Options# .Back Box & Order Code _ _...__... ........... _ .._ ........................... Agency Approvals Strobe UL MEA CSFMI FM BFP RSSWP- 2475W -FR 9013 180cd 75cd 24 VDC T WPSBB -R (9751) X X X I X RSSWP - 2475W -FW 3034 180cd 75cd 24 VDC T WPSBB -W (3033) X X X X Audible Strobe ASWP - 2475W -FR 9012 180cd 75cd 90195/99 24 VDC I WPBB -R (9014) X X X I X X Multitone Strobe MTWP - 2475W -FR 8420 80 1cd 75cd 76 -94 24 VDC M 10B -R (5046) X X X X Horns /Audibles AH- 24WP -R 7416 N/A N/A 90/95/99 24 VDC K WBB -R (2959) X X X X AH- 12WP -R 7415 N/A N/A 90/95/99 12 VDC K WBB -R (2959) X X X X MT-1 2/24-R 5023 N/A N/A 76 -94 12/24 VDC M 106 -R (50 X X X j X X Speaker Strobe ET70WP- 2475W -FR 9077 1 1 80c 75cd 1 77 -93 24 VDC M 10B -R (5046) X X X For more information on the ET70WP Appliance, see Specification Sheet 59006. ARCHITECTS AND ENGINEERS SPECIFICATIONS The Weatherproof Strobe appliances shall be Wheelock Series RSSWP -2475W strobes or approved equals. The Series RSSWP all meet and be listed for UL Standard 1638 (Standard for Visual Signaling Appliances) for Indoor /Outdoor use. The strobe ppliances shall produce a flash rate of 30 -62 flashes per minute over the Regulated Voltage Range of 16 to 33 VDC and shall incorporate a Xenon flashtube enclosed in a rugged Lexan® lens. The strobe shall be rated at 75cd and shall operate over an extended temperature range of -31 °F to 150 °F ( -35 °C to 66 °C). All inputs shall be polarized for compatibility with standard reverse polarity supervision of circuit wiring by a Fire Alarm Control Panel. When synchronization is required, the appliances shall be compatible with the Wheelock Series SM and DSM Sync Modules or the Wheelock PS- 12/24 -8MP Power Supply with built -in, patented sync protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync module fails to operate, (i.e., contacts remain closed), the strobe shall revert to a non - synchronized flash rate. The Series RSSWP shall be mounted only to the WPSBB -R Backbox. The Weatherproof Audible Strobe and Audible appliances shall be Wheelock Series ASWP -2475W Audible Strobes and Wheelock Series AHWP Audible_ Horns or approved equals. The Series ASWP and Series AHWP shall meet and be listed for UL Standard 1638 (Standard for Visual Signaling Appliances) for Indoor /Outdoor use. The strobe appliances shall produce a flash rate of 30 -62 flashes per minute over the Regulated Voltage Range of 16 to 33 VDC and shall incorporate a Xenon flashtube enclosed in a rugged Lexan® lens. The strobe shall be rated 180cd @ 77 °F (25 °C) and 75cd at -31 °F ( -35 °C) and shall operate over an extended temperature range at -31 °F to 150 °F ( -35 °C to 66 °C) and be listed for maximum humidity at 95% RH. All inputs shall be polarized for compatibility with standard reverse polarity supervision of circuit wiring by a Fire Alarm Control Panel (FRCP). The Series ASWP shall be mounted only to the WPBB -R Backbox while the Series AHWP shall only be mounted to the WBB -R Backbox. The weatherproof audible strobe appliances shall be designed for two -wire operation and shall provide either a continuous or temporal (Code 3) tone when constant voltage from a Notification Appliance Circuit (NAC) of the Fire Alarm Control Panel (FACP) is applied. They shall be designed so that the audible signal may be silenced while maintaining strobe activation. When synchronization is required, the appliances shall be compatible with the Wheelock Series SM and DSM Sync Modules or the Wheelock PS- 12/24 -8MP Power Supply with built -in, patented sync protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync fails to operate, (i.e., contacts remain closed), the strobe shall revert to a non- synchronized flash rate. The Weatherproof Multitone Strobe and Multitone Audible appliances shall be a Wheelock Series MTWP and MT -12/24 or equivalent. The Series MTWP shall meet and be listed for UL Standard 1638 (Standard for Visual Signaling Appliances) for indoor /outdoor use. The strobe portion of the appliance shall produce a flash rate of 30 -62 flashes per minute over the listed voltage range of 20 -31 VDC and shall incorporate a Xenon flash tube enclosed in a rugged Lexan® lens. TThe strobe shall be rated 180cd @ 77 °F (25 °C) and 5cd at -31 °F ( -35 °C) and shall operate over an extended temperature range at -31 °F to 150 °F ( -35 °C to 66 °C) and be listed for F ximum humidity at 95% RH. All inputs shall be polarized for compatibility with industry standard reverse polarity of circuit wiring by ire Alarm Control Panel. The audible portion of the Series MTWP as well as the Series MT -12/24 shall provide eight field selectable alarm signals. The signals shall consists of: Horn, Bell, March Time, Code 3 Horn, Code 3 Tone, Slow Whoop, Siren and Hi /Lo. Tone selection shall be by a durable dip switch assembly. Clips or Jumpers are not acceptable. The appliance shall provide two output sound levels: Standard and High dBA. The range of dBA shall be 75 to 94 dBA. The Series MTWP shall have an operating voltage of 24 VDC (nominal) while the Series MT -12/24 shall operate at either 12 or 24 VDC (nominal) using filtered power or unfiltered power (full wave rectified). Both models shall have provisions for In /Out field wiring using terminals that accept #12 to #18 AWG wiring. When synchronization is required, the Series MTWP shall be compatible with the Series SM and DSM Sync Modules or with the Series PS- 12/24 -8MP Power Supply with built -in, patented sync protocol. Note: The Strobe portion of the Series MTWP maybe synchronized. The audible portion of the appliance cannot. The audible portion of the appliance can be connected to a coded fire alarm system. The Series MTWP and the Series MT -12/24 shall be mounted only to the 10S -R Backbox. Due to continuous development of our products, specifications and offerings are subject to change without notice in accordance with Wheelock Inc. standard terms and conditions. WE ENCOURAGE AND SUPPORT NICET CERTIFICATION MADE IN THE USA NATIONAL SALES OFFICE 3 YEAR WARRANTY 800- 631 -2148 Canada 800 - 397 -5777 E -Mail: Info @wheelockinc.com Mrs MEM http: / /www,wheelockinc.com 273 BRANCHPORT AVENUE • LONG BRANCH, NJ 07740 • TEL Distributed By: 732 - 222 -6880 • FAX: 732 - 222 -2588 S900408/04 • FCI -7100 Battery Calculations Project: BYU -Idaho Romney Science Building Date: April 5, 2005 Battery Standby Chart Total Total Qty Module Description Supv. Current Alarm Current Supv. Current Alarm Current 13SM -1 Basic System Module, 1 SLC* .056 A. .076 A 0 0 1 13SM -2 Basic System Module, 2 SLC* .065 A .085 A 0.065 0.085 21 AMM -2 Addressable Monitor Module st B .0002 A .0003 A 0.0042 0.0063 8 AMM -4 Addressable Monitor Module .0002 A .0005 A . 00016 0.004 AMM -4S Addressable Monitor Module .0002 A 005 A 0 0 6 AOM /AOM -2 Addressable Output Module .0002 A .005 A 0.0012 0.03 ASD -P,PL Analog PE Sensor .0002 A 005 A 0 0 2551 T Analog PE Sensor w/ Therm. .0002 A .005 A 0 0 86 ASD- I,IL,IL -2 Analog Ion Sensor .0002 A .005 A 0.0172 0.43 15 ATD /ATD -R Analog Thermal Sensor .0002 A .005 A 0.003 0.075 M500X Fault Isolator Module 00025 A .00025 A 0 0 SPB -24 Photo Beam Smoke Det. .010 A .028 A 0 0 12 ADP /ADP -R Duct Detector w/ Relays .026 A 087 A 0.312 0.912 • HE Electronic Horn -- - - - - -- .020 A 0 0 HM Electromechanical Horn - -- .038 A 0 0 STW Strobe "W" 15/75 cd -- - - - - -- .079 A 0 0 STS Strobe "R" t 110 cd -- - - - - -- .249 A 0 0 B501 BH Sounder Base .001 A .015 A 0 0 TOTALS 0. NOTE * Includes optional modules * *Use next size battery with capacity greater than required. * * *24hrs for NFPA 72 protected premises signaling, 60 hrs for Auxiliary Fire alarm systems. Battery Calculations A Total Supervisory Current from above Chart 0.4042 B Enter the number of standby hours per NFPA re uirements for the specific installation. * ** 24 C Multi I Line A times hours in Line B D Total Alarm Current from above Chart 9.7008 E Enter Alarm period in hours 5 min. _ our 1.5423 .084 F Multipy Line D times Line E 0.084 G Total of Lines C & F 0.129553 H Multipy Line G by 1.2 Total Ampere/hours 9.830353 I Battery Size Installed ** 11.79642 18 Amn /H • Project: BYU -1 Romney Science Building Date: April 5, 2005 • FireForce 8 Battery Calculation Chart Circuit Normal Current Alarm Current Notification Appliance Ckt. 1 20 A 2.000 A* Notification Appliance Ckt. 2 Alarm Am Hours 2.000A* Notification Appliance 3 68 A 2.000A* Notification Appliance Ckt. 4 Battery AH Required 2.000A* Batte AH Size Provided 1. A External Load A +,A- +/-24 VDC Common Control 0.030 A 0.055 A Normal Current 0.030 A Alarm Current 8.055 A Hours of Standby Total Normal Current 24 Normal Am Hours 30 A Hours of Alarm 20 A Total Alarm Current 83 A 18-055 Alarm Am Hours A Total Am Hours 68 A Safety Factor 88 A Battery AH Required 1.250 A Batte AH Size Provided 1. A 7 Note: Normal current times total number of standby hours = Total Normal Amp Hours Alarm current times total number hours of alarm = Total Alarm Amp Hours Total normal Amp Hours + Total alarm Amp Hours + 25% = Minimum Battery Size Total Load of Notification Appliance Ckt. And External Load Not To Exceed 8 Amps. *2.000 Amps is the maximum per Notification Applicance Ckt. This battery calculation represents a maximum load. • WRAP CLOUDED EXHAUST DUCT WITH FIRE WRAP REFERENCE WRITE -UP FOR FIRE WRAP 5PEGIFICATION. DI [� - -- ® L5 400 OEM, 10 NK SA. DIFFiY.,ER \ �l - II [Efl 500 GFM, 12'9 NK SA. 0IRI6EZ 1 a �i i ( I = i M O O v S d. 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GRILLE COOLNTL -.:- - - -- - - - --- -- - -_ -_ -- OD I FIEELDD �IFY �3 5 -3 300 GR1, B'¢ NK SA DIFT�.�ER - C1 T OF FN LOCATION AND HE16HT OF EXHAUST HOOD, AND ®MOP 12'9 EXHAUST DUCT DOM TO O 30 LOCATE DUCTWORK TO BE OUT OF THE WAY OF THE REGE%ED PRO EG110N GFIEMICAL RK HOOD AND CONNECT. TRANSITION A5 REQUIRED. Hogue Building 5GREL11, REF. ARCH• DRAPkN65, • F�� 730 Padflc Avenue ® low T b�P 11 UP L D © E I 190 GFM,10'x10' NK EX 6RILLE Sale lake City Utah 84104 — Rl i1T ON TO 1�000H R� 'O UF !� 5 -3 475 CFM, b "P NK 5A, DIFFUSER 801.521.6186 tel .._ : -,.... 1 w 0 F ill 80 1.53 9 .19 1 6 E ,�� @F R -I 22'xlO' NK R.A. GRILLE WITH SaM � � � { k ' c BOOT � 1 -� Lr1 1 �t��F ' j IISt i' G •.. 14 ��M�,'rlll, I ... - !�� — — ... — ��► .,� -- - --� 19 R -1 NK 22'x22' RA GRILLE WITH 5OUND BOOT w� fill F?► • i _: --50 'I ! 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AV FACULTY Y AV FAl AV ® 04 �)— 90 291 oFTx:E q OFFIC 94 OFFICE 6 oRT y0 Ofm �i A 8 C D E F G H N O \J ba A S 6A ( D M ) SECOND FLOOR MECHANICAL RFMODFL PLAN N 5GALE: 1 18' =P-Cr — 10 5 O 10 20 xrn REFERENCE MOTES (CONT.) REFERENCE NOTES (CONT) REFERENCE NOTES DAl HM 2- ® GAN � O WALL ABOVE . GOWIRATTION FIRREA.�MOKE 5T. TAJL I M -503. GEI ING NTH 501M BOOTH I GOMBINATION�RFA,MOKE WIER. 31 �. 30'x10' RA IX Ei41tY� NI WN1 ABOVE CEILING E I 800 GFi4, 14'x14' NK E>al. GRILLE COOLNTL -.:- - - -- - - - --- -- - -_ -_ -- OD I FIEELDD �IFY �3 5 -3 300 GR1, B'¢ NK SA DIFT�.�ER - C1 T OF FN LOCATION AND HE16HT OF EXHAUST HOOD, AND ®MOP 12'9 EXHAUST DUCT DOM TO O 30 LOCATE DUCTWORK TO BE OUT OF THE WAY OF THE REGE%ED PRO EG110N GFIEMICAL RK HOOD AND CONNECT. TRANSITION A5 REQUIRED. Hogue Building 5GREL11, REF. ARCH• DRAPkN65, O5 E-I 400 GEM, 12'x12' NK F)(14. 6RILLE 730 Padflc Avenue ® low T b�P 11 UP L D © E I 190 GFM,10'x10' NK EX 6RILLE Sale lake City Utah 84104 _ -- -- Rl i1T ON TO 1�000H R� 'O UF !� 5 -3 475 CFM, b "P NK 5A, DIFFUSER 801.521.6186 tel .._ : -,.... 1 O 5 I 540 GFT4,12'9 NK SA. DIET CR 80 1.53 9 .19 1 6 CORE DRILL HOLES IN SLAB FOR NEW PIPC5. PPF5 5HALL BE BEIWFFN THE PAN JOISTS. @F R -I 22'xlO' NK R.A. GRILLE WITH SaM � � � BOOT Il 5-I 150 GFM, 8'9 NK SA DIFFUSER @F5 GFM, 5 NK 5A DIFFUSE I� 13 E I 800 GFi4, 14'x14' NK E>al. GRILLE -.:- - - -- - - - --- -- - -_ -_ -- - - -- - C1 -. @ DROP 8'9 EXNNI5T DUCT DOWN TO CHEMICAL FUF1E HOOD AND CONNECT. TRANSITION A5 REWIRED. @F5 CFM,12 NK S.A. DIFRSER .,• .._ : -,.... 1 I6 E-1 12155 GFM,10 "x10" IK EXH. 6RILLE 30`9 Il 5-I 150 GFM, 8'9 NK SA DIFFUSER 1 .mADV 1 � 1 i8 5-I 1200 GEM, 8'9 FK 5A. DIFFUSER ---- 14 . - I ... - 10'9 ... .._ -- - --� 19 R -1 NK 22'x22' RA GRILLE WITH 5OUND BOOT _: --50 xt6." 450 GFM, 12'x12' FK EXH. 6RILLE 21 5-1 150 ", 8'4' tK 5A DIFRI5ER 300 GEM, 10 NK SA DIFRISER ' 10 ® 5-I 400 LEM, 10'0 FK 5A. DIFF16ER I 24 5 I 965 CFM, 10'9 NK S.A. DIFFUSER 1 I 1 O FI;:fl 500 01A 12'9 NK 5A DIFFUSER A 200 GFK 8'9 FK 5A. DIH%ER @ E-1j 200 6FT4, 10"x10' NK EW GRILLE g Rb 4 4 4 _ 250 CR -0, 10'9 NK 5A DIFRr5ER 444 — ® T-I 22'x10' NK TRANSFER AIR GRILLE 7 ... WITH 5aW BOOT s ® E-I 280 GFK vxi0' NK EXH. GRILLE } 1 1 26'x14' EXML ® ATG / LOW VOLTAGE TRAN5FORMIE2 PANEL ON WALL ABOVE GEILIN6. @E 500 GF?1,12'9 NK SA DIFRISER 20'x10'• @ 2P HP5 4 HW2, 4 FIRS 4 MR. MON BELOW, C/3 gu i _ 225A4'+I'AL 5EE DRAKN6 M-105 FOR GONTIFUATION J W '• WSE H25 4 FR2R IMP THROIKH ROOF TO Q w I i _- ... I - 0� -� _3 �,� .. - - { 0 PACKAGED EXRA16T FAN ABOVE. SEE DRAWING M-101 FOR CONTINUATION. 0 3 3©10'x325,20" DEEP PLENUM NTH 2- 30 w (� '- `12'x8' - 12 'xb' U EMA415T DUGT5 IV R-90" ROOF BETPECN PAN JOIST5 GONMEGTI 6 THE PLENUM TO THE m 0 0 4 r 12.9 :I2'xB,'; T FAK 5EE DRAWIN6 M-101 FOR z / I 1 GENERAL NOTES 4 I A ALL LAB EXHAUST DJGTHOW 15 5TAINLE55 5TEE-L. M _ - 20xl0'e 11 8. TRAN 1T10N DIFRrkR RUN -OUT5 A5 W Z � II4' 22'x14' +1'AL REQUIRIED TO CONNECT TO DIFF 15ER. LAB D FFU5ER NEGK5 MAY NOT MATCH RUN -OUT :E Z e'9 _ SIZE 0 0 e 1 42 f 9 31 3 10 13 3 I k10i -204 3".d.o..W - — AC TM 22'xl4'e GOLD /+q -tow D.4 . DMI.M Fl1W 1104- _ 12 Deot6.20D4 m b'xI2'+I'AL KEY PLAN 13 3008-WHW 14 NAD IDv REFERENCE NOTES (CONT.) 2ND LEVEL 14'x12' +PAL OPENING IN KALL ABOVE CEILING MECHANICAL 44 41 2 12'x11 RA OPEJRNG IN WALL ABOVE GEIIN6 WITH 50M BOOT. REMODEL PLAN 43 84'x18' RA OPEI11N6 IN KALL WITH COMBINATION FIRErA',OKE DAMPER. NOTE: DR4W E AOPONTIM VAM NORM Ti%WM TE PAGE CORRIM'ONDIDTEFORIMTOF ORWOLIXi1NMN3W 003INkDRN11NWAVALIKE ® 3018' RA. OPENING IN WALT_ PITH FOR REFERME ATBWMMO1 SICALRANT M_1 GOI- BINATION FIRE/�HOKE DAMPM F( , 4- Mr. Barry Becker March 14, 2005 Page 1 March 23, 2005 Mr. Barry Becker FFKR ARCHITECTS 730 Pacific Avenue Salt Lake City, UT 84104 DRAFT RE: BYUI ROMNEY BUILDING RESPONSES TO CITY AND ICC PLAN REVIEW SERVICE REVIEW COMMENTS Dear Barry: The following are our responses to the city and ICC plan review service review comments dated March 8, 2005 and February 18, 2005: REXBURG CITY REVIEW COMMENTS Review Item "Other Comments" In as much as the 2003 International Codes (IBC, IMC, IFC) do not reference NFPA 45, we have curtly reviewed this NFPA section and only one thing stands out. NFPA 45 does not allow manifolding the chemical exhaust ductwork unless it occurs inside of a shaft or outside of the building. The International mechanical code allows them to be manifolded together if it does not occur in a plenum. We have made the necessary changes to comply with the International Mechanical code by either separating the plenum from the exhaust duct or wrapping the exhaust duct with fire wrap insulation. ICC PLAN REVIEW COMMENTS Review Comment #1: Informational note ... no response Review Comment #2: Most of the major HVAC equipment is existing, with improvements being made to the controls. New equipment and new equipment installation as outlined hi the drawings and specifications are in accordance with the 2003 International Energy Conservation Code. JANVorkUobs\3808 \wPlReview Comments \City Review Comments Response.doe Review Comment #3 The mechanical specification section 15745 Part III paragraph 3.02 A; states that the cabinet heater is to be installed per the manufacturers installation instructions. Instructions have been given to the contractor to install the water heater and converter per the manufacturer's installation instructions and to have all instructions to all mechanical equipment and appliances available at the job site. Review Comment #4 The spacing for the piping supports in shown on Drawing M502 details 5 and 7. Review Comment #5 The required outside air CFM for the building has been given to the contractor. This quantity and the minimum VAV box CFM quantity was determined based on ASHRAE 62.89 which uses the same formulas as shown in the IMC section 403.3.2. A copy of these calculations has been attached to this letter. Many of the rooms in the building have an intermittent occupancy. ASHRAE 62 -89 paragraph 6.1.3.4 allows for a decrease of outside air to a room with intermittent or variable occupancy. On the schedule provided, the "OA vent CFM/Per" column has been adjusted to compensate for such rooms. Review Comment #6 There are no perchloric hoods, radioisotope hoods or biological safety cabinets on the project. Provisions have been made to maintain a negative pressure in the exhaust ducts. Each exhaust air handler has 2 exhaust fans with isolation dampers to allow for maintenance work while maintaining a negative pressure in the exhaust system. The exhaust ductwork will either be fire wrapped or will be in spaces sealed off from the plenum. This will be accomplished by sealing the lab area ceiling spaces from the plenums, and wrapping the exhaust ductwork in the hallways and in rooms 281, 203B and 299. Review Comment #7 The contractor has been instructed that all mechanical components installed in the ceiling plenum must either be noncombustible or have maximum flame spread index of 25 and a maximum smoke development index of 50. Review Comment #8 The corridors in the Romney building apply to the following conditions in paragraph 601.2.1 of the code: 1. The corridor is not required to be of fire- resistance -rated construction. 2. The air - handling system serving the corridor is shut down upon activation of the air - handling unit smoke detectors. 3. The air - handling system serving the corridor is shut down upon detection of sprinkler water flow and the building is equipped throughout with an automatic fire sprinkler system. (Upon completion of the project, the entire building will be equipped with automatic fire sprinklers.) Review Comment #9 The contractor has been insh acted of the following: That the maximum flame spread index of 25 and maximum smoke development index of 50 shall be met for all mastic and vibration isolation connectors when tested in accordance with ASTM E 84 k j 2. The duct coverings shall not flame, glow, smolder or smoke when tested in accordance with ASTM C 411 and the provisions set forth in Section 604.3 of the Mechanical Code. 3. Ducts must be sealed in accordance with the provisions in the 2003 International Energy Conservation Code. The specification limits flexible connectors to 3 feet and indicates they must be UL listed. Reference specification section 15890 paragraphs 2.06 and 3.05. The specification indicates duct support spacing and does not exceed 10 feet. Reference specification section 15890 paragraph 3.06. Review Comment # 10 The contractor has been instructed that the liquid adhesive coatings used on air filters shall have a flash point not lower than 325 deg F. Review Comment #11 The contractor has been instructed to provide a combination fire smoke damper in the wall hallway /chase penetration between gridlines R &S and. 10 &11 on drawing M -105. Upon completion of this remodel, the entire building will be equipped with fire sprinklers. The supply air ducts serving the second floor are in an existing shaft. The new ductwork serving the second floor is connecting to the existing duct on the second floor. The second level floor is not fire rated. The duct in the corner of stockroom 213 does not require a frretsmoke damper. The fire/smoke dampers in the walls between the Instrument Room 203 B and the Preparation Room 281 will be removed. Review Comment #12 Details for the gas piping and have been submitted to the contractor and have been attached to this letter. Review Comment #13 REF -1 is simply replacing and old existing exhaust fan and attaching to existing ductwork. Please call if there are any questions. Sincerely, HEATH ENGINEERING COMPANY Larry D. Veigel, P.E. Ventilation Air Calculations per ASHRAE 62-89 System Total SA (Vst) 50,388 PROJECT: BYUI Romney Building Sum of min OA to Bldg (Von) 5855 AH SYSTEM: Existing Air Handler Provided OA (Vot) 17300 DATE: Dec. 2004 Min OA % (X) 11.62% CALC BY: AJP Provided OA % (Y) 34.33% 1 389 Critical space OA % (Z) 77.78% 110 Faculty Office Room No. Description OA Vent Cfm/Per No. People Area SF OA Vent Cfm/SF Min OA To Space (Vo) Design Cfm To Space SA Flow Critical Space Min Reqd sc VAV Min % ' Remarks 107 Planetarium 7.5 40 300 1 389 32% 110 Faculty Office 20 1 20 400 26 6 112 Faculty Office 20 1 20 400 26 6% 114 Faculty Office 20 1 20 400 26 6% 116 Faculty Office 20 1 20 400 26 6% 118 Secretary 20 2 40 800 52 6% 126 Advanced Lab 7.5 28 210 910 273 30% 128 Laboratory 7.5 28 210 1 273 24% 128 Advanced Lab 1.5 28 210 950 273 29% 129 Laboratory 7.5 48 360 2,260 467 21% 130 Office 20 1 20 540 26 5% 131 Faculty Office 20 0 0 540 0 0% 132 Faculty Office 20 1 20 400 26 6 0 A 179 Classroom 7.5 40 300 1 2,100 389 19% 180 Faculty Office 20 1 20 400 26 6% 182 Faculty Office 20 1 20 400 26 6% 184 Faculty Office 20 1 20 400 26 6% 186 Faculty Office 20 1 20 400 26 6% 203 Laboratory 7.5 40 300 1,490 389 26% 213 Orcianic Stock Room 20 0 0 450 0 0% 220 Restroom 20 0 0 90 0 0 0% 0% 226 Restroom 20 0 0 20 90 100 26 26% 228 277 Custodial Lecture Hal 20 j 7.5 1 45 1 337.5 1,100 438 40% 279 Lecture Hall 7.5 45 1 337.5 1,100 438 40% 281 Preparatory Room 20 0 1 0 375 300 2,570 D 487 1 0% 19% 282 Laborato 7.5 50 1 20 140 26 19% 285 Faculty Office 20 1 20 130 26 20% 286 Faculty Office 20 1 20 400 26 6% 287 De t. Secretary Office 20 20 730 26 4% 289 De t. Chair Office 20 1 20 400 26 6% 290 1 Faculty Office 20 1 1 20 400 26 6% 291 Faculty Office 20 1 20 400 26 6% 292 Faculty Office 20 20 400 26 6% 294 Faculty Office 20 1 20 400 26 6% 296 297 Faculty Office Lecture Hail 20 7.5 1 45 337.5 1,100 438 40% 298 Faculty Office 20 1 20 400 26 6% 299 Lecture Hall 7.5 45 337.5 1 100 438 40% 118A Facul Office 20 1 20 430 26 6% 125A Lab Storage 20 D 1 0 2600 0 0 1 /0 0% 203A Organic Instrument Room 20 0 0 200 0% 203B Instrument Room 20 0 0 0 150 100 0 0 0% 28 2A Chemical Stock Room 20 0 0 240 0 0% 28 Instrument Room 20 0 0 1,600 0 0 °k 2A Front Corridor 20 0 The followinq rooms are not being changed In the remodel but are shown to et an overall outside air volume for the entire system. 105 Ph sics Classroom 7.5 10 1 75 1 918 1 97 1 11 V. 1 225 1 1,140 1 292 1 2670 127 Lecture Hall 1 7.5 30 1 150 945 195 21% 129 Advanced Lab 7.5 20 30 225 1,390 292 21 % 131 physics Lecture Hall 7.5 0 408 0 0% 132 Restroom 20 0 Room No, Description OA Vent CfmfPer No. People Area SF OA Vent Cfm /SF Min OA To Space (Vo) Design Ch To Space SA Flow Critical Space Min Reqd sc VAV Min % Remarks 133 Storage 7,5 0 0 1550 0 0% 134 Restroom 20 0 0 408 0 0% 135 shop 20 4 80 950 104 11% 136 Restroom 20 0 0 360 0 0% 138 SDF 20 0 0 282 0 0% 171 Auto Tutorial 7.5 30 225 1 480 292 20% 171 Auto Tutorial 7,5 30 225 1330 292 22% 172 Lecture Nall 7.5 50 375 3 350 487 15% 175 Office 20 4 80 400 104 26% 177 Storage 7.5 0 0 1357 0 0% 18 Corridor 20 0 0 1 0 0% 10 Corridor 20 0 0 200 0 0% 1D Corridor 20 1 0 0 200 0 0% 1G Corridor 20 0 0 350 0 0% 1G Corridor 20 0 0 350 0 0% 1 J Corridor 20 0 0 200 0 0% 1j Corridor 20 1 0 1 1 1 0 200 0 1 0% 6A5: UNDILUTED PROPANE DEVELOPED LENGTH = 330' INLET PRE55URE = 11.0 INCH WG TOTAL BTUH = 603,000 TOTAL GFH = 603 PIPE 51ZE = 2" (BASED ON TABLE 402.4, 2003 IF6G) :r (E�� 5TAGE REGULATOR H SERVE5 52 6A5 TURRET5 ® 3000 BTUH EA, 156,000 BTUH (EJir" = 156 GFH i 2" L NEW il�" NEW 1%" -r 5ERVE5 6 6A5 TURRET5 3000 BTUH EA. = 18,000 BTUH = IS GFH 0 5ERVE5 5q 6A5 TURRET5 ® 3000 BTUH EA. = 111 BTUH = III GFH GAS FLOW DIAGRAM 5GALE: NONE NEW i 5ERVE5 M 6A5 TURRET5 ® 3000 BTUH EA. = 252 ,000 BTUH = 252 GFH WRAP CLOUDED EXHAUST DUCT WITH FIRE WRAP - -_ REFERENGE WRITE -UP FOR EIRE WRAP 5PEGIEIGATION. 0 s i C - - -- - REFERENCE DOTES (CONT) REFERENCE NOTES (CONT) REFERENCE NOTES A`E4i4L�1er 43 30 "x18' RA OPEFIIN6 IN WALL WIT}{ G1UF931NATION ® 2' LINDERI -i" F[ MABLE 5TORA6E OI 14'x12' +IW R.A. OPENING IN WALL ABOVE C FIRE/SMOKE DAMPER GA131WT EXHAUST. SEE DETAIL i/M -503, GE1-I146 WITH 5CUND BOOT. FFKR ® 18'x18' RA. OPENING IN WALL WITfI 31 NEW EXNAI75T 1NOOD APPROX 24' ABOVE O30'x18' RA. OPENING 14 WALL ABOVE GEIIING - --- COMBINATION FIRE/SHOKE DAMPEiZ. COLNTER, CONTRACTOR TO PROVIDE HOOD. Cl _. 14 DROP 8 "0 EXHAUST DUCT DOWN TO O SEE DETAIL 51M -503 FOR C.ON5TMTION OF HOOD. FIELD VERIFY EXALT LOCATION 3 5 -3 300 GEM, 8',1 NK SA DIFFUSER �0 O S T AND HEIGHT OF E7UfAllST HPDD, ® DROP 12'4 EXHMY,T DUCT DOW TO GEMIGAL ME HOOD AND CONNECT. TRANSITION AS REWIRED. - 30 LOCATE DUCTWORK TO BE WE OF THE GEMIGAL RK HOOD AND CONNECT, - -_ - - _ - WAY OF TIE RECE5 PRO.L- CTIO,N TRANSITION AS REQUIRED, Bogus Building I N �REEK REF. ARGf, DRAWING,', OS E-I 480 GFM,12'xl2' NK EXH. GRILLE 730 PacHic Avenue ® IO'x8' EXNMX;T DUCT5 IitrOM BELOW, D 6 O E-i 0 190 CFM, 10'x10' NK EAt 6RILLE Sak Lake Utah 8410 ii - TRANSITION TO 10'0 AND R15E UP THROUGH ROOF TO N13N EXHAYT FANS. SEE DRAWING M -101 FOR CONTINUATION, &Efl 415 GFM, IO "0 NK SA, DIFFUSER 801 521.6186 tel GORE SILL HOLES IN SLAB FOR NEW PIPES, S-i 540 GFM, 12' 5A. DIFFUSER ® 0 NK 801539.1916 fax M,,.fBQ.� PIPF.5 5HALL BE LTETFETN THE PAN JOISTS. 9O R -I 22'x10' W RA, GRILLE WITH 501W l M HOOT Nr I I O 400 GFM,10'0 NK S.A. DIFi "USER 11 --1500 GFM,12'0 NK S.A. DIFRISER 4 ('I CS n C - - -- - -_- - ��/ (I�L Fil ` ' i A`E4i4L�1er t+.e 4/1 �7r. C i 13 E -1 800 CFM, 14'x14' W EXH, GRILLE d - - --- M Cl _. 14 DROP 8 "0 EXHAUST DUCT DOWN TO O O r �i"Lfl GEMIGAL ME HOOD AND CONNECT. TRANSITION AS REWIRED. - I 03 - 7 @F5 GFM, 12'0 NK S.A. DIMrfR I N rr O I6 E -f 285 GFFI, 10`x10' F , EXH, 6RILLE 41 C Il 5-I 150 GFM, 8'0 tK SA DIFRISER l M Nr C In 14 .� - O 8 N 19 R -I 122.22'W, RA GRILLE WITH 5OW 0 - - - N M 10 BOOT 3 _ D. �r• —� �ili�"cE IIE - 11 O ® E -I 450 CFM, 12'x12' IK FJM. GRILLE -- o Y - I� 3 00 O 00 O' 12 W 4 2 19 - •• • I sm -__a N �:Ci. '... to U LL1 16 A .: 00 O -� 00 b ® 5-I 365 CFM, 10'0 NK 5A. DIMU R M I r. 1 u 200 GRT, 8'0 NK 5A. DIFFUSER _ -.4 4� .-y 2l E-I 200 CFM, IO`xb' NK EXH, GRILLE A � ITii�il� __-- IS i 91 s� z � n 1 +I'AL / ,- I +I'AL 2_m I v Lx gJ H d 4 t16F•Si7E�, - - -- - -_- - ��/ (I�L Fil ` ' i A`E4i4L�1er t+.e �7r. t?��wr_p;; 13 E -1 800 CFM, 14'x14' W EXH, GRILLE - - --- Cl _. 14 DROP 8 "0 EXHAUST DUCT DOWN TO r �i"Lfl GEMIGAL ME HOOD AND CONNECT. TRANSITION AS REWIRED. - I d Gr @F5 GFM, 12'0 NK S.A. DIMrfR I N rr O I6 E -f 285 GFFI, 10`x10' F , EXH, 6RILLE Il 5-I 150 GFM, 8'0 tK SA DIFRISER l 0�ANCM 200 CFM, 8'0 HK S.A. DIfT-1Y�ER • 14 .� - 10'0 ! - - -- 19 R -I 122.22'W, RA GRILLE WITH 5OW - - - `J BOOT - - - _ D. �r• —� �ili�"cE IIE - ® E -I 450 CFM, 12'x12' IK FJM. GRILLE -- o � �—o� I� 3 C 21 5-I 150 G=M, 8'0 fK 5.A DIFFUSER O' W 4 2© 5-I 300 G34,10'0 NK 5A DIFR15ER - •• • I sm -__a '� G il �:Ci. '... to 23 5-I 400 aH, 10'0 NK 5A. DIFl115ER .: J K LOO SECOND FLOOR MECHANICAL REMODEL PLAN N 5GALE: 0 s O 10 20 I I i ' 4 - - -- - -_- - @F5 Il5 CFM, e`0 NK S.A. DIFFIBER 13 E -1 800 CFM, 14'x14' W EXH, GRILLE - - --- Cl _. 