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Home My WebLink About0096343-Electric Electric Permit Work Card Job Address 855 N WESTHAVEN DR Permit Number ~ Create Date 07/10/2002 Owner AURORA MEDICAL GROUP INC Contractor STAFF ELECTRIC CO INC Category 642 - Commercial-New Building Wiring Slrvice ~ 0 ChangeO TemP 0 N~ Type 0 Overhead Volts 277/480 Circuits 0 . Underground 0 N/A J Fixtures 0 Receptacles Amps ~ Switches Fee Value $7,650,023.00 $23,103.00 0 ~'.-'I Use/Nature a/Work New Aurora Hospital to Include the M.O.B. (addition to the existing clinic), Owner purchases of $2,300,000.00 are included in permit value. Hospital. $6,385,655.00, M,O,B. 1,264,368.00. (service consists of two 3000A 277/480V UG services) Ji \~"'Q...I...c.>r (,;... ,- 'ttr- ",,---,,- "^"( £.,:..--- c.~ > S~"'--- w"'~.......~\ ~'" ¿,.,., ./" ): "'" ~ -t:..o """"'êJ \;, ...."" ð :> ,.(;0...- ì"""'~-- 1-\0 " '" *--"":>~f Date 07/11/20~ Type Rough In Inspector Kevin Benner ~ tlYd. h,^~,> approved w/cond. .- .... O.,i). ~""'-< Inspections: Above Ceiling 1.7C : remove temp wiring & correct HVAC unit wiring in vestibule " "1.80.R.'s:notready DatelTime requested: 07/08/2003 12:00 PM Access: Phone Number: Notice Type, Ready DatelTime: 07111/200300:00 AM Requested by: ~- 0 Reinspect Fee 0 Fee Wavied 0 Reinspect Fee Paid --------------------------------------_u_------_u-u_------------------_u_---_u. Date Type Final Inspector Kevin Benner ----. \\J\A \ \J.""'~ 'í ~ L ~""S""¡"'-J CJt -c~ In Wail Ril 5.2 Cath Labs: K 1:4A Below Ceiling: ,<:: 1:4B" " :)< ú"" / 1.7C "../:1.1 O'r. e:-,",--øC;-, \O-"",~",~, '",.t;L'-""-\~cb5'V-'--'<'- ?' : VIA,"'~ ¡".,. r ;.., \7Z'.. , vv . ~ -, u:-> U,..."Ç \,'((". . 1,;).\( O"'?"" .....r MC",".,.,<::s- DatelTime requested: 07/11/2003 11:30 AM Access: Phone Number: Notice Type: Ready DatelTime: 07/14/200300:00 AM Requested by: ~- 0 Reinspect Fee 0 Fee Wavied 0 Reinspect Fee Paid -----------------------------------------------------------------------------------. /~, CORRECTION NOTICE I FIELD INSPECTION REPORT JOB LOCATION: PJ55 N" \^Je~+l?eW City of Oshkosh t":' rr ..- -,""spection Services Division CONTRACTOR: :J ~ -t1::" t::.. \ er- b-- \" Co- .5 Church Avenue, PO Box 1130 l '" ùshkosh, WI 54903-1130 PROJECT TO BE INSPECTED: '3~} L-\..¡ P ;CA-\ J Phone: (920)236-5050 ^. Fax (920) 236-5084 TYPE OF INSPECTION: '"""~ €- c:..e-, \~ \2.. \ .::¡:: Violations must be corrected and approved within 30 days unless otherwise noted. Call for re-inspections prior to concealment and/or occupancy. Upon completing the corrections, the owner/contractor/agent must sign and date at the bottom of this notice and return it to the Inspection Services Division by the Compliance Date of ~ ~ iii'/!!PDE. '::'.Ji:7:Li:/.' , <i':". INSPECTIONJUi:SULTS.": ... ì C\... /" c,4<;.1 \.J..:) ~ ,<", '\ \"\..0, À Vo,-,-,>-cor ~U",\. ~)<.~ ~\I""'-Ù. he.. \. ",,-b::.";:\ g; r-::\ d_\.- /....:;..~ :"',lr.",,\\ V'\<:>-b In.." \ "---..a c:ÜOo" - ~ L..:.:.\"""", .' r'), Aù \ .~,("'Q-. ,,^",--c.~c;,. ."" a'^ ",,",r ()\e~ u..~ <.1.,= \1 ~ ~~ ~ b-p ... ,^ ' 1\ .... "'" rl""'~\~'~ -~ I , .fl.'-;" .... 'f)) ~\\ \..>..::>";...,,""'" -h.-.. In"", ~.A ' ,-")! /-e.':..\~~ I)""" .\ ~~\ \De ì:V\"'--'- \\.~ - ì\'\..'5 .... ""'-~, >. <..:J- "" ,/) n~"-e-:>-' Ìf)d re. /- À \ , v ~ . / N'I'" 0 Not APPr~eport left on site '1f Not Approved! Insp. Report given to r;.. ~ > Signed-11 bl ~O 3 Inspection Services Division I ate ofInspection 0 MailedIFaxed c9- ~ -.5(:) 4 ,b Phone # (' Print Name Company Signature: Date Noe, Brian Full Name: Last Name: First Name: Job Title: Company: Benjamin J Goetter Goetter Benjamin Assistant Project Manager M.A. Mortenson Business Address: 801 N Westhaven Dr Oshkosh, WI 54904 Business: Mobile: Business Fax: (920) 303-9446 (414)322-3114 (920) 303-6491 E-mail: ben,goetter@mortenson.com Web Page: http://www.mortenson.com Updated: 13-Jan-O3 Schedule Milestone Dates t *' Start Start Start In-Wall Complete Above Clg Compl Duct Mains Partition Walls In-Wall Rough-In Soffit Framing Start Drywall Start Grid 3rd Fir Area 3 comDlete comDlete comDlete comDlete 1 started 12/23/03 20-Jan-03 2nd Fir Area 3 comDlete comolete comolete comolete 2 started 1/13/03 03-Feb-03 3rd Fir Area 5 com jete comolete comnlele comnlete 3 20-Jan-03 10-Feb-03 1st Fir Area 3 comoll/13/03 comolete started 12/30102 13-Jan-03 4 27-Jan-03 17-Feb-03 3rd Fir Area 4 como11/22/03 started 1/8/03 13-Jan-03 20-Jan-03 5 03-Feb-03 24-Feb-03 2nd Fir Area 4 comolete started 1/8/03 13-Jan-03 27-Jan-03 6 10-Feb-03 03-Mar-03 3rd Fir Area 2 1/20/03-2/5/03 started 1/8103 20-Jan-03 03-Feb-03 7 17-Feb-03 10-Mar-03 2nd Fir Area 5 comolete 20-Jan-03 27-Jan-03 10-Feb-03 8 24-Feb-03 17-Mar-03 1st Fir Area4/6 1/27/03-2/19/03 10-Feb-03 17-Feb-03 24-Feb-03 9 03-Mar-03 24-Mar-03 2nd Fir Area 2 2/5/03-2/26/03 27-Jan-03 03-Feb-03 17-Feb-03 10 10-Mar-03 31-Mar-03 1st Fir Area 5 comolete 03-Feb-03 10-Feb-03 03-Mar-03 11 17-Mar-03 07-Anr-03 2nd Fir Area 7 2/19/03-3/5/03 24-Feb-03 03-Mar-03 