14 DROP 8 "0 EXHAUST DUCT DOWN TO GEMIGAL ME HOOD AND CONNECT. TRANSITION AS REWIRED. _ @F5 GFM, 12'0 NK S.A. DIMrfR O I6 E -f 285 GFFI, 10`x10' F , EXH, 6RILLE Il 5-I 150 GFM, 8'0 tK SA DIFRISER l 0�ANCM 200 CFM, 8'0 HK S.A. DIfT-1Y�ER • 14 .� - 10'0 ! - - -- 19 R -I 122.22'W, RA GRILLE WITH 5OW - - - `J BOOT - - - _ D. - - ® E -I 450 CFM, 12'x12' IK FJM. GRILLE 3 C 21 5-I 150 G=M, 8'0 fK 5.A DIFFUSER O' W 4 2© 5-I 300 G34,10'0 NK 5A DIFR15ER __ to 23 5-I 400 aH, 10'0 NK 5A. DIFl115ER -� b ® 5-I 365 CFM, 10'0 NK 5A. DIMU R I r. 1 GF91,12 NK 5A Dlfll!.,ER 200 GRT, 8'0 NK 5A. DIFFUSER _ -.4 4� 2l E-I 200 CFM, IO`xb' NK EXH, GRILLE g -4, --- ® 5-I 250 CFM, 10 "0 W 5A DIFFUSER • N . _ -- 8 22'x10' NK TRANSFER AIR 6RILLE F - - - 7 WITH 501MD BOOT a i -: 6'x14" E)W, - .. s ® FE-J] 280 CFM, IOklO' NK EXH. GRILLE u7 I _< ., ° ® ATC / LOW VOLTAGE TRAN5FORI ER j I 114' ..� k PANEL ON WALL ABOVE CEILI1 x -- - J 8 5-I 500 Cki4, 12'0 NK SA DIFFUSER 8 •: 22k14'+I'AL _ - 20x0e 3© 26 FW15 4 ft'12, 4' HRS 4 fRR FROM BELOK SEE DRAWING M-105 FOR CONTINUATION. J RISE 1925 4 FRR lIP TNROU6Hi ROOF TO f� 55 N i 3F .I -10'0 . - - 8 P DDRAh 10 FOR F � 0 ILLJ 1 b 3 3 35 10'02'x20' DEEP PLLli,M WITH 2- 30'x30` LL1 U - +12'x8 " !125tH• 12'x10' R E4MT DUGT5 U' TFROUGH ROOF BETPIEEN PAN JOISTS (ZH ELTW5 THE PLE" TO THE 0 4 I 12' 0 • ' G TAiAR SEE DRM IN5 14401 FOR z 0 O 3 4 ---, GENERAL NOTES All FOQi,N IST D%TVYJRK 15 5TAINLE% CD . l 20'xb'e - 11 B. TRAN5111ON DIF FLU R RUN -O fF5 A5 W z I!4' _ 22k14'+1`AL REGURED TO CONEGT TO DIFFUSER. LAB FFUSER tEGK5 MAY NOT MATCH RIM -OUT :;F Z H'0 �- A 0 0 8 4 f q 3 3 100 1 3 3 H.Y - Sd-.W D.0, otri E 22'x14'. GOLD Av-� nadpn U.,ehlm. • 12 D•o I.M Awn.ax D. I&2DU m .b'x12 " +I'AL 13 KEY PLAN —_ -- _ -- -__ - -- _ - 14 ' ' „o�x.eH, aowwnt Seoe sem#�t -tsar tb oww. u® - t14n LD T U nv. va -ra REFERENCE NOTES (CONT) 2ND LEVEL 41 14'x12' +PAL OPENIH6 IN WALL ABOVE CEILING MECHANICAL 4 12'x12' RA OPENN6 IN WALL ABOVE REMODEL GEEING 43 84'x18' WITH 50 R97 BOOT. RA OPENING IN WALL WITH D TX PLAN COF>BINATION FIRE/."�t40Y.E DAMPER : p yvR p y , y m ip � ®36'x18' RA oPEHING IN WALL W TH � AT a �+ ..L PI" M-1 O6 COMBINATION FI RE/5140KE DAMPER. i Lr s aC--(,- �J �t . J � -t nL, ' LADQJ r March 23, 2005 Mr, Barry Becker FFKR ARCHITECTS DRAFT 730 Pacific Avenue Salt Lake City, UT 84104 RE: BYUI ROMNEY BUILDING Barry, Based on our review of the Rexburg City comments, please pass the following information on to the contractor. Items 1, 2, 4, 5, 6, and 9 should not require any cost change to the project. Items 3 and 7 will cause a cost increase. Item 8 will be a cost credit. 1. The domestic water heater and converters shall be installed in accordance with the manufacturer's installation instructions. The contractor shall also have all instructions to all mechanical equipment and appliances available at the job site. 2. The minimum outside air on the existing central air handling system shall be set at 17,300 CFM when the air handler is at a full flow of 50,400 CFM. 3. Wrap the exhaust ductwork in the hallways and in rooms 281, 203B and 299 with Fire Master FastWrap+ or engineer approved equivalent fire wrap. See attached drawing for clarification. 4. All mechanical components installed in the ceiling plenum must either be noncombustible or have maximum flame spread index of 25 and a maximum smoke development index of 50 when tested in accordance with ASTM E 84. The duct coverings shall not flame, glow, smolder or smoke when tested in accordance with ASTM C 411 and the provisions set forth in Section 604.3 of the Mechanical Code. 5. All ducts must be sealed in accordance with the provisions in the 2003 International Energy Conservation Code. 6. All liquid adhesive coatings used on air filters shall have a flash point not lower than 325 deg F. 7. Provide a 12 "x12" combination fire smoke damper in the wall hallway /chase penetration between gridlines R &S and 10 &11 on drawing M -105. 8. Delete the combination fire/smoke dampers in the walls between the Instrument Room 203 B and the Preparation Room 281 (a total of 7 dampers). 9. Further details for the gas piping are attached to this letter. Sincerely, HEATH ENGINEERING COMPANY Larry D. Veigel, P.E. F 01 JAWork\Jobs\3808 \WP \Review CommentAnst to contractor as a result of city comments.doc 6A5: UNDILUTED PROPANE DEVELOPED LEN6TH = 330' INLET PRE55URE = 11.0 INCH WG TOTAL BTUH = 603,000 TOTAL GFH = 603 PIPE 51ZE = 2 (BA5ED ON TABLE 402.4, 2003 IF6G) 5ERVE5 52 BLD6 6A5 TURRETS WALL @ 3000 BTUH EA. = 156,000 BTUH p� = 156 G FH i NEW 2" L NEW IV" 1 (E�EC,OND 5TA6E REGULATOR - 5ERVE5 6 6A5 TURRET5 ® 3000 BTUH EA. = 18,000 BTUH = 18 GFH (0 /4 NEW 1 %4 NEW I%4 5ERVE5 59 6A5 TURRETS ® 3000 BTUH EA. = 111,000 BTUH = Ill GFH GAS FLOW DIAGRAM 5GALE: NONE 5ERVE5 84 6A5 TURRET5 ® 3000 BTUH EA. = 252 ,000 BTUH = 252 GFH April 5, 2005 Equipment Manufacturer: Authorized Distributor: Data Sheet FCI FCI FCI FCI FCI FCI FCI FCI FCI FCI Gamewell Wheelock Wheelock ROMNEY SCIENCE BUILDING BYU -IDAHO FIRE ALARM SYSTEM SUBMITTAL Fire Control Instruments Nelson Fire Systems 1481 South Major Street Salt Lake City, Utah 84115 (801) 468 -8300 Part No. FC -7100 LCD -7100 ASD -IL2 /ADB -FL ATD -RL2 /ADB -FL ADP -R MS -2 /AMM -2 AMM -2 AMM -4 AOM -2R ARB -C Fireforce 8 NS- 24MCW -FW AH- 24WP -R Description Addressable Fire Alarm Control Panel Remote Annunciator Analog Smoke Detector/Base Analog Heat Detector/Base Analog Duct Detector w /Relays Manual Pull Station Addressable Monitor Module Addressable Monitor Module Analog Output Module Auxiliary Relay Supplementary Notification Power Supply Strobe Horn Weatherproof Horn Battery Calculations Prints FIRE CONTROL Ell INSTRUMENTS Building Intelligent Networks 7100 SERIES wwwfirecontrolinstruments.com DESCRIPTION The FCI 7100 series fire alarm control panel is a multiprocessor- based,analcg addressable system in a compact, yet expandable, plat- form. Intended for commercial, industrial and institutional installations, it is ideal for life safety and property protection applications. The basic 7100 series control panel pro- vides two analog addressable signaling line circuits (SLCs). Each SLC supports up to 99 analog addressable sensors, as well as up to 99 addressable monitor modules and /or con- trol points.With 198 addresses available on each SLC, total system capacity reaches 396 a dd resses.The 7100 uses an advanced pro- tocol that ensures an almost instant response to events while at the same time suppressing nuisance alarms. The system may be programmed with ei- thertheWindaws�-based Field Configuration Program (FCP -7100) or through a compre- hensive set of intuitive, securely password protected front -panel programming options. This important feature allows the system to quickly adapt to any future requirements brought on by changes in occupancies, build- ing remodels, or other contingencies. The sophisticated circuitry and powerful analog software enables the 7100 series fire alarm control panel to read the specific sen- sitivity level of each sensor and compensate for any changes due to age, dust accumula- tion or other environmental factors.The 7100 incorporates the FCI Listed Integrated Sens itivityTesting (LIST) which meets NFPA 72 sensitivity testing and maintenance re- quirementsThe LIST testing allows substan- tial savings in both maintenance and service while virtually eliminating nuisance alarms. The Model 7100 -2D (non-FM) fe atu res an integral DigitalAlarm CommunicatorTrans- mitter (DACT) with all popular transmission formats and a 16 -digit telephone number field. It is 8 -digit Carrier Information Code (CIC) compliant and also prevents "dialer- runaway" in the event of intermittent system faultsThe 7100 -2D is UL Listed for Remote Station, Pro - prietary, and Central Station fire alarm sys- tems. The 7100 is housed in an attractive, con- temporary styled cabinet. It allows ample space for wiring and room for batteries up to 7A /H capacity. FEATURES • Integral DigitalAlarm Communicator (with the 7100 -2D) • 120 or 240VA C (optional) Input Line Voltage • intuitive Front Panel Programming • 80- characterAlpha- numeric Display • Two Style 4 (Class "B") Signaling Line Circuits. Style 6 (Class "A ") with optional CAOM module • Two StyleY (Class "B ") Regulated Notification Appliance Circuits rated for i.SAmp. each. Style Z(ClassieA ") with optional CAOM module • Suitable for Pre - Action Deluge applications with optional MCOM module • Available with Plastic or Metal Door • Periodic Trouble Reminder • Individual Sensor Drift Compensation • Listed Integral SensitivityTesting (LIST) • Dual -stage Maintenance alerts ( "Dirty" and" Very Dirty ") • Multilevel Sensor Sensitivity Adjustments (Front Panel programmable) • Day /Night SensitivityAdjustments (Front Panel programmable) • Alarm Veri fication per Individual Sensor • Positive Alarm Sequence for Sensors or Monitor Modules • Four Levels of SystemAccess using Six Digit Passwords with up to Five User Passwords per Level • Duplicate and ExtraAddress indications • March Time (60 or 120 BPM)/Temporal Pattern/ Coded Fours/California Code/ User - Defined Zone Coding • Cross Zoning • System Configuration Programming and 500 Event Log stored in Non - Volatile Memory • Fan Restart with Sequential Restart Delay • Upload/ Download of Panel Configuration. between Panel and FCP -7100 program (Password Protected feature) • Up to 64 7100 panels in NetSOLO network with optional INI -7100 module COMPACTANALOG ADDRESSABLE FIRE CONTROL PANEL U L <a S1869 APPROVED ME C 307 -99 -E 307- 99- EV01.11 e sEnvwE 7165 - 0694:219 (7100) 7300 - 0694:231 (LCD -7100) 7300 - 0694:241 (LDM -7100) Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate However, no responsibility is assumed by Fire Control Instruments for their use. Speci- fications subject to change without notice. Q 2002 All Rights Reserved 9020 -0466NER.2.2 Page I of5 0 FIRE CONTROL li?] INSTRUMENTS 1100 SERIES Building Intelligent Networks www.firecontrolinstruments.com OPTIONAL ACCESSORIES LCD -7100 The LCD -7100 remote serial display offers an 80 -char- acter alphanumeric readout for remote display of all sys- tem events. It duplicates all the information on the 7100 series panel display and provides Ivey switch protected func- tions such as System ResetAlarmAcknowledge,Trouble Acknowledge, Signal Silence,and DrillTest. LEDs on the LCD -7100 indicateAlarm, Supervisory, Sys- temTrouble, Pbwer Fault,Systems Silenced, NAC #band N AC #2 Silenced conditions. The LCD -7100 can be surface or semi -flush mounted on a standard four -gang electrical box and it can be in- stalled up to 4,000 feet (1,219 m) from the main control panelThe 7100 series fire alarm control panel can sup- port up to five (5) remote LCD -7100 annunciators using one pair of twisted, non-shielded 18AWG min.wire for serial communication and another pair of 16AWG min. for operating voltage. (Refer to 9020 -0486) LDM -7100 The LED Driver module (LDM -7100) is designed to mount in a U.L. Listed remote annunciator and provides outputs for remote panel switches and 33 remote LEDs. Three LDM -7100 modules may be installed in a single an- nunciator for a total of 99 LEDs per annunciator. This combination may be repeated up to five times for a total of fifteen (15) LDM -7100 at up to five different locations. Maximum distances of up to 4,000 feet (1,219 m) can be achieved using one pair of twisted, non - shielded wire for serial communication and another pair of straight -lay wire. for operating voltage. (Refer to 9020 -0519) MCOM The Municipal Connection Option Module (MCOM) provides three choices of outputs. It can be configured as a Municipal Circuit (City Box) output at: 024VDC nominal voltage • 0.0018 amp supervisory current •0.510 amp maximum alarm current 135 ohms maximum line resistance • 14.5 ohms maximum trip coil resistance It may also be set to serve as a Reverse Polarity output with a nominal voltage output of 24VDC at 0.012 amp maximum alarm and supervisory current. The third option the MCOM provides is as a releasing solenoid output rated at: •24VDC nominal voltage 10.005 amp supervisory current •0.710 amp maximum alarm current •2 ohms maximum line resistance It is suitable to be used with: *Skinner LV2LBX25 • Asco T82 I OA 107 • Asco 821 OG207 *Skinner 73218BN4UNLVNOC I I I C2 • Skinner 73212BN4TNLVNOC322C2 • Skinner 71395SN2ENJ I NOH I I I C2 PTRM The PrinterTransient module (PTRM) provides RS -232 Isolator /Transient protection for the 7100's RS -232 port (BSM connector J2). It is used in conjunction with a serial printer applied to the RS -232 port for permanent record keeping. CAOM The Class "A" Optional module (CAOM) allows StyleY and Z (Class" B" and "A") operation for both Notification Appliance Circuits and Style 4 and 6 (Class "B" and "A ") for both Signaling Line Circuit.. It also provides discon- nect switches for each signaling line circuit and a com- mon disconnect switch for both notification appliance cir- cuits. INI -7100 The Intelligent Network Interface module allows the 7100 series fire alarm control panel to become the platform of a peer -to -peer, token ring,self regenerative network comprised of up to sixty -four (64) 71 OOs. Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. H tnvever, no resposibility is assumed by Fire Control Instruments for their use.Specifications are subject to change without notice. C2002AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood MA 02090 USA - Tel:781 -471 -3000 - Fax: 781 -471 -3099 • www.firecontrolinstruments.com 9020- 0466/VER. 2.2 1 Page 2 of 5 FIRE CONTROL Ell INSTRUMENTS Building Intelligent Networks 7100 SERIES www.firecontrolinstruments.com am !!}f#1 F}}}}1 t= SPECIFICATIONS NOTIFICATION APPLIANCE CIRCUITS (TBO zo- TWO SUPERVISED, REGULATED, POWER LIMITED OUTPUTS (NON - CODED) 5 g g g -R V€ r rti e L 3 2 I 8 7 6 5 L 3 2 1 f �1 L 3 2 I L 3 2 I TBI T82 TB3 TB4 TB7 � 1 I ��J� I BATTERY (p) � � 000000 E)00 U. d pO6IC. am !!}f#1 F}}}}1 M O O O O q BSM . „eq 000 O (5 � 6 QD o00 TB9 1 2 3 4 5 6 7 8 NEVTRAL� GROUND Ia0 VAC, BO Hz HOT m � m 7X m l� 1Ti SIGNALING LINE CIRCUITS (TB3) 24 VDC NOMINAL POWER LIMITED B SUPERVISED LO OHMS MAX. LINE RESISTANCE 0.5 OF MAX. CAPACITANCE CAPACITY OF 99 ANALOG SENSORS AND 99 ADDRESSABLE DEVICES PER CIRCUIT 24 VDC EXTERNAL POWER (TB4) RESETTABLE B NON- RESETTABLE UNREGULATED UNSUPERVISED 1.0 AMP MA %.FROM EACH CIRCUIT/ 1.0 AMP MAX. COMBINED EARTH GROUND CONNECTION (TB4) AC INPUT (TB6) 120 VAC, 60 HZ, 2 AMPS NDN - POWER LIMITED BATTERY CONNECTION (TB7) SUPERVISED 24 VDC NOMINAL MAX. BATTERY SIZE 31 A/H NON -POWER LIMITED 0.6 AMP MAX. BATTERY CHARGING CURRENT TELEPHONE REQUIREMENTS(TB9) DC RINGER EQUIVALENCE NUMBER (REN) = 0.5B AC RINGER EOUIVALENCE NUMBER a 1.3 COMPLIES WITH FCC PART B Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. However,no resposibility is assumed by fire Control Instruments, Inc.for their use. Specifications are subject to change without notice. Ce 2002AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood MA 02090 USA - Tel: 781 -471 -3000 - Fax: 781 =471 -3099 - www.firecontrolinstruments.com 9020- 0466/VER. 2.2 / Page 3 of 5 t= SPECIFICATIONS NOTIFICATION APPLIANCE CIRCUITS (TBO TWO SUPERVISED, REGULATED, POWER LIMITED OUTPUTS (NON - CODED) MAX, ALARM LOAD 1.5 AMD PER CIRCUIT FOR USE WITH ANY LISTED APPLIANCE W/ OPERATNG VOLTAGE RANGE I7 - 26 VDC 0 0 USE UL LISTED END OF LINE RESISTOR EOL -N (47K). P/N 4700 -0512 TROUBLE DRY CONTACTS (TB2) L 3 2 1 FORM 'C' TB5 RATED FOR 2 AMPS 0 30 VDC ALARM DRY CONTACTS 1782) FORM 'C' RATED FOR 2 AMPS 0 30 VDC SO TRANSFER RELAY CONTROL(TB2) TRANSMITS LOSS OR BROWN OUT OF AC POWER TO DRBC-I BATTERY CHARGER POWER LIMITED UNSVPERVIB ED M O O O O q BSM . „eq 000 O (5 � 6 QD o00 TB9 1 2 3 4 5 6 7 8 NEVTRAL� GROUND Ia0 VAC, BO Hz HOT m � m 7X m l� 1Ti SIGNALING LINE CIRCUITS (TB3) 24 VDC NOMINAL POWER LIMITED B SUPERVISED LO OHMS MAX. LINE RESISTANCE 0.5 OF MAX. CAPACITANCE CAPACITY OF 99 ANALOG SENSORS AND 99 ADDRESSABLE DEVICES PER CIRCUIT 24 VDC EXTERNAL POWER (TB4) RESETTABLE B NON- RESETTABLE UNREGULATED UNSUPERVISED 1.0 AMP MA %.FROM EACH CIRCUIT/ 1.0 AMP MAX. COMBINED EARTH GROUND CONNECTION (TB4) AC INPUT (TB6) 120 VAC, 60 HZ, 2 AMPS NDN - POWER LIMITED BATTERY CONNECTION (TB7) SUPERVISED 24 VDC NOMINAL MAX. BATTERY SIZE 31 A/H NON -POWER LIMITED 0.6 AMP MAX. BATTERY CHARGING CURRENT TELEPHONE REQUIREMENTS(TB9) DC RINGER EQUIVALENCE NUMBER (REN) = 0.5B AC RINGER EOUIVALENCE NUMBER a 1.3 COMPLIES WITH FCC PART B Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. However,no resposibility is assumed by fire Control Instruments, Inc.for their use. Specifications are subject to change without notice. Ce 2002AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood MA 02090 USA - Tel: 781 -471 -3000 - Fax: 781 =471 -3099 - www.firecontrolinstruments.com 9020- 0466/VER. 2.2 / Page 3 of 5 FIRE CONTROL EEI INSTRUMENTS 7100 SERIES Building Intelligent Networks wwwfirecontrolinstruments.com SPECIFICATIONS Primary Input Power 120VAC, 50/60 Hz @ 2.0 amps or 240VAC, 50/60 Hz @ 1.0 amp Output Power 4 amps.@ 24VDC (total) Non - resettable Power 1.0 amp. max. Resettable Power 1.0 amp. max. I.0 amp. max. from both circuits Two (2) NotificationAppliance Circuits 1.5 amp. each @ 24VDC Current Supervisory Alarm 7100 -2 (Two Loop) 0.065 amp. 0.085 amp. 7100 -2D (Two Loop w /Dialer) 0.085 amp. 0.105 amp. LCD -7100 0.050 amp. 0.075 amp. LDM -7100 0.035 amp. 0.200 amp. (All LEDs lit) INI- 7100- UTP -FO 0.040 amp. 0.040 amp. OperatingTemperature 32 - 120° F (0 - 49° C) Relative Humidity 85 % (non- condensing) Battery Charger Capacity 31 A/H (Cabinet accommodates 7A /H size batteries) Alarm &Trouble Relay Contacts Form "C ",2 amps.@ 24VDC (resistive) Dimensions 7100 16.9 "Hx 14.5"W x 3" D (40 x 37 x 7.5 cm) LCD -7100 4.25 " H x 8.25 "W x 1.88" D (1 1.5 x 20.5 x 4.6 cm) LDM -7100 6" W x 4 1 /2 "W (15.24 x 1 1.5 cm) Weight (7100) 24 Ibs (I I kg) AGENCYAPPROVALS U. L. File S 1869 FM Approved CSFM 307 -99 -E 307-99-EVol. I I MEA 7165- 0694:219 (7100) 7300 - 0694:231 (LCD -7100) 7300- 0694:241 (LDM -7100) Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. However, no resposibility is assumed by fire Control Instruments for their use. Specifications are subject to change without notice. Q2002All Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood MA 02090 USA • Tel:781 -471 -3000 • Fax: 781 -471 -3099 • www.firecontrolinstruments.com 9020 - 0466 1VER. 2.2 1 Page 4 of 5 LEI FIRE CONTROL INSTRUMENTS 7100 SERIES Building Intelligent Networks wwwfimcontrolinstruments.com ORDERING INFORMATION BASIC KITS Part Number Model Description 1 100 -131 1 BK- 7100 -2 Basic System Kit,2 SLC (BSM,Keypad DisplayTransformer) 1100-1312 BK- 7100 -2D Basic System Kit w/ DAC T, 2 SLC 1100-1313 BK- 7100- 2 -240V Basic System Kit,2 SLC,240VAC 1100-1314 BK- 7100- 2D -240V Basic System Kit w/ DACT, 2 SLC, 240VAC CABINETS 1 100 -1307 7100 -ENC- PLASTIC Enclosure with Plastic Door, standard (16.9" H x 14.4" D x 3" D) 1100-1308 7 1 00-ENC-META L Enclosure with Metal Door, standard (16.9" H x 14.4" D x 3" D) 1 100 -0480 NS -7I OOB Enclosure, NetSOLO® Broadband, black (19" H x 19 "W x 4" D) 1 100 -0481 NS -7100R Enclosure, NetSOLOI Broadband, red (19" H x 19 "W x 4" D) OPTIONAL MODULES 1100 -0399 LCD -7100 1100-0428 LDM -7100 1100-1233 CAOM 1 100 -1234 MCOM 1100-1235 PTRM 1 100 -0440 I N I- 7100 -UTP 1100 -0439 INI- 7100 -FO REPLACEMENT PARTS 1420 -0429 1120 -0779 1120 -0867 1120 -0778 1120 -0801 1120 -0781 1120 -0780 1120 -0767 EN -7100 CS -7100 CS -7I OOM T7100 T-7100-240 BSM -2 BSM -2D Remote SerialAnnunciator (80- character) Remote LED Driver Module ClassA Option combination module with disconnect switches for both Signaling Line Circuits and NotificationAppliance Circuits Municipal Connection Option Module for Local Energy City Box, Reverse Polarity Signaling, or Releasing Solenoid PrinterTransient Module Intelligent Network Interface module- UnshieldedTwisted Pair Intelligent Network Interface module- Fiber Optic Enclosure (replacement) Plastic Door (replacement) Metal Door (replacement) Transformer,120VAC input (replacement) Transformer,240VAC input (replacement) Basic System Module, 2 SLC (replacement) Basic System Module,2 SLC w /DACT (replacement) KeypadAssembly (replacement) Specifications are provided for information only and are not intended to be used for installation purposes and are believed to be accurate. H owever, no resposibility is assumed by fire Control Instruments for their use. Specifications are subject to change without notice. © 2002AII Rights Reserved FIRE CONTROL INSTRUMENTS. 16 Southwest Park,Westwood MA 02090 USA •Tel:781 -471 -3000 • Fax:471 -3099 • www.firecontrolinstruments.com 9020.04661VER. 2.2 / Page 5 of 5 FIRE CONTROL INSTRUMENTS DESCRIPTION The LCD -7100 Remote Serial Display provides superior flexibility to the 7100 Series installations. It features an 80- character display which duplicates all the information on the 7100 Series panel display with the exception of menus. The LCD -7100 contains the following function keys: • Alarm Acknowledge • Trouble Acknowledge • Signal Silence • System Reset/Lamp Test • System Drill Test A keylock must be placed in the "ON" position to enable the function keys with the exception of the "Trouble Ac- knowledge" key which is used to silence the trouble sounder on the LCD -7100. LEDs on the LCD -7100 are: • Alarm • Supervisory • System Trouble • Power Fault • System Silenced • NAC #1 Silenced • NAC #2 Silenced 7100 SERIES UL LCD -7100 REMOTE SERIAL LCD DISPLAY FEATURES • 80- Character LCD Display • Full Complement of Function Keys and LEDs • Remote Location up to 4,000 Feet Away from Control Panel INSTALLATION • 7100 Series will Accommodate up to The LCD -7100 can be surface or flush mounted on a stan- Five (5) Annunciators dard four -gang electrical box and installed up to 4,000 feet • Surface or Flush Mount on Standard away from the main control. The 7100 Series control panel Four -gang Electrical Box can accommodate up to five (5) remote LCD -7100 annuncia- tors. • Compact, Attractive Appearance SPECIFICATIONS Operating Voltage 24 VDC (nominal) Supervisory current .050 amp. Alarm current .075 amp. Operating temperature (recommended) 60 to 80 F (15 to 27 C) Absolute maximum operating temperature range 32 to 120 F (0 to 49 C) Relative humidity 85% max., non - condensing at 90 F (32 Q Dimensions 8' /a "L x 4' /z" H x 1 7/8" D (20.5 x 11.5 x 4.6 cm) ORDERING INFORMATION Part No. Model Description 1100 -0399 LCD -7100 Remote Serial LCD Display Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. 0 1999 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 9020 -0486 /Ver. 1.2 FIRE CONTROL E31 INSTRUMENTS Building Intelligent Networks FEATURES www.firecontrolinstruments.com ANALOGADDRESSABLE IONIZATION SMOKE GENERAL The Fire Control InstrumentsASD Series intelligent plug -in smoke detectors with integral communication provide features that surpass conventional detectors. Detector sensitivity can be programmed in the control panel software. Sensitivity is continuously monitored and reported to the panel. Point ID capability allows each detector's address to be set with decade address switches, providing exact detector locations for selective maintenance when chamber contamination reaches an unacceptable level. The ASD -IL2 ionization detector incorporates a unique single- source, dual - chamber design to respond quickly and dependably to a broad range of fires. INSTALLATION ASD -IL2 plug -in detectors use a separate base to simplify installation, service, and maintenance. A special tool allows maintenance personnel to plug in and remove detectors without using a ladder. Mount base on a box which is at least 1.5" (3.81 cm) deep. Suitable mounting base boxes include: • 4.0" (10.16 cm) square box. • 3.5" (8.89 cm) or 4.0" (10.16 cm) octago- nal box. • Single -gang box (except relay or isolator base). • With B501 BH base, use a 4.0" (10.16 cm) square box. • With B224RB or B224B1 base, use a 3.5" (8.89 cm) octagonal box, or a 4.0" (10.16 cm) octagonal or square box. NOTE: Because of the inherent supervision provided by the SLC loop, end -of -line resistors ate not required Wiring" Raps" or branches are permitted Pr Style 4 (Class"B') wiring. • Sleek, low -pro file design. • Addressable - analog communication. • Stable communication technique with noise immunity. • Low standby current. • Rotary 01 to 99 address switches • Optional remote, single -gang LED accessory (RA400Z). • Dual LED design provides 360° viewing angle. • Visible red LEDs blink every time the detector is polled, and illuminate steady on alarm. • Built -in functional test switch activated by external magnet. • Optional relay, isolator, or sounder bases. AS0=1L2 ASD -IL2 DETECTOR • Listed to UL 268. DETECTOR SPACING: FCI recommends spacing detectors in compliance with NFPA 72. In low airflow applications with smooth ceilings, space detectors 30 feet (9.144 m). For specific information regarding detector spacing, placement, and special applications, refer to N FFA 72. System Smoke DetectorApplication Guide, documentA05- 1003,is available at systemsensor.com. ( : K ) [ _Y ill; UA FM � A P PROVED I v vi An ISO 9001 Comaan Specifications are provided for information only, and are not tended to be used for installation purposes and are believed to be accurate. However,no responsibility is med by Fire Control Instruments for their use. SPecificadons subject to change without nonce. 02003 All Rights Reserved 902D-05581ver. 1.0 Page 1 of 2 A Honeywell Company FIRE CONTROL U31 INSTRUMENTS Building Intelligent Networks ASD=1L2 wwwfirecontroIinstruments.com REMOTE ANNUNCIATOR + f1— + ---- - - - - -- I I I I Listed Compatible CONTROL 3 2 3 2 PANEL 1 i 1 I I I I I I I I I I I I I I _ I I I �—; ---------------- ----- - - - --� I OPTIONAL RETURN LOOP SPECIFICATIONS Size:2.1" (5.1 cm) high x4.1" (10.4 cm) diameter installed in B501 base, 6.1" (15.5 cm) diameter installed in ADB -FL base. Shipping weight: 5.4 oz. (154 g). Operating temperature: 0 ° C to 49 ° C (32 ° F to 1207). UL- Listed velocity range: ION: 0 — 1200 ft. /min. (365.76 m /min.). Relative humidity: 10 % -93% noncondensing. ELECTRICAL SPECIFICATIONS Voltage range: 15 - 32 volts DC peak. Standby current(max.avg.): 200 pA @ 24VDC (without communication); 300 pA @ 24VDC (one communication every 5 seconds with LED enabled). LED current (max.): 6.5 mA @ 24VDC ( "ON "). BASESAVAILABLE ADS-FL: 6.1" (15.5 cm) diameter, B501: 4.1 " (10.4 cm) diameter. B50IBHorB50IBHT: Sounder base assembly (B501 BHT produces aTemporal Pattern). Includes B501 base. B224RB Relay Base: Screw terminals: up to 14AWG (2.0 mm Form- C.Rating. 2.OA @ 30VDC resistive; 0.3A @ I I OVDC inductive; I.OA @ 30VDC inductive. Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). B524B1 Isolator Base: Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). Maximum: 25 devices between isolator bases. Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Contro l Instruments for their use. Specifications subject to change without notice. © 2003AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood,MA 02090 USA • Tel`.781 -471 -3000 • Fax:781 -471 -3099 • www.firecontrolinstruments.com A Honeywell Company 902"558 L0 Page oft FIRE CONTROL UZI INSTRUMENTS AT042 Building Intelligent Networks wwwfirecontroIinstruments.com ANALOG,4DDRESSABLE THERMAL DETECTOR GENERAL The FCI Series intelligent plug -in thermal detectors with integral communication provide features that surpass conventional detectors. Detector sensitivity can be programmed in the control panel software. Sensitivity is continuously monitored and reported to the panel. Point ID capability allows each detector's address to be set with decade address switches, providing exact detector locations for selective maintenance when chamber contamination reaches an unacceptable Ievel.ATD Series thermal detectors use an innovative thermistor sensing circuit to produce 135 °F /57 fixed - temperature (ATD -L2) and rate -of -rise thermal detection (ATD -RL2) in a lore- profile package.TheATD -HL2 provides fixed high - temperature detection at 190 ° F /88 ° C.These thermal detectors provide cost effective, intelligent property protection in a variety of applications. INSTALLATION ATD -L2 plug -in detectors use a separate base to simplify installation, service, and main - tenance.A special tool allows maintenance personnel to plug in and remove detectors without using a ladder. Mount base on a box which is at least 1.5" (3.81 cm) deep. Suitable mounting base boxes include: • 4.0" ( 1 0.16 cm) square box. • 3.5" (8.89 cm) or 4.0" (10.16 cm) octago- nal box. • Single -gang box (except relay or isolator base). • With B501 BH base, use a 4.0" (10.16 cm) square box. • With 8224RB or B224BI base, use a 3.5" (8.89 cm) octagonal box, or a 4.0" (10.16 cm) octagonal or square box. NOTE: Because of the inherent supervision provided by the SLC loop, end-of- -line resistors are not requifed.Wiring" Ttaps" or branches are permitted for Style 4 (ClassaB ") wiring. FEATURES • Sleek, low-profile, stylish design. • State-of-the-art thermistor technology for fast response. • Rate-o f-rise model (ATD -RL2), 15 °F (8.3 °C) per minute. • Factory preset at 135 ° F (57 °C); high - temperature modelATD -HL2 at 190 °F (88 °C). • Addressable by device. • Rotary 01— 99 address switches • Two -wire loop connection. • Visible LEDs "blink" every time the unit is polled. • 360° -field viewing angle of the visual alarm indicators (Two red LEDs). LEDs blink in Normal condition and turn on steady inAlarm. • Integral communications and built -in device -type identi fication. • Remote test feature from the panel. • Built -in functional test switch activated by external magnet. ATD -L2 • Low standby current. • Listed to UL 521. • Built -in tamper - resistant feature. • Designed for direct - surface or electrical -box mounting. • Sealed against back pressure. • Plugs into separate base for ease of installation and maintenance. Separate base allows interchange of photoelec- tric, ionization and thermal sensors. • SEMS screws for wiring of the separate base. • 94 -SV plastic flammability rating. • Remote LED output connection to optional RA40OZremote LED annunciator. • Optional sounder, relay, and isolator bases. R �Ti�al FM APPROVED � An ISO 9001 Comaan Specifications are provided for information only,and are c intended to be used for installation purposes and are believed to be accurate. However.no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. 02003 All Rights Reserved 9020-0560Ner.1.0 Page 1 of 2 A Honeywell Company FIRE CONTROL Ell INSTRUMENTS Building Intelligent Networks AT042 www.firecontrolinstruments.com REMOTE ANNUNCIATOR +��— + ------ - - - - -i I I I I Listed Compatible 'I I CONTROL 3 2 3 2 PANEL I I I I I I 1 I I I I I I _ l I I -------------------- - - --'' OPTIONAL RETURN LOOP ----------------------------------------------------- SPECIFICATIONS Size:2.I" (5.1 cm) high x 4.1" (10.4 cm) diameter installed in B501 base, 6.1" (15.5 cm) diameter installed inADB -FL base. Shipping weight: 4.8 oz. (137 g). Operating temperature range: ATD- L2,ATD -RL2: —20 ° C to 38 ° C (-4 to 100 °F);ATD -HL2: —20 ° C to 66 ° C (-4 ° F to 1507). Detector spacing: UL approved for 50 ft. (15.24 m) center to center. FM approved for 25 x 25 ft. (7.62 x 7.62 m) spacing. Relative humidity: 10 %— 93% noncondensing. Thermal ratings: fixed- temperature setpoint 135 °F (57 °C), rate -of -rise detection 15 °F (8.3 °C) per minute, high temperature heat 190 ° F (88 °C). ELECTRICAL SPECIFICATIONS Voltage range: 15 - 32 volts DC peak. Standbycurrent(max.avg.): 200 pA @ 24VDC (without communication); 300 pA @ 24VDC (one communication every 5 seconds with LED enabled). LED current (max.): 6.5 mA @ 24VDC ("ON ").Voltage range: 15 - 32 volts DC peak. BASESAVAILABLE ADB -FL: 6.1" (15.5 cm) diameter. B501: 4.1 " (10.4 cm) diameter. B501BHorB50IBHT: Sounder base assembly (6501 BHT produces aTemporal Pattern). Includes B501 base. B224RB Relay Base: Screw terminals: upto14AWG(2.Omm Form- C.Rating.2.OA @30VDCresistive; 0.3A @ I I OVDC inductive; LOA @ 30VDC inductive. Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). B524BI Isolator Base: Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). Maximum: 25 devices between isolator bases. Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. ©2003AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood,MA 02090 USA - Tel:781 -471 -3000 - Fax:781 -471 -3099 - www.firecontrolinstruments.com A Honeywell Company 9 0560NER. I.0 / Page22f2 Ell FIRE CONTROL INSTRUMENTS AUP Series BuMmg fi]l tefjentN etwozca www.firecontrolinstruments.com ANALOG DESCRIPTION The Fire Control Instruments ADP Low -Flow Series photoelectronic air duct smoke sensors are capable of sensing smoke in air velocities from 100 to 4,000 feet per minute (0.5 to 20.32 m /sec). The ADP series features low -flow tech- nology that enables duct smoke detection throughout a broad range of airflow environments. Many difficult to solve HVAC applications occur in low airflow duct applications where reliable smoke detection is critical. ADP low -flow tech- nology can detect smoke at air speed ve- locities of 100 feet per minute or greater, while continuing the same reliable perfor- mance to 4,000 feet per minute. The ADP Series sensor samples air cur- rents passing through a duct and gives de- pendable performance for shutdown of fans, blowers, and air conditioning systems, pre- venting the spread of toxic smoke and fire gases through the protected area. These intelligent sensors communicate and are continuously monitored through the signaling line circuit. Sensor sensitivity changes caused by dirt, temperature, or humidity are reported to the panel, allow- ing compensation algorithms to maintain the sensor's set sensitivity. An advance indication at the panel specifies the sen- sor address, allowing for selected main- tenance to be performed as needed. Remote alarm annunciation can be accomplished by using the RA40OZ Re- mote Annunciator or the RTS451 or RTS451 KEY Remote Test Station. Both these devices allow testing of the sensor from a remote location. The ADP series low -flow duct sensors are designed for simplified installation and easy maintenance. The modular construc- tion allows for easy cleaning and uncom- plicated field replacement of the UL rec- ognized power and sensor boards. The ADP (non - relay) has outputs for a remote LED display and remote test switch. It incorporates zener diodes to con- serve power for communications to other devices. The ADP is a 2 -wire device that requires signaling line circuit power only. ADDRESSABLE LOW -FLOW DUCT SENSOR The ADP -R (with relay) has powered outputs for remote LED indication with a remote test switch and audible sounder. Two form "C" auxiliary contacts can be configured as a relay version orjumpered to mimic the non -relay version. It has a patented cover tamper trouble signal. The ADP -R is a 4 -wire device that requires both signaling line circuit power and either 24VAC /DC or 120/240VAC for proper op- eration. FEATURES • Air Velocity rating from 100 to 4000 feet per minute (0.5 to 20.32 m /sec.) • Patented Telescopic Sampling Tube • Easily accessible Code Switches • Outside Mounting Tabs • Easy and quick mounting to Round or Rectangular Ducts from 1 =12' (0.3 -3.7 meters) wide • Easy to clean • UL Recognized Field- replaceable Power and Sensor boards • Transparent Cover for convenient Visual Inspection • UL 268A listed ti z , ADP ADP -R R FM APPROVED _ 5 4:, An ISO 9001 Comoan Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subjectto change without notice. 02003 All Rights Reserved 9020-0567Ner. 1.0 Page lof5 A Honeywell Company FIRE CONTROL Ell INSTRUMENTS B u Mjhg 2n te11tren t N e tw o zks ADP Series CDAilMUMC+APON LINE UJ USTED CUNTROL PANEL FOR RTS 1 „TER- MfNAL.3IS NOT USEED. CRTS4ST, f aDE..S NOT R9VE A TERMINAL GJ F'CR RTS45 1KEY, TERM! NALS 3AND Aria N01 USE 0. ADP ATS4SIARTS451 KEY Wiring diagram for ADP Duct Smoke Sensor with RTS451 /RTS451 KEY Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. ®2003 All Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA • Tel: 781- 471 -3000 • Fax: 781- 471 -3099 - www.firecontrolinstruments.com A Honeywell Company 9020 -0567Ner. 1.0 / Page 2 of 5 1 ST DETECTOR 2ND DETEST S IN LOOP IN LOOP Wiring diagram for ADP Duct Smoke Sensor using a UL Listed control panel ADP RA40OZ Wiring diagram for ADP Duct Smoke Sensor with optional RA40OZ (Must break tab on back of RA40OZ when used with ADP.) UZI FIRE CONTROL INSTRUMENTS BuihbgMte1hi3entNebvozks ADP series 1- GOMMUMCAMN LINE L 4 E, LIL LISTED CONTROL ,PMEL ilililli ISTVIETEUTOR J! .pia MPEAf 2 METTEECTrOPT MLOOP 1111001 Wiring diagram for ADP-R Duct Smoke Sensor using a UL Listed control panel NOTE: Jumper JI shunt must be installed for 2-wire applications. J1 shunt must be removed for power PCB supervision. RA *IXZ W WX UWAX W$ ON �l AAW U q ti Alarm Signa) 7 =Aux. PtYwer J-) Wiring diagram for ADP-R Duct Smoke Sensor with optional PA400 4 4,114 1 4 1 ��4t I. t1RW1NALN I* FOX ir�4E L l RtMx � Dc%s %'�) I -4%4L A 7 RVA NAL Fes. RT- I KE TE-FIW?4&53A.ND6AF1EN0 Wiring diagram for ADP-R Duct Smoke Sensor with RTS451 /RTS451 KEY Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. 02003 All Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA - Tel: 781-471-3000 - Fax: 781-471-3099 • www.firecontrolinstruments.com A Honeywell Company 9020-0567Ner. 1. 0 / Page 3 of 5 li?] FIRE CONTROL INSTRUMENTS ADP Series B uiHs�g 2t telli3en t N etv orka ADP SERIES LOW -FLOW SPECIFICATIONS Operating Temperature Range 32° to 131 °F (0° to 55 °C) Operating Humidity Range 10% to 93% relative humidity (non- condensing) Storage Temperature Range -22° to +158 °F 00° to +70° C) Duct Air velocity 100 - 4000 ft. /min. (0.5 - 20.32 m /s) Shipping Weight 220/240 VAC, 50 -60Hz ADP: 3.35lbs. (1.5 kg) ADP -R: 3.90lbs. (1.8 kg) Length 14 -3/4" (37 cm) Width 5 -1/2" (14 cm) Depth 2 -3/4" (7 cm) ADP SPECIFICATIONS Voltage Range Standby Current flash enabled) Accessory Current Loads Device Standby RA40OZ 0 mA RTS451 /RTS451KEY 0 mA Alarm 10 mA Max. 7.5 mA Max. ADP -R SPECIFICATIONS Standby Alarm PA400 Current Requirements (using no accessories) 15 mA Max. RA40OZ Power supply voltage: 20 -30 VDC 24 VAC, 50 -60HZ 120VAC, 50 -60Hz 220/240 VAC, 50 -60Hz Max. standby current: 26 mA 65 mA RMS 44 mA RMS 25 mA RMS Max. alarm current: 87 mA 182 mA RMS 52 mA RMS 30 mA RMS Alarm response tim:e 3 to 10 sec. 3 to 10 sec. 3 to 10 sec. 3 to 10 sec. Power up time: 2 sec. 2 sec. 2 sec. 2 sec. Contact Ratings Alarm auxiliary contacts* (DPDT) 10 A@ 30 VDC 10 A @ 277 VAC (0.75 power factor) 240 VA @ 249 VAC (0.4 power factor) 1/8 HP @ 120 VAC 1/4 HP @ 240 VAC Supervisory contact (SPST) 2.0 A @ 30 VDC (resistive) *Minimum switching current for auxiliary contact must be 100 mA DC minimum @ 5 VDC. Accessory Current Loads at 24 VDC Device Standby Alarm PA400 0 mA 15 mA Max. RA40OZ 0 mA 12 mA Max. RTS451 /RTS451 KEY 0 mA 10 mA Max. Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments fortheir use. specifications subject to change without notice. 02003 All Rights Reserved 15 to 32 VDC 300pA @ 24 VDC (one communication every 5 seconds with LED FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA • Tel: 781 -471 -3000 - Fax: 781- 471 -3099 - www.firecontrolinstruments.com A Honeywell Company 9020 -0567Ner. 1.0 / Page 4of5 / li?] FIRE CONTROL INSTRUMENTS AUP Series B u iklsig In te11 men t N e tw o:ica ORDERING INFORMATION Part No. Description ADP Analog addressable low -flow photoelectronic non -relay duct smoke sensor ADP -R Analog addresable low -flow photoelectronic with relay duct smoke sensor ST -1.5 Metal sampling tube duct widths 1' -2' ST -3 Metal sampling tube duct widths 2' -4' ST -5 Metal sampling tube duct widths 4' -8' ST -10 Metal sampling tube duct widths 8' -12' A5053 Replacement photoelectric sensor board A5060 Replacement power board for ADP -R (w /relay) A5067 Replacement power board for ADP (w /o relay) Accessories Description RTS451 Remote test station RTS451 KEY Remote test station w /key RA40OZ Remote LED PA400 Mini - Alerts' Sounder- Note: Device cannot be wired directly to ADP (non - relay). F36 -09 -11 Replacement filters MO2 -04 -00 Test magnet P48 -21 -00 End cap for metal sampling tube P48 -61 -00 End cap for plastic sampling tube S08 -39 -01 Replacement photo insect screen T80 -71 -00 Replacement plastic sampling tube PA -40OZ =93 i= Ii z' t RA -40OZ a fF RTS-451 Specifications are provided for information only, and are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments for their use. Specifications subject to change without notice. ® 2003 AN Rights Reserved RTSA51 KEY FIRE CONTROL INSTRUMENTS 16 Southwest Park, Westwood, MA 02090 USA • Tel: 781- 471 -3000 • Fax: 781- 471 -3099 • www.fiirecontrolinstruments.com A Honeywell Company 9020 -0567Ner. 1.0 / Page5 of 5 FIRE CONTROL LEI INSTRUMENTS Building Intelligent Networks INS SERIES www.firecontrolinstruments.com Model MS -2, MS -2H The MS -2 manual fire alarm stations are dual action devices.These stations require that the outer door be lifted to expose the ac- tuation door which is then pulled forward to operate the alarm toggle switch The ac- tuation door is now locked in the readily obsery able "alarm" position. To reset the station,a key (common to FCI control panels) must be inserted and turned %, turn clockwise, opening the sta- tion. Closing the station resets the switch automatically. An optional breakglass rod is available for positive indication of station operation. Model MS -2P (Presignal) Operation of the Model MS -2P presignal station is similar to that of the MS -2, with the addition of a key- operated switch mounted on the lower door. This switch m ay be used for" general alarm" signaling. Model MS -2L (Institutional) Operation of the Model MS -2L institu- tional station requires that a special key be used to release the actuation door before it can be operated. Model MS -2 -D (Multiple Contact) The MS -2 -D features a DPST switch for multiple signaling via wire lead connections. Model MS -6 (Single Action) The MS -6 station is a single action device, requiring only the pulling of the action door to release the compressed button switch. It is available either with terminals (MS -6T) or wire leads (MS -6). The station resets in the same manner as the MS -2.The reset key is common to FCI control panels. NON - CODED, MANUAL FEATURES FIREALARM STATIONS • Single and Dual Action Versions • Tumbler Lock for Test and Reset Keyed Alike with FCI Control Panels • Rugged Metal Construction • Positive Indication of Operation over 180° Viewing Angle • Surface or Semi -flush Mounting • Shock and Vibration Resistant • Institutional Version (MS -2L) • Presignal Version (MS -2P) • Optional "FIRE SUPPRESSION SYSTEM RELEASE" Markings (MS -2H) • Optional DPST Switch (MS -2 -D) U L FM APPROVED M S�rq� An ISO 9001 Comoan Specifications are provided for information only, are not intended to be used for Installation purposes and are belie,ed to be accurate However no responsibility is med by Fire Control Instruments (or their use. Speo. (cation: subject to change without notice. J 2003AI1 Rights Reserved 9020- 03SWER 1.6 Page fof2 FIRE CONTROL LEI INSTRUMENTS INS SERIES Building Intelligent Networks www.firecontrolinstruments.com Model BB -2 Surface Bacabox UL (Std 38) File S2465 FM (MS -2) OJ3A9.AY/ 12880 (MS -6, MS -6T) I D4A7.AY C.S.F.M. 7150- 0694:107 NYC BS&A (MS -2, MS -6) 960 -81 -SA NYC MEA(MS -2, MS -6) 103 -93 -E ORDERING INFORMATION Part No. SPECIFICATIONS Material (MS -2, MS -6) Extruded 6063/T5 aluminium Doors (MS -2, MS -6) Clear anodize Switch Type MS -21-1 MS -2 Enclosed toggle MS -6 Enclosed push button Contact Material Silver plated bronze or copper Contact Ratings 1 100 -0621 MS -2 6 amp. max.@ 30VDC (resistive) MS -6 0.5 amp. max.@ 30VDC (resistive) Dimensions (overall) 1 100 -0632 MS -2, MS -6 5" H x 3.4 "W x 2.8" D (12.7 cm x 8.64 cm x 7.1 1 cm) ORDERING INFORMATION Part No. Model Description 1 100 -0615 MS -2 Dual action fire alarm station 1 100 -0634 MS -21-1 Dual action station with "FIRE SUPPRESSION SYSTEM RELEASE" markings 1 100 -0619 MS -2P Presignal fire alarm station 1 100 -0621 MS -21- Institutional fire alarm station 1 100 -0617 MS -2 -D Dual action station with DPST switch 1 100 -0632 MS -6 Single action station, wire leads 1 100 -0633 MS -6T Single action station, terminals 2520 -0023 1313-2 Surface back box for MS -2, MS -6 stations 1120-0206 Package of two replacement breakglass rods for MS -2 station Specifications are provided for information only, are not intended to be used for installation purposes and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments,for their use. Specifications subject to change without notice. @2003AII Rights Reserved FIRE CONTROL INSTRUMENTS 16 Southwest Park,Westwood,MA 02090 USA - Tel:781 -471 -3000 - Fax:781 -471 -3099 - www.firecontrolinstruments.com 9020- 0358NER. 1.5 / Page 2 of 2 AGENCYAPPROVALS FIRE CONTROL INSTRUMENTS DESCRIPTION The Addressable Monitor Module AMM -2 features a single Style B, Class B initiating circuit with end of line resistor. This module provides an address for any device or group of devices connected to this circuit. Any alarm initiating devices with nor- mally open (N.O.) dry contacts, such as heat detectors, linear heat detection devices, projected beam smoke detectors, 4 -wire smoke detectors, water flow switches, tamper switches, manual stations, etc. may be installed in this circuit. The AMM -2 module is designed for installation in the signal- ing line circuit of any FCI analog addressable control panel. The signaling line circuits of FCI analog addressable panels are designed to accommodate up to 99 monitor modules per circuit. The initiating circuit of the AMM -2 has a maximum line resis- tance of 40 ohms, allowing the module to accommodate initiat- ing devices at a distance from the module. The compact size facilitates the installation of the module in- side manual stations, or mounting boxes of various types of alarm initiating devices. AGENCY APPROVALS UL S1949 FM 3006398 NYC MEA 427 -91 -E Vol. III CSFM Approved (K AMM -2 ADDRESSABLE MONITOR MODUL FM FEATURES • Compact Size Allows Easy Installation • Class B, Style B Initiating Circuit • 40 Ohm Line Resistance for Initiating Circuit • Accommodates any N/O Dry Contact Device TECHNICAL INFORMATION Supervisory current .0004 amp. Alarm current .0006 amp. Operating temperature 32 to 120° F (0 to 49° C) Relative humidity 10 to 93% (non- condensing) Dimensions 1.3" H x 2.75' W x 0.5" D (3.3 x 5.5 x 1.25 cm) ORDERING INFORMATION Part Number Model Description 190 -00002 AMM -2 Addressable Monitor Module, Single circuit, Style B, Class B Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. °2000 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 www.firecontrolinstruments.com An ISO 9001 certified Company 9020- 0502Ner.1.2 FIRE CONTROL INSTRUMENTS DESCRIPTION The Addressable Monitor Module AMM -4 features a single Style D, Class A circuit. It may also be configured as a Style B, Class B initiating circuit with end of line resistor. This module provides an address for any device or group of devices con- nected to this circuit. Any alarm initiating devices with nor- mally open (N.O.) dry contacts, such as heat detectors, linear heat detection devices, projected beam smoke detectors, 4 -wire smoke detectors, water flow switches, tamper switches, manual stations, etc. may be installed in this circuit. The AMM -4 module is designed for installation in the signal- ing line circuit of any FCI analog addressable control panel. The signaling line circuits of FCI analog addressable panels are designed to accommodate up to 99 monitor modules per circuit. The initiating circuit of the AMM -4 has a maximum line resis- tance of 40 ohms, allowing the module to accommodate a num- ber of initiating devices at a distance from the module. The AMM -4 is designed to mount in a 4" square junction box 2 1/8" deep. AGENCY APPROVALS UL S1949 FM 3006398 NYC MEA 427-9 1 -E Vol. III CSFM Approved AMM -4 (K) ADDRESSABLE MONITOR MODULE F M FEATURES • Compact Size Allows Easy Installation • Class A, Style D, or Class B, Style B Initiating Circuit • 40 Ohm Line Resistance for Initiating Circuit • Accommodates any N/O Dry Contact Device TECHNICAL INFORMATION Supervisory current .0004 amp. Alarm current .00575 amp. Operating temperature 32 to 120e17 (0 to 49° C) Relative humidity 10 to 93% (non- condensing) Dimensions 41/2" H x 4" W x 1 1/4" D (3.3 x 5.5 x 1.25 cm) ORDERING INFORMATION Part Number Model Description 190 -00003 AMM -4 Addressable Monitor Module, Single circuit, Style D, Class A Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. °2000 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: 781) 487-0088 FAX: (781) 370 -4132 www.firecontrotinstruments.com An ISO 9001 certified Company 9020- 0503Ner.1.2 FIRE CONTROL INSTRUMENTS AOM -2R UL ADDRESSABLE OUTPUT RELAY CONTROL MODULE DESCRIPTION The Addressable Output Relay Control Module (AOM -2R) allows an FCI analog addressable fire alarm con- trol to switch discrete relay contacts by code command. The relay provides two (2) isolated sets ofForm -C contacts which transfer simultaneously. Circuit connections to the relay con- tacts are not supervised by the module. The AOM -2R module is designed for installation in the sig- naling line circuit of any FCI analog addressable control panel. The signaling line circuits of FCI analog addressable control panels are designed to accommodate up to 98 control modules per circuit. The module contains a panel controlled LED. The AOM -2R is designed to mount in a 4" square junction box 2 1/8" deep. FEATURES AGENCY APPROVALS UL S1949 Factory Mutual 3006398 CSFM Pending • Two (2) Sets of Form "C" Contacts • Compact Size Allows Easy Installation Current Rating Maximum Voltage Load Description Application 3A 30 VDC Resistive Non Coded 2A 30 VDC Resistive Coded 0.9A 110 VDC Resistive Non Coded 0.5A 125 VAC Resistive Non Coded 0.5A 30 VDC Inductive L/R =5ms Coded lA 30 VDC Inductive L/R =2ms Coded 0.5A 125 VAC Inductive (PF=.35) Non Coded 0.7A 75 VAC Inductive (PF=.35) Non Coded TECHNICAL INFORMATION Supervisory current .00030 amp. Alarm current .00030 amp. Operating temperature 32 to 120 F (0 to 49 C) Relative humidity 10 to 93% relative humidity (non- condensing) Dimensions 4 1/2" H x 4" W x 1 1/4" D( 3.3 x 5.5 x 1.25 cm) ORDERING INFORMATION Part Number Model Description 190 -90022 AOM -2R Addressable output relay control module Specifications are provided for information only, are not intended to be used for installation purposes, and are believed to be accurate. However, no responsibility is assumed by Fire Control In- struments Inc. for their use. Specifications sublecl to cban ¢e without notice. © 2001 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 An ISO 9001 Certified Company 9020 - 0520 /Ver. 1.1 ILE FIRE CONTROL INSTRUMENTS DESCRIPTION The Model ARB Auxiliary Relay Board provides a Form "C" control output for the purpose of operating auxiliary circuits used in conjunction with fire alarm applications. (i.e. fan and smoke controls, door holders, annunciators, etc.) The ARB module has a polarized input for use as an extension relay on supervised notification appliance circuits and contains an LED which lights to indicate relay activation. Also available is a model CA -ARB cabinet which can mount up to six (6) ARB modules. It features a hinged, locked door keyed alike with FCI control panels. The ARB relay board is also available as model ARB -C, pre- mounted on a 4" square cover, for universal mounting in commercially available electrical boxes. APPROVALS U.L. S1869 C.S.F.M. 7300 - 0694:158 NYC BS &A 960 -81 -SA AUXILIARY RELAY BOARD, ACCESSORIES (ARB -C, CA -ARB) FEATURES ORDERING INFORMATION Part No. Model Description 1100 -0194 ARB Relay board 1100 -0196 ARB -C Relay board mounted on 4" (10.16 cm) square cover 1100 -0197 CA -ARB Cabinet only R • Form "C" Control Output • LED Indication upon activation of Relay • Capable of Switching Loads up to 20 amps (N /O) and 10 amps (N /C) • Small, Compact Size • Optional Mounting on 4" Electrical Cover SPECIFICATIONS Input voltage 24 VDC (nominal) Input current .036 ampere Contact ratings N/O - 20 amperes (resistive) @ 28 VDC or 240 VAC N/C - 10 amperes (resistive) @ 28 VDC or 240 VAC Operating temperature 32 F to 120 F (0 C to 49 C) Relative humidity 85 % PC board dimensions 3" x 3" (7.62 x 7.62 cm) CA -ARB Cabinet dimensions 13.2" W x 9.2" H x 3.5" D (33.53 x 23.37 x 8.89 cm) Specifications are provided for information only and are believed to be accurate. However, no responsibility is assumed by Fire Control Instruments, Inc. for their use. Specifications subject to change without notice. © 1997 All Rights Reserved 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 9020 - 0225 /Ver. 1.3 Fire Control Instruments, Inc. 9.2' 301 2nd Ave Waltham, MA 02451 -1133 USA TEL: (781) 487 -0088 FAX: (781) 370 -4132 2 of 2 9020 -0225 1 -6 ARB UNITS MAY BE SNAPPED CABINET. MODEL CA -ARB inrrn nenl inirrnln_ ronnvc Gamewell - 0 WORLDWIDE Description The FireForce 8 (FF8) from Gamewell is a notification appliance circuit extender panel designed to extend the power capabilities'of existing notification appliance circuits and to provide power (1.5A) for other ancillary devices. It also includes an internal battery charger. The FF8 may be connected to any UL Listed Fire Alarm Control Panel to provide Notification Appliance Circuit expansion. Designed with advanced switchmode power supply technology, the FireForce 8 provides filtered and electronically regulated power distributed to four Notification Appliance Circuits (NAC). Each NAC is rated at 3 Amp maximum with a total output capacity of 8 Amp. The outputs may be configured as Four Class "B" (Style W, X,Y) or Two Class "A" (Style 2") or Two Class "B" and One Class "A" or Four Class A (Style 2 ") with the optional Class A adaptor installed. Gamewell's FF8 provides independent output circuit supervision. In the event of a NAC fault, the FF8 can be configured to notify the FACP. The FF8 has field selectable built -in strobe and horn sync protocols, to support Gamewell, Faraday, Gentex, System Sensor, Amseco and Wheelock devices, or pass thru a pre - generated sync protocol from a single synchronization source eliminating the need for additional individual sync modules. Independent horn silencing via sync protocol allows synchronized horns and strobes to operate on a single circuit. Field Selectable NAC Sianalina Input Output Follow's input Steady Temporal Steady Steady - Sync Steady Steady with noise eliminated In retrofit applications that have EOL values different from the 3.9K ohm EOL resistor normally used with the FF8, a single resistor matching the existing EOL can be used as a reference EOL for all outputs. The reference resistor can be within a range of 2K ohm to 25K ohm; resistors outside this range will cause a trouble indication. FireForce 8 Expander Power Supply Notification Appliance Circuit Approvals UL Listed, CSFM and MEA Approved (CSFM and MEA Approvals Pending for FF8 -MP, FF8 -CM) Features • Provides two fully - supervised input/control circuits • Redundant activation option for survivability • Multiple Sync Protocols compatible with the following appliances: Field selectable - Gamewell, Wheelock, Faraday, System Sensor, Amseco and Gentex • Four (4) configurable supervised NAC outputs • 8 Amp 24 VDC, fully regulated full load output (Power limited) • Output fault notification to FACP • 1.5A auxiliary power output • Eight (8) trouble and status LEDs • Common trouble Form -C relay • Isolated AC fail Form -C relay immediate or delayed 6hrs. • Ground fault detection • 26 Amp battery charger capability • Selectable temporal coding • Facilitates multiple Notification Appliance Circuit For enhanced notification appliance circuit survivability, the FF8 can utilize its dual activation inputs for redundant trip synchronization for large areas operation. • Optional multipack for up to four (4) FF8 in a single To maximize retrofit possibilities including non - Gamewell systems, the FireForce8 label only is placed on shipping cartons and cabinet front. lockable enclosure • Optional Class A adaptor CS -2282 Rev. 0103 -7 Page 1 Engineer's Specification The Fire Alarm System shall be designed with remotely located Notification Appliance Circuit expander /power supplies for the support of notification appliances. The remote power supplies shall be fully supervised and shall provide 8 Amps of notification applicance power and 1.5 Amps of auxiliary power output. The notification appliance circuit extender panel shall be able to select strobe synchronization protocol via an internal dip switch. There shall be five (5) selectable protocols available. The extender panel shall synchronize all outputs simultaneously. The notification appliance circuit extender panel shall be able to use existing notification? appliance circuit's end of line resistors in the range of 2K - 25K ohms for retrofit applications. The NAC Expander /Power Supply shall be a Gamewell FireForce 8. Options 31081 - SCE -95 Mounting plate This plate provies a means to install two (2) SCE -95 modules. The addition of SCE -95s provides a means to run on FF8 outputs via a panel command on an SLC. The 31081 mounts over the main PCB and is hinged for access to FF8 terminal. FF8 -MP - Multipack FF8 Option provides a means to locate up to four (4) FF8s or 31085 XP95 device mounting plates in a single lockable enclosure. 