10-Mar-03 12 24-Mar-03 14-ADr-03 1 st fir Area 2 2/26/03-3/19/03 10-Mar-03 17-Mar-03 24-Mar-03 13 07-Aor-03 28-Aor-03 1st fir Area 7 3/6/03-4/2/03 17-Mar-03 24-Mar-O3 31-Mar-03 14 14-Anr-03 05-Mav-03 Lobbv (All Levels 3/17/03-4/7/03 24-Mar-03 31-Mar-03 07-Aor-03 15 21-Anr-03 12-Mav-03 1st Fir Area 8 4/3103-4/23/03 14-Aor-03 21-Apr-03 28-Apr-03 16 12-MaY'03 02-Jun-03 M.O.B,Area 1, 3rd Fir MOB 1/20/03-2/17/03 I 10-Feb-03 17-Feb-03 24-Feb-03 1 03-Mar-03 24-Mar-03 2nd Fir MOB 2/10/03-3/10/03 I 24-Feb-03 03-Mar-03 10-Mar-03 2 24-Mar-03 14-AOr-03 1st Fir MOB 3/3/03-3/31/03 I 17-Mar-03 24-Mar-03 31-Mar-03 3 14-Aor-03 05-Mav-03 * ;>/;, )t< Area 2 patient room partition walls to be framed ahead of duct install at 2nd and 3rd floors. .At¡1/cYIZ-/;;/ - s/71rZ-r ~)!c 5, Co/'/',ê:;1/ 17~ 4¿~ 3Ahø¿ /-h,$;:1ff&->- c:eut~dd ?ý' - /ÞSP'/77fz-- - <1) Þ 3> . -- Q)5/v7. - //f/l C' ;::5 F P 3 1 2 1 3 2 1 1 3 3 2 2 3 4 2 3 1 2 2 4 1 3 2 5 1 4 1 5 1 6 1 7 Site Prep and Demolilion POOO-13600 Fab & Deliv, Generators 120 30 02SEP02A POOO-13700 Fab&Deliv.GoolingTowers 120 1002SEP02A POOO-96300 Fab & Deliv, DoorslHardware 70 20 220CT02A POOO-42400 Fab & Deliv, Lobby Skylight 40 10 280CT02A POOO-92900 Fab & Deliv. Kitchen Equip 60 16 260CT02A POOO-93300 Fab & Deliv. Light Fixtures 60 5 260CT02A POOO-93400 Fab & Dellv, Grilies/Registers/Diffusers 40 5 04NOV02A POOO-96200 Fab & Deliv. Plumbing Fixtures 40 30 04NOV02A -- -- ------ P200-66200 Fab & Deliv. Water Heaters 40 3 04NOV02A - ----~--,------- P300-66200 Fab & Deliv. Pumps/Misc. 40 1 04NOV02A POOO.95100 Fab & Deliv, Casework 60 1622NOV02A P100-42400 Fab & Deliv, Kalwall Skylight - Main Canopy 50 15 02DEC02A POOO-95300 Fab & Deliv, Medical Equipment 80 35 09DEC02A ,~-~- -- ---'-C ---,- POOO-13800 Fab & Deliv, Oxygen TanksNaporizers 80 60 14JAN03 ,---- ----------..... ------- - -, ------..,-- POOQ-95200 Fab & Deliv, Specialties 30 30 20JAN03' POOO-97600 Fab & Deliv Resilient Fiooring 45 45 20JAN03' POOQ-97700 Fab & Deliv. Carpeting 60 60 20JAN03' 'tort 0". '""hO". ",,0". '""0". ~:~~~;Il:?KTIo?"_"~_--~'¿;;¡E',rtYBar , 1'C4L 14JAN03 .L TProgr."B" 14JAN0309,26 .L T Cn"'" Acti",y 24FEB03 27JAN03 10FEB03 27JAN03 04FEB03 20JAN03 20JAN03 24FEB03 16JAN03 14JAN03 04FEB03 03FEB03 03MAR03 07APR03 28FEB03 21MAR03 11APR03 22JAN03 M, A. Mortenson :~- JA~_~ 2003 FEB----r----J,ii\B----- i13~O ,27 ~_.....J.O__.J.L..........2L~3______--,tQ...--- Final Tie-ins of Algoma Sewer Extension East SicJ:J!17 L'j'-.r'iAK.:m;¡y¡¡¡;¡:.z"",¡:??K7SeVHook-up Cooling Towers - Utility SeVHook-up Generators - !'§7 Abandon Water Main - Level 1 ER Area 7/8 ~Water Main Offset at Sewer Main - East Side Fab & Deliv. Generators Fab & Deliv. Cooling Towers ~¡;:¡~Fab & Deliv. Doors/Hardware Fab & Deliv. Lobby Skylight ~Fab & Deliv. Kitchen Equip Fab & Deliv. Light Fixtures Fab & Deliv. Grilles/ReglstersiDlffusers Fab & Deliv. Plumbing Fixtu Fab & Deliv. Water Heaters Fab & Deliv. Pumps/Misc. Fab & Deliv. Casework Fab & Deliv. Kalwall Skylight - Main Canopy Fab & Deliv. Me Deliv. Specialti Erect Precast Panels - E Elev Surg Exp Area 8 -~-_.._----, -------~----,-----_.._-_.._---------_..- Sh." I" 11 Aurora Medical Genter - Oshkosh Aurora - Hospital 8 Week Lookahead Activity I Activity ID Description HES8-42200 Root Perimeter & Flashing - E Elev Surg Area B Orlg I Rem I Early Dur Dur Start 1 23JAN03 HOC4-41100 Erect Precast Panels - Canopy Main HRC4-42400 Install Skylight - Lobby Area 4 HOC4-31450 Stud Framing - Main Canopy HOC4-42400 Install Kalwail Skylight - Main Ganopy HOC4-42600 Metal Flashing/Gutfer . Main Canopy HOC4-42700 EIFS - Main Canopy ,----,_. Core Hospital- Area 5 IHRC5'6720ojwire_Tempgontrol,- [1oof Core Area 5/4 North IPU - Area 2 t;f1.N.2~Wire Temp C.9ntrol- Roof N IPU Area 2 Emergency Room - Area 7 HOE7-41 ~OO Erect Precast Panels - Canopy ER HOE7-31450 Stud F,amlng' ER Canopy HOE7-421 00 Roofing - ER Canopy HOE7-42600 Metal Flashing - ER Canopy .--.,--,--'.'--.. '--~--""--'-------~- Surgicai Expansion - Area B HRS8-32300 RTU Struc" Curbs - Roof Surg Exp Area 8 HRS8-42100 Roofing - Surg Exp Area 8 J::IRS8-324°o.. .seVConn Rooftop AHU's - Roof Surg Exp Area 8 HRS8-67200 Wire Temp Gontrol - Roof Surg Exp Area 8 2 15 B 10 8 8 1 09JAN03A 152BJAN03 8 31JAN03 10 12FEB03 B 26FEB03 B 10MAR03 . 20j20114JAN03 1 0 12~~B()3.__E°r.-1~RO~~ 2 2 23JAN03 24JAN03 8 8 12FEB03 .- 21FEB03 2 2 24FEB03 25FEB03 8 8 10MAR03 19MAR03 - -_..--- ------.... ,---- TI ...... 2 2 14JAN03 15JAN03 1~ __1~::~~;---~~;~ 5 511MAR03 17MAR03 Core Hospital- Areas 4 HV'¡.;:5i4OQ- S~rl=quip - Elevator 5&6 Area 4 HV54-51300 Install Elevator Platiorm - Elevator 5&6 Area 4 HV84-51200 Install Elevator Rails/Ram - Elevator 8&9 Area 4 HVO4-51400 Set Elevator Equip - Elevator 10 Area 4 .,," D". Ho,,"D". Do" 0". """Do" 15APR02ll'ir~=N:----"--~"7 11C4L -A""",,_,W'-i" ,,' E',rIYB" ~~~~~~~ .L T Prog"" B" 14JANO309,26 .L TC,,"ool^,"""y iñ Pdmo"nro ~,«tpmq Ine Early Finish 23JAN03 = N I FEB , .1 L.