31076 - Class A adaptor converts the four (4) Class B outputs to four (4) Class A outputs. Specifications Primary Input Power: 120 VAC, 60 Hz,'3.0 A or 220V 1.5 Amp Jumper selectable Secondary Power: 24 -volt: (2) 7 -24 AH batteries Battery Charging Capacity: Up to 26 AH batteries Total Output Power: 8.0 Amp maximum Standby current: .040Amp Auxiliary Power Output: 0.15 Amp under all conditions 1.5 Amp, if load is removed during operation (external relay or AC fail relay use required) NAC Output Ratings: 24 VDC Fully Regulated 3 Amp max. /ckt. (8 A total) EOLR Range 2k -25 1/2 W Cabinet Dimensions -FF8: 18 "H x 12 1 /2' W x 4 "D Cabinet Dimensions - FF8 -MP: 37.2 "H x 24 "W x 6 "D Battery Space: Up to two 12 AH batteries max internal (larger batteries would require a separate battery cabinet) Relative Humidity: 10 -93% non - condensing Temperature Rating: 0 °C - 49 °C (327 - 120 °F) Common Trouble Relay: 2A/28VDC or 120 VAC AC Fail Relay: 2A/28 VDC or 120 VAC Input Control Circuit: 16 -30 VDC @ 5mA min. Ordering Information Part Number Description FF8 24 VDC, 8 Amp Fire Alarm Notification Appliance Circuit Expander /Power Supply with integral battery charger FF8-MP Multipack Cabinet with one FF8 and space for up to 3 additional FF8 -CM or 31085s FF8 - CM Chassis Assembly - FF8 for mounting in FF8 -MP 31076 Class A adaptor converts signal circuits to Class A wiring 31081 FF8 Mounting Plate - for up to two (2) SCE -95 modules (FF8 and FF8 -MP compatible) 31085 FF8 -MP XP95 device Mounting Plate includes standoffs for 8 devices 30957 Optional 24 VDC Notification Appliance Relay B12V7 Battery, 12 VDC, 7 Amp hour (2 required for 24 volt operation) B12V12 Battery, 12 VDC, 12 Amp hour (2 required for 24 volt operation) Specifications and wiring information are provided for information only and are believed to be accurate. Gamewell assumes no responsibility for their use. Data and design are subject to change without notice. Installation and wiring instructions shipped with the product shall always be used for actual installation. For more information, contact Gamewell. The Gamewell Company Voice (508) 231 -1400 G a!' ewel� a 60 Pleasant St. 888 - FIREBOX • (888) 347 -3269 1 iw WORLDWIDE Ashland, MA 01721 FAX (508) 231 -0900 www.gamewell.com ,t�Gamewell 2003 CS -2282 Rev. 0103 -7 Page 2 Description The Series NS Horn Strobe Appliances will satisfy virtually all requirements for indoor, wall mount applications. The Series NH Horn and the horn portion of the Series NS include a selectable continuous horn tone or temporal pattern (Code 3) with selectable dBA settings of 90 or 95 dBA. Strobe options include 15/75cd or Wheelock's patented Multi - Candela strobe with field selectable candela settings of: 15, 30, 75 or 110cd. These versatile Horn Strobe Appliances may be synchronized when used in conjunction with the Wheelock SM, DSM Sync Modules or the PS- 12/24 -8 Power Supply with Wheelock's patented Sync Protocol. Additionally, the audible may be silenced while maintaining strobe activation. All models of the Series NS are designed for maximum performance, reliability and cost - effectiveness while meeting or exceeding the latest requirements of NFPA 72 /ANSI 117.1 /UFC and UL Standards 1971 and 464 as well as meeting ADA requirements concerning photosensitive epilepsy. Wheelock's patented 2 -Wire Series NS Horn Strobes and Series NH Horns offer more features with low current draw. Your Choice • Models are available in 2 -Wire, 12 or 24 VDC • 24 VDC models are available with Wheelock's patented Multi - Candela Strobe that offers field selectable candela settings of: 15, 30, 75 or 110cd • Also available are 15/75 candela models in either 12 or 24 VDC SERIES NS SINGLE &MULTI - CANDELA HORN STROBE APPLIANCES SERIES NH HORNS Series NH Series NS Multi - Candela Indicator (bottom of Strobe Lens) Features • Approvals include: UL Standard 1971, UL Standard 464, New York City (MEA), California State Fire Marshal (CSFM) and Factory Mutual (FM) Pending: Chicago (BFP) • ADA/NFPA/UFC /ANSI compliant • Complies with OSHA 29, Part 1910.165 • Field Selectable Candela Settings: 15, 30, 75 or 110 cd (Multi - Candela models) or 15/75 cd • Selectable Continuous Horn or Temporal (Code 3) • 2 Selectable dBA settings of 90 and 95 dBA in both tones • Patented Universal Mounting Plate • 12 and 24 VDC models with UL "Regulated Voltage" using filtered DC or unfiltered VRMS input voltage • Wall Mount • Synchronize with Wheelock SM, DSM Sync Module or PS- 12/24 -8 Power Supplywith built -in sync protocol • Fast installation with IN /OUT screw terminals using #12 to #18 AWG wires • Backward compatible with other Wheelock Appliances Copyright 2003 Wheelock Inc. All rights reserved. Helping People Take A c a Description The Series NS Horn Strobe Appliances will satisfy virtually all requirements for indoor, wall mount applications. The Series NH Horn and the horn portion of the Series NS include a selectable continuous horn tone or temporal pattern (Code 3) with selectable dBA settings of 90 or 95 dBA. Strobe options include 15/75cd or Wheelock's patented Multi - Candela strobe with field selectable candela settings of: 15, 30, 75 or 110cd. These versatile Horn Strobe Appliances may be synchronized when used in conjunction with the Wheelock SM, DSM Sync Modules or the PS- 12/24 -8 Power Supply with Wheelock's patented Sync Protocol. Additionally, the audible may be silenced while maintaining strobe activation. All models of the Series NS are designed for maximum performance, reliability and cost - effectiveness while meeting or exceeding the latest requirements of NFPA 72 /ANSI 117.1 /UFC and UL Standards 1971 and 464 as well as meeting ADA requirements concerning photosensitive epilepsy. Wheelock's patented 2 -Wire Series NS Horn Strobes and Series NH Horns offer more features with low current draw. Your Choice • Models are available in 2 -Wire, 12 or 24 VDC • 24 VDC models are available with Wheelock's patented Multi - Candela Strobe that offers field selectable candela settings of: 15, 30, 75 or 110cd • Also available are 15/75 candela models in either 12 or 24 VDC SERIES NS SINGLE &MULTI - CANDELA HORN STROBE APPLIANCES SERIES NH HORNS Series NH Series NS Multi - Candela Indicator (bottom of Strobe Lens) Features • Approvals include: UL Standard 1971, UL Standard 464, New York City (MEA), California State Fire Marshal (CSFM) and Factory Mutual (FM) Pending: Chicago (BFP) • ADA/NFPA/UFC /ANSI compliant • Complies with OSHA 29, Part 1910.165 • Field Selectable Candela Settings: 15, 30, 75 or 110 cd (Multi - Candela models) or 15/75 cd • Selectable Continuous Horn or Temporal (Code 3) • 2 Selectable dBA settings of 90 and 95 dBA in both tones • Patented Universal Mounting Plate • 12 and 24 VDC models with UL "Regulated Voltage" using filtered DC or unfiltered VRMS input voltage • Wall Mount • Synchronize with Wheelock SM, DSM Sync Module or PS- 12/24 -8 Power Supplywith built -in sync protocol • Fast installation with IN /OUT screw terminals using #12 to #18 AWG wires • Backward compatible with other Wheelock Appliances Copyright 2003 Wheelock Inc. All rights reserved. Helping People Take A NOTE: All CAUTIONS and WARNINGS are identified by the symbol A. All warnings are printed in bold capital letters. A WARNING: PLEASE READ THESE SPECIFICATIONS AND ASSOCIATED INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS OR WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. General Notes: • Strobes are designed to flash at 1 flash per second minimum over their `Regulated Voltage Range ". Note that NFPA -72 specifies a flash rate of 1 to 2 flashes per sepond and ADA Guidelines specify a flash rate of 1 to 3 flashes per second. • All candela ratings represent minimum effective Strobe intensity based on UL Standard 1971. • Series NS Strobe products are listed under UL Standard 1971 for indoor use with a temperature range of 32 °F to 120 °F (0 °C to 49 °C) and maximum humidity of 93% (t 2 %). • Series NH horns are listed under UL Standard 464 for audible signal appliances (Indoor use only). "Regulated Voltage Range" is the newest terminology used by UL to identify the voltage range. Prior to this change UL used the terminology "Listed Voltage Range ". Table 1: Ratings Per UL Standard 1971 Voltage Input Regulated 75cd Model Voltage Voltage Strobe .195 .268 Range Candela (CD) .087 VDC VDC /FWR 33.0 VDC NS -24MCW 24 16.0 - 33.0 15/30/75/110 NS- 241575W 24 16.0-33.0 15 (75 on Axis) NS- 121575W 12 8.0-17.5 1 15 (75 on Axis) Table 2: *Average RMS Current Ratings NS -24MCW with High (95 dBA) Setting Voltage 15cd 30cd 75cd 110cd 16.0 VDC .077 .113 .195 .268 24.0 VDC .065 .087 .134. .174 33.0 VDC .069 .082 .117 .134 NS -24MCW with Low (90 dBA) Setting Voltage 15cd 30cd 75cd 110cd 16.0 VDC .070 .106 188 .261 24.0 VDC .052 .072 .126 .158 33.0 VDC .045 .060 .097 .114 Table 3: Series NS 15/75CD *Average RMS Current Ratings Description VOLTAGE 8.0 12.0 16.0 17.5 24.0 33.0 .022 33.0 VDC VDC VDC VDC VDC VDC VDC 24 Volt NS 15175 cd 84 90 Code 3 High 79 82 with High (95 dBA) 95 Horn 120 72 .094 .102 Setting 8114 120 VAC 24 Volt NS 15/75 cd with Low (90 dBA) .116 .093 .078 Setting 12 Volt 15/75 cd (High) .341 .251 - 216 - 12 Volt 15/75 cd (Low) .324 .265 - 188 1 - Table 4: *Average Mean Current Ratings NH Horn 24 Volt Models Voltage High (95) dBA Low (90) dBA - 16.0 VDC .019 .017 24.0 VDC .028 .022 33.0 VDC .039 .027 * Average RMS Current is per UL average RMS method and Average Mean Current is per UL average mean method. For rate In Rush and Peak current across the UL listed voltage range for both filtered DC and unfiltered VRMS (FWR), see installation instructions. Table 5: dBA Ratings for Series NSMC /NH Horn Description Volume Reverberant dBA @ 10ft per UL 464 Anechoic dBA @ 10 It 12VDC 24VDC 12VDC 24VDC Continuous Horn High 83 87 89 95 Low 76 81 84 90 Code 3 High 79 82 89 95 Horn Low 72 76 1 84 90 SYNC MODULES /POWER SUPPLY Input *Average Order Mean Mounting Model Number Code Voltage Current Options (VDC) @ 24 VDC SM- 12/24 -R# 6369 24 .028 W DSM- 12/24 -R## 6374 24 .035 W PS- 12/24 -8### 8114 120 VAC # SM Sync Module is rated for 3.0 amperes @ 24 VDC; ##DSM Sync Module is rated for 3.0 amperes per circuit. The maximum number of interconnected DSM Modules is twenty (20). Refer to Data Sheet S3000 or Installation Instructions P83123 for SM and P83177 for DSM. ###Refer to Data Sheet S9001 or Installation Instructions P83862 for PS- 12/24 -8 Power Supply. A WARNING: CONTACT WHEELOCK FOR THE CURRENT INSTALLATION INSTRUCTIONS (P83983) SERIES NS- 24MCW, (P84030) SERIES NS -12 AND 24 VDC SINGLE CANDELA MODELS, (P83600) SERIES NH AND "GENERAL INFORMATION" SHEET (P82380) ON THESE PRODUCTS. THESE DOCUMENTS UNDERGO PERIODIC CHANGES. IT IS IMPORTANT THAT YOU HAVE CURRENT INFORMATION ON THESE PRODUCTS. THESE MATERIALS CONTAIN IMPORTANT INFORMATION THAT SHOULD BE READ PRIOR TO SPECIFYING OR INSTALLING THESE PRODUCTS, INCLUDING: TOTAL CURRENT REQUIRED BYALLAPPLIANCES CONNECTED TO SYSTEM SECONDARY POWER SOURCES. • FUSE RATINGS ON NOTIFICATION APPLIANCE CIRCUITS TO HANDLE PEAK CURRENTS FROM ALLAPPLIANCES ON THOSE CIRCUITS. • COMPOSITE FLASH RATE FROM MULTIPLE STROBES WITHIN A PERSON'S FIELD OF VIEW. • ADDING, REPLACING OR CHANGING APPLIANCES OR CHANGING CANDELA SETTINGS WILLAFFECT CURRENT DRAW. RECALCULATE CURRENT DRAW TO INSURE THATTHE TOTALAVERAGE CURRENTAND TOTAL PEAK REQUIRED BYALL APPLIANCES DO NOT EXCEED THE RATED CAPACITY OF THE POWER SOURCES OR FUSES. • THE VOLTAGE APPLIED TO THESE PRODUCTS MUST BE WITHIN THEIR "REGULATED VOLTAGE RANGE ". • INSTALLATION OF 110 CANDELA STROBE PRODUCTS IN SLEEPING AREAS. • INSTALLATION IN OFFICE AREAS AND OTHER SPECIFICATION AND INSTALLATION ISSUES. • THESE APPLIANCES ARE NOT DESIGNED TO BE USED ON CODED SYSTEMS IN WHICH THE APPLIED VOLTAGE IS CYCLED ON AND OFF. • FAILURE TO COMPLY WITH THE INSTALLATION INSTRUCTIONS OR GENERAL INFORMATION SHEETS COULD RESULT IN IMPROPER INSTALLATION, APPLICATION, AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. • CONDUCTOR SIZE (AWG), LENGTH AND AAPACITY SHOULD BE TAKEN INTO CONSIDERATION PRIOR TO DESIGN AND INSTALLATION OF THESE PRODUCTS, PARTICULARLY IN RETROFIT INSTALLATIONS. vvrnrrs.i ulaWrams NS /NH APPLIANCE FROM + ± TO NEXT APPLIANCE PRECEDING - — APPLIANCE, SM /DSM, OR EOLR PS- 12/24 -8 OR FACP SIGNAL NS AND NH APPLIANCES SYNCHRONIZED WITH SM MODULE SINGLE CLASS "B" NAC CIRCUIT WITH AUDIBLE SILENCE FEATURE SM F STROBE Strobe STROBE A NAC Circuit NS NH C Audible P EOLR Audible 'Audible NAC Circuit NOTE: NS /NH must be set on Code 3 horn tone to achieve synchronized temporal (Code 3) tone. Refer to installation instruction (P83983, P83600 respectively). # For detail using SM or DSM Sync Module refer to Data Sheet S3000 or Installation Instructions P83123 for SM and P83177 for DSM. For wiring information on the PS- 12/24 -8 Power Supply refer to Installation Instructions P83862. Wheelock products must be used within their published specifications and must be PROPERLY specified, applied, installed, operated, maintained and operationally tested in accordance with their installation instructions at the time of installation and at least twice a year or more often and in accordance with local, state and federal codes, regulations and laws. Specification, application, installation, operation, maintenance and testing must be performed by qualified personnel for proper operation in accordance with all of the latest National Fire Protection Association (NFPA), Underwriters' Laboratories (UL), National Electrical Code (NEC), Occupational Safety and Health Administration (OSHA), local, state, county province, district, federal and other applicable building and fire standards, guidelines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local authority having jurisdiction (AHJ). ARCHITECTS AND ENGI NEERS SPEC11-1cA11UNS The audible /visual notification appliances shall be Wheelock Series NS Horn Strobe appliances and Series NH Horn appli- ances or approved equals. The Series NS appliances shall meet and be listed for UL Standard 1971(Emergency Devices for the Hearing- Impaired for Indoor Fire Protection Service). The Series NH Horn shall be UL Listed under Standard 464 (Fire Protective Signaling). The horn strobe shall be listed for indoor use and shall meet the requirements of FCC Part 15 Class B. All inputs shall be compatible with standard reverse polarity supervision of circuit wiring by the Fire Alarm Control Panel (FACP). The audible portion of the appliance shall have a minimum of two (2) field selectable settings for dBA levels and shall have a choice of continuous or temporal (Code 3) audible outputs. The strobe portion of the appliance shall produce a flash rate of one (1) flash per second over the Regulated Voltage Range and shall incorporate a Xenon flashtube enclosed in a rugged Lexan lens. The Series NS shall be of low current design. Where wall mount, Multi - Candela appliances are specified, the strobe intensity shall have a minimum of four (4) field selectable settings and shall be rated per UL Standard 1971 for: 15, 30, 75 or 110 candela. The selector switch for selecting the candela setting shall be tamper resistant and not accessible from the front of the appliance. The 15/75 candela strobe shall be specified when 15 candela UL Standard 1971 Listing with 75 candela on -axis is required (e.g. ADA compliance). When synchronization is required, the appliance shall be compatible with Wheelock's SM, DSM Sync Modules or Wheelock's PS- 12/24 -8 Power Supply with built -in Patented Sync Protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync module or Power Supply fails to operate, (i.e., contacts remain closed), the strobes shall revert to a non - synchronized flash -rate. The appliance shall also be designed so that the audible signal may be silenced while maintaining strobe activation. The Series NS Horn Strobes shall incorporate a Patented Universal Mounting Plate that shall allow mounting to a single -gang, double -gang, 4 -inch square, 100mm European type backbones, or the SHBB Surface Backbox. If required, an NATP (Notification Appliance Trimplate) shall be provided. All notification appliances shall be backward compatible. �PFr1FICAT1ON & ORDERING INFORMATION Order Model Non- Strobe Candela Sync wl SM, DSM 24 12 2 Mounting Options# Agency Approvals Code Sync or PS- 12124 -8 VDC VDC ; WtRE UL MEA C SF M FM BF P NS- 24MCW -FR 9404 15/30/75/110 X X X X B,D,E,F,GH,J,N,O,R,X X Fx X X NS- 24MCW -FW 9405 15/30/751110 X X X X B,D,E,F,GH,J,N.O,R,X X X X X NS- 241575W -FR 7806 15 (75 on A)d s) X X X X B,D,E,F,GH,J,N,O,R,X X X X X X NS- 121575W -FR ! 7816 15 (75 on Abs) ( X X X X B,D,E,F,GH,J,N,O,R,X X X X X - -.._ X ..._..._._. ....__ ................._._.._. NH- 12124 -R 7449 ..._..........._..._..__.._._.. h - — -.._._... 24V X -- .._._.._....... - - - - -- - -- X ..._..— -- - X -- — < -- X X _..._......__........ ...---- ....._...,.._.....__.... B,D,E,F,GH,J,N.O,R,X - -- X — _._._.._... X X X X #Refer to Data Sheet S7000 for Mounting Options Pending NOTE: Due to continuous development of our products, specifications and offerings are subject to change without notice in accordance with Wheelock Inc. standard terms and conditions. WE ENCOURAGE AND SUPPORT NICET CERTIFICATION National Sales Office 800- 631 -2148 Canada 800- 397 -5777 E -Mail: Info @wheelockinc.com http: /twww.wheelockinc.com 3 YEAR WARRANTY Made in USA Member Distributed By: ' L ki i ADA DESCRIPTION: Wheelock's Weatherproof Strobe, Audible Strobe, Audible Horn and Multitone Strobe appliances have an extended temperature range of -31 °F to 150 °F ( -35 °C to 66 °C) that will satisfy virtually all outdoor and severe environment applications. All strobes are Indoor /Outdoor UL Standard 1638 Listed and rated for 180 candela on axis @ 77 °F (25 °C) and 75 candela at -31 °F (35 °C) with low current draw. The Wheelock Weatherproof Appliances are designed for maximum performance, reliability, and cost effectiveness while meeting or exceeding the latest requirements' of NFPA 72 (National Fire Alarm Code), UL Standard 1638 (Standard for Visual Signaling Appliances), and UL Standard 464 (Standard for Audible Signaling Appliances). Series RSSWP Strobes, Series ASWP Audible Strobes and Series AHWP Audibles may be synchronized when used in conjunction with the Wheelock SM and DSM Sync Modules or the PS- 12/24 -8CP and PS- 12/24 -8MP Power Supplies with Patented Sync Protocol. The Series MTWP is a true 4 -wire appliance. The strobe portion can be synchronized as stated above. The multitone portion cannot, but it can be connected to a coded fire alarm system. Weatherproof Strobe Series RSSWP Is UL Standard 1638 approved for Indoor /Outdoor use. The appliances use a Xenon flashtube with solid state circuitry enclosed in a rugged Lexan(D lens to provide maximum visibility and reliability for effective visual signaling. The Series RSSWP mounts to a Series WPSBB Weatherproof Backbox. Weatherproof Audible Strobe and Audible Series ASWP and AHWP Is UL Standard 1638 and UL Standard 464 approved for Indoor /Outdoor use and offer a field selectable choice of continuous horn or temporal pattern (Code 3) when constant voltage from the Fire Alarm Control Panel (FACP) is applied. Additionally, the audible has three (3) selectable dBA settings of 99, 95, and 90 dBA in both tones and, when synchronized, may be silenced while maintaining strobe activation. The Series ASWP mounts to a WPBB Weatherproof Backbox while the Series AH mounts to a WBB Weatherproof Backbox. Weatherproof Multitone Strobe and Multitone Horn Series MTWP and MT -12124 Is UL Standard 1638 and UL Standard 464 approved for Indoor /Outdoor use and offers a field selectable choice of 8 nationally and internationally recognized alerting signals. Additionally, the audible has 2 installer selectable sound output levels: Standard and high covering a range (depending on selected signal) of 76 -94 dBA reverberant. The Series MTWP is a true 4 wire appliance. The Strobe portion can be synchronized or non - synchronized. The multitone (audible) portion cannot be synchronized, but it can be connected to a coded fire alarm system. The Series MTWP and the MT -12/24 mount to a series IOB Backbox. Copyright 2004 Wheelock, Inc. All rights reserved. SERIES RSSWP, ASWP, AHWP, MTWP and MT -12/24 WEATHERPROOF STROBE WEATHERPROOF AUDIBLE STROBE AND WEATHERPROOF AUDIBLES SERIES MTWP Mounted to IOB -R F�xt? SERIES RSSWP Mounted to WPSBB -R SERIES AHWP Mounted to WBB -R SERIES ASWP Mounted to WPBB -R Features • Approvals include: UL Standard 1971, California State Fire Marshal (CSFM) and New York City (MEA), Factory Mutual (FM) and Chicago (BFP) See approvals by model in Table 8 Designed to meet or exceed NFPA, /UFC /ANSI 117.1/ OSHA Part 29, 1910.165, and ADA requirements • UL Standard 1638 and UL Standard 464 listed with extended temperature range of -31° to 150 °F ( -35 °C to 66 °C) • 24 VDC with new UL "Regulated" Voltage Range: of 16 -33 VDC using filtered DC or unfiltered FWR voltage Note: The Series MT -12/24 voltage range is 10.5 - 15.6 VDC (for 12V) and 20 -31 VDC (for 24V) • Sync /Non -Sync in each product. Note: The audible portion of the Series MTWP and MT -12/24 is non sync only • Synchronize with Series SM, DSM Sync Modules or PS- 12/24 -8CP and PS- 12/24 -8MP Power Supplies with built -in patented sync protocol • Selectable dBA settings • Selectable alert signals • IN and OUT wiring termination that accepts two #12 -18 AWG wires at each terminal • Inputs are polarized for compatibility with industry standard reverse polarity supervision Helping Peo T a k e t T NOTE: All CAUTIONS and WARNINGS are identified by the symbol A All WARNINGS are printed in bold capital letters. AWARNING: PLEASE READ THESE SPECIFICATIONS AND ASSOCIATED INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS, OR WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION, AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. General Notes: • Wheelock UL Standard 1638 Strobes are designed to produce 30 -62 flashes per minute over the Regulated Voltage Range. If used in an indoor application, UL Standard 1638 strobes must be operated at a minimum of 20 VDC to meet the NFPA -72 flash rate of 1 to 2 flashes per second and ADA Guideline flash rate of 1 to 3 flashes per second. Wheelock Weatherproof Appliances are designed to operate over an extended temperature range of -317 to 150'F ( -35 *C to 66'C) and all candela ratings represent minimum effective strobe intensity based on UL Standard 1638. Maximum humidity of 93% RH t2 %. • "Regulated Voltage Range" is the newest terminology used by UL to identify the voltage range.. Prior to this change, UL used the terminology "Listed Voltage Range ". AWARNING: CONTACT WHEELOCK FOR THE CURRENT "INSTALLATION INSTRUCTIONS "AND "GENERAL INFORMATION" SHEET (P82380) ON THESE PRODUCTS. THE INSTALLATION INSTRUCTIONS AREAS FOLLOWS: P84135 FOR SERIES RSSWP, P83957 FOR SERIESASWP, P83641 FOR SERIESAH -WP, P84150 FOR SERIES MTWPAND P824671 FOR SERIES MT- 12/24 -R. THESE DOCUMENTS UNDERGO PERIODIC CHANGES. IT IS IMPORTANTTHATYOU HAVE CURRENT INFORMATION ON THESE PRODUCTS. THESE MATERIALS CONTAIN IMPORTANT INFORMATION THAT SHOULD BE READ PRIOR TO SPECIFYING OR INSTALLING THESE PRODUCTS, INCLUDING: • Total current required by all appliances connected to system secondary power sources. Fuse ratings on notification appliance circuits to handle peak currents from all appliances on those circuits. • Adding, replacing or changing appliances will effect current draw. Recalculate current draw to insure that the total average current and total peak required by all appliances does not exceed the rated capacity of the power source or fuses. • Composite flash rate from multiple strobes within a person's field of view. • The voltage applied to these products must be within their "REGULATED VOLTAGE RANGE ". • Use strobe only on circuits with continuously applied operating voltage. Do not use strobes on coded or interrupted circuits in which the applied voltage is cycled on and off as the strobe may not flash. • Conductor size (AWG), length and ampacity should be taken into consideration prior to design and installation of these products, particu larly in retrofit installations. Table 1: Average Current* for Series RSSWP and Strobe in MTWP Avg. Current* Strobe 75 cd @ Regulated ................ -31 - F ( -35 °C) Voltage Range 24.0 UL VDC Max* RSSWP- 2475W -FR 16.0 - 33.0 VDC 0.094 0.138 Table 2: Average Current* (AMPS) For Series ASWP" High dBA Medium dBA Low dBA Voltage Setting Setting Setting (99) dBA (95) dBA (90) dBA ................ ...... ........... ......... .......... ................... - .............. ........._ .......................................... .._.._ .......... ............... 24.0 VDC 0.128 0.105 0.098 UL Max* 1 0.168 1 0.155 0.150 "Audible and Visual combined. Table 3: Average Current* (AMPS) for Series AHWP Voltage AH -24WP Voltage AH -12WP AH -24WP Hi /Med /Low AH -12WP Hi/Med /Low 24.0 VDC 0.062/0.033/0.017 12.0 VDC 0.163/0.076/0.039 UL Max* 0.080/0.043/0.02i ' UL Max* 0.192/0.108/0.058 Table 5: Average Current* (AMPS) for 24 V Series MTWP I I Audible Strobe Table 6: dBA Ratings for.Series MTWP and MT -12/24 dBA Ratings for Series ASWP & AHWP _ ................_..,..................._......_....,......................_.__.........__.........__._._._.._........._...._.................... 24.0 UL Standard 24.0 VDC MTWP I UL Max* X10 ft. Tone ....._ ......... ........_..... _.._....._. g . High I VDC Max* Standard High Standard High 0.108 _.._...... 10.5 Horn 0.033 0.074 i 0.044 .......... ...... .......... .......... _.............. Bell _.........._................ 0.018 .................... ........... 0.040 L ....................._........_.._..... i 0.024 ........................_...._. 0.053 March Time 0.033 _...._............................_._............. 0.067 a.......... i 0.038 0.104 ..........._ .. ............_.._..........._... Code 3 Horn 0.026 0.069 ........_........_............. 1 0.035 0.091 0.094 0.138 0.075 0.098 0.104 0.057 Code 3 Tone 0.026 0.061 0.035 Slow Whoop 0.028 0.069 0.037 Siren 0.027 0.080 j 0.036 Hi /Lo 0.020 0.044 0.026 Table 6: dBA Ratings for.Series MTWP and MT -12/24 dBA Ratings for Series ASWP & AHWP _ ................_..,..................._......_....,......................_.__.........__.........__._._._.._........._...._.................... Tone Standard Description MTWP Per UL 46410 ft. X10 ft. MT -12/24 ....._ ......... ........_..... _.._....._. g . High I _......_..._.., 16.0 24.0 V 33.0 20.0 ......__ ... _ :_... 24.0: _.._...... 10.5 12.0 95 Setting I VDC DC VDC VDC VDC VDC VDC Horn Standard 84 87 90 82 85 82 85 _. High Setting 89 92 .. 94 _. _..__... 88 .. ........... 91 88 ' . .................... 91 Bell Standard 76 ! 80 83 75 79 i 75 79 High Setting I 83 86 88 82 j 85 I 82 85 ......... _ .... _ ... _..._...._ ..................... March Time _ ... _ .................... _ i ........._........... :Standard i ............ 80 ........... 84 ................._...._...._...._. 87 __;...... 79 ------ ......i.......... 82 79 _....._..._. 82 High Setting j 86 89 91 85 I 88 ' 85 88 Code 3 Horn Standard 79 83 ... 86 _ ... 75 79 75 79 High Setting 85 88 90 85 ! 85 85 85 Code 3 Tone Standard 76 80 82 75 75 75 75 High Setting 81 85 86 79 82 79 82 Slow Whoop Standard 81 85 87 82 82 82 82 High Setting 87 90 92 88 88 88 88 __........ Siren ........ ..................._...:._...__..__.._;.....__ Standard I 81 ......_..__........_........... 84 87 _....._... .._'..._..._._.. 82 82 __....__I_....._..._...... 82 82 High Setting 86 89 92 85 88 85 88 Hi /Lo Standard i 77 81 84 79 1 79 79 79 .._ ......... ._ .................. .............................. i ...................................._................................_................ .. ..... ...... .... ............... _ ..... ......_.. High Setting 83 86 89 82 85 82 85 Table 4: dBA Ratings for Series ASWP & AHWP _ ................_..,..................._......_....,......................_.__.........__.........__._._._.._........._...._.................... Reverberant dBA ____...._._ ..... _.._.. Anechoic dBA Description ! Volume Per UL 46410 ft. X10 ft. 24 VDC 24 VDC High 91 99 Continuous Horn Med 88 95 Low i 82 90 High 85 99 Code Horn :. .............. ....... ......... Med ........... .............._.........._.__..__.._ ..... _ .......... .................... 82 ........... .............. .............. ........ _............ 95 Low !: 75 90 * RMS current ratings are per UL average RMS method. UL max current rating is the maximum RMS current within the listed voltage range (16- 33v for 24v units). For strobes the UL max current is usually at the minimum listed voltage (16v for 24v units). For audibles the max current is usually at the maximum listed voltage (33v for 24v units). For unfiltered FWR ratings, see installation instructions. Wiring Diagrams SERIES MTWP AUDIBLE APPLIANCEAND STROBE OPERATE INDEPENDENTLY WITH MULTIPLE DSM MODULES CLASS "B" NAC CIRCUITS FROM TO NEXT PRECEDING + + AUDIBLE OR AUDIBLE OR _ F EOLR FACP < FROM + i A CSFMI FM + TO NEXT PRECEDING _ 9013 180cd _ STROBE OR STROBE OR 24 VDC Cir, Strobe NAC CI . WPSBB -R (9751) EOLR FACP C RSSWP - 2475W -FW m < 75cd STROBE AUDIBLE SERIES MTWP AUDIBLE APPLIANCE AND STROBE OPERATE IN UNISON. REDAND BLACK SHUNT-WIRES ARE SUPPLIED. FROM + + TO NEXT PRECEDING APPLIANCE APPLIANCE RED O BLACK R FACP OR EOLR + - 0 + STROBE AUDIBLE SERIES RSSWP, ASWP, AHWP, MTWP AND MT -12124 APPLIANCES FROM + + TO NEXT PRECEDING - _ APPLIANCE APPLIANCE OR OR EOLR FACP SERIES IVITWP APPLIANCES SYNCHRONIZED STROBE OPERATION WITH CODED FACP MTWP Strobe Sync Circuit NAC #1 Module or PS- 12!248 Audible Power Circuit FACP Supply NAC #2 Note: Strobe circuit requires constant voltage. SERIES RSSWP /ASWP APPLIANCES SYNCHRONIZED WI '. DSM MODULE SINGLE CLASS "A" NAC CIRCUIT DSM STROBE NAC SYNC + CIRCUIT OUT +ouT1 0 +IN 1 espw A— RSS FACP +AUDIBLE MINUS 2 + IN 2 RSS IR S STROBE NAC CIRCUIT RETURN ............ .. Model Number SERIES RSSWPIASWP APPLIANCES SYNCHRONIZED WITH MULTIPLE DSM MODULES CLASS "B" NAC CIRCUITS DSM #1 dBA Strobe NAC Cir. --- ..... _ ... Outdoor Mounting Options# < RSSWP RSS < F Strobe TE < MEA CSFMI FM DSM #2 A 9013 180cd 75cd 24 VDC Cir, Strobe NAC CI . WPSBB -R (9751) Sync � + swP < RSSWP < C RSSWP - 2475W -FW m < 75cd DSM #3 P WPSBB -W (3033) X Sync < Strobe NAC Cir. + RSSWP RSSWP < DSM Interconnecting wiring shown. Maximum of twenty (20) ............ .. Model Number _ ... Order Code _ .... ..... Strobe cd @ 77 °F (25 °C) _ . .. . ..... .... . ... Strobe cd @ -31 °F ( -35 °C) dBA 7' _.... ... ........... input � Voltage --- ..... _ ... Outdoor Mounting Options# .. ... _ ............ ..... ... . . ............. Back Box & Order Code Agency Approvals Strobe UL MEA CSFMI FM BFP RSSWP- 2475W -FR 9013 180cd 75cd 24 VDC T WPSBB -R (9751) X X X X RSSWP - 2475W -FW 3034 180cd 75cd 24 VDC T WPSBB -W (3033) X X X X Audible Strobe ASWP - 2475W -FR 9012 180cd 75cd 90/95/99 24 VDC I WPBB -R (9014) X X X X X Multitone Strobe MTWP- 2475W -FR 8420 180cd 75cd 76 -94 j 24 VDC M IOB -R (5046) X X X X Horns /Audibles AH- 24WP -R 7416 N/A N/A 90/95/991 24 VDC K WBB -R (2959) X X X X AH- 12WP -R 7415 N/A N/A 90/95/99 12 VDC K WBB -R (2959) X X X X MT-1 2/24-R 5023 N/A N/A 76 -94 12/24 VDC M IOB -R (5046) X X X X X Speaker Strobe ET70WP- 2475W-FR 9077 180cd cd 77 -93 j 24 VDC M IOB -R (5046) X I X X j For more information on the E I7Uwf' Appliance, see specmcauon aneet oyvvo. • ARCHITECTS AND ENGINEERS SPECIFICATIONS The Weatherproof Strobe appliances shall be Wheelock Series RSSWP -2475W strobes or approved equals. The Series RSSWP shall meet and be listed for UL Standard 1638 (Standard for Visual Signaling Appliances) for Indoor /Outdoor use. The strobe appliances shall produce a flash rate of 30 -62 flashes per minute over the Regulated Voltage Range of 16 to 33 VDC and shall incorporate a Xenon flashtube enclosed in a rugged Lexan® lens. The strobe shall be rated at 75cd and shall operate over an extended temperature range of -31 °F to 150 °F ( -35 °C to 66 °C). All inputs shall be polarized for compatibility with standard reverse polarity supervision of circuit wiring by a Fire Alarm Control Panel. When synchronization is required, the appliances shall be compatible with the Wheelock Series SM and DSM Sync Modules or the Wheelock PS- 12/24 -8MP Power Supply with built -in, patented sync protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync module fails to operate, (i.e., contacts remain closed), the strobe shall revert to a non - synchronized flash rate. The Series RSSWP shall be mounted only to the WPSBB -R Backbox. The Weatherproof Audible Strobe and Audible appliances shall be Wheelock Series ASWP -2475W Audible Strobes and Wheelock Series AHWP Audible Horns or approved equals. The Series ASWP and Series AHWP shall meet and be listed for UL Standard 1638 (Standard for Visual Signaling Appliances) for Indoor /Outdoor use. The strobe appliances shall produce a flash rate of 30 -62 flashes per minute over the Regulated Voltage Range of 16 to 33 VDC and shall incorporate a Xenon flashtube enclosed in a rugged Lexan@ lens. The strobe shall be rated 180cd @ 77 °F (25 °C) and 75cd at -31 °F ( -35 °C) and shall operate over an extended temperature range at -31'F to 150 °F ( -35 °C to 66 °C) and be listed for maximum humidity at 95% RH. All inputs shall be polarized for compatibility with standard reverse polarity supervision of circuit wiring by a Fire Alarm Control Panel (FACP). The Series ASWP shall be mounted only to the WPBB -R Backbox while the Series AHWP shall only be mounted to the WBB -R Backbox. The weatherproof audible strobe appliances shall be designed for two -wire operation and shall provide either a continuous or temporal (Code 3) tone when constant voltage from a Notification Appliance Circuit (NAC) of the Fire Alarm Control Panel (FACP) is applied. They shall be designed so that the audible signal may be silenced while maintaining strobe activation. When synchronization is required, the appliances shall be compatible with the Wheelock Series SM and DSM Sync Modules or the Wheelock PS- 12/24 -8MP Power Supply with built -in, patented sync protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync fails to operate, (i.e., contacts remain closed), the strobe shall revert to a non - synchronized flash rate. The Weatherproof Multitone Strobe and Multitone Audible appliances shall be a Wheelock Series MTWP and MT -12/24 or equivalent. The Series MTWP shall meet and be listed for UL Standard 1638 (Standard for Visual Signaling Appliances) for indoor /outdoor use. The strobe portion of the appliance shall produce a flash rate of 30 -62 flashes per minute over the listed voltage range of 20 -31 VDC and shall incorporate a Xenon flash tube enclosed in a rugged Lexan@ lens. TThe strobe shall be rated 180cd @ 77 °F (25 °C) and 75cd at -31'F ( -35 °C) and shall operate over an extended temperature range at -31'F to 150 °F ( -35 °C to 66 °C) and be listed for maximum humidity at 95% RH. All inputs shall be polarized for compatibility with industry standard reverse polarity of circuit wiring by a Fire Alarm Control Panel. The audible portion of the Series MTWP as well as the Series MT -12/24 shall provide eight field selectable alarm signals. The signals shall consists of: Horn, Bell, March Time, Code 3 Horn, Code 3 Tone, Slow Whoop, Siren and Hi /Lo. Tone selection shall be by a durable dip switch assembly. Clips or Jumpers are not acceptable. The appliance shall provide two output sound levels: Standard and High dBA. The range of dBA shall be 75 to 94 dBA. The Series MTWP shall have an operating voltage of 24 VDC (nominal) while the Series MT -12/24 shall operate at either 12 or 24 VDC (nominal) using filtered power or unfiltered power (full wave rectified). Both models shall have provisions for In /Out field wiring using terminals that accept #12 to #18 AWG wiring. When synchronization is required, the Series MTWP shall be compatible with the Series SM and DSM Sync Modules or with the Series PS- 12/24 -8MP Power Supply with built -in, patented sync protocol. Note: The Strobe portion of the Series MTWP may be synchronized. The audible portion of the appliance cannot. The audible portion of the appliance can be connected to a coded fire alarm system. The Series MTWP and the Series MT -12124 shall be mounted only to the IOB -R Backbox. Due to continuous development of our products, specifications and offerings are subject to change without notice in accordance with Wheelock Inc. standard terms and conditions. WE ENCOURAGE AND SUPPORT NICET CERTIFICATION MADE IN THE USA NATIONAL SALES OFFICE 3 YEAR WARRANTY 800 - 631 -2148 Canada 800 - 397 -5777 Nam E -Mail: Info@wheelockinc.com http: / /www.wheelockinc.com `- 273 BRANCHPORT AVENUE • LONG BRANCH, NJ 07740 - TEL: Distributed By: 732 - 222 -6880 • FAX: 732 - 222 -2588 S900408104 i FCI -7100 Battery Calculations Project: BYU -Idaho Romney Science Building Date: April 5, 2005 Battery Standbv Chart Total Total Supv. Alarm Supv. Alarm Qty Module Description Current Current Current Current Total Supervisory Current from above Chart BSM -1 Basic System Module, 1 SLC* .056 A. .076 A 0 ' 0 1 BSM -2 Basic System Module, 2 SLC* .065 A .085 A 0.065 0.085 21 AMM -2 Addressable Monitor Module sty B .0002 A .0003 A 0.0042 0.0063 8 AMM -4 Addressable Monitor Module .0002 A .0005 A 0.0016 0.004 AMM -4S Addressable Monitor Module .0002 A .005 A 0 0 6 AOM /AOM -2 Addressable Output Module .0002 A .005 A 0.0012 0.03 ASD -P,PL Analog PE Sensor .0002 A .005 A 0 0 2551 T Analog PE Sensor w/ Therm. .0002 A .005 A 0 0 86 ASD- I,IL,IL -2 Analog Ion Sensor .0002 A .005 A 0.0172 0.43 15 ATD /ATD -R Analog Thermal Sensor .0002 A .005 A 0.003 0.075 M50OX Fault Isolator Module .00025 A .00025 A 0 0 SPB -24 Photo Beam Smoke Det. .010 A .028 A 0 0 12 ADP /ADP -R Duct Detector w/ Relays .026 A .087 A 0.312 0.912 HE Electronic Horn -- - - - - -- .020 A 0 0 HM Electromechanical Horn -- - - - - -- .038 A 0 0 STW Strobe "W" 15/75 cd -- - - - - -- .079 A 0 0 STS Strobe "S" 110 cd -- - - - - -- .249 A 0 0 B501 BH Sounder Base .001 A .015 A 0 0 TOTALS 0.4042 1.5423 NOTE * Includes optional modules * *Use next size battery with capacity greater than required. * * *24hrs for NFPA 72 protected premises signaling, 60 hrs for Auxiliary Fire alarm systems. Battery Calculations A Total Supervisory Current from above Chart 0.4042 B Enter the number of standby hours per NFPA requirements for the specific installation. * ** 24 C Multiply Line A times hours in Line B 9.7008 D Total Alarm Current from above Chart 1.5423 E Enter Alarm period in hours 5 min. _ .084 hour 0.084 F Multipy Line D times Line E 0.129553 G Total of Lines C & F 9.830353 H Multipy Line G by 1.2 Total Ampere/hours) 11.79642 I Battery Size Installed ** 18 Am /H 4 M April 5, 2005 Equipment Manufacturer Authorized Distributor: Data Sheet FCI FCI FCI FCI FCI FCI FCI FCI FCI FCI Gamewell Wheelock Wheelock ROMNEY SCIENCE BUILDING BYU -IDAHO FIRE ALARM SYSTEM SUBMITTAL Fire Control Instruments Nelson Fire Systems 1481 South Major Street Salt Lake City, Utah 84115 (801) 468 -8300 Part No. FC -7100 LCD -7100 ASD -IL2 /ADB -FL ATD -RL2 /ADB -FL ADP -R MS -2 /AMM -2 AMM -2 AMM -4 AOM -2R ARB -C Fireforce 8 NS- 24MCW -FW AH -24 WP -R Description Addressable Fire Alarm Control Panel Remote Annunciator Analog Smoke Detector/Base Analog Heat Detector /Base Analog Duct Detector w /Relays Manual Pull Station Addressable Monitor Module Addressable Monitor Module Analog Output Module Auxiliary Relay Supplementary Notification Power Supply Strobe Horn Weatherproof Horn Battery Calculations Prints Project: BYU -1 Romney Science Building Date: April 5, 2005 FireForce 8 Battery Calculation Chart Circuit Normal Current Alarm Current Notification Appliance Ckt. 1 2.000 A* Notification Appliance Ckt. 2 2.000A* Notification Appliance Ckt. 3 2.000A* Notification Appliance Ckt. 4 2.000A* External Load A +,A- +/ -24 VDC Common Control 0.030 A 0.055 A Normal Current 0.030 A Alarm Current 8.055 A Hours of Standby 24 Total Normal Current 0.030 A Normal Amp Hours 0.720 A Hours of Alarm 0.083 A Total Alarm Current 8.055 A Alarm Amp Hours _ 0.668 A Total Amp Hours 1.388 A Safety Factor 1.250 A Batte AH Required 1.735 A Battery AH Size Provided 7 Note: Normal current times total number of standby hours = Total Normal Amp Hours Alarm current times total number hours of alarm = Total Alarm Amp Hours Total normal Amp Hours + Total alarm Amp Hours + 25% = Minimum Battery Size Total Load of Notification Appliance Ckt. And External Load Not To Exceed 8 Amps. *2.000 Amps is the maximum per Notification Applicance Ckt. This battery calculation represents a maximum load. FIRST ALARM: ALRM ACKD: SILENCE: RESET: FAULT: TRBL ACKD: FAULT: FAULT: MLT EVENTS: FAULT RSTRD: FIRST ALARM: ALARM: ALARM: OFF - NORMAL: ALARM: ALRM ACKD: TRBL ACKD: ALRM ACKD: ALRM ACKD: ALRM ACKD: ALARM: OFF- NORMAL RSTRD: ALARM: OFF- NORMAL: OFF- NORMAL RSTRD: ALRM ACKD: ALRM ACKD: ALARM: ALARM: ALARM: ALARM: ALARM: ALARM: ALRM ACKD: ALRM ACKD: ALRM ACKD: ALRM ACKD: ALRM ACKD: ALRM ACKD: TRBL ACKD: ALARM: ALRM ACKD: ALARM: ALRM ACKD: ALARM: ALRM ACKD: ALARM: ALRM ACKD: ALARM: ALRM ACKD: ALARM: ALRM ACKD: ALARM: ALRM ACKD: RESET: FAULT: FAULT: MLT EVENTS: FIRST ALARM: ALARM: ALRM ACKD: ALRM ACKD: RESET: romney final BSmt North Mech Rm Manual Station AC Line NAC 2 NAC 1 AC Line BSmt Mechancial Rm Bsmt Bsmt West Entrance BSmt Mechancial Rm BSmt Mechancial Rm Bsmt Mechancial Rm 1st Floor Bsmt Mechanical Rm 1st Floor 1st Floor 1st Floor Critical Photo Critical Photo Ion Detector Supervisory Sw Ion Detector Manual Station Supervisory Sw Ion Detector Supervisory Sw Supervisory Sw Manual Station Ion Detector Ion Detector waterflow Sil Manual Station Ion Detector L1M07 L1S32 L1S29 L1S05 LlM09 LlSO4 L1MO2 L1M09 US07 LlM09 LlM09 L1M13 US44 US46 L1M08 L1M19 US48 Ion Detector L1S52 Ion Detector L1S55 Manual Station L1M17 Ion Detector L1S57 Manual Station L1M16 Ion Detector L1S59 Ion Detector L1S61 NAC 1 NAC 2 BSmt Mechanical Rm 1st Floor waterflow Sil LlM08 Manual Station L1M19 Page 1 08:44:04 08/18/05 09:01:22 08/18/05 09:01:22 08/18/05 09:01:38 08/18/05 09:01:38 08/18/05 09:01:52 08/18/05 09:01:52 08/18/05 09:01:52 08/18/05 09:01:52 08/18/05 09:02:14 08/18/05 09:06:24 08/18/05 09:10:36 08/18/05 09:12:34 08/18/05 09:13:06 08/18/05 09:13:10 08/18/05 09:13:26 08/18/05 09:13:32 08/18/05 09:13:38 08/18/05 09:13:38 08/18/05 09:13:40 08/18/05 09:14:02 08/18/05 09:14:10 08/18/05 09:14:18 08/18/05 09:14:28 08/18/05 09:14:34 08/18/05 09:14:44 08/18/05 09:14:44 08/18/05 09:15:22 08/18/05 09:15:52 08/18/05 09:16:20 08/18/05 09:16:26 08/18/05 09:16:42 08/18/05 09:16:58 08/18/05 09:18:12 08/18/05 09:18:12 08/18/05 09:18:12 08/18/05 09:18:12 08/18/05 09:18:12 08/18/05 09:18:22 08/18/05 09:18:26 08/18/05 09:18:42 08/18/05 09:18:42 08/18/05 09:19:30 08/18/05 09:19:30 08/18/05 09:19:30 08/18/05 09:19:50 08/18/05 09:20:00 08/18/05 09:20:04 08/18/05 09:20:24 08/18/05 09:20:28 08/18/05 09:20:34 08/18/05 09:20:34 08/18/05 09:21:20 08/18/05 09:21:32 08/18/05 09:22:04 08/18/05 09:22:18 08/18/05 09:22:18 08/18/05 09:22:36 08/18/05 09:22:44 08/18/05 09:22:54 08/18/05 09:23:12 08/18/05 09:23:12 08/18/05 09:23:32 08/18/05 romney final ACCESS: by user 1 09:23:44 08/18/05 WALK TEST: Silent 09:23:50 08/18/05 TRBL ACKD: 09:23:50 08/18/05 ALARM TEST: Ion Detector L1S74 09:25:16 08/18/05 ALARM TEST: Bsmt Mechanical Rm Waterflow Sil L1M08 09:25:24 08/18/05 ALARM TEST: Ion Detector L1S67 09:25:52 08/18/05 ALARM TEST RSTRD: Ion Detector US67 09:26:04 08/18/05 ALARM TEST RSTRD: Bsmt Mechanical Rm Waterflow Sil L1M08 09:26:04 08/18/05 ALARM TEST: 1st Floor Manual Station L1M15 09:26:12 08/18/05 ALARM TEST RSTRD: Ion Detector L1S74 09:26:26 08/18/05 ALARM TEST RSTRD: 1st Floor Manual Station L1M15 09:26:30 08/18/05 ALARM TEST: 2nd Floor Manual Station L2M05 09:26:56 08/18/05 ALARM TEST RSTRD: 2nd Floor Manual Station L2M05 09:26:56 08/18/05 ALARM TEST: Ion Detector L2S29 09:27:32 08/18/05 ALARM TEST RSTRD: Ion Detector L2S29 09:27:58 08/18/05 ALARM TEST: Ion Detector L2S27 09:28:02 08/18/05 ALARM TEST: Ion Detector L2S26 09:28:28 08/18/05 ALARM TEST: 2nd Floor Manual Station L2M06 09:28:48 08/18/05 ALARM TEST: Ion Detector L2S24 09:28:58 08/18/05 ALARM TEST RSTRD: 2nd Floor Manual station L2M06 09:29:10 08/18/05 ALARM TEST RSTRD: Ion Detector L2S27 09:29:12 08/18/05 ALARM TEST RSTRD: Ion Detector L2S24 09:29:24 08/18/05 ALARM TEST: 2nd Floor Manual Station L2M07 09:29:26 08/18/05 ALARM TEST RSTRD: 2nd Floor Manual station L2M07 09:29:32 08/18/05 ALARM TEST RSTRD: Ion Detector L2S26 09:29:50 08/18/05 ALARM TEST: Ion Detector L2S21 09:29:58 08/18/05 ALARM TEST RSTRD: Ion Detector L2S21 09:30:14 08/18/05 ALARM TEST: Ion Detector L2S19 09:30:36 08/18/05 ALARM TEST: Ion Detector L2S35 09:31:26 08/18/05 ALARM TEST RSTRD: Ion Detector L2S19 09:31:50 08/18/05 ALARM TEST RSTRD: Ion Detector L2S35 09:32:16 08/18/05 ALARM TEST: Ion Detector L2S38 09:35:14 08/18/05 ALARM TEST RSTRD: Ion Detector L2S38 09:36:44 08/18/05 ALARM TEST: Thermal Det L2S39 09:39:50 08/18/05 ALARM TEST RSTRD: Thermal Det L2S39 09:40:12 08/18/05 ALARM TEST: Thermal Det L2S40 09:40:24 08/18/05 ALARM TEST RSTRD: Thermal Det L2S40 09:40:40 08/18/05 ALARM TEST: Thermal Det L2S41 09:40:40 08/18/05 ALARM TEST RSTRD: Thermal Det L2S41 09:41:00 08/18/05 ALARM TEST: Thermal Det L2S42 09:42:36 08/18/05 ALARM TEST RSTRD: Thermal Det L2s42 09:42:42 08/18/05 ALARM TEST: Thermal Det L1S79 09:46:02 08/18/05 ALARM TEST RSTRD: Thermal Det L1S79 09:46:12 08/18/05 FIRST ALARM: BSmt Mechanical Rm Waterflow Sil Llm08 09:53:24 08/18/05 ALARM: West Elev Equip Rm Ion Detector L1S17 09:54:22 08/18/05 ALARM: 2nd Floor waterflow Sil L2M09 09:54:34 08/18/05 ALRM ACKD: 09:55:06 08/18/05 RESET: 09:55:14 08/18/05 DACT initialized FAULT: NAC 1 10:08:08 08/18/05 FAULT: NAC 2 10:08:08 08/18/05 MLT EVENTS: 10:08:08 08/18/05 FIRST ALARM: West Elev Equip Rm Ion Detector L1S17 10:16:56 08/18/05 ALRM ACKD: 10:20:30 08/18/05 RESET: 10:20:46 08/18/05 FAULT: NAC 1 10:20:56 08/18/05 FAULT: NAC 2 10:20:56 08/18/05 MLT EVENTS: 10:22:06 08/18/05 FAULT RSTRD: NAC 1 10:34:28 08/18/05 FAULT RSTRD: NAC 2 10:34:28 08/18/05 MISSING: Bsmt Lobby west Ion Detector L1s04 10:36:58 08/18/05 TRBL ACKD: 10:37:06 08/18/05 MISSING: Bsmt west Entrance Manual Station L1MO2 10:38:04 08/18/05 Page 2 romney final MISSING: Bsmt Photo Lab Ion Detector L1S13 10:38:04 08/18/05 MISSING: BSmt West Entrance Manual Station L1M01 10:38:04 08/18/05 MISSING: Bsmt Northwest Exit Manual Station L1M03 10:38:08 08/18/05 MISSING: BSmt Corridor Ion Detector LlS06 10:38:08 08/18/05 MISSING: Bsmt Corridor Ion Detector LlS07 10:38:16 08/18/05 MISSING: BSmt Photo Lab Ion Detector L1S14 10:38:22 08/18/05 MLT EVENTS: 10:38:22 08/18/05 MISSING: Bsmt Photo Lab Ion Detector L1S15 10:38:26 08/18/05 TRBL ACKD: 10:38:42 08/18/05 FAULT: NAC 1 10:41:24 08/18/05 FAULT: NAC 2 10:41:24 08/18/05 MLT EVENTS: 10:41:32 08/18/05 MISSING RSTRD: Bsmt West Entrance Manual Station L1M01 10:44:58 08/18/05 MISSING RSTRD: BSmt West Entrance Manual Station L1MO2 10:45:20 08/18/05 MISSING RSTRD: Bsmt Northwest Exit Manual Station L1M03 10:45:24 08/18/05 MISSING RSTRD: Bsmt Corridor Ion Detector LlS06 10:45:36 08/18/05 MISSING RSTRD: Bsmt Corridor Ion Detector LlS07 10:45:44 08/18/05 MISSING RSTRD: Bsmt Photo Lab Ion Detector L1S13 10:45:50 08/18/05 MISSING RSTRD: Bsmt Photo Lab Ion Detector US14 10:45:56 08/18/05 MISSING RSTRD: Bsmt Lobby West Ion Detector L1SO4 10:46:00 08/18/05 MISSING RSTRD: Bsmt Photo Lab Ion Detector US15 10:46:00 08/18/05 FAULT RSTRD: NAC 1 10:46:00 08/18/05 FAULT RSTRD: NAC 2 10:46:44 08/18/05 MISSING: 1st Floor corridor Ion Detector US63 10:49:22 08/18/05 TRBL ACKD: 10:49:30 08/18/05 MISSING RSTRD: 1st Floor Corridor Ion Detector US63 10:49:40 08/18/05 MISSING: 1st Floor Corridor Ion Detector L1S63 10:51:56 08/18/05 MISSING RSTRD: 1st Floor Corridor Ion Detector L1S63 10:52:40 08/18/05 FAULT: NAC 1 11:06:02 08/18/05 FAULT: NAC 2 11:06:08 08/18/05 MLT EVENTS: 11:06:38 08/18/05 FIRST ALARM: BSmt Lobby West Ion Detector L1SO4 11:06:58 08/18/05 RESET: 11:07:54 08/18/05 FAULT: NAC 1 11:08:06 08/18/05 FAULT: NAC 2 11:08:06 08/18/05 MLT EVENTS: 11:08:12 08/18/05 FIRST ALARM: Bsmt Lobby West Ion Detector L1SO4 11:08:52 08/18/05 ALRM ACKD: 11:09:40 08/18/05 RESET: 11:09:48 08/18/05 FAULT: NAC 1 11:09:58 08/18/05 FAULT: NAC 2 11:09:58 08/18/05 MLT EVENTS: 11:10:04 08/18/05 FIRST ALARM: 1st Floor Corridor Ion Detector L1S44 11:11:36 08/18/05 ALRM ACKD: 11:12:22 08/18/05 RESET: 11:13:24 08/18/05 FAULT: NAC 1 11:13:34 08/18/05 FAULT: NAC 2 11:13:34 08/18/05 MLT EVENTS: 11:13:42 08/18/05 DACT initialized FAULT: NAC 1 11:23:08 08/18/05 FAULT: NAC 2 11:23:08 08/18/05 MLT EVENTS: 11:23:16 08/18/05 FAULT RSTRD: NAC 1 11:23:26 08/18/05 FAULT RSTRD: NAC 2 11:23:26 08/18/05 FIRST ALARM: Bsmt North Mech Rm Manual Station L1M07 11:23:48 08/18/05 ALRM ACKD: 11:24:02 08/18/05 SILENCE: 11:24:02 08/18/05 SILENCE RSTRD: 11:24:42 08/18/05 ALARM: BSmt Northwest Exit Manual Station L1M03 11:24:42 08/18/05 SILENCE: 11:24:58 08/18/05 ALRM ACKD: 11:25:02 08/18/05 RESET: 11:25:50 08/18/05 FAULT: NAC 1 11:26:42 08/18/05 Page 3 FAULT: MLT EVENTS: FIRST ALARM: ALRM ACKD: RESET: FAULT: FAULT: MLT EVENTS: FIRST ALARM: ALRM ACKD: RESET: FAULT: FAULT: MLT EVENTS: FIRST ALARM: ALRM ACKD: RESET: FAULT: FAULT: MLT EVENTS: FIRST ALARM: RESET: FAULT: FAULT: MLT EVENTS: MISSING: MISSING RSTRD FIRST ALARM: RESET: FAULT: FAULT: FIRST ALARM: RESET: FAULT: FAULT: MLT EVENTS: MLT EVENTS: FIRST ALARM: RESET: FAULT: FAULT: MLT EVENTS: FIRST ALARM: RESET: FAULT: FAULT: MLT EVENTS: FAULT RSTRD: FAULT RSTRD: NAC 2 Bsmt Lobby west NAC 1 NAC 2 West Elev Equip Rm NAC 1 NAC 2 East EIeV Equip Rm NAC 1 NAC 2 East EIeV Equip Rm NAC 1 NAC 2 Recall to Alt. Recall to Alt. Bsmt Lobby East NAC 1 NAC 2 2nd Flr EIeV Lobby NAC 1 NAC 2 BSmt Lobby East NAC 1 NAC 2 2nd Flr EIeV Lobby NAC 1 NAC 2 NAC 2 NAC 1 romney final Ion Detector LlSO4 Ion Detector LlS03 Ion Detector L1S17 Ion Detector L1S17 Form C AOM NS L1M94 Form C AOM NS L1M94 Ion Detector L1S16 Ion Detector L2S36 Ion Detector L1S16 Ion Detector L2S36 Page 4 11:26:46 08/18/05 11:27:14 08/18/05 11:27:40 08/18/05 11:27:40 08/18/05 11:28:48 08/18/05 11:29:02 08/18/05 11:29:02 08/18/05 11:29:02 08/18/05 11:30:18 08/18/05 11:30:38 08/18/05 11:31:24 08/18/05 11:31:28 08/18/05 11:31:28 08/18/05 11:31:28 08/18/05 11:37:30 08/18/05 11:44:18 08/18/05 11:44:24 08/18/05 11:44:38 08/18/05 11:44:38 08/18/05 11:44:50 08/18/05 11:50:22 08/18/05 11:56:02 08/18/05 11:56:12 08/18/05 11:56:12 08/18/05 11:56:12 08/18/05 11:56:34 08/18/05 11:56:34 08/18/05 12:03:50 08/18/05 12:04:48 08/18/05 12:05:08 08/18/05 12:05:08 08/18/05 12:07:04 08/18/05 12:08:08 08/18/05 12:08:26 08/18/05 12:08:26 08/18/05 12:09:32 08/18/05 13:41:30 08/18/05 13:42:52 08/18/05 13:43:12 08/18/05 13:43:28 08/18/05 13:43:28 08/18/05 13:43:28 08/18/05 13:44:38 08/18/05 13:44:38 08/18/05 13:45:10 08/18/05 13:45:10 08/18/05 13:45:16 08/18/05 13:57:26 08/18/05 13:57:34 08/18/05 „(null) Page 1 of 6 SIGNAL REPORT Romney Testing 8/18/2005 / 8/18/2005 00:00 - 8/18/2005 14:15 Date Time Area Signal Zone Name /Description ------------------------------------------------------------------------------------ Transmitter: Romney Building (0005) 08/18/2005 00:10:08 :00 Periodic Te 991 MARKER RECORD 08/18/2005 08:54:19 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 08:54:19 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:11:51 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:11:54 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:11:57 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:12:00 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:12:02 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:12:05 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:12:35 :00 delay fail 000 MARKER RECORD 08/18/2005 09:16:31 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:16:31 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:20:41 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:20:41 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:22:44 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:22:44 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:23:12 :00 Gate Valve 003 MARKER RECORD 08/18/2005 09:23:15 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:23:15 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:24:07 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:24:07 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:24:09 :00 Gate Valve 003 MARKER RECORD 08/18/2005 09:24:12 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:24:12 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:24:33 :00 Gate Valve 003 MARKER RECORD 08/18/2005 09:24:36 :00 Gate Valve 003 MARKER RECORD 08/18/2005 09:25:27 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:25:27 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:25:56 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:25:56 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:26:25 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:26:25 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:26:28 :00 Fire Alarm 001 MARKER RECORD 08/18/2005 09:26:28 :00 Fire Alarm 001 MARKER RECORD 08/18/2005 09:32:16 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:32:19 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:32:22 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:32:24 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:32:27 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:32:30 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:32:33 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:32:36 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:32:38 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:32:41 :00 Fire Alarm 006 MARKER RECORD 08/18/2005 09:32:44 :00 Fire Alarm 001 MARKER RECORD 08/18/2005 09:32:47 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:32:50 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:32:53 :00 Fire Alarm 001 MARKER RECORD 08/18/2005 09:32:53 :00 Fire Alarm 001 MARKER RECORD 08/18/2005 09:32:55 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:32:55 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 09:33:17 :00 delay fail 000 MARKER RECORD 08/18/2005 09:33:20 :00 delay fail 000 MARKER RECORD http: / /firesecuritymonitor /phoenix /spool /77csf.html 8/18/2005 (null) Page 2 of 6 08/18/2005 14:28:48 SIGNAL REPORT Romney Testing 8/18/2005 8/18/2005 00:00 - 8/18/2005 14:15 Page Date Time Area Signal Zone Name /Description ------------------------------------------------------------------------------------ 08/18/2005 09:33:44 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:33:46 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 09:33:49 :00 Fire Alarm 001 MARKER RECORD 08/18/2005 09:33:52 :00 Fire Alarm 002 MARKER RECORD 08/18/2005 10:00:33 :00 Periodic Te 991 MARKER RECORD 08/18/2005 10:00:36 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:00:39 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:01:06 :00 delay fail 000 MARKER RECORD 08/18/2005 10:01:09 :00 delay fail 000 MARKER RECORD 08/18/2005 10:04:18 :00 Fire Alarm 011 MARKER RECORD 08/18/2005 10:04:18 :00 Fire Alarm 011 MARKER RECORD 08/18/2005 10:05:06 :00 Fire Alarm 086 East Elevator Detector 08/18/2005 10:05:06 :00 Fire Alarm 086 MARKER RECORD 08/18/2005 10:05:09 :00 Fire Alarm 411 MARKER RECORD 08/18/2005 10:05:09 :00 Fire Alarm 411 MARKER RECORD 08/18/2005 10:06:07 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:06:10 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:06:13 :00 Fire Alarm 011 MARKER RECORD 08/18/2005 10:06:16 :00 Fire Alarm 086 MARKER RECORD 08/18/2005 10:06:18 :00 Fire Alarm 411 MARKER RECORD 08/18/2005 10:06:21 :00 Fire Alarm 411 MARKER RECORD 08/18/2005 10:06:24 :00 Fire Alarm 011 MARKER RECORD 08/18/2005 10:06:24 :00 Fire Alarm 011 MARKER RECORD 08/18/2005 10:12:08 :00 Fire Alarm 011 MARKER RECORD 08/18/2005 10:12:08 :00 Fire Alarm 011 MARKER RECORD 08/18/2005 10:12:11 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:12:14 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:12:41 :00 delay fail 000 MARKER RECORD 08/18/2005 10:12:44 :00 delay fail 000 MARKER RECORD 08/18/2005 10:15:27 :00 Fire Alarm 086 East Elevator Detector 08/18/2005 10:15:27 :00 Fire Alarm 086 MARKER RECORD 08/18/2005 10:18:02 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:18:05 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:18:08 :00 Fire Alarm 011 MARKER RECORD 08/18/2005 10:18:11 :00 Fire Alarm 086 MARKER RECORD 08/18/2005 10:18:14 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:18:16 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:18:44 :00 delay fail 000 MARKER RECORD 08/18/2005 10:18:46 :00 delay fail 000 MARKER RECORD 08/18/2005 10:20:27 :00 Periodic Te 991 MARKER RECORD 08/18/2005 10:20:30 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:20:33 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:21:00 :00 delay fail 000 MARKER RECORD 08/18/2005 10:21:03 :00 delay fail 000 MARKER RECORD 08/18/2005 10:28:43 :00 Fire Alarm 086 East Elevator Detector 08/18/2005 10:28:43 :00 Fire Alarm 086 MARKER RECORD 08/18/2005 10:32:34 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:32:36 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:32:39 :00 Fire Alarm 086 MARKER RECORD 08/18/2005 10:32:42 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:32:45 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:33:12 :00 delay fail 000 MARKER RECORD http: / /firesecuritymonitor /phoenix /spool /77csf html 8/18/2005 (null) Page 3 of 6 08/18/2005 10:33:15 :00 delay fail 000 MARKER RECORD 08/18/2005 10:36:21 :00 reswaitfai 411 MARKER RECORD 08/18/2005 10:46:10 :00 Fire Troubl 000 MARKER RECORD U8/18/2005 14:28:48 SIGNAL REPORT Romney Testing 8/18/2005 8/18/2005 00:00 - 8/18/2005 14:15 Page Date ------------------------------------------------------------------------------------ Time Area Signal Zone Name /Description 08/18/2005 10:46:13 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:48:44 :00 Fire Troubl 060 MARKER RECORD 08/18/2005 10:49:14 :00 delay fail 060 MARKER RECORD 08/18/2005 10:49:45 :00 Fire Troubl 150 MARKER RECORD 08/18/2005 10:50:15 :00 delay fail 150 MARKER RECORD 08/18/2005 10:57:06 :00 Fire Troubl 150 MARKER RECORD 08/18/2005 10:57:46 :00 Fire Troubl 060 MARKER RECORD 08/18/2005 10:58:25 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 10:58:28 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:18:45 :00 Fire Alarm 066 West Elevator Detector 08/18/2005 11:18:45 :00 Fire Alarm 066 MARKER RECORD 08/18/2005 11:19:44 :00 Fire Alarm 066 MARKER RECORD 08/18/2005 11:19:47 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:19:50 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:20:17 :00 delay fail 000 MARKER RECORD 08/18/2005 11:20:20 :00 delay fail 000 MARKER RECORD 08/18/2005 11:20:37 :00 Fire Alarm 066 West Elevator Detector 08/18/2005 11:20:37 :00 Fire Alarm 066 MARKER RECORD 08/18/2005 11:21:35 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:21:38 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:21:38 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:21:41 :00 Fire Alarm 066 MARKER RECORD 08/18/2005 11:21:44 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:21:46 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:22:14 :00 delay fail 000 MARKER RECORD 08/18/2005 11:22:16 :00 delay fail 000 MARKER RECORD 08/18/2005 11:23:21 :00 Fire Alarm 076 West Elevator Detector 08/18/2005 11:23:21 :00 Fire Alarm 076 MARKER RECORD 08/18/2005 11:25:12 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:25:15 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:25:17 :00 Fire Alarm 076 MARKER RECORD 08/18/2005 11:25:20 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:25:23 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:25:50 :00 delay fail 000 MARKER RECORD 08/18/2005 11:25:54 :00 delay fail 000 MARKER RECORD 08/18/2005 11:36:18 :00 Periodic Te 000 MARKER RECORD 08/18/2005 11:36:21 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:36:24 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:36:27 :00 Fire Alarm 152 MARKER RECORD 08/18/2005 11:36:27 :00 Fire Alarm 152 MARKER RECORD 08/18/2005 11:37:17 :00 Fire Alarm 152 MARKER RECORD 08/18/2005 11:37:17 :00 Fire Alarm 152 MARKER RECORD 08/18/2005 11:38:30 :00 Fire Alarm 152 MARKER RECORD 08/18/2005 11:38:33 :00 Fire Alarm 152 MARKER RECORD 08/18/2005 11:39:19 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:39:22 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:39:49 :00 delay fail 000 MARKER RECORD 08/18/2005 11:39:52 :00 delay fail 000 MARKER RECORD 08/18/2005 11:40:13 :00 Fire Alarm 066 West Elevator Detector http:// firesecuritymonitor /phoenix/spool /77csf.html 8/18/2005 (null) 11:42:06 :00 delay fail 000 MARKER RECORD Page 4 of 6 08/18/2005 11:40:13 :00 Fire Alarm 066 MARKER RECORD 08/18/2005 11:41:27 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:41:30 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:41:33 :00 Fire Alarm 066 MARKER RECORD 08/18/2005 11:41:35 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:41:39 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 14:28:48 Page SIGNAL REPORT Romney Testing 8/18/2005 8/18/2005 00:00 - 8/18/2005 14:15 Date Time Area Signal Zone Name /Description ------------------------------------------------------------------------------ - - - - -- 08/18/2005 11:42:06 :00 delay fail 000 MARKER RECORD 08/18/2005 11:42:09 :00 delay fail 000 MARKER RECORD 08/18/2005 11:43:02 :00 Fire Alarm 066 West Elevator 08/18/2005 11:43:02 :00 Fire Alarm 066 MARKER RECORD 08/18/2005 11:44:04 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:44:07 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:44:10 :00 Fire Alarm 066 MARKER RECORD 08/18/2005 11:44:13 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:44:16 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:44:43 :00 delay fail 000 MARKER RECORD 08/18/2005 11:44:46 :00 delay fail 000 MARKER RECORD 08/18/2005 11:50:10 :00 Fire Alarm 096 East Elevator 08/18/2005 11:50:10 :00 Fire Alarm 096 MARKER RECORD 08/18/2005 11:57:04 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:57 :07 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:57:10 :00 Fire Alarm 096 MARKER RECORD 08/18/2005 11:57:13 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:57:16 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 11:57:43 :00 delay fail 000 MARKER RECORD 08/18/2005 11:57:46 :00 delay fail 000 MARKER RECORD 08/18/2005 12:02:57 :00 Fire Alarm 096 East Elevator 08/18/2005 12:02:57 :00 Fire Alarm 096 MARKER RECORD 08/18/2005 12:08:45 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:08:47 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:08:50 :00 Fire Alarm 096 MARKER RECORD 08/18/2005 12:08:53 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:08:56 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:09:23 :00 delay fail 000 MARKER RECORD 08/18/2005 12:09:26 :00 delay fail 000 MARKER RECORD 08/18/2005 12:16:26 :00 Fire Alarm 096 East Elevator 08/18/2005 12:16:26 :00 Fire Alarm 096 MARKER RECORD 08/18/2005 12:17:35 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:17:38 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:17:41 :00 Fire Alarm 096 MARKER RECORD 08/18/2005 12:17:44 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:17:47 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:18:14 :00 delay fail 000 MARKER RECORD 08/18/2005 12:18:17 :00 delay fail 000 MARKER RECORD 08/18/2005 12:19:40 :00 Fire Alarm 106 East Elevator 08/18/2005 12:19:40 :00 Fire Alarm 106 MARKER RECORD 08/18/2005 12:20:52 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:20:55 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:20:58 :00 Fire Alarm 106 MARKER RECORD 08/18/2005 12:21:00 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:21:03 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 12:21:30 :00 delay fail 000 MARKER RECORD Detector Detector Detector Detector Detector http: // firesecuritymonitor /phoenix/spool /77csf.html 8/18/2005 (null) Page 5 of 6 08/18/2005 12:21:33 :00 delay fail 000 MARKER RECORD 08/18/2005 13:45:36 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:45:38 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:54:06 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:54:09 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:54:36 :00 delay fail 000 MARKER RECORD 08/18/2005 13:54:39 :00 delay fail 000 MARKER RECORD 08/18/2005 13:55:26 :00 Fire Alarm 096 East Elevator Detector 08/18/2005 13:55:26 :00 Fire Alarm 096 MARKER RECORD 08/18/2005 14:28:48 SIGNAL REPORT Romney Testing 8/18/2005 8/18/2005 00:00 - 8/18/2005 14:15 Page Date Time Area Signal Zone Name /Description ------------------------------------------------------------------------------------ 08/18/2005 13:55:53 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:55:56 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:55:59 :00 Fire Alarm 096 MARKER RECORD 08/18/2005 13:56:01 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:56:04 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:56:31 :00 delay fail 000 MARKER RECORD 08/18/2005 13:56:35 :00 delay fail 000 MARKER RECORD 08/18/2005 13:57:19 :00 Fire Alarm 106 East Elevator Detector 08/18/2005 13:57:19 :00 Fire Alarm 106 MARKER RECORD 08/18/2005 13:57:40 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:57:43 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:57:45 :00 Fire Alarm 106 MARKER RECORD 08/18/2005 13:57:48 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:57:51 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 13:58:18 :00 delay fail 000 MARKER RECORD 08/18/2005 13:58:21 :00 delay fail 000 MARKER RECORD 08/18/2005 14:10:05 :00 Fire Troubl 000 MARKER RECORD 08/18/2005 14:10:08 :00 Fire Troubl 000 MARKER RECORD http://firesecuritymonitor /phoenix /spool /77csf.html 8/18/2005 . (null) 08/18/2005 14:28:48 Page 6 of 6 Page http: // firesecuritymonitor /phoenix/spool /77csf.html 8/18/2005 FIRE ALARM SYSTEM RECORD OF COMPLETION Name of protected property: BYU -IDAHO Romney Building Address: Rexburg, Idaho Representative of protected property (name /phone): Authority having jurisdiction: Madison County Fire Marshal Address /telephone number: 208 - 359 -3010 Organization name /phone Representative name /phone Installer: Arco Electric 208 -522 -2185 Supplier: Nelson Fire Systems 801 -468 -8300 Service organization: N/A Location of record (as- built) drawings: Location of operation and maintenance manuals: Location of test reports: A contract for test and inspection in accordance with NFPA standard(s) Contract No(s): Effective date: Expiration date: System Software (a) Operating system (executive) software revision level(s): 6.1 (b) Site specific software revision date: 8/17/05 (c) Revision completed by: Nelson Fire Systems 1. Type of System of Service X NFPA 72. Chapter 6 -Local If alarm is transmitted to location(s) off premises, list where received: BYU -Idaho Police Dispatch 208 -496 -3000 NFPA 72. Chapter 8- Remote Station Telephone numbers of the organization receiving alarm: Supervisory:_ If alarms are retransmitted to public fire service communications center or others, indicate location and telephone numbers of the organization receiving alarm: Indicate how alarm is retransmitted: NFPA 72. Chapter 8- Proprietary Telephone numbers of the organization receiving alarm: Supervisory: Trouble: If alarms are retransmitted to public fire service communications center or others, indicate location and telephone numbers of the organization receiving alarm: Indicate how alarm is retransmitted: NFPA 72. Chapter 8- Central Station Prime contractor: Central station location: Means of transmission of signals from protected premises to the central station: McCulloh Multiplex One -way radio Digital alarm communicator Two -way radio Others Means of transmission of alarms to the public fire service communications center: (b) System location: N/A NFPA 72. Chapter 9- Auxillary Indicate type of connection: Local energy Shunt Parallel telephone Location of telephone number for receipt of signals: 2. Record of System Installation (Fill out after installation is complete and wiring is checked for opens, shorts, ground faults, and improper branching, but prior to conducting operational acceptance tests.) This system has been installed in accordance with NFPA standards as shown below, was inspected by Nelson Fire Systems on 8/16/05 , includes the devices shown in 5 and 6, and has been in service since 8/17/05 X NFPA 72, Chapters 1 2 3 4 5 6 7 8 9 10 11 (circle all that apply) X NFPA 70, National Electrical Code, Article 760 X Manufacturer's instructions X Other (specify): Signed: Date: Organization: Nelson Fire Systems 3. Record of System Operation Documentation in accordance with Inspection Testing Form, Figure 10.6.2.3, is attached All operational features and functions of this system were tested by Nelson Fire date 8/16/05 and found to be operating properly in accordance with the requirements of X NFPA 72, Chapters 1 2 3 4 5 6 7 8 9 10 11 (circle all that apply) X NFPA 70, National Electrical Code, Article 760 X Manufacturer's instructions Other (specify): Signed: Date: 8/16/05 Organization: Nelson Fire Systems 4. Signaling Line Circuits Quantity and class of signaling line circuits connected to system (see NFPA 72, Table 6.6.1): Quantity: 2 Style: 4 Class: 4 5. Alarm- Initiating Devices and Circuits Quantity and class of initiating device circuits (see NFPA 72, Table 6.5): Quantity: Style: Class: MANUAL (a) Manual stations Noncoded 22 Transmitters Coded Addressable 22 (b) Combination manual fire alarm and guard's tour coded stations AUTOMATIC Coverage: Complete Partial X Selective Nonrequired (a) Smoke detectors 95 Ion X Photo Addressble X (b) Duct detectors 9 Ion Photo X Addressble X (c) Heat detectors FT RR 12 FT/RR RC Addressable — X (d) Sprinkler waterflow indicators: Transmitters 4 Noncoded Coded Addressable X (e) The alarm verification feature is disabled or enabled changed from seconds to seconds. (f) Other (list): 6. Supervisory Signal - Initiating Devices and Circuits (use blanks to indicate quantity of devices) GUARD'S TOUR (a) N/A Coded stations (b) N/A Noncoded stations (c) N/A Compulsory guard's tour system comprised of transmitter stations and intermediate stations Note: Combination devices are recorded under 5(b). Manual, and 6(a), Guard's Tour SPRINKLER SYSTEM Check if provided (a) 5 Valve supervisory switches (b) N/A Building temperature points (c) N/A Site water temperature points (d) N/A Site water supply level points Electric fire pump: (e) N/A Fire pump power (f) N/A Fire pump running (g) N/A Phase reversal Engine driven fire pump: (h) NIA Selector in auto position (i) N/A Engine or control panel trouble 0) N/A Fire pump running ENGINE DRIVEN GENERATOR (a) N/A Selector in auto position (b) NIA Control panel trouble (c) N/A Transfer switches (d) N/A Engine running Other supervisory function(s) (specify): N/A 7. Annunciator(s) Number: _ 2 Type: LCD Location: BSMT West Side !st Floor East Side 8. Alarm Notification Appliances and Circuits NFPA, Chapter 6- Emergency Voice /Alarm Service Quantity of voice /alarm channels: N/A Single: N/A Multiple: N/A Quantity of speakers installed: N/A Quantity of speaker zones: N/A Quantity of telephones or telephone jacks included in system: N/A Quantity and the class of notification appliance circuits connected to system (see NFPA 72, Table 6.7): Quantity: 21 Style: Y Class: B Types and quantities of notification appliances installed: (a) Bells N/A With Visible N/A (b) Speakers N/A With Visible N/A (c) Horns 147 With Visible 144 (d) Chimes N/A With Visible N/A (e) Other: N/A With Visible N/A (f) Visible appliance without audible: N/A 9. System Power Supplies (a) Fire Alarm Control Panel: Nominal voltage: 120 VAC Current rating: IJA Overcurrent protection: Type: Breaker Current rating: 20 A Location: Circuit: (b) Secondary (standby): Storage battery: X Amp hour rating: 17ah Calculated to drive system, in hours: 24 Engine -driven generator dedicated to fire alarm system: N/A Location of fuel storage: N/A (c) Emergency system used as backup to primary power supply: N/A Emergency system described in NFPA 70, Article 700: N/A 10. Comments Frequency of routine tests and inspections, if other than in accordance with the referenced NFPA standard(s): System deviations from the referenced NFPA standards(s) are: NONE (signed) for installation contractor /supplier (title) (date) (signed) for alarm service company (signed) for central station (title) (date) (title) (date) Upon completion of the system(s) satisfactory test(s) witnessed (if required by the authority having jurisdiction): (signed) representative of the authority having jurisdiction (title) (date) BYU -Idaho Romney Building Fire Alarm System Test ACCESS: by user 1 08/17/05 Start of log printout WALK TEST: Silent 08/16/05 TRBL ACKD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 SPVSN TEST: Bsmt Stairwell 08/16/05 SPVSN TEST RSTRD: Bsmt Stairwell 08/16/05 ALARM TEST: Bsmt Stairwell 08/16/05 ALARM TEST RSTRD: Bsmt Stairwell 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: Bsmt 08/16/05 ALARM TEST: Bsmt 07 :52:16 20:17:08 20:17:08 Ion Detector L1S16 20:17:58 Ion Detector LIS16 20:18:06 Ion Detector L1S18 20:18:16 Ion Detector L1S18 20:18:22 Ion Detector L1S19 20:18:28 Ion Detector L1S19 20:18:28 Thermal Det L1S79 20:18:40 Thermal Det L1S79 20:18:48 Supervisory Sw L1Mll 20:19:06 Supervisory Sw L1Mll 20:19:32 Waterflow Sil L1M10 20:19:36 Waterflow Sil L1M10 20:19:36 Ion Detector L1Sll 20:20:02 Ion Detector L1Sll 20:20:12 Ion Detector L1S12 20:20:12 Ion Detector L1S12 20:20:26 Ion Detector L1S10 20:21:32 Ion Detector LlS09 20:21:44 Ion Detector LlS09 20:21:44 Ion Detector L1S10 20:21:44 Ion Detector L1S08 20:21:44 Ion Detector LlS05 20:21:44 Ion Detector LlSO4 20:22:12 Ion Detector L1S01 20:22:20 08/16/05 ALARM TEST RSTRD: Bsmt 08/16/05 ALARM TEST RSTRD: Bsmt 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: Bsmt West Entrance 08/16/05 ALARM TEST RSTRD: Bsmt West Entrance 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: Bsmt West Entrance 08/16/05 ALARM TEST RSTRD: Bsmt West Entrance 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: Bsmt Northwest Exit 08/16/05 ALARM TEST RSTRD: Bsmt Northwest Exit 08/16/05 ALARM TEST: lst Floor 08/16/05 ALARM TEST RSTRD: 1st Floor 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 Ion Detector L1S01 20:22:26 Ion Detector LlSO4 20:22 :26 Ion Detector LlS05 20:22:30 Ion Detector L1SO8 20:22:30 Manual Station L1MOl 20:22:34 Manual Station L1M01 20:22:34 Ion Detector LlS06 20:22:56 Ion Detector LlS06 20 :22:56 Manual Station LlMO2 20:23:06 Manual Station LlMO2 20:23:10 Ion Detector LIS07 20:23:12 Ion Detector LlS07 20:23:24 Ion Detector L1S13 20:23:36 Ion Detector L1S13 20:24:00 Ion Detector L1S14 20:24:00 Ion Detector LIS14 20:24:10 Ion Detector L1S15 20:24:12 Ion Detector L1S15 20:24:18 Manual Station LlM03 20:24:18 Manual Station LlM03 20:24:18 Manual Station L1M13 20:25:12 Manual Station L1M13 20:25:12 Ion Detector L1S44 20:25:22 Ion Detector LIS44 20:25:28 Ion Detector L1S43 20:25:36 Ion Detector L1S41 20:25:36 Ion Detector L1S41 20:25:50 Ion Detector L1S43 20:25:50 Ion Detector L1S45 20:25:50 Ion Detector L1S45 20:26:00 ALARM TEST: Ion Detector L1S46 20:26:06 08/16/05 ALARM TEST RSTRD: Ion Detector L1S46 20:26:14 08/16/05 ALARM TEST: Ion Detector L1S47 20:26 :14 08/16/05 ALARM TEST RSTRD: Ion Detector L1S47 20:26:24 08/16/05 ALARM TEST: Ion Detector L1S48 20:26:32 08/16/05 ALARM TEST RSTRD: Ion Detector L1S48 20:26:42 08/16/05 ALARM TEST: Ion Detector L1S49 20:26:50 08/16/05 ALARM TEST RSTRD: Ion Detector L1S49 20:26:56 08/16/05 ALARM TEST: Ion Detector L1S50 20:26:56 08/16/05 ALARM TEST RSTRD: Ion Detector L1S50 20:27:06 08/16/05 ALARM TEST: Ion Detector L1S51 20:27:06 08/16/05 ALARM TEST RSTRD: Ion Detector L1S51 20 :27:12 08/16/05 ALARM TEST: Ion Detector L1S75 20:27:16 08/16/05 ALARM TEST RSTRD: Ion Detector LIS75 20:27:24 08/16/05 ALARM TEST: 1st Floor Manual Station L1M14 20:27:24 08/16/05 ALARM TEST RSTRD: 1st Floor Manual Station L1M14 20:27:30 08/16/05 ALARM TEST: Ion Detector L1S74 20:27 :34 08/16/05 ALARM TEST: Ion Detector LIS73 20:27:46 08/16/05 ALARM TEST RSTRD: Ion Detector L1S73 20:27:46 08/16/05 ALARM TEST RSTRD: Ion Detector L1S74 20:27 :46 08/16/05 ALARM TEST: Ion Detector L1S67 20:27:56 08/16/05 ALARM TEST RSTRD: Ion Detector L1S67 20:28:08 08/16/05 ALARM TEST: Ion Detector L1S69 20:28:08 08/16/05 ALARM TEST RSTRD: Ion Detector L1S69 20:28:16 08/16/05 ALARM TEST: Ion Detector L1S70 20:28:18 08/16/05 ALARM TEST RSTRD: Ion Detector L1S70 20:28:26 08/16/05 ALARM TEST: Ion Detector L1S66 20:28:36 08/16/05 ALARM TEST RSTRD: Ion Detector L1S66 20:28:42 08/16/05 ALARM TEST: lst Floor Manual Station UM15 20:28:46 08/16/05 ALARM TEST RSTRD: 1st Floor Manual Station LIM15 20:28:46 08/16/05 ALARM TEST: Ion Detector U S65 20:28:56 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: lst Floor 08/16/05 ALARM TEST RSTRD: lst Floor 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 1st Floor 08/16/05 ALARM TEST RSTRD: lst Floor 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST: Bsmt Planetarium 08/16/05 ALARM TEST RSTRD: Bsmt Planetarium 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: lst Floor 08/16/05 ALARM TEST RSTRD: 08/16/05 ALARM TEST RSTRD: lst Floor 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: 08/16/05 ALARM TEST: 08/16/05 Ion Detector L1S64 20:29:12 Ion Detector L1S63 20:29:16 Ion Detector L1S63 20:29:16 Ion Detector L1S64 20:29:16 Ion Detector L1S65 20:29:16 Ion Detector L1S61 20:29:32 Ion Detector