-- ---~Q -L§7¡:¡;;;:2/Pe;:¡';;et~:&I'la-sh¡;;;~Ei~v su~~rea 8-_~4__, -, __,,3__-__"')0___- AVRoo! Perimeter & Flashing - S Elev Surg Area 8 ..--,..------- . --,_...,-,.. - ~Frame Alum Curtalnwall- W & E Elev LInk L'WGiaze - W & E Elev Link Metal'Roofing @ Roof Screens - Roof Area 3 Wire Temp Control- Roof W IPU 21JAN03 17FEB03 11FEB03 25FEB03 07MAR03 19MAR03 Erect Precast Panels - Canopy Main Install Kalwall Skylight - Lobby Area 4 Framtng - Matn Canopy Canol1'J:"'lWI:!!!,:1l1_miA_é\7 Metal Ftashing/Gutfer - Main Cano~-~m1V EtFS - Main Canop j10FEB03 Control- Roof Core Area 5/4 Wire Temp Control - Roof N IPU L'WErect Precast Panels - Canopy ER Lli'-ih,;¡!11',,-\7Stud Framing - ER Canopy L'WRoofing - ER Canopy Metal Flashing - ER Canop RTU Struct. Curbs - Roo! Surg Exp Area 8 ~Rooflng . Surg Exp Area 8 Rooftop AHU's - Roof Surg Exp Area 8 Wire Temp Control - Roof Surg Exp AreaL~1 10 10 10 5 9 13JAN03A 24JAN03 ~-- --,-- 10 14JAN03 27JAN03 10 16JAN03' 29JAN03 -~--------, ,..- .-" 5 27JAN03 31JAN03 Elevator Equip - Elevator 5&6 Area 4 71nstall Elevator Platform - Elevator 5&6 Area 4 Etevator Ralls/Ram - Elevator 8&9 Area 4 ~Set Elevator Equip - Elevator 10 Area 4 Sh"" 0111 M. A, Mortenson Aurora Medical Center - Oshkosh Aurora - Hospital 8 Week Lookahead Activity" Activity Orig Rem EarlY' Early ID - ---< - d< , ..--..__[)esç~lption<, ..-- _+[)ur Dur ,Start Finish I..J~ HV04-51300 Install Elevator Platlorm - Elevator 10 Area 4 5 5 28JAN03 03FEB03 - - HV54-51500 Install Elevator Entrances - Elevator 5&6 Area 4 4 4 28JAN03 31JAN03 HV54-51600 instaIiElevatorCab/Cntrl-Elevator5&6Area4 10 1003FEB03 14FEB03 HV84"51400 Set ElevatorEquip-Elevator8&9 Area 4 10 1003FEB03 14FEB03 HV04-51500 Install Elevator Entrances - Elevator 10 Area 4 2 2 04FEB03 05FEB03 HV84-51300 Install Elevator Platlorm-Elevator8&9Area4 10 1004FEB03 17FEB03 II HV04-51600 InstaliElevatorCab/Cntrl-Elevator10Area4 5 517FEB03 21FEB03 -~--~ HV54-51601 Test ElevatorCab/Controls-Elevator5&6 Area 4 10 10 17FEB03 28FEB03 HV84<51500 InstaIiElevatorEntrances-Elevator8&9Area4 4 418FEB03 21FEB03 HV84.51600 Install ElevatorCab/Cntrl- Elevator 8&9 Area 4 10 10 24FEB03 07MAR03 HV04-51601 Test Elevator Cab/Controls - Elevator 10 Area 4 5 5 03MAR03 07MAR03 HV84-51601 Test Elevator Gab/Controls -I"~vator 8&9 Are~....2<J, .._~ 10~AR03_,2!..M.A_Rg3 Core Hospital - Area 5 HV45-51200 Install Elevator Rails/Ram - Elevator 4 Area 5 ,-<--- HV45-51400 Set Elevator Equip < Elevator 4 Area 5 HV45-51300 Install Elevator Platlorm - Elevator 4 Area 5 HV45-51500 Install Elevator Entrances - Elevator 4 Area 5 HV45-51600 Install Elevator Cab/Cntrl- Elevator 4 Area 5 West IPU < Area 3 ]H3W3-63100 All HVAC Pipe - Level 3 W IPU Area 3 H3W3<67200 Wire Temp Control - Level 3 W IPU Area 3 H3W3-64350 Insulate Water Pipe - Level 3 W IPU Area 3 H3W3-63450 Insulate HV AC Pipe - Level 3 W IPU Area 3 H3W3<92100 HITIS Drywall- Level 3 W IPU Area 3 H3W3-73200 Pull Branch Wire - Level 3 W IPU Area 3 ~Y"3-92300 Prime/Paint Walls - Level 3 W iPU Area 3 H3W3-93200 H3W3-93300 H3W3-93400 H3W3<92500 -<~-- H3W3-95100 H3W3-96300 H3W3-96200 ..~~ H3W3-971O0 - H3W3-95300 - H3W3-95200 Sr," Dar. F'a"hoar. n"a Oar. """Dare Grid Acoust Geilin9 - Level 3 W IPU Area 3 Light Fixtures - Level 3 W IPU Area 3 Mech. Cig. Finishes - Lvi 3 W IPU Area 3 jlnstall Ceramic Tile - Level 3 W iP~..Area3 Install Casework - Level 3 W IPU Area 3 DoorslHardware - Level 3 W IPU Area 3 Plumbing Fixtures - Level 3- W~PU Area 3 Wall Finishes - Level 3 W IPU Area 3 Install Medical Equipment - Level 3 W IPU Area 3 Install Speciallies < Level 3 W IPU Area 3 10 7 7 7 20 10 7 8 10 7 10 12 7 7 ..--112 10 5 5 2 30DEC02A ---..-----..-- 5 5 17FEB03 5 5 18FEB03 2 ~~ ~5FEB03~- 5 5 10MAR03 2 06NOV02A 2 02DEC02A 1 09DEG02A 2 12DEC02A -- 5 23DEC02A 4 06JAN03A 7 15JAN03 8 22JAN03 10 29JAN03 7 29JAN03 10 12FEB03 12 12FEB03 7 12FEB03 7 28FEB03 1228FEB03 10 04MAR03 5 l1MAR03 15APR02I~9ÛW' .a~."_£VEa,'.'YB", 11C4L ~~~~~~ J. T Pmo"" ß" "JAN030"" .J.. Tea"," "",,;,y ".., P,imo"o" ~,,"omo rne ----<Q¡¡;¡ MAR ,HI. .- ~ ~~,-~O ,17 ~4 ~ ~Install Elevator Platform - Elevator 10 Area 4 ~Install Elevator Entrances - Elevator 5&6 Area 4 ~'iT:m¡~&;7lnstall Elevator Cab/Gntrl - Elevator 5&6 Area Elevator Equip - Elevator 8&9 Area 4 ~Install Elevator Entrances - Elevator 10 Area 4 ~Install Elevator Platform - Elevator 8&9 ¡ Install Elevator Cab/Cntrl- Elevator 10 Area~ Test Elevator Cab/Controls - Elevator 6&6 Area¡~--Lw..m:bN"/ Install Elevator Entrances - Elevator 8&9 Area~ Install Elevator CablCntrl - Elevator 8&9 Area~~ Test Elevator Cab/Controls - Elevator 10 Areat!""""'JT!V Test Elevator Cab/Controls - Elevator 8&9 Area[£",..i' <~Q ~Install Elevator Rails/Ram - Elevator 4 Area 5 Set Elevator Equip - Elevator 4 Area[\;"':"..\7 Install Elevator Platform - Elevator 4 Area~ Install Elevator Entrances - Elevator 4 Area~ Install Elevator Cab/Gntrl - Elevator 4 Area~Oi"-" 15JAN03 21 FEB03 24FEB03 26FEB03 ,--_.._-~- 14MAR03 ,;¡JANo3 IDJR/I HVAG Pipe - Level 3 W IPU Area 3 15JAN03 Wire Temp Control - Level 3 W IPU Area 3 14JAN03 Insulate Water Pipe - Level 3 W IPU Area 3 15JAN03 Insulate HVAC Pipe - Levet 3 W IPU Area 3 20JAN03 HITIS Drywall- Level 3 W IPU Area 3 17JAN03 Pull Branch Wire - Level 3 W IPU Area 3 23JAN03 L'îir..'YÞJIQ¥.9:f!"."Æ'-7Prime/Paint Walls - Level 3 W IPU Area 3 31JAN03 Acoust Ceiling - Level 3 W IPU Area 3 11 FEB03 Fixtures - Level 3 W IPU Area 3 06FEBœ- [ìI-~Mech. Clg. Finishes - Lvi 3 W IPU Area 3 25FEB03 tnstall Ceramic Tile - Level 3 W IPU 27FEBO3""-- Install Casework - Level 3 W IPU R'""L\ 20FEB03 Doors/Hardware - Level 3 W IPU Area / """":""","",,,'-7 10MAR03 Plumbing Fixtures - Level 3 W IPU Areaf5j""¡""""¿'¡""':;'-7 17MAR03 Wall Finishes - Level 3 W IPU 17MAR03 Install Medical Equipment - Level 3 W IP.U Are 17MAR03 Install Specialties - Level 3 W IPU AreaL'î>i¿ Sh,"301" Cheeked App"',,; M. A, MortensDn R,,"'eo ,--.. Aurora Medical Center - Oshkosh I Aurora - Hospital 8 Week Lookahead j .~t~iWl______...o~~t:~:¡o"---_._-_.J;~~t;,,I, Core Hospital- Areas 4 H3C4-33400 Masonry Walls - Level 3 Mech Room Area 4 B H3c::4.:".3.1..D{j,-- ,F1i1 HVACP.i~.:.Leve~,3.c::?r~~e".4..__.,.1¡; H3C4-64400 Med-Gas Mains - Level 3 Core Area 4 20 H3C4-621 00 RII Duct Mains/Branches - Level 3 Core Area 4 20 H3C4-62300 InWall VentlWater - Level 3 Core Area 4 15 H3C4-54300 Mech, Shaftwalls - Levei 3 Core Area 4 5 H3C4-62200 RII WasteNent Mains - Level 3 Core Area 4 15 H3C4-62500 RII VAV Boxes - Level 3 Core Area 4 5 H3G4-54500 Frame Partition Walls - Level 3 Core Area 4 10 H3C4-64450 In-Wall Med-Gas - Level 3 Core Area 4 12 H3C4-64200 Water Mains - Level 3 Core Area 4 10 .-- ._--~-- -- H3C4-72100 R/I Cable Tray - Level 3 Core Area 4 S H3C4-621S0 InsulateDuclwork-Level3CoreArea4 10 --~ -----,~--- H3C4-72S00 OHlin-wail Conduit-Level 3 Core Area 4 10 H3C4-SS100 Frame Ceiling/Soffit Studs - Level 3 Core Area 4 10 H3C4.643S0 Insulate Water Pipe - Level 3 Core Area 4 7 H3C4-67200 Wire Temp Gontrol- Level 3 Core Area 4 10 H3G4-73200 Pull Branch Wire - Level 3 Core Area 4 10 H3C4-92100 HfflSDrywall-Level3GoreArea4 20 H300-73S00 Pull Comm Sys Wire - Level 3 Hospital 40 H3C4-92300 PrimelPaint Walls - Level 3 Core Area 4 7 H300.73400 Pull SecuritySysWire-Level3 Hospital 10 _._-- ~ H3C4-93200 Grid Acoust Ceiling - Level 3 Core Area 4 -~~ H3C4-93300 Light Fixtures - Level 3 Core Area 4 10 f-t:J.~4:9340~- Mech. Gig, Finishes _:.!:~'--3--C_~,,-Are"_4.~._.__..!.. Core Hospilal "Area S H3CS-63100 RII HVAC Pipe - Level 3 Core Area S H3CS-SS100 F,ame Ceiling/Soffit Studs - Level 3 Gore Area S H3CS-72500 OHlin-wail Gonduit - Level 3 Core Area 5 H3C5-54300 Mech, Shaftwalls - Level 3 Core Area S -- -~--- H3CS-621 SO Insulate Ductwork - Level 3 Core Area 5 H3CS-64350 Insulate Water Pipe - Level 3 Core Area S H3CS-92100 HfflS Drywall- Level 3 Core Area 5 H3C5-63450 Insulate HVAC Pipe - Level 3 Core Area S H3CS-67200 Wire Temp Gontrol- Level 3 Core Area S H3CS-73200 Pull Branch Wire - Level 3 Gore Area 5 ----,- ~~,~~-- H3CS-92300 Prime/Paint Walls - Level 3 Core Area S 5""°", Flol,hO", ""to ""," II""IJ"," ;:~~~~:lð""""~'Þ*.~_è;¡E"'Y." 11C" 14JAN03 .l Tpco"",." 14.IANO30926 .L T Crill",1 "'",lIy (ê) Primevefe SYStem", Ine Early J Early b JAN I FEB -.S!art___- ___."Inlsh.__, l~___--"glL~~"';¡__.Jj)_.__.AI..._---~g_~_~L_.___--_,lO____, 1 220CT02A 5 06NOV02A 12 16DEC02A 7 23DEC02A 10 06JAN03A 5 OBJAN03A 12 OBJAN03A 4 08JAN03A B 09JAN03A 12 09JAN03A ---,---- 10 14JAN03A 5 15JAN03 10 16JAN03 10 16JAN03 10 20JAN03 7 24JAN03 10 27JAN03 103OJAN03 20 03FEB03 40 07FEB03 7 17FEB03 10 24FEB03 B 24FEB03 10 03MAR03 7 03MAR03 10 10 10 5 B 7 20 7 7 10 7 219SEP02A 1 06DEC02A 2 06DEC02A 1 30DEC02A 1 31DEG02A 6 13JAN03A 1913JAN03A 7 16JAN03 7 16JAN03 10 16JAN03 7 03FEB03 14JAN03 20JAN03 29JAN03 22JAN03 29JAN03 21JAN03 29JAN03 17JAN03 24JAN03 29JAN03 27JAN03 21JAN03 29JAN03 29JAN03 31JAN03 03FEB03 07FEB03 12FEB03 28FEB03 03APR03 25FEB03 07MARO3 05MAR03 14MAR03 11MAR03 Masonry Walls - Level 3 Mech Room Area 4 RIt HVAC Pipe - Level 3 Core Area 4 :,',,;...¡¡¿...'\7Med-Gas Mains - Level 3 Core Area 4 RII Duct Mains/Branches - Level 3 Core Area 4 ~In-Wall VentlWater - Level 3 Core Area 4 Mech. Shaltwalls . Level 3 Core Area 4 ~RII WasteNent Mains - Level 3 Core Area 4 RIt VAV Boxes - Level 3 Core Area 4 . Level 3 Core Area 4 Branch Wire - Level 3 Core Area 4 Htr/S Drywall- Levet Pull Comm Sys Wire - Level 3 Prime/Paint Walls; Level 3 Core Area~~ Pull Security Sys Wire - Level 3 HospIl1".""_=""ii""".-:!;7 Grid Acoust Ceiling - Level 3 Core AreaL'ii"-"iiTI'ITm?J'cA7 Light Fixtures - Level 3 Core Area~E¡¡¡¡1TI]iF'",,="'" Mech. Clg. Finishes - Lvi 3 Core AreaA":"",".'i7.,.,,\7 RII HVAC Pipe - Level 3 Core Area 5 Frame CeIlIng/Soffit Studs:- Level 3 Core Area 5 >70Hßn-wall Conduit - Level 3 Core Area 5 Mech, Shaltwalls - Level 3 Core Area 5 --Insulate Ductwork. Level 3 Core Area 5 Core Area 5 Drywall - Level 3 Core Area 5 ,tsim"B-ïlnsulate HVAC Pipe - Levet 3 Core Area S Control - Level 3 Core Area 5 Branch Wire - Level 3 Core Area 5 /\"."ccL.