L1S60 20:29:38 Ion Detector L1S59 20:29:48 Ion Detector L1S59 20:29:52 Ion Detector L1S60 20:29:52 Ion Detector L1S61 20:29:52 Manual Station L1M16 20:30:04 Manual Station L1M16 20:30:08 Ion Detector L1S58 20:30:20 Ion Detector L1S58 20:30:30 Manual Station L1M18 20:30:30 Manual Station L1M18 20:30:38 Ion Detector L1S22 20:30:44 Ion Detector L1S22 20:30:56 Ion Detector L1S23 20:31:18 Ion Detector LIS23 20:31:26 Manual Station LlM06 20:31 :46 Manual Station LlM06 20:31:46 Ion Detector L1S57 20:32:28 Manual Station L1M17 20:32:28 Ion Detector L1S57 20:32:28 Manual Station L1M17 20:32:28 Ion Detector L1S56 20 :32:42 Ion Detector L1S55 20:32:56 Ion Detector L1S53 20:33:02 ALARM TEST RSTRD: Ion Detector U S53 20:33:12 08/16/05 ALARM TEST RSTRD: Ion Detector L1S55 20:33:12 08/16/05 ALARM TEST RSTRD: Ion Detector L1S56 20:33:12 08/16/05 ALARM TEST: Ion Detector L1S52 20:33:18 08/16/05 ALARM TEST RSTRD: Ion Detector L1S52 20:33:26 08/16/05 ALARM TEST: Ion Detector L2S37 20:34:20 08/16/05 ALARM TEST: 2nd Floor Manual Station L2M03 20:34:24 08/16/05 ALARM TEST RSTRD: 2nd Floor Manual Station L2M03 20:34:32 08/16/05 ALARM TEST RSTRD: Ion Detector L2S37 20:34:32 08/16/05 ALARM TEST: Ion Detector L2S36 20:34:36 08/16/05 ALARM TEST RSTRD: Ion Detector L2S36 20:34:36 08/16/05 ALARM TEST: Ion Detector L2S35 20:34:46 08/16/05 ALARM TEST RSTRD: Ion Detector L2S35 20:34:52 08/16/05 ALARM TEST: Ion Detector L2S31 20:34:58 08/16/05 ALARM TEST RSTRD: Ion Detector L2S31 20:35:02 08/16/05 ALARM TEST: Ion Detector L2S30 20:35:02 08/16/05 ALARM TEST RSTRD: Ion Detector L2S30 20:35:10 08/16/05 ALARM TEST: 2nd Floor Manual Station L2M05 20:35:12 08/16/05 ALARM TEST RSTRD: 2nd Floor Manual Station L2M05 20:35:18 08/16/05 ALARM TEST: Ion Detector L2S29 20:35:24 08/16/05 ALARM TEST RSTRD: Ion Detector L2S29 20:35:26 08/16/05 ALARM TEST: Ion Detector L2S28 20:35:26 08/16/05 ALARM TEST RSTRD: Ion Detector L2S28 20:35:26 08/16/05 ALARM TEST: Thermal Det L2S41 20:35:40 08/16/05 ALARM TEST: Thermal Det L2S40 20:35:46 08/16/05 ALARM TEST: Thermal Det L2S39 20:35:52 08/16/05 ALARM TEST RSTRD: Thermal Det L2S39 20:35:52 08/16/05 ALARM TEST RSTRD: Thermal Det L2S40 20:35:52 08/16/05 ALARM TEST RSTRD: Thermal Det L2S41 20:35:52 08/16/05 ALARM TEST: Ion Detector L2S27 20:36:08 08/16/05 ALARM TEST RSTRD: Ion Detector L2S27 20:36:12 08/16/05 ALARM TEST: Thermal Det L2S42 20:36:18 08/16/05 ALARM TEST RSTRD: Thermal Det L2S42 20:36:22 08/16/05 ALARM TEST: Ion Detector L2S25 20:36:32 08/16/05 ALARM TEST RSTRD: Ion Detector L2S25 20:36:36 08/16/05 ALARM TEST: Ion Detector L2S26 20:36:38 08/16/05 ALARM TEST RSTRD: Ion Detector L2S26 20:36:40 08/16/05 ALARM TEST: Ion Detector L2S24 20:36:52 08/16/05 ALARM TEST: 2nd Floor Manual Station L2M06 20:36:52 08/16/05 ALARM TEST RSTRD: 2nd Floor Manual Station L2M06 20:37:00 08/16/05 ALARM TEST RSTRD: Ion Detector L2S24 20:37 :02 08/16/05 ALARM TEST: Ion Detector L2S23 20:37:04 08/16/05 ALARM TEST RSTRD: Ion Detector L2S23 20:37:12 08/16/05 ALARM TEST: Ion Detector L2S22 20:37:12 08/16/05 ALARM TEST RSTRD: Ion Detector L2S22 20:37:20 08/16/05 ALARM TEST: Ion Detector L2S38 20:37:32 08/16/05 ALARM TEST RSTRD: Ion Detector L2S38 20:37:32 08/16/05 ALARM TEST: 2nd Floor Manual Station L2M07 20:38:02 08/16/05 ALARM TEST RSTRD: 2nd Floor Manual Station L2M07 20:38:02 08/16/05 ALARM TEST: Ion Detector L2S21 20:38:08 08/16/05 ALARM TEST RSTRD: Ion Detector L2S21 20:38:18 08/16/05 ALARM TEST: Ion Detector L2S20 20:38:22 08/16/05 ALARM TEST RSTRD: Ion Detector L2S20 20:38:22 08/16/05 ALARM TEST: Ion Detector L2S19 20:38:28 08/16/05 ALARM TEST RSTRD: Ion Detector L2S19 20:38 :34 08/16/05 ALARM TEST: Ion Detector L2S18 20:38:52 08/16/05 ALARM TEST RSTRD: Ion Detector L2S18 20:39:00 08/16/05 ALARM TEST: Ion Detector L2S16 20:39:02 08/16/05 ALARM TEST RSTRD: Ion Detector L2S16 20:39:02 08/16/05 ALARM TEST: Ion Detector L2S15 20:39:12 08/16/05 ALARM TEST RSTRD: Ion Detector L2S15 20:39 :18 08/16/05 ALARM TEST: Ion Detector L2S09 20:39:18 08/16/05 ALARM TEST RSTRD: Ion Detector L2S09 20:39:22 08/16/05 ALARM TEST: Ion Detector L2S08 20:39:30 08/16/05 ALARM TEST RSTRD: Ion Detector L2S08 20:39:34 08/16/05 ALARM TEST: Ion Detector L2S07 20:39:38 08/16/05 ALARM TEST RSTRD: Ion Detector L2S07 20:39:46 08/16/05 ALARM TEST: Ion Detector L2S06 20:39:46 08/16/05 ALARM TEST RSTRD: Ion Detector L2S06 20:39:50 08/16/05 ALARM TEST: Ion Detector L2S03 20:39:56 08/16/05 ALARM TEST: 2nd Floor Manual Station L2MO2 20:40:02 08/16/05 ALARM TEST RSTRD: 2nd Floor Manual Station L2MO2 20:40:08 08/16/05 ALARM TEST RSTRD: Ion Detector L2S03 20:40:10 08/16/05 ALARM TEST: Ion Detector L2S02 20 :40:18 08/16/05 ALARM TEST RSTRD: Ion Detector L2S02 20:40:18 08/16/05 ALARM TEST: Ion Detector L2S01 20:40:28 08/16/05 ALARM TEST RSTRD: Ion Detector L2S01 20:40:36 08/16/05 ALARM TEST: 2nd Floor Manual Station L2M01 20:40:36 08/16/05 ALARM TEST RSTRD: 2nd Floor Manual Station L2M01 20:40:36 08/16/05 ALARM TEST: Ion Detector L2S34 20:41:00 08/16/05 ALARM TEST RSTRD: Ion Detector L2S34 20:41:04 08/16/05 ALARM TEST: Ion Detector L2S33 20:41:04 08/16/05 ALARM TEST RSTRD: Ion Detector L2S33 20:41:16 08/16/05 SPVSN TEST: 2nd Floor Supervisory Sw L2M10 20:41:24 08/16/05 SPVSN TEST RSTRD: 2nd Floor Supervisory Sw L2M10 20:41:32 08/16/05 ALARM TEST: Manual Station L2M08 20:42:22 08/16/05 ALARM TEST RSTRD: Manual Station L2M08 20:42 :22 08/16/05 RESET: 20:44:24 08/16/05 End of log. u u U L SYSTEM NOTES: IM98 ELEV 1 RECALL TO MAIN <D> TO BSMT FLOOR TRANSPONDER IM97 ELEV I RECALL TO ALT IM96 ELEV I EQUIP ROOM IMO3 ® TO 1ST FLOOR TRANSPONDER IM95 ELEV 2 RECALL TO MAIN QQ I S13 Q9 IS14 ISIS IM94 ELEV 2 RECALL TO ALT IM93 ELEV 2 EQUIP ROOM TO 120VAC WITH GROUND IMOI ® TO HVAC FOR FAN SHUTDOWN I O I Olsoc (� MO2p so7© ❑ El ® TO PHONE BOARD 3 IS06 ® TO ELEVATOR CONTROLLER FOR FIRE RECALL IM97 ni oz IM96 S05 IS28 ❑ © ❑ IS30° °IS29 IS27 IS31 © O ®IS32 IS12 ❑ IMOB® © ©� IM04 °nx�. "" 11471"Tm IM09❑^ IS08 OO IS09 Q9 ISIO Q9 DD IlIi.s � I ISII OBVt¢ NON#BR ®IMIO IM95 IM07 ❑ IM94 ❑AIM II Ig7q OO IS20 IM93 ISIS °m . IMOS • III'- --VIII MIT M°aflt OEV rttE "BEER t❑s ISI9 QQ ISIB OO ISI 6 IS26 / (* °IS40 ®IS39 o ❑ QIS25 ©IS21 O ❑ TRAN FACP O ❑ ©- IS34 IS366 IIS38 O O O ❑ ❑ ❑ U3 1= IS23 ILJ lO 4 IM06 JBL I O 2 Q 0 >- X: J H O W W Z I- > O W 0 } J Q y D C7 LU J,O z Z Q W X O 0 OC J Of f 1L D_ Q 2 (7 m I N.I .C.E. T. I 'M NELSON FIRE SYSTEMS LEVEL IV CERTI FI[dTION 801 -468 -9300 DRAWN BY. DB DESIGN D BY XXXX DAVID BURNS ARR ROVED BY RS •92309 DATE: REVISED 6/30105 SCALE: I/16' =I' WIRE SCHEDULE RE�''NaT NO- xxxx xxx SYMBOL DESCRIPTION SIZE AWING NAM A ADDRESSABLE LOOP #1 I PAIR #14 TWISTED ROMNEYB.DWG B STROBE /HORN CIRCUIT 2 #14 C ELEVATOR RECALL 2#14 FIRE ALa°n srsren D 24 VDC AU POWER 2 #14 E REMOTE ANNUNCIATOR 2 PAIR #14 TWISTED 6 2#14 F 120 VAC POWER 3#12 G FAN SHUTDOWN 2#14 rlE H PHONE LINES FOR DIALER 8 #22 I FAN /DAMPER RELAY CIRCUIT 2#14 1 � • I o O� la ( IS60 IM16 O• IS59 0 0 2 11 JIF IIIII� 1 V I IS58 p•IS47 ©IS48 1 Lo ISS50 © IS56 SYSTEM NOTES: <X> TO BSMT FLOOR TRANSPONDER 001 -160 -0300 CERTIFICATION TO 1ST FLOOR TRANSPONDER STROBE /HORN CIRCUIT ® TO 12OVAC WITH GROUND 2 #14 ® TO HVAC FOR FAN SHUTDOWN 0 0 2 PAIR #14 TWISTED 6 2#14 SCALE: I/16' =I' ° 6 TO FIRE /SMOKE DAMPERS ADDRESS LABEL CLARIFICATION ADDRESSABLE LOOP NUMBER SENSOR C 'M' MONITOR ) DEVICE NUMBER 1 1 HORN STROBE CIRCUIT NUMBER � RN S NUMBER I -I (DIS54 x 's €5 - ;8 € dgs- _ u! 0 Q 0 N Z H LL, J w ZDO�J V ,' (1 W ,U)5 Z Z Q D m D T- W W W r Of Of ir W a x c� WIRE SCHEDULE NELSON FIRE SYSTEMS N.I.C.E T I. LEVEL V SIZE 001 -160 -0300 CERTIFICATION l PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 014 DRAWN BY DR FAN /DAMPER RELAY CIRCUIT 2 #14 D BY: XX%% DAVID BURNS 2#14 APPROV BY: DS GATE: REVISED 6130/05 #92309 2 PAIR #14 TWISTED 6 2#14 SCALE: I/16' =I' 120 VAC POWER 3 #12 P ROJ E CT N O: XX%% R NO un WIRE SCHEDULE SYMBOL DESCRIPTION SIZE A ADDRESSABLE LOOP 61 l PAIR #14 TWISTED B STROBE /HORN CIRCUIT 2 014 C FAN /DAMPER RELAY CIRCUIT 2 #14 D 24 VDC AU% POWER 2#14 E REMOTE ANNUNCIATOR 2 PAIR #14 TWISTED 6 2#14 F 120 VAC POWER 3 #12 G FAN SHUTDOWN 2#14 H PHONE LINES FOR DIALER 8 #22 DRAWING NAME: ROMNEYL-O FIRE ALARM SYSTEM PAGE: SYSTEM NOTES: Ql TO 1ST FLOOR TRANSPONDER TO 2ND FLOOR TRANSPONDER TO 120VAC WITH GROUND = a� - ©2SIO ® TO HVAC FOR FAN SHUTDOWN pzsn TO FIRE /SMOKE DAMPERS 2s12 21102 O' 1101 _ D" 02502 02503 02SO6 02SO7 (D2508 ©2509 _ 2501 © ® SI O 2504 2505 2134 250+15 ® O O 2 Q D 514 — OO ADDRESS LABEL CLARIFICATION } y- 2533 Imo�II LOOP NUMBER ~ O W O SENSOR ('M' MONITOR) N Z_ F J 2SO16 DEVICE NUMBER W O u) j < 02117 , y --ADDRESSABLE >J(n J 2MO9 2532 STROBE Z CO K p O CIRCUIT NUMBER >- Z O_ 21110 Z Z J O O e FHORN DEVICE NUMBER z QU On 2 2 r ©2530 © 1104 ©2535 OO 2536 © 21103 O p W ( W 2531 2137 2518 } X 0! x 212 I �(''� O Q W O .8 OO2S44 2545 21108. 0! �+ d 2543 2546 m 0 O 2WE 219 PENTHOUSE 2S 2 2SO39 2538 O NFS N.I. C.E. T. NELSON FIRE SYSTEMS LEVEL IV 001- 460 -0300 2y O CERTIFICATION 2142 o AWN Y. DB DESIGNED BY XXX% APPROVED By RS $2D DA *9230 DATE: REVISED 6 /30 /OS '-L o SCALE. 1 116' =I' PROJE NO XXXX REV NO XX %% ©2526 OZS25 02524 02523 2S2n ROMNEY2.DWG WIRE SCHEDULE DRAWI N 02521 SYMBOL DESCRIPTION SIZE r 21106 r 21107 A ADDRESSABLE LOOP kl 1 PAIR 014 TWISTED B STROBE /HDRN CIRCUIT 2414 FIRE aLaRn srsiEn C FAN /DAMPER RELAY CIRCUIT 2414 D 24 VDC AU% POWER 2414 E REMOTE ANNUNCIATOR 2 PAIR 414 TWISTED, 4 #14 F 120 VAC POWER 3 #12 [:F A-2-01 G FAN SHUTDOWN 2 #14 M PHONE LINES FOR DIALER 8#22 Contractor's Material and Test Certificate for Above round Pipin PROCEDURE Upon completion of work, inspection and tests shall be made by the contractor's representative and witnessed by the owner's representative. AD defects shall be corrected and system left in service before contractor's personnel finally leave the job. A certificate shall be filled out and signed by both representatives. Copies shall be prepared for approving authorities, owners, and contractor. It is understood the owner's representative's signature In no way prejudices any claim against contractor for faulty material, poor workmanship, or failure to comply with approving authority's requirements or local ordinances. PROPERTY NAME BYU -Idaho Romney Building Remodel DATE 6/6/05 PROPERTY ADDRESS Rexburg Idaho 83440 ACCEPTED BY APPROVING AUTHORITIES (NAMES) Fire Marshal ADDRESS Rexburg, Idaho PLANS INSTALLATION CONFORMS TO ACCEPTED PLANS • ®YES ❑ NO EQUIPMENT USED IS APPROVED ® YES ❑ NO IF NO, EXPLAIN DEVIATIONS HAS PERSON IN CHARGE OF FIRE EQUIPMENT BEEN INSTRUCTED AS TO LOCATION OF ® YES ❑ NO CONTROL VALVES AND CARE AND MAINTENANCE OF THIS NEW EQUIPMENT? IF NO, EXPLAIN INSTRUCTIONS HAVE COPIES OF THE FOLLOWING BEEN LEFT ON THE PREMISES: ❑ YES 0 NO I. SYSTEM COMPONENTS INSTRUCTIONS ❑ YES ❑ NO 2. CARE AND MAINTENANCE INSTRUCTIONS ❑ YES NA ❑ NO 3: NFPA 25 ❑ YES ❑ NO LOCATION OF SYSTEM SUPPLIES BUILDINGS remodel YEAR OF ORIFICE TEMPERATURE MAKE MODEL MANUFACTURE SIZE QUANTITY RATING Reliable F1FR Pend.1 2005 1/2" 280 155 RPRIN q GRC Rel 7 ahl P F1 F7? TTr, �nnc - , i.,.. R eli able R U . 2 -i 6UU PIPE AND FITTINGS TYPE OF PIPE Domestic SChed . 40 TYPE OF FITTINGS th=eadPd and ar,apyp-d ALARM VALVE OR FLOW ALARM DEVICE MAXIMUM TIME TO OPERATE THROUGH TEST CONNECTION MAKE MODEL MIN. SEC. INDICATOR DRY VALVE MNA� O.O.D. DRY PIPE OPERATING TEST _ MODEL SERIAL NO. MAKE MODEL SERIAL NO. TO TRIP UGH TEST CONNECTION' WATER PRESSURE AIR PRESSURE TRIP POINT R PRESSURE TIME WATER . REACHED TEST OUTLET` ALARM OPERATED PROPERLY MIN. SEC. PSI PSI PSI MIN. SEC. YES INO WITHOUT O.O.D. WITH Q.O.D. IF NO, EXPLAIN NA DELUGE & PPEACTION IS VALVES OPERATION NA ❑ PNEUMATIC ❑ ELECTRIC ❑ HYDRAULIC PIPE SUPERVISED ❑ YES ❑ NO DETECTING MEDIA SUPERVISED ❑ YES ❑ NO DOES VALVE OPERATE FROM THE MANUAL TRIP AND /OR REMOTE CONTROL STATIONS C1 YES [3 NO THERE AN ACCESSIBLE FACILITY IN EACH CIRCUIT FOR TESTING ❑ YES ❑ NO IF NO, EXPLAIN MAKE MODEL DOES EACH CIRCUIT OPERATE SUPERVISION LOSS ALARM DOES EACH CIRCUIT OPERATE VALVE RELEASE MAXIMUM TIME TO OPERATE RELEASE YES NO YES NO MIN. SEC. NA x PRESSURE REDUCING LOCATION & FLOOR MAKE & MODEL SETTING STATIC PRESSURE RESIDUAL PRESSURE FLOWING FLOW RATE VALVE TEST NA INLET (PSI) OUTLET (PSI) INLET (PSI) OUTLET (PSI) FLOW (GPM) HYDROSTATIC: Hydrostatic tests shall be made at not less than 200 psi (13.6 bars) for two hours or 50 psi (3.4 bars) above static pressure in excess of 150 psi (10.2 bars) for two hours. Differential dry -pipe valve clappers shall be left open during test to prevent TEST damage. All aboveground piping leakage shall be stopped. DESCRIPTION PNEUMATIC: Establish 40 psi (2.7 bars) air pressure and measure drop, which shall not exceed 1 -1/2 psi (0.1 bars) In 24 hours. Test pressure tanks at normal water level and air pressure and measure air pressure drop, which shall not exceed 1 -1/2 psi (0.1 v bars) in 24 hours. PIPING HYDROSTATICALLY TESTED AT TZ PSI FOR 'i— HRS. IF NO, STATE REASON DRY PIPING PNEUMATICALLY TESTED ❑ YES ❑ NO Nom -� EQUIPMENT OPERATES PROPERLY ® YES ❑ NO DO YOU CERTIFY AS THE SPRINKLER CONTRACTOR THAT ADDITIVES AND CORROSIVE CHEMICALS, SODIUM SILICATE OR DERIVATIVES OF SODIUM SILICATE, BRINE, OR OTHER CORROSIVE CHEMICALS WERE NOT USED FOR TESTING SYSTEMS OR STOPPING LEAKS? YES ❑ NO TESTS DRAIN READING OF GAUGE LOCATED NEAR W TER RESIDUAL PRESSURE WITH VALVE IN TEST TEST SUPPLY TEST CONNECTION: PSI CONNECTION OPEN WIDE 21 PSI UNDERGROUND MAINS AND LEAD IN CONNECTIONS TO SYSTEM RISERS FLUSHED BEFORE CONNECTION MADE TO SPRINKLER PIPING. VERIFIED BY COPY OF THE U FORM NO. 85B NA ❑ YES ❑ NO OTHER EXPLAIN FLUSHED BY INSTALLER OF UNDERGROUND SPRINKLER PIPING ❑ YES ❑ NO axisti system S U p 1 IF POWDER DRIVEN FASTENERS ARE USED IN CONCRETE, HAS REPRESENTATIVE IF NO, EXPLAIN SAMPLE TESTING BEEN SATISFACTORILY COMPLETED? NA ❑ YES ❑ NO NA BLANKTESTING GASKETS .NUMBER USED none LC�AATIONS N REMOVED WELDED PIPING ❑ YES ® NO IF YES... DO YOU CERTIFY AS THE SPRINKLER CONTRACTOR THAT WELDING PROCEDURES COMPLY WITH THE REQUIREMENTS OF AT LEAST AWS D10.9, LEVEL AR -3? ❑ YES ❑ NO WELDING DO YOU CERTIFY THAT THE WELDING WAS PERFORMED BY WELDERS QUALIFIED IN NA COMPLIANCE WITH THE REQUIREMENTS OF AT LEAST AW9 D10.9, LEVEL AR -3? ❑ YES ❑ NO DO YOU CERTIFY THAT THE WELDING WAS CARRIED OUT IN COMPLIANCE WITH A DOCUMENTED QUALITY CONTROL PROCEDURE TO INSURE THAT ALL DISCS ARE RETRIEVED, THAT OPENINGS IN PIPING ARE SMOOTH, THAT SLAG AND OTHER WELDING RESIDUE ARE NA REMOVED, AND THAT THE INTERNAL DIAMETERS OF PIPING ARE NOT PENETRATED? ❑ YES ❑ NO CUTOUTS DO YOU CERTIFY THAT YOU HAVE A CONTROL FEATURE TO ENSURE THAT ALL (DISCS) CUTOUTS (DISCS) ARE RETRIEVED? ® YES ❑ NO HYDRAULIC DATA NAMEPLATE PROVIDED 19 YES ❑ NO IF NO, EXPLAIN NAMEPLATE. REMARKS DATE LEFT IN SERVICE WITH ALL NTROL VALVES OPEN: NAME OF SPRINKLER CON ACT R 3 -D Fire Protection, I TESTS WITNESSED BY SIGNATURES FOR PROPERTY OWNER (SIGNED) TITLE DA 2 Aae=Q FOR PRINKLER CO ACTOR (SIGNED) TITLE DATE ADDITIONAL EXPLANATIONS AND NOTES " FLf l _ rb AS4 nprAp r 26 Y 2005 :11 :11 AM MARCO ELECTRIC sustems 801- 468 -83(N - 5534 P - 3 F- 1 A2&2 "AL Nelson systems FIRE CONTROL INSTRUMENTS - GAMEWELL - RADIONICS 1481. South Major Street Salt Lake City, Utah 84115 (801) 468 -8300 FAX (801) 468 -8303 April 26, 2005 To: Arco Electric Re: HYU -Idaho Romney Science Building Nelson Fire Systems is providing fire alarm system equipment through Arco Electric and will submit drawings to the City of Rexburg dire inspector Chris Huskinson for approval. Steve Child Nelson Fare systems April 26, 2005 To: BYU -IDAHO Re: BYU -IDAHO ROMNEY SCIENCE BUILDING Arco Electric is providing the installation of fire alarm system equipment and will submit drawings to the City of Rexburg fire inspector Chris Huskinson for approval onnie Ricks S Arco Electric, Inc. NELSON FIRE SYSTEMS 1481 SOUTH MAJOR STREET SALT LAKE CITY, UT 84115 PHONE: (801)468 -8300 FAX:(801)468 -8305 E -MAIL: officennelsonfire.com LETTER OF TRANSMITTAL DATE: April 7, 2005 TO: Madison County Fire Marshal ATTN: Chris Huskinson FROM: David Burns /Nelson Fire Systems RE: BYU I Romney Bldg plan review _FOR YOUR INFORMATION _QUOTE "l _INQUIRY" _AS REQUESTED _ORDER _OTHER _FOR OUR INFORMATION X.FOR REVIEW AND APPROVAL COMMENTS: CLV- 's , `` n o f -- rev rrw o+n A C n✓Nac n �r o nPNV�A y� ��F F irms cl ^rw� 975 de ri^ `+� the Ally On September 6, 2005, I called the factory in Minnesota to inquire about the NFPA classification. I was told the following: 1. NFPA 45 addresses the liner materials for the hood, 2. If liner materials are rated lower than 25, NFPA is satisfied, 3. UL Listing 1805, verifies that the liner material is less than 25, 4. Fisher Hamilton uses materials that are rated less than 25 as liner materials, 5. Each hood has a UL Listing of 1805, 6. The UL listing was included in the publication submitted last Friday. Hence the requirements of NFPA are met and the publication submitted last week contains the required data. For additional information, please call Fisher Hamilton @ 920 -793 -1121 and ask for Tom. Laboratory Fume Hoods General Purpose Fume Hoods SafeAire® Restricted Bypass Superstructure For Use With Constant Volume or Varlable Air Volume Exhaust Systems • Designed for installation on 30" (76.2 cm) to 42" (106.7 cm) deep work surface. • Recommended for-use with an Independent VAV controller (supplied by others). • Also recommended for use with horizontal or combination sashes used In conjunction with VAV or constant volume systems. • Incorporates a 2".(5.1 cm) bypass above sash when closed to minimize leakage at minimum flow. • Vertical sash is full -view, laminated safety glass with full -width recessed pull. • 28 -1/2" (72.4 cm) high opening for set -up. • Two -tube fluorescent light fixture, light switch and two duplex 120 VAC receptacles. • 96" (243.8 cm) wide units have two light fixtures. in Plugged holes for future service fixture installation Stan n both posts. • Shipped assembled. ■ See pages 22 -23 for additional product features c0nmon to all SafeAire fume hoods. %Y vw Z (� Base Product Numb 31 -1/4" Depth W 36" Depth 37.1/4" Depth 43.1 4 Deptt Hood Size Collar Size CFM SP emote 36" Remote Remote Re 91. 4cm) 15.2 X 22.9cm Fixed Baffle Fixed Baffle Fixed Battle Fixed Bi (121.9cm) Width Baffle Adjustment Baffle Adjustment Baffle Adjustment Baffle Adju " (91.4 cm) 54 7 0 541-768 60L766P 60L768P 1250 .27 785 .13 48" 121.9 cm) 1 541-769 541-771 601-7691' 601-7711' 611-7691' 61L7711? 621-7691' 621- "(152.4 cm) 541-774 60L772P 60L774P 61L772P 611_774P 621-7721' 62L 2 182.9 cm) 54L775 541-777 60L775P 60L777P 611.775P 611_7771 621-7751) 62L 96 "(243.8 cm) 54L 78 54L780 60L778P 60L780P 1 611-7781' 611-780P 621.778P 621 I 0--mm O U G e?O G G f7 Exhaust Parameters 100 FPM 100 FPM 28.1/2"" 1e "" Sash Opening Sash Opening Hood Size Collar Size CFM SP CFM SP 36" 6"X 9 520 .22 360 .12 91. 4cm) 15.2 X 22.9cm .48" 760 .18 485 .09 (121.9cm) (15.2 X 38.1 cm 660 .09 2 ' 10 .18 (152.4cm 5 X 8,4 6 X 23" 1250 .27 785 .13 182,9cm) (15.2 X 38.1 cm) 1710 .26 9 " 1081 .09 (243.8cm) (15.2 X 76.2cm) See page 12 for operating Instructions. "28 -1/2" opening Is for set -up only; operating position is an 18" opening. 1 � 1 I I Liner Materials - Insert suffix in 7th digit of product number: X P - Polyresin • R - Resistc Roc (31 -1 /4" depth only) • E - Resisto Roc/White Enamel (31 -114" depth only) ❑ S - Stainless Steel (31 -1/4" depth only) (Not available on 36" wide hoods) • Y - Polypropylene (31 -1/4" depth only) • C - PVC (31 -1/4" depth only) Sash Options - insert suffix in 8th digit of product number: Sash Type Suffix X Standard o ❑ Combination B ❑ Framed F See page 19 for additional sash Information. NOTE: 36" wide hoods are not available with optional sashes. Side Panels - Insert suffix In 9th digit of product number: ❑ U - Without side panels O L- Left side only ❑ R - Right side only J(B - Both sides Other Informatlon -To complete the fume hood assembly, refer to the sections listed below: • Base Cabinets (pages 94 -98) • Fixtures (pages 72 -84) • Alarms (pages 85 -87) • Work Surfaces, Cupsinks and Traps (pages 88 -93) ❑ Ceiling /Blower Enclosures (pages 99 -106) 0 Accessories (pages 107 -112) Dimensions are nominal and Illustrations and specifications are based on the latest product Information available at the time of publication, © Fisher Hamilton 24 The right Is reserved to make changes at any time without notice. Laboratory Fume Hoods Technical Information Specifications Part 1— General 1.01 Fume Hood General Design Requirements A. Negative variations of face velocity shall not exceed 20% of the average face velocity. B. Average illumination of work area: Minimum 80 footcandles. C. Fume hood shall be designed to minimize static pressure loss with adequate slot area and rectangular exhaust collar configuration. Maximum static pressure loss readings shall not exceed the following maximum with sash in full open position: Face Velocity: 100 FPM Measured S.P.L. (w.g.):.30 inches D. Maximum variation in exhaust CFM, static pressure and average face velocity as a result of baffle adjustment shall not exceed 5% for any baffle position. E. Noise Criteria: Test data of octave band analysis verifying hood is capable of a 50 NC value when connected to a 50 NC HVAC source. Reading taken 3' in front of open sash at 100 FPM face velocity. F Hood must be UL 1805 labeled. 1.02 Linear Surface Finish Performance Requirements (At specifier's option, Insert applicable performance requirements for type E, R, P or S liners.) 1.03 Submittals A. Test, reports: Submit test reports on each size and type of hood verifying conformance to test performance specified. 1.04 Quality Assurance A. Single source responsibility: Fume hood casework, work surfaces, and other laboratory equipment and accessories shall be manufactured or furnished by a single laboratory furniture company. 1. Five years or more experience in manufacture of laboratory fume hoods and equipment of type specified. 2. UL 1805 labeled fume hoods. Part 2 Products 2.01 Manufacturer A. Casework and equipment manufacturer: Fisher Hamilton L.L.C., 1316 -18th Street, Two Rivers, WI 54241 2.02 Fume Hood Materials A. Steel: High quality, cold rolled, mild steel meeting requirements of ASTM A366. B. Stainless Steel: Type 304. C. Ceiling enclosure panels: Minimum 18 gauge steel, upward directional louvers. D. Bypass grills: Low resistant type, 18 gauge steel, upward directional louvers. E. Safety glass: 7/32" thick laminated safety glass. F. Sash cables: Stainless Steel, uncoated, 1/8" diameter military spec. quality (MI: WW 834420D -3). G. Sash guides: Corrosion- resistant poly -vinyl chloride. H. Pulley assembly for sash cable: 2" diameter, zinc dichromate finish, ball bearing type, with cable retaining device. (Nylon tire not acceptable.) I. Sash Pull: Full width corroslon- resistant plastic, stainless steel or steel with chemical - resistant powder coating. J. Gaskets: 70 durometer PVC for interior access panels. Gasket Interior access panels to eliminate air leakage and to retain liquids inside hood. K. Fasteners: 1. Interior fastening devices concealed. Exposed screws not acceptable. 2. Exterior panel member fastening devices to be corrosion - resistant, non - metallic material. Exposed screws not acceptable. L. Interior Liners: The liner consists of all interior surfaces, including sides, back, top, and baffles. Not all liner materials are available for every fume hood model; refer to the product information page for options applicable to a specific hood. All liner materials have low flame ratings and meet NFPA -45 standards. Descriptions of each follow be�ma er y a r , e w 1 P The preferred fume hood e polyresin is apress - molded, heat - converted catalyzed glass polyester sheet. A premium quality material, polyresin is excellent for use in high -abuse areas because of its excellent corrosion resistance. With a working temperature of 160 °C, polyresin is flame- retardant and self - extinguishing. Scratches are less obvious because the white color extends throughout the material thickness. 2. ik4Istc�ac (R) — The most economical fume hood liner material, Reslsto Roc is a chemically resistant mixture of Portland cement and non - asbestos fibers formed under pressure Into dense, light gray, 1 /4 11 (0.64 cm) thick monolithic sheets. Low light reflectivity Is a disadvantage. A reliable material under normal and light -duty use, Reslsto Roc usually Is specified when budgets are limited. Ell 142 Dimensions are nominal and Illustrations and specifications are based on the latest product Information available at the time of publication. /17-N Fisher Hamilton The right Is reserved to make changes at any time without notice. Laboratory Fume Hoods Technical information ® 3, Res' Roc with White Enamel Finish (E) — R Isto oc is covered and sealed with a chemical fume and splash- resistant enamel finish to provide a brighter, more comfortable working ar a enamel finish is also easier to clean. 4. St ess Steel (S) — All Interior liner surfaces arld ba les are fabricated of 16 gauge, Type 304 stainless steel with a number 4 finish. The liner top is spot - welded to the sides, and the dished work surface Is attached and caulked to the sides and back. Rear vertical corners have a 1/2" (1.3 cm) ra ius ei easy cleanup. 5. St less Steel (K) — Standard without interior a ces panels, Type K interiors are suitable for radioisotope and perchloric acid fume hoods. Made of 16 gauge Type 304 stainless steel with a number 4 finish, these interiors are welded, ground and polished to eliminate any seams or cracks where contaminants might collect. This fully coved, seamless interior simplifies cleanup and d ntamination procedures. 6. Po ropylene (Y) — White polypropylene skin b nde to a 1/4" (0,64 cm) thick Resisto Roc board, Provides excellent acids and solvent resistance while providing good light levels. Smooth surface for easy cleaning. Excellent alternative for the traditional painted rock (Type E) ® liner with superior chemical resistance at com arable costs. 7. FXC (C) —White in color, 1/4" (0,64 cm) thick /Typb, 1, Grade 1 with flame rating of less than 25. This liner is an excellent choice for highly corrosive applications. 2.03 Fume Hood Construction A. Superstructure: Rigid, self - supporting assembly of double wall construction, maximum 4 -7/8" thick. Panels must be attached to a full frame construction, minimum 14 gauge galvanized members, Panels and brackets attached attached to eliminate screw heads and metallic bracketry from hood Interior. B. Exhaust'outlet: Rectangular with ends radlused. C. Access opening perimeter: Air foil or streamlined shape with all right angle corners radlused or, angled. Bottom foil shall provide access areas for electrical cords. D. Fume hood sash: Full view type with clear, unobstructed, side -to -side view of fume hood interior and service fixture connections. 