===:VPrlme/Paint Walls - Level 3 Core Area S M, A. Mortenson Sh,,' '" 11 Aurora Medical Center - Oshkosh Aurora - Hospital 8 Week Lookahead Activity 0 Activity I Orlg I Rem Early' Early 000. .IAN ~EB MAR .ID Description Cur Dur Start Finish ,13 ,gO ,g7 ---->3 ,10 .17 ~4--.-----ß ,10~ -- H3C5-93200 ,<J~id Acoust Ceilio1g..: LeveI3_c:.".':"--Area"s_____----------,.8 .8 10FEB03 19FEBO3 Grid Acoust Ceiling - Level 3 Core AreaL\'",v,""C,¡:mzvz,,¡rz,,1 ------- ,-,.., H3C5-93300 Light Fixtures-Level 3 Core Area 5 10 10 271'EB.o~ 31J.F:~~_--- Light Fixtures - Level 3 Core Areaf's'C¥JT>;,7jfii,"<J:'£,';;C;':,';;'¡ ------,--- Mech. Clg, Finishes - Lvi 3 Core Area~=':[d."Z""ITifz'i:l H3C5-93400 Mech, Clg, Finishes - Lvi 3 Core Area 5 7 7 17FEB03 25FEB03 _.._----------- ..---,- ..---- Install Ceramic Tile - Level 3 Core Area~z""V H3C5-92500 Install Ceramic Tile - Level 3 Core Area 5 7 7 03MAR03 11MAR03 H3C5-95100 Install Casework - Level 3 Core Area 5 12 12 03MAR03 18MAR03 Install Casework - Level 3 Core Area H3C5-96300 Doors/Hardware - Level 3 Core Area 5 7 7 03MAR03 11 MAA03 Doors/Hardware - Level 3 Core Areal.'!:+..;,yNZ"'k,' ,\1 _..~-- ------- ..---..-------..-....------.., North IPU 'Area2 H3N2-54500 Frame Partition Walls - Level 3 N IPU Area 2 10 7 OSJAN03A 30JAN03 Frame PartItion Walls.. Level 3 N IPU Area 2 H3N2-64450 In-Wall Med-Gas - Level 3 N IPU Area 2 7 2 0.8JAN03A 15JAN03 /l1li !!!WIn-Wail Med.Gas - Level 3 N IPU Area 2 H3N2-62300 In-Wall VentiWater - Level 3 N IPU Area 2 10 10 15JAN03 2SJAN03 ~z""z=,--":m"'/In-Wall VentiWater - Level 3 N IPU Area 2 H3N2.72500 OHlin-wail Conduit - Lvi 3 N IPU Area 2 10 10 15JAN03 2SJAN03 Conduit - Lvi 3 N IPU Area 2 _._--.._..._-,---~ H3N2>-62100 Rli Duct Mains/Branches - Level 3 N IPU Area 2 12 1217JAN03 03FEB03 Duct Mains/Branches - Level 3 N IPU Area 2 , H3N2-54300 Mech, Shaftwalls - Level 3 N IPU Area 2 5 5 22JAN03 2.8JAN03 Shaftwalls - Level 3 N IPU Area 2 H3N2-63100 Rli HVAC Pipe - Level 3 N IPU Area 2 10 10 24JAN03 06FEB03 HVAC Pipe - Level 3 N IPU Area 2 ------- ,-,---.. -------- H3N2-65100 Fire Protection Pipe - Level 3 N IPU Area 2 10 10 24JAN03 06FEB03 Protection Pipe - Level 3 N IPU Area 2 --- H3N2-73200 Pull Branch Wire - Level 3 N IPU Area 2 10 10 29JAN03 l1FEB03 Branch Wire - Level 3 N IPU Area 2 H3N2-62150 Insulate Ductwork - Level 3 N IPU Area 2 8 .8 30JAN03 10FEB03 ,!Jlli",eW4:mWiJ"-'fiii'Bt,v\Vlnsulate Ductwork - Level 3 N IPU Area 2 -........,--- ----,---..----....----__......--m.. ..-----.. ~,: ""..zW277e:fI',,:c,¡Ð:'\/Med-Gas Mains - Level 3 N IPU Area 2 H3N2-64400 Med.Gas Mains - Level 3 N IPU Area 2 10 10 30JANO3 12FEB03 -----..- -~----------.."-----..- ðiJ",v",=~,.:tzæ1,,~7Frame Ceiling/Soffit Studs - Level 3 N IPU Are H3N2-551 00 Frame Ceiling/Soffit Studs - Level 3 N IPU Area 10 10 31JAN03 13FEB03 ,---- ---,--- ¡\¡""'ill"f,j1~RII VAV Boxes.. Level 3 N IPU Area 2 H3N2-62500 All VAV Boxes.. Level 3 N IPU Area 2 5 5 31JAN03 06FEB03 ----,."....---..-..----,-.... - - !';L;IE.CCI'22iE'IE.";,;-"C7VWater Mains - Level 3 N IPU Area 2 H3N2-64200 Water Mains - Level 3 N IPU Area 2 10 10 31JAN03 13FEH03 ----,..,-..-----..-..-----.."-.... - ^ç:;,¡;:¥,k'¿",'5'i~7R11 H3N2-72100 All Cable Tray - Level 3 N iPU Area 2 5 5 31JAN03 06FEB03 3 N IPU Area 2 I .. : H3N2-63450 Insulate HVAC Pipe - Level 3 N IPU Area 2 5 5 07FEB03 13FEB03 HVAC Pipe.. Le~el3 N IPU Area 2 H3N2-67200 Wire Temp Control. Level 3 N IPU Area 2 7 7 10FEB03 1.8FEB03 Wire Temp Control. Level 3 N IPU Area~",yz,-:¡¡ç H3N2.64350 Insulate Water Pipe - Level 3 N IPU Area 2 7 7 12FEB03 20FEB03 Insulate Water Pipe - Level 3 N IPU Area/""",,,,"";"""'V H3N2-92100 HmS Drywall- Level 3 N IPU Area 2 20 20 17FEB03 14MAA03 HmS Drywall - Level 3 N IPU Area H3N2-92300 P,imelPaint Walls' Level 3 N IPU Area 2 7 7 10MAA03 1.8MAA03 --------,_____.-..-:rlme/Paln! Wall~_Level 3 N IPU A,=,,_~ I' .. WestlPU-Area 3 H2W3.63100 Rli HVAC Pipe - Level 2 W IPU Area 3 ....-.2E 1---.3 2.o..N°v.~ 15JAN03 . ~A/I HVAC Pipe.. Level 2 W IPU Area 3 H2W3-72500 OHlin-wail Conduit - Lvi 2 W IPU Area 3 10 -~ ;2..8DEC02A 17JAN03 . ~OHnn-wall Conduit - ~v12 W IPU Area 3 H2W3-67200 Wire Temp Control - Level 2 W iPU Area 3 7 2 19DEG02A 15JAN03 . ~Wire Temp Control.. Level 2 W IPU Area 3 H2W3-921 00 HmS Drywall- Level 2 W IPU Area 3 20 1913JAN03A 14FEB03 HfTlS Drywall - Level 2 W IPU Area 3 H2W3-63450 Insulate HVAC Pipe - Level 2 W IPU Area 3 7 7 14JAN03 22JAN03 Insulate HVAC Pipe. Level 2 W IPU Area 3 H2W3-64350 Insulate Water Pipe - Level 2 W IPU Area 3 7 7 14JAN03 22JAN03 Insulate Water Pipe - Level 2 W IPU Area 3 H2W3.73200 Pull Branch Wire - Level 2 W IPU Area 3 10 10 20JAN03 31JAN03 Branch Wire. Level 2 W IPU Area 3 H2W3-92300 Prime/Paint Walls - Level 2 W IPU Area 3 7 7 03FEB03 11FEB03 Lj'Fffiflf4,-."",,7Prlme/Palnt Walls. Level 2 W IPU Area 3 H2W3-93200 Grid Acoust Ceiling - Level 2 W IPU Area 3 8 ~ 1O~,EB?,3- 19FEB03 Grid Acoust Ceiling. Level 2 W IPU AreaßŒE,*,"""'è1'~ ..",..,.... mm.._.. - .. .. _m "", 5"0°", 1SAPR02 12""""-"7"""} Early B" 1C41 Sh," 5 01 11 . ;;,;;;;;" F""hOal' 280CT03 M. A. Mortenson Do'. no",,^" --",0:;,;, Dalaoal' 14JAN03 .L 1'[" Pco,""." Rr'" oal, 14JAN03 09,26 ..I. T C'Ii,,1 "'Ii'ily 1----"" Aurora Medical Center. Oshkosh 1.., --1---...... 1- ..-'-.-...... Aurora - Hospital .8 Week Lookahead I.... - I..... -_u..--- - ...-.., fð Pcim",,"," ",,<tnm< Ine :Activity Activity Orlg I' Rem Early [' Early ID Description Dur Dur Start Finish H2W3~93300-ught Fixtures - Lev~12WIPU Ar~~-:3 -----, '-..'-10-' 10 17FEB03 28FE1303 ~:f~..:,.-~~ ~:~¡~, ~~.~~.~~.~::e.-.I.I.~,~~fùU=~~~1-----n - -..;,...6'.:1. ~...-..-.-..-.~...6~.: ~n~ B,-R~~-- ~:~~~~~-' H2W3-95100 InstaliCasework-Level2WIPUArea3 12 1203MAR03 IBMAR03 -_._-- _no_- ---,--- ...- -.----- , -.. ....--.- n H2W3-96300 DoorslHardware - Level 2 W IPU Area 3 7 7 03MAR03 11 MAR03 u. - - ., Core Hospital H2C4-63100 H2C4-64400 H2C4-54500 H2C4-64200 H2G4.62150 H2C4-62200 H2C4-62500 H2C4-62300 H2C4-64450 H2C4-72500 H2C4-54300 H2C4-63450 H2C4-64350 H2C4-55100 H2C4-67200 H2C4-73200 H2C4-921 00 H200-73500 H2C4-92300 R/I HVAC Pipe - Level 2 Core Area 4 Med-Gas Mains - Level 2 Core Area 4 Frame Partition Walls - Level 2 Core Area 4 Water Mains - Level 2 Core Area 4 Insulate Ductwork - Level 2 Core Area 4 ----------- R/I WasteNent Mains - Level 2 Core Area 4 R/I VAV Boxes - Level 2 Core Area 4 In-Wall VentlWater - Level 2 Core Area 4 In-Wall Med-Gas - Level 2 Core Area 4 OHlin-wail Conduit - Level 2 Core Area 4 Mech. Shaftwalls - Level 2 Core Area 4 Insulate HVAC Pipe - Level 2 Core Area 4 Insulate Water Pipe - Level 2 Core Area 4 Frame Ceiling/Soffit Studs - Level 2 Core Area 4 Wir...-':e_fT1P_C."n~rol_:Level 2 Core Area 4 Pull Branch Wire - Level 2 Core Area 4 HfT/S Drywall- Level 2 Core Area 4 Pull Comm Sys Wire - Level 2 Hospital Prime/Paint Walls - Level 2 Core Area 4 - --.------,---.-.------.-----.----- Gore Hospital- AreaS H2G5-72200 R/I Elec Panels & Conduit - Level 2 Core Area 5 H2C5-63100 R/I HVAC Pipe - Level 2 Core Area 5 H2G5-62150 Insulate Ductwork - Level 2 Core Area 5 ---- --~--- ---- H2C5-62200 R/I WasteNent Mains. Level 2 Core Area 5 - - H2C5.54300 Mech. Shaftwalls - Level 2 Core Area 5 -----,- .-----.------..-" H2C5-54500 Frame Partition Walls - Level 2 Core A,ea 5 ------ -.-------------,--,..--. H2C5-64400 Med-Gas Mains - Level 2 Core Area 5 H2C5-62300 In-Wall VentlWater - Level 2 Core Area 5 H2C5-64450 In-Wall Med-Gas - Level 2 Core Area 5 -- -~-------' ! H2C5-64200 Water Mains - Level 2 Gore Area 5 i H2C5-72500 OHlin-wail Conduit- Level 2 Core Area 5 I: H2C5-55100 Frame Ceiling/Soffit Studs - Level 2 Core Area 5 StortDe" Flol,hO", O",De" II"""", 15 10 10 12 B 10 5 10 7 10 5 10 7 10 10 10 20 40 7 22BOCT02A g 30DEC02A 5 08JAN03A 1214JAN03A B 14JANO3 10 14JAN03 5 14JAN03 10 15JAN03 7 15JAN03 10 20JAN03 5 22JAN03 10 23JAN03 7 28JAN03 10 31JAN03 10 31JAN03 10 03FEB03 20 14FEB03 - - 40 07MAR03 ---,---.- - 7 07MAR03 10 10 B 10 5 10 10 10 7 10 10 10 2 140CT02A 1 210CT02A ---- 211NOV02A ---------. 9 05DEC02A 5 15JAN03 10 22JAN03 10 27JAN03 10 29JAN03 7 29JAN03 10 30JAN03 10 03FEB03 10 05FEB03 ~ D,'~^"^,,, O,,^.^~^ 'nn = MAR ..i!,~------,~Q~ 3 10 ,17 ,2~_-=JJL_- Ugh! Fixtu..s - Level 2 W IPU Acea~¿;".,;;-"'m;¡~JW..;D Mech. Clg. Finishes - Level 2 W IPU Area!,;~'7iJFJS'EY:;rF!Fy;¡§J Install Ceramic Tile - Level 2 W IPU Area,i'l"-'" ,.';,. - - _.--' Install Casework - Level 2 W IPU Doors/Hardware - Level 2 W IPU Area!:,"':;-;:;';::-;;";:\! 17JAN03 24JAN03 30JAN03 29JAN03 23JAN03 27JAN03 20JAN03 28JAN03 23JAN03 31JAN03 28JAN03 05FEB03 05FEB03 13FEB03 13FEB03 14FEB03 13MAR03 01MAY03 17MAR03 R/I HVAC Pipe - Level 2 Core Area 4 Med-Gas Mains - Level 2 Core Area 4 VFrame Partition Walls - Level 2 Core Area 4 Water Mains - Level 2 Core Area 4 Insulate Ductwork - Level 2 Core Area 4 ~R/I WasteNent Mains - Level 2 Core Area 4 R/I VAV Boxes.. Level 2 Core Area 4 L.:I"'-"'&..~In-Wall Vent/Water - Level 2 Core Area 4 L.:I-""""~In-Wall Med-Gas - Level 2 Core Area 4 ^--iOHnn-wall Conduit - Level 2 Core Area 4 Shaftwalls - Level 2 Core Area 4 HVAC Pipe - Level 2 Core Area 4 Water Pipe - Level 2 Core Area 4 L~-*",m""?VFrame Ceiling/Soffit Studs - Level 2 Core Area 'emp Control- Level 2 Core Area 4 Branch Wire - Level 2 Core Area 4 HfT/S Drywall - Level 2 Pull Comm Sys Wire - Level 2 Hospit,- Prime/Paint Walls - Level 2 Core Area Ril Elec Panels & Conduit - Level 2 Core Area 5 .¡í,7RlI HVAC Pipe - Level 2 Core Area 5 ~Insulate Ductwork - Level 2 Core Area 5 Rli WasteNent Mains - Level 2 Core Area 5 .ß~sf';VSl7Mech- Shaftwalls - Level 2 Core Area 5 '-_W7!:s';¡~§JFrame Partition Walls - Level 2 Core Area 5 ~'!-am.\7Med-Gas Mains - Level 2 Core Area 5 ¡__ml_¡¡;mTM'ln-Wall VenUWater - Level 2 Core Area 5 ~:K7ln-Wall Med-Gas - Level 2 Core Area 5 ¡"'Þf.N--"".AMYRjiijh:1\7Water Mains - Level 2 Core Area 5 ~--~OHnn-wall Condull- Level 2 Core Area 5 Studs.. Level 2 C Sh,," 0111 M, A. Mortenson Aurora Medical Center - Oshkosll Aurora - Hospital 8 Week Lookahead Activity' .. Activity Orig Aem.1 Early I Early ,ID Description Dur Dur Start Finish H2C5:67200 Wire Temp Control- Level 2 Core Area 5 ---.2- 7 ~5."EB03- ,_J_'!!..