1. Counterbalance system: Single weight, pulley, cable, counter balance system. Maximum 7 lbs. pull required to raise or lower sash throughout its full length of travel. Life cycle test 100 lb., sash and weight to 100,000 cycles without sign of failure, Provide Independent test data, E. Fume hood liner: Polyresin (designated by suffix "P "). Reinforced polyester panel; smooth finish and white color in final appearance. Flexural strength: 14,000 psi. Flame spread: 25 or less per U.L. 723 and ASTM E84 -80, F Baffles: Provide exhaust slots full height on vertical sides of the baffle with upper and lower slots adjustable. Minimum depth of 19" for interior work space Is required at the extreme upper portion of the fume hood to provide maximum interior work area. All baffle supports /brackets to be non - metallic. G. Electrical Services: Three wire grounding type receptacles rated at 120 VAC at 20 amperes. H. Work surfaces: 1 -1/4" thick surface, dished a nominal 1/2" to contain spills. 2.04 Restricted Bypass Fume Hoods A. Bypass shall be sufficient In size to allow 25% flow with sash closed. Bypass must be achieved through grlll or louver on face of front lintel panel. 2.05 Bypass Type Fume Hoods A. Bypass shall be sufficient In size to allow sash as it is closed to provide no more than four times Increase In face velocity as measured when the sash was full open. 2.06 Metal Finish A. Preparation: Spray clean metal with a heated cleaner/ phosphate solution, pretreat with iron phosphate spray, .water rinse, and neutral final seal. B. Application: Electrostatically apply urethane powder coat of selected color and bake in controlled high temperature oven. 1. Exterior and interior surfaces exposed to view 1.5 mil., average and 1.2 mil., minimum coverage. 2.07 Source Quality Control Testing of Fume Hoods A. Evaluation of manufacturer's standard product shall take place In manufacturer's own test facility, with testing personnel, samples, apparatus, Instruments, and test materials supplied by the manufacturer at no cost to the Owner. B. Hood shall achieve a rating of 4.0 AM 0.05 PPM or better when subjected to ASHRAE /110 -1995 test procedures. 2.08 Field Quality Control Testing'of Fume Hoods A. Field testing requirements: 1. Perform tests after installation Is complete, the building ventilation system has been balanced, all connections have been made, and written verification has been submitted that the above conditions have been met. B. Test procedure — SEFA 1 -1996. Fisher Hamilton DlmonsIons are nominal and Illustrations and specifications are based on the latest produot Information available at the time of publicaflon. The right Is reserved to make changes at any time without notice. 143 Sep 06 2005 3:07PM Fisher Hamilton LLC 920- 794 -6632 p.2 Laboratory Foods and Cabinets UL 9805 scope 1.1 These requirements apply to laboratory hoods and cabinets in'bnded to Provide an enclosed countertop vpmrlc arse vWth exhaust for oontalnment and nsrrwval of vepora, mists, gassy, and pwiculate matter from the Work area. 1.2 These requirernerrta do not cover ductless hoods (i.e., hoods that recirculate air back to room environment after filtering) or glovebom. 1.3 These products are Investigated for fire, elecbical and mechanical risk of In)urbs only. A limited number of tests are conducted for minimal air flow capal5Iiity. it remains for the user to determine that the hood porfarmance, as omnfirmsd by the requirements in this standard, meets the needs of the user, These needs depend on several factors, Including Installation Whit pmper, exhaust equipment, location within the room, the type of material being handled and the tr athod In which the mabrial is being handled, Alan, $ubbOltr for use with perchloric acid or rsid101001061 materials is not Investigated. 1.4 Requirements for the in011aflon of laboratory hoods are Included In the Standarcl for Firs Protection fcr Laboratories Using Chemioals, NFPA 46 and In the Method of Testing Pertormanoe of Laboratory Fume Hoods, ASHRAM 110, 1.0 Requirements 1!or the Installation of piped gas systems are contained In the lbllowing standards: 1. National Fuel Gas Code, NFPA 54, 2. Liquef9ed PetrdeuM Gas Code, NFPA 58, 3. Gaseous Hydrogen System at Consumer Sites, NFPA 80A, 4. Uesign aW Installation of Oxygen -FUSI Gas Systems tar Welding, Cutling, and Ailled Processes, NFPA 61. lVJark�icoA \)BQB NEGtI�SNEEil78Q8 SK y 1p6Ewq, 41412055 4N47 PM, dib FAgvwmN Co. / gwM _ v �N w w �♦ pp X 11 1ii _ �� �.'v I .E. .. � ^ � eel�f— 'a —m ii�I �����1�1� -,i �. I � �.,� ih ® � � wl 9= al mill ®a �.. �s � � V III � • i� fi�� I� - ���3 1•`•e - . •, �Ci �� ®� .- �s_� � ,lli_��_Il� �- _:j �. .' �L� —. ,gym ..I �_ 1 ' • i •`IJ' T j 1 ® ��n11���1A1����I '•Il�� ��!I — � � / OII'p /--III CO�I�IRI��NN ^ � • �m ® � � �� !n • O � ® a '�� a ��►w1Ya�l i eql 1 � e ��� i�r I1.'"'•I:�� �' Ili:. ilf®dl"�Iii®.�;'1 »� tlg� I�1 " � r I . ��, ( � 1��� d 1111 I 1 � • IY4. I�����I� � e•■ � Li: � �1 EI Il ly I �� i1�1 ����", a l �;iir, ! I'I• • 0 i i �`�� I:/ ` • : J;j 1;�= �.I��;�_, �;� I . ,o � � LI�III�? �l��5 !�! 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C, � c� �" (� q �j � � �7 HA � O � � A L1 O a 0 a e ° O a ^' A 0 a °• a A 0 N O N O Q N g ? , m /Z� 7tl� ��-1 2 0 � � l J � Z Z$ Z I�Z Z z N m 7C N 7C b N N N N b 7C :�1 N b N " ' 7C b N N N N � N Z qt ff�� D $ 77000 >- " rn A b .- b y p- F b Q m b m d y b b rn b z O tn0 Z m .L A p A �j A p A ~ A Fn � A r�i1 all o mMZ 8 g8 € M o ROMNEY BUILDING REMODEL o 0 2 m _°� r- m 1 CONSTRUCTION DOCUMENTS F �� • r FFKR _ Let ter of Transmittal A r �c hh i t e c t s Bogue Building 730 Pacific Avenue Salt Lake City, UT 84104 801.521.6186 t 801.539.1916 f To: V /li (- ��Jaw, We are sending to you: ❑ Attached ❑ Under separate cover The following items via: — Date: AP o f Copies Date Number Descrintinn merle 1 i -_ Remarks: �'' I V r Copies: / /, - - -- /� /' /� Signed: - - �� /�ri / 7 ��� .1 / ✓i �� Air 1 / merle 1 i -_ Remarks: �'' I V r Copies: / /, - - -- /� /' /� Signed: - - �� /�ri Mar. 14. 2005 2.25PM Review Action No. 0522 P. 2 P.0 Box 280 19 E Mein BL rwburp. Idaho $3440 Phone (208) 3593020 Fax (208) 350 -30?.2 March 8, 2005 Permit Number: 05 00006 Project Name: Romney Bldg Add Project Type: Commercial Addition Review Item A�ulnid fen A�roval d S U N Water and Sever Service All water and sewer lines are required to be 02/04/2005 tested and Inspected before they are covered. Plumbing Potable Water Review All water piping is required to be Installed 02/04/2005 according to the Uniform Plumbing Code. Plumbing Storm Drain Review All storm drain piping is required to be tested - 02/04005 and Inspected before covering Plumbing Sewer Drain Review All drain lines are required to be installed 02/04/2005 according to the Uniform Plumbing Code. Specail systems are required to have the Plumbing Inspectors approval before installation. Inrtior Environment A I wall and ceiling finishes must meet the 03/08/2005 requirements of Section 803 of the IBC. Building Code Fire Compliance Review Meets requirements of the 2003 International 03/08/2005 Building Code (IBC). f�4 Accessibility Review Th m going down to the planetarium is ,� ntffiQl on page A-401 as having a 1:20 slope. S The cut through of the same ramp identifies a slope greater than 1:20. If the ramp has greater than a 1:20 slope, then it will need to be built to aoessibie standards with a minimum 60" n , square landing at turns, intermediate landing, / fit handrails etc. The eccessiblo bathroom does not meet the requirements of the code. The sink Is located in the 60" clearance required in ANSI A117.1 section 604.3.1. Make provisions f'�0 for handicapped bathroom on the second level. Structural Review The plans Identify special inspections br concrete, high strength bolting and welding. A meeting ith the Special pedal Inspections Firm, the Contractor and the Building Department must be set up prior to beginning construction. Energy Conservation Compliance Review Please provide energy code review for lighting / f G and mechanical as per the 2003 international C �• X7 �e� IV, Mar. 14, 2005 2: 26PM Cr N OF -BUJ G TqFF AMl1tr," PMW COAANtMT Review Action No. 0522 P.0 Box 280 18 EMahSL Raxbwa, Idaho 83440 Phone (208) 358-3020 Fox (M) 35"022 March 8, 2005 Permit Number: 05 00005 Project. Name: Romney Bldg Add Project Type Commercial Additlon Review ltem Asdions Reat�lra►d for Aeoroval ��oroved Energy Conservation Code. C', Mechanical Review The Intemational Code Council performed the mechanical inspection for this review. The findings are attached to the back of this document. Please address all Issues outlined I in the document. Also, please submit sizing t\ and design calulation (as per ACCA manual J and D, 8th edition) for the WAC. Q v Ex�ing Review V .` Past occupancy load 'n Chemistry Tabs and in 9' WCturs ffffiWaFso provide exit signs at doors 6 1 and emergency exit in these I htin . Doors V' 1 9 9 rooms must swing in the direction of travel. Parcel Vs RMN30207351 Mar. 14. 2005 2:26PM No. 0522 P. 4 CITY Of P.0 Box 280 REXBURG 19 E Main 8t VMWASFMW CO MNOM RtcbwV, Idaho 83440 Phow (208) 35x3020 Review Action Fax (208) 359-3022 March 8, 2005 Permit 05 0 c Number: 0006 n Pro Name: Romney Bldg Add Protect Type Commercial Addition RTAOW Item Actions Rannired for ARoroval ARp Required Fire Flow FIRE FLOW REQUIRED FOR 90,891 01/12/2005 SQUARE FOOT BUILDING WITH FULL FIRE SPRINKLERS TO BE APPROXIMATELY 1800 GPM/TWO HOURS. WatsrSupply 1800 GPMlrWO HOURS WITH FULLY 01/12005 SPRINKLERED BUILDING. Fire Extinguishers FIRE EXTINGUISHERS TO BE PROVIDED 01112005 WITHIN TRAVEL DISTANCES THROUGHOUT OCCUPANCY. Standpipes NOT REQUIRED. 01/12/2006 Fire Access Roads nn PAGE A-200 IN SUBMITTED PLANS INDICATE U C BUILDING IS OVER THIRTY FEET IN HEIGHT. - -m�1� AS BUILDING EXCEEDS THIS MINIMUM HEIGHT SECTION D10S OF THE 2003 IFC SHALL APPLY. Automatlo Fire Extinguishing Systems PLANS INDICATE BUILDING TO BE FULLY FIRE SPRINKLERED. PLANS TO BE SUBMITTED AND APPROVED OR A k CERTIFIED LETTER OF INTENT FROM CONTRACTOR PRIOR TO A BUILDING PERMIT BEING ISSUED. Commercial Cooking SEVERAL AREAS IN BUILDING INDICATE �G LABORATORY SETTINGS WITH WGiAUST }' HOODS. PLEASE CONTACT THE FIRE DEPARTMENT WITH MORE COMPLETE INFORMATION. Alarm Systems —FIRE ALARM SYSTEM REQUIRED, PLEASE O G� FROM SUBMI CE LETTER OF INTENT CONTRACTOR OR ALL DRAWINGS, SUBMITTALS, ETC. FROM CERTIFIED CONTRACTOR FOR REVIEW PRIOR TO A BUILDING PERMIT BEING ISSUED. A4'7vL — MODIFICATIONS WILL BE REQUIRED TO EXISTING FIRE ALARM PLANS, PLEASES • - CO/ 64? Mar. 14. 2005 2: 27PM CITY OF fW MBURG AMA rmsFMU.YC *V.N M No. 0522 P. 5 PO Box 280 10 L Main St Ruburg, Who 8340 Phone (206) 3593020 Review Action Fax (20 Wg -$022 March 8, 2005 Permit Number. 05 00006 Project Name: Romney Bldg Add Project Type: Commercial Addition Review Item Ad[ fts Rewired fed AR ron vai CONTACT CHRIS TO REVIEW ASAP. Other Comments A LOCK BOX IS REQUIRED FOR THIS OCCUPANCY. PLEASE CONTACT THE FIRE DEPARTMENT FOR AUTHORIZATION FORMS. --NFPA 45, FIRE PROTECTION FOR LABORATORIES, SHALL APPLY TO pf SPECIFIC AREAS OF THIS BUILDING. PLEASE REFERENCE STANDARD AND ADDRESS. Parcel Va RP06N39B207351 --_ -. _ _ -___- --_ . | ' � i�- ~- -~------ -- -- -------' -- - -- -- ___~__� -_� -_ _--____-- -- _- -__- -.�r- - .~==��=�_� - - � =====�==-�� `-' '�=�_� �_ J / | ________ __ __ } ` _ _ ___ . Permit Number Lighting Compliance Certificate 2001 IECC COMcheck EZ Software Version 2.4 Release 2b Data filename: C:\Program Files \Check \COMcheck- EZ\BYU -I Romney.cck Section 1: Project Information Project Name: Designer /Contractor: Document Author: Notes: Section 2: General Information Building Use Description by. Building T BYU -I Romney Building Remodel Payne Engineering Inc. Mike Payne March 24, 2005 Whole Building Type Checked By/Date School Floor Area 34500 Project Description (check one): _ New Construction _ Addition Alteration _ Unconditioned Shell (File Affidavit) Section 3: Requirements Checklist Bldg. Dept. Use [ l I Interior Lighting 1. Total actual watts must be less than or equal to total allowed watts Allowed Watts Actual Watts Complies(Y/1) I 51750 47950 YES I I Exterior Lighting [ ) l 2. Efficacy greater than 45 lumens/W Exceptions: I Specialized lighting highlighting features of historic buildings; signage; safety or security lighting; i low - voltage landscape lighting. i Controls, Switching, and Wiring [ ) I 3. Independent controls for each space (switch/occupancy sensor) Exception: Areas that must be continuously lighted. [ l I 4. Master switch at entry to hotel/motel guest room. [ ] I 5. Two switches or dimmer in each space to provide uniform light reduction capability. Exceptions: Only one luminaire in space; An occupant- sensing device controls the area; The area is a corridor, storage, restroom, or lobby; Areas that must be continuously lighted; I Areas greater than 250 sq.ft. [ ] I 6. Photocell/astronomical time switch on exterior lights. Exceptions: Areas requiring lighting during daylight hours I 7. Tandem wired one -lamp and three -lamp ballasted luminaires. I Exceptions: Electronic high - frequency ballasts; Luminaires not on same switch Section 4: Compliance Statement The proposed lighting design represented in this document is consistent with the buildin other calculations submitted with this permit application. The proposed plans, and the 2001 IECC requirements in COMcheck -EZ Version 2.4 Release 2b and to co with has n d gue to meet requirements in the Requirements Checklist. P ncipal Lig ling esigner -Name Si ature ?✓ O� D e Lighting Application Worksheet 2001 IECC COMcheck -EZ Software Version 2.4 Release 2b Section 1: Allowed Lighting Power Calculation A B C D Total Floor Allowed Allowed Building T Area Watts Watts � watts/ft2 x C School 34500 1.5 51750 Total Allowed Watts = 51750 Section 2: Actual Lighting Power Calculation A B Fixture Fixture Description / C D E F ID Lama Description / Wattage Fer Lama i Ballast Lamps/ # of Fixture Fixture Fixtures Watt. M E F5 3 lamp troffer fluor. / 48" T8 32W / Electronic F6 2 lamp wrap fluor. / 48" T8 32W / Electronic F7 3 302 95 2 28690 3 lamp recessed fluor. / 48" T8 32W / Electronic 2 61 122 F8 21amp over mirror light / 48" T8 32W ! Electronic F9 2 65 95 2 lamp wall mount fluor. / 48" T8 32W / Electronic Fl0 2 6 61 366 2 lamp open strip light / 48" T8 32W / Electronic 4 61 244 244 Fl l track lighting / Incandescent 75W 2 3 61 183 F12 recessed can light / Incandescent 75W 1 10 75 750 F13 3 lamp lay -in fluor. / 48" T8 32W / Electronic F14 1 37 75 3 2775 6 lamp lay -in fluor. / 48" T8 32W / Electronic 65 95 6175 6 13 190 2470 Total Actual Watts - =47950 Section 3: Compliance Calculation If the Total Allowed Watts minus the Total Actual Watts is greater than or equal to zero, the building complies. Total Allowed Watts = 51750 Total Actual Waits = 47950 Lighting PASSES: Design 7% better than code Project Compliance = 3800 OKLAND CONSTRUCTION 1978 South West Temple Salt Lake City, UT 84115 Phone 801.486.0144 Fax 801.486.7570 Web www.okland.com Reference Document; City of Rexburg, Review Action Document Dated: March 8, 2005 Permit Number: 05 00006 Project Name: Romney Bldg Add Project Type: Commercial Addition Mr. Val Christensen, Date: 31 March 2005 The following items are certified by Okland Construction, the General Contractor for the BYU Idaho Romney Building Remodel; 1) Structural Review: Special Inspections will be made as specified for Concrete, High Strength Bolting and Welding as specified in the Construction Documents. �41 A meeting will be scheduled by the General Contractor to include the Special Inspector, the Contractor, and the Building Department prior to commencement of 1 I construction. 2) Automatic Fire Extin guishing System: Fire Sprinkler System will be designed and drawings submitted, by the General Contractor's Sub Contractor, in accordance with the Construction Documents, for the area. being remodeled, bringing the entire building, less the planetarium, to a fully fire sprinkled status. 3) Alarm Svstems• Fire Alarm System will be designed and submitted, along with submittals, by the General Contractor's Sub Contractor. Modifications to the existing fire alarm system will be included as part of submittal package. Please call with any questions regarding this Letter of Intent. Since en a or B aho — Romney Building Remodel — Project Manager Okland Construction Building a Higher Standard Since 1918 hRTGI-TAPA YOUNG UNIVERSITY f DAHO April 13, 2005 City Of Rexburg Val Christensen, Building Official Chris Huskinson, Fire Marshall PO Box 280 Rexburg, ID 83440 Subject: Romney Building Planetarium Gentlemen, We reviewed the planetarium last week for access and structure. We feel that the best solution to the entire issue is to install sprinklers in the attic space and also in-the-dome. I have reviewed the options and the long term considerations and feel that the best approach is the long term approach. Room 172, a fixed seating lecture hall, is scheduled to have the ceiling replaced as we install the new fire sprinkler. I wanted to let you know that the sloped floor does not meet current code requirements. I am assuming that since we are not doing other work in the lecture hall that the sloped floor will not have to be modified. . If you have any questions on this matter, please call me. Respectfully, Manager, Aficility Planning and Construction Cc: Lloyd Benson Charles Andersen , ent Naylor, Okland ,Construction arry 13eckei, FFK1 - Architects Ruche Nielsen Manager, Facility Planning and Construction 450 S. Physical Plant Way Rexburg, ID 83460 -8205 Phone: (208) 496 -1138 Fax: (208) 496 -2490 Email: nielsenru@byrri.edu HEATH Engineering Company MechaniEal I EleCtriEal Consultants April 21, 2005 Mr. Barry Becker FFKR ARCHITECTS 730 Pacific Avenue Salt Lake City, UT 84104 RE: BYUI ROMNEY BUILDING RESPONSES TO CITY AND ICC PLAN REVIEW SERVICE REVIEW COMMENTS Dear Barry: The following are our responses to the city and ICC plan review service review comments dated March 8, 2005 and February 18, 2005: REXBURG CITY REVIEW COMMENTS Review Item "Other Comments" In as much as the 2003 International Codes (IBC, IMC, IFC) do not reference NFPA 45, we have curtly reviewed this NFPA section and only one thing stands out. NFPA 45 does not allow manifolding the chemical exhaust ductwork unless it occurs inside of a shaft or outside of the building. The International mechanical code allows them to be manifolded together if it does not occur in a plenum. We have made the necessary changes to comply with the International Mechanical code by either separating the plenum from the exhaust duct or wrapping the exhaust duct with fire wrap insulation. ICC PLAN REVIEW COMMENTS Review Comment # 1: Informational note ... no response Review Comment #2: Most of the major HVAC equipment is existing, with improvements being made to the controls. New equipment and new equipment installation as outlined in the drawings and specifications are in accordance with the 2003 International Energy Conservation Code. 377 West 800 North • Salt Lake City, Utah 84103 • Tel: 801.322.0487 . Fax: 801 .322.0490 • Email: heath @heatheng.com C. Lewis Wilson • Larry D. Veigel • Victor S. Willes • Randall T. Veigel • Jeffrey S. Anderson • B. Bryce Gardner Nolan E. Johnson • William J. Geertsen • Dow W. Richardson • Robert J. Kesler Mr. Barry Becker April 21, 2005 Page 2 Review Comment #3 The mechanical specification section 15745 Part III paragraph 3.02 A; states that the cabinet heater is to be installed per the manufacturers installation instructions. Instructions have been given to the contractor to install the water heater and converter per the manufacturer's installation instructions and to have all instructions to all mechanical equipment and appliances available at the job site. Review Comment #4 The spacing for the piping supports in shown on Drawing M502 details 5 and 7. Review Comment #5 The required outside air CFM for the building has been given to the contractor. This quantity and the minimum VAV box CFM quantity was determined based on ASHRAE 62.89 which uses the same formulas as shown in the IMC section 403.3.2. A copy of these calculations has been attached to this letter. Many of the rooms in the building have an intermittent occupancy. ASHRAE 62 -89 paragraph 6.1.3.4 allows for a decrease of outside air to a room with intermittent or variable occupancy. . On the schedule provided, the "OA vent CFM/Per" column has been adjusted to compensate for such rooms. Review Comment #6 There are no perchloric hoods, radioisotope hoods or biological safety cabinets on the project. Provisions have been made to maintain a negative pressure in the exhaust ducts. Each exhaust air handler has 2 exhaust fans with isolation dampers to allow for maintenance work while maintaining a negative pressure in the exhaust system. The exhaust ductwork will either be fire wrapped or will be in spaces sealed off from the plenum. This will be accomplished by sealing the lab area ceiling spaces from the plenums, and wrapping the exhaust ductwork in the hallways and in rooms 281, 203B and 299. See attached detail. Review Comment #7 The contractor has been instructed that all mechanical components installed in the ceiling plenum must either be noncombustible or have maximum flame spread index of 25 and a maximum smoke development index of 50. Review Comment #8 The corridors in the Romney building apply to the following conditions in paragraph 601.2.1 of the code: 1. The corridor is not required to be of fire- resistance -rated construction. Mr. Barry Becker April 21, 2005 Page 3 2. The air - handling system serving the corridor is shut down upon activation of the air - handling unit smoke detectors. 3. The air - handling system serving the corridor is shut down upon detection of sprinkler water flow and the building is equipped throughout with an automatic fire sprinkler system. (Upon completion of the project, the entire building will be equipped with automatic fire sprinklers including the planetarium.) Review Comment #9 The contractor has been instructed of the following: That the maximum flame spread index of 25 and maximum smoke development index of 50 shall be met for all mastic and vibration isolation connectors when tested in accordance with ASTM E 84 The duct coverings shall not flame, glow, smolder or smoke when tested in accordance with ASTM C 411 and the provisions set forth in Section 604.3 of the Mechanical Code. Ducts must be sealed in accordance with the provisions in the 2003 International Energy Conservation Code. The specification limits flexible connectors to 3 feet and indicates they must be UL listed. Reference specification section 15890 paragraphs 2.06 and 3.05. The specification indicates duct support spacing and does not exceed 10 feet. Reference specification section 15890 paragraph 3.06. Review Comment #10 The contractor has been instructed that the liquid adhesive coatings used on air filters shall have a flash point not lower than 325 deg F. Review Comment #11 The contractor has been instructed to provide a combination fire smoke damper in the wall hallway /chase penetration between gridlines R &S and 10 &11 on drawing M -105. Upon completion of this remodel, the entire building will be equipped with fire sprinklers. The supply air ducts serving the second floor are in an existing shaft. The new ductwork serving the second floor is connecting to the existing duct on the second floor. The second level floor is not fire rated. The duct in the corner of stockroom 213 does not require a fire /smoke damper. The fire /smoke dampers in the walls between the Instrument Room 203 B and the Preparation Room 281 will be removed. Mr. Barry Becker April 21, 2005 Page 4 Review Comment #12 Details for the gas piping have been submitted to the contractor and have been attached to this letter. Review Comment #13 REF -1 is simply replacing and old existing exhaust fan and attaching to existing ductwork. Please call if there are any questions. Sincerely, HEATH ENGINEERING COMPANY 4 711L " � - V Larry D. Veigel, P.E. J: \Work\Jobs\3808 \WP \Review Comments \City Review Comments Response.doc Ventilation Air Calculations per ASHRAE 62-89 System Total SA (Vst) 50,388 Sum of min OA to Bldg (Von) 5855 Provided OA (Vot) 17300 Min OA % (X) 11.62% Provided OA % (Y) 34.33% Critical space OA % (Z) 77.78% PROJECT: BYUI Romney Building AH SYSTEM: Existing Air Handler DATE: Dec.2004 CALC BY: AJP Room No. Description OA Vent Cfm /Per No. People Area SF OA Vent Cfm /SF Min OA To Space (Vo) Design Cfm To Space SA Flow Critical Space Min Reqd Vsc VAV Min % Remarks 107 Planetarium 7.5 40 300 1,200 389 32% 110 Faculty Office 20 1 20 1 400 26 6% 112 Faculty Office 20 1 20 400 26 6% 114 Faculty Office 20 1 20 400 26 6% 116 Faculty Office 20 1 20 400 26 6% 118 Secretary 20 2 40 800 52 6% 126 Advanced Lab 7.5 28 210 910 273 1 30% 128 Laboratory 7.5 28 210 1,160 273 24% 128 Advanced Lab 7.5 28 210 950 273 29% 129 Laboratory 7.5 48 360 2,260 467 21% 130 Office 20 1 20 540 26 5% 131 Faculty Office 20 0 0 540 0 0% 132 Faculty Office 20 1 20 400 26 6% 179 Classroom 7.5 40 300 2,100 389 19% 180 Faculty Office 20 1 20 400 26 6% 182 Faculty Office 20 1 20 400 26 6% 184 Faculty Office 20 1 20 1 400 26 6% 186 Faculty Office 20 1 20 400 26 6% 203 Laboratory 7.5 40 300 1,490 389 26% 213 Organic Stock Room 20 0 0 450 0 0% 220 Restroom 20 0 0 90 0 0% 226 Restroom 20 0 0 90 0 0% 228 Custodial 20 1 20 100 26 26% 277 Lecture Hall 7.5 45 337.5 1,100 438 40% 279 Lecture Hall 7.5 45 337.5 1,100 438 40% 281 Preparatory Room 20 0 0 300 0 0% 282 Laboratory 7.5 50 375 2,570 487 19% 285 Faculty Office 20 1 20 140 26 19% 286 Faculty Office 20 1 20 130 26 20% 287 Dept. Secretary Office 20 1 20 400 26 6% 289 Dept. Chair Office 20 1 20 730 26 4% 290 Faculty Office 20 1 20 400 26 6% 291 Faculty Office 20 1 1 20 400 26 6% 292 Faculty Office 20 1 20 400 26 6% 294 Faculty Office 20 1 20 400 26 6% 296 Faculty Office 20 1 20 400 26 6% 297 Lecture Hall 7.5 45 337.5 1,100 438 40% 298 Faculty Office 20 1 20 400 26 6% 299 Lecture Hall 7.5 45 337.5 1,100 438 40% 118A Faculty Office 20 1 1 20 430 26 6% 126A Lab Storage 20 0 0 260 0 0% 203A organic Instrument Room 20 0 0 200 0 1 0% 203B Instrument Room 20 0 0 150 0 0% 282A Chemical Stock Room 20 0 0 100 0 0% 287A Instrument Room 20 0 0 240 0 0% 2A Front Corridor 20 0 0 1,600 0 0% The following rooms are not being changed in the remodel but are shown to get an overall outside air volume for the entire system. 105 Phy sics Classroom 7.5 10 75 918 97 1 11% 127 Lecture Hall 7.5 30 225 1,140 292 26% 129 Advanced Lab 7.5 20 150 945 195 21% 131 Physics Lecture Hall 7.5 30 225 1,390 292 21% 132 Restroom 20 0 0 408 0 0% Room NO ' Description OA No. Area OA Min OA Design SA Flow VAV Remarks Vent People SF Vent To Space Cfm Critical Min Cfm /Per Cfm /SF (Vo) To Space Space % Min Reqd 133 Story e 7.5 0 Vsc 134 Restroom 20 0 0 1,550 0 0% 135 Shop 20 4 0 408 0 0% 950 104 11% 136 Restroom 20 0 80 138 BDF 20 0 0 360 0 0% 282 0 0% 171 Auto Tutorial 7.5 30 0 171 Auto Tutorial 7.5 30 225 1480 , 1487 292 20% Lecture Hall 7.5 50 225 1,330 292 22% Office 20 4 375 3,350 15 Story e 7.5 0 80 400 04 26 =177 Corridor 20 0 0 1,357 0 0% Corridor 20 0 0 1,580 0 0% Comdor 20 0 0 200 0 0% 1 G Corridor 20 0 0 200 0 0% 1 G Corridor 20 0 0 350 0 0% 1 ✓ Corridor 20 0 0 350 0 0% 1J Corridor 20 0 0 200 0 0% 0 200 0 0%