§_E!°~-, 1:!2..9!;-63450 Insulate HVAC Pipe - Level 2 Core Area 5 7 7 06FEB03 14FEB.':'~ ~2_~5~",3~0 Insulate Water Pipe - ~~_el~..9()re Are"!;_____-- _,_7__- "-'.'F_EE!()3___- _19!EB03 H2C5-73200 Pull Branch Wire - Level 2 Core Area 5 10 10 17FEB03 28FEB03 H2C5-92tOO ':'1T1~D_l)'\VaII..:.L~~eI.2 Core_Area_~_-,----,_n- 20 20 21 FEB03 20MAA03 North IPU - Area 2 H2N2-54200 Frame/Rock Elect Closets - Level 2 N IPU Area 2 5 2 1 9DEG02A 15JAN03 H2N2-43200 Building Insulation - Lvi 2 N IPU Area 2 5 2 23DEC02A 15JAN03 H2N2-72200 RJI Elec Panels & Conduit - Level 2 N IPU Area 2 10 2 23DEC02A 15JAN03 H2N2-62200 RJI WasteNent Mains - Level 2 N IPU Area 2 10 10 1~i\r;()~ 27JAN03 H2N2-54300 Mech. Shaftwalls - Level 2 N IPU Area 2 5 5 29JAN03 04FEB03 H2N2-62100 RJIDuctMains/Branches-Level2NIPUArea2 15 1504FEB03 24FEB03 H2N2-54500 Frame Partition Walls - Level 2 N IPU Area 2 10 10 05FEB03 18FEB03 H2N2-63100 RII HVAC Pipe - Level 2 N IPU Area 2 1°e---'-° 1_1F'E'~.'1_-- 24FEEJt)~ H2N2-64400 Med-Gas Mains - Level 2 N IPU Area 2 10 10 11 FEB03 24FEB03 H2N2-65 tOO Fire Protection Pipe-Level2N IPU Area 2 10 10 11FEB03 24FEB03 ¡;2i'J2::E'2300 In-Wall VentlWater- Level 2 N IPU A~".~,_-----ln_tO ,1,0 12FEB03m_- - 25F_EB03 H2N2-64450 In-Wall Med-Gas - Level 2 N IPU Area 2 7 7 12FEB03 20FEB03 --..-n-,- ' ,---------,---....--- ----------,------- H2N2-72500 OHlin-wail Conduit - Lvi 2 N IPU Area 2 1,0 _1C> ~7FEI3CJ~~ ~!JI'.E'E!~ H2N2-62500 RJI VAV Boxes - Level 2 N IPU Area 2 5 5 18FEB03 24FEB03 -- ----,-----,------- - --_on, --, H2N2-64200 WaterMains-LeveI2NIPUA,ea2 10 10 18FEB03 03MAR03 ___un_, ..----- ~-----_.._--- ------ H2N2-72100 RJI Gable Tray - Level 2 N IPU Area 2 5 5 18FEB03 24FEB03 H2N2-55100 FrameCeiling/SoffitStuds-Lvl2NIPUArea2 10 10 19FEB03 04MAR03 H2N2-62150 Insulate Ductwork - Level 2 N IPU Area 2 8 8 20FEB03 03MAR03 H2N2-63450 Insulate HVAC Pipe - Level 2 N IPU Area 2 7 7 21 FEB03 03MAR03 H2N2-67200 Wire Temp Cont,ol- Level 2 N IPU A,ea 2 7 7 25FEB03 05MAR03 - --- --- ------- H_2N2-64350 Insulate Water Pipe - Level 2 N IPU Are.".~~- _..!. -,-_!. 28_~E'.B03___,-OMA.R~ H2N2-73200 PullBranchWire-Level2NIPUArea2 .... 10 tO03MAR03 14MAR03 Emergency Room - Area 7 H2E7-43200 Building Insulation - Lvi 2 ER Area 7 5 5 10JAN03A H2E7-72200 RJI Elec Panels & Conduit - Level 2 Lab Area 7 10 10 14JAN03 H2E7-62200 RII WasteNent Mains - Level 2 Lab Area 7 8 8 11 FEB03 H2E7-54500 Frame Partition Walls - Level 2 Lab Area 7 8 819FEB03 H2E7-621 00 RII Duct Mains/Branches - Level 2 ER Area 7 10 10 20FEB03 H2E7-62300 In-Wall VentlWate, - Level 2 Lab Area 7 7.....!. 26FEB03 H2E7-62500 RJI VAV Boxes - Level 2 Lab Area 7 5 5 27FEB03 H2E7-63100 !'III HVAC Pipe-Level 2 Lab Area 7 ---,-- __5 ___5 2!~,E'E!(),3 H2E7-64400 Med-Gas Mains - Level 2 Lab Area 7 10 to 27FEBO3 29JAN03 27JAN03 20FEB03 28FEB03 05MAR03 06MAR03 05MAR03 05MAR03 12MAR03 S""D"e Flol," Dote D,"D"e n"uDot' ;:~~~:I¿'Ì¡?__mm;'%"W_åJE"YB" 11C4L WAN" J. T Pwg"" B" 14JAN0309,26 .L T C"co' ""wHy M. A. Mortenson Aurora Medical Center. Oshkosh =- FEB MAR ,3_-----<Í!! ,17 ~4 ,3 ,10 ðs,~c%-..w"",7Wlre Temp Control- Level 2 Core Area 5 L\;""""",,;?,',,,';D7Insulate HVAC Pipe - Level 2 Core Area 5 Insulate Water Pipe - Level 2 Core Area~~ Pull Branch Wire - Levet 2 Core Area~""=',,;,,,m:¡¡;¡\1 HmS Drywall - Level 2 Core Area .i!}-~O !ll. $;, Frame/Rock Elect Closets - Level 2 N IPU Area 2 , Buitding Insulation - Lvi 2 N IPU Area 2 RJI Elec Panels & Conduit - Level 2 N IPU Area 2 ¡¡]RlI WasteNent Mains - Level 2 N IPU Area 2 ~Mech. Shaltwalls - Level 2 N IPU Area 2 Duel Mains/Branches - L. 1'-----.1:E-~Frame Partition Walls - Level 2 N IPU R/I HVAC Pipe - Level 2 N IPU Med-Gas Mains - Level 2 N IPU Fire Protection Pipe - Level 2 N In-Wall Vent/Water - Level 2 N IPU Area~"J'.R-'-""'\,7 In-Wall Med-Gas - Level 2 N IPU Area{<":O:"'7œ"..Nf(J'iL'I! OHlin-wail Conduit - Lvi 2 N IPU Areaf.'fu..RY4mJ""*",",,m,,'i:7 All VAV Boxes - Level 2 N IPU Areaf"c"'Æ.:Fi;W:s"'V Water Mains - Level 2 N IPU Area rs,;...:",c:r:;;";::C:"Y"ëf"" \I Rli Cable Tray-Level 2 N IPU Area!\¥ITTI?æ:~ Frame Ceiling/Soffit Studs - Lvi 2 N IPU Insulate Ductwork - Level 2 N IPU Insulate HVAC Pipe - Level 2 N IPU Area¿')¡¡4ill"'*'FFFffiR111'YA\,7 Wire Temp Control - Level 2 N IPU Area~ Insulate Water Pipe - Level 2 N IPU Area~'F",um",V Pull Branch Wire - Level 2 N IPU Area Building Insulation - Lvi 2 EA Area 7 RII Elec Panels & Conduit - Level 2 Lab Area 7 Rli WasteNent Mains - Level 2 Lab Areal "*,*bW.1:E'h!!Jt..ill1.7 Frame Partition Walls - Level 2 Lab Area{5fGA7:1¡P;¡¡¡¡¡Bmf:;PVffijJ Rli Duct Mains/Branches - Level 2 ER Are, 1. In-Wall Vent/Water- Level 2 Lab Areai'+,*""15*>+m>w\7 All VAV Boxes - Level 2 Lab Area¿yJr-¡¿ds,?""Á/ RII HVAC Pipe - Level 2 Lab Area~~ Med-Gas Mains - Level 2 Lab Arearo..iJiliEi~3'["E:;i[£:¡.v I.. Sheet7of11 "'1.. <i\ Prime verA SV'tem' Inc Aurora - Hospital 8 Week Lookahead - I - I Activity Activity ID -- , - un --, -- --,- d ...1Jescrlptlon H2E7-64450 In-Wall Med-Gas - Level 2 Lab Area 7 - ____un _rJ2_E7'65100 Fire Protection Pipe - Level 2 Lab Ar~"2 ¡H2E7-55100 Fral1l,e_Ce!U~g/~ffit_Studs - Level 2 Lab Area 7 H2E7-72500 OHlin-wail Conduit - Level 2 ER Area 7 ----' -,---- H2E7-62150 Insulate Ductwork - Level 2 ER Area 7 H2E7-64200 Water Mains - Level 2 Lab Area 7 H2E7-63450 Insuiate HVAC Pipe - Level 2 ER Area 7 H2E7-67200 Wire Temp Gontrol- Level 2 Lab Area 7 H2E7-721 00 All Cable Tray - Level 2 Lab Area 7 ---, WestlPU-Area 3 H1W3-63100 All HVAC Pipe - Levell W IPU Are_a! H1W3-62300 In-Wall VentlWater - Level 1 W IPU Area 3 H1W3-54200 Frame/Rock Elect Closels' Levell W IPU Area 3 HIW3-72200 All Elec Panels & Conduit - Levell W IPU Area 3 H1W3-62100 All Duct MainslBranches - Levell W IPU Area 3 HIW3-55100 Frame CeiUng/Soffit Studs - Lvi 1 W iPU Area 3 H1W3-62150 Insulate Ductwork - Levell W IPU Area 3 H1W3-62500 AlIVAV Boxes- Level 1 WIPU Area 3 H1W3-64400 Med-Gas Mains - Level 1 W IPU Area 3 H1W3.64450 In-Wall Med-Gas - Levell W IPU Area 3 --, ..__d'_----"""--"---"'--->U __n"" - H1W3-65100 Fire Protection Pipe - Levell W IPU Area 3 H1W3-64200 Water Mains - Level 1 W IPU Area 3 HIW3-67200 Wire Temp Gontrol- Levell W IPU Area 3 HIW3-72500 OHlin-wail Conduit - Level 1 W IPU Area HIW3.64350 Insulate Water Pipe - Levell W IPU Area 3 H1W3-73200 Pull Branch Wire - Level 1 W IPU Area 3 HIW3.92100 HfTlS Drywall-Levell WIPU Area 3 HIW3-63450 Insulate HVAC Pipe - Levell W iPU Area 3 HIW3-72100 RII Cable Tray - Level 1 W IPU Area 3 HIW3-92300 Prime/Paint Walls - Levell W IPU Area 3 - --, -------.... ___n__'--- - ~y.'3-93200 Grid Acoust Ceiling - Level 1 W IPU Area 3 HIW3.93300 Light Fixtures - Level 1 W IPU Area 3 ~_1\^J~~3400 ~~ch,,<::19. Finishes - LeveI1--"'1I'~_Ar"':J..- Qrlg Rem Early Dur Dur Start 7 7 27FEB03 n ----- 5 5 27FEB03 ~--____n_'_"_- 8 8 03MAR03 10 10 03MAR03 d- -,- _d' ,...m 8 8 04MAR03 10 10 04MAR03 ~_~_n- 5 5 06MAR03 7 7 06MAR03 5 5 06MAR03 I Early Finish '07MAR03 ,o..5.M.!-~03d- 12MAR03 14MAR03 13MAR()Sn-- 17MAR03 12MAR03 14MAR03 12MAR03 ~QJ!3 FEB I Ml'-L-_- ,.....ß-Tn:wãilclgd:GaS-:L~el 2 Lab fr~a~",¿!?';;il:IV ' ,10 - Fire Protection Pipe - Level 2 Lab Areai'!iiJ'è.¡ç~'Ë'AI Frame Ceiling/Soffit Studs - Level 2 Lab Area!'\TIélt!"'-::::1Z5'ifIL'V QHnn-wall Conduit - Level 2 ER Areaf'.,:;L.., ..:,c':..,..::L,-=.:\, Insulate Ductwork - Level 2 ER Area!'§""";";"';,""';,";;:"';,¡ Water Mains - Level 2 Lab Area l';..+,:..;..,:;,+yq,';¡I+ Insulate HVAC Pipe - Level 2 ER AreaLS",=cx;ç'\7 Wire Temp Control - Level 2 Lab Areaü"'¡"""'-";¡"" All Cable Tray - Level 2 Lab Areal'Y€";=~ I ->1Ln_~AN_-~z..._- æ=",iVR/I HVAC Pipe - Level 1 W IPU Area 3 In-Wall VentlWater - Level 1 W IPU Area 3 Frame/Rock Elect Closets - Level 1 W IPU Area 3 RII Elec Panels & Conduit - Level 1 W IPU Area 3 R/I Duct Mains/Branches - Level 1 W IPU Area 3 w-..."'--iliIiliIUFrame Ceiling/Soffit Studs - Lvi 1 W IPU Area 3 Insulate Ductwork - Level 1 W IPU Area 3 All VAV Boxes - Level 1 W IPU Area 3 10 5 04NOV02A 14FEB03 -- ---------, ,------,-,--- 10 325NOV02A 16JAN03 --- - 5 I 16DEC02A 14JAN03 10 523DEC02A 20JAN03 10 3 02JAN03A 16JAN03 10 10 14JAN03 27JAN03 8 8 14JAN03 23JAN03 5 5 14JAN03 20JAN03 10 10 14JAN03 27JAN03 -~, ---..... ,---- 7 7 14JAN03 22JAN03 10 10 14JAN03 27JAN03 - ....-- ---- 10 1021JAN03 03FEB03 7 7 21JAN03 29JAN03 _d'_'_- ---- 10 10 21JAN03 03FEB03 7 731JAN03 10FEB03 10 10 04FEB03 17FEB03 20 20 04FEB03 03MAR03 7 7 13FEB03 21FEB03 -- - --,- ,,-----------' 5 5 20FEB03 26FEB03 - ___d n_,_____nn- --- -..---- 7 7 25FEB03 05MAR03 8 8 04MAR03 13MAR03 - ----- 10 1011MAR03 24MAR03 7 711MAR03 19MAR03 Med-Gas Mains - Level 1 W IPU Area 3 ,~iIt"'N....Ë¡fu"Wln-Wall Med-Gas - Level 1 W IPU Area 3 ::=:""illillJFlre Protection Pipe - Level 1 W IPU Area 3 ~1"_'iliIl"",ill!IWii\7Water Mains - Level 1 W IPU Area 3 ¿'y4?",""YM",..!:!JWire Temp Control - Level 1 W IPU Area 3 ~OHnn-wall Conduit - Level 1 W IPU Area L"_'III3i_:mæwÅ7lnsulate . Level 1 W IPU Area 3 1 W IPU Area 3 tfr/S Drywall- Level 1 Insulate HVAC Pipe - Level 1 W IPU Area[Wi!11'~ All Cable Tray - Level 1 W IPU Areal'Y',w;¡"ÚiYðŒ'V Prime/Palnt Walls - Level 1 W IPU Areaf'."¡¡:¡¡Ff"mz¡¡,C,;,\I Grid Acoust Ceiling - Level 1 W IPU AreaL';'2:2:..:..:=7";""-Y Light Fixtures - Levell W IPU Area~ Mech. Clg, Finishes - Level 1 W IPU Area~' 15 15 10 RII HVAC Pipe - Level 1 Core Area 4 Frame Ceiling/Soffits' Level 1 Lobby Area 4 Frame Coord. Walls. Level 1 Core Area 4 Sh,,' 60' 11 s,"" 0'" F'o',ho", O"to 0'" """0",,, ~:~~~,,~: I ¡""""",..-""""",,,,¥- ::;~,::: ß" 14JAN~~J~~~~ .L T c""",' Act""y Aurora Medical Geoler - Oshkosh " Pdmo,,",o ",«tom< Inr M. A. Mortenson D"e.. R"'<',, C",c',d I App,""d i , ¡ Aurora - Hospital 8 Week Lookahead -----.... , I I Activity Activity Orig Rem Early i Early .._I[),__- - -_n_..____.o!,scriptlon- nn..__- -.... , .our- ,..D"r- - .. Start Finish H1C4-62100 Rli Duct Mains/Branches - Level 1 Core Area 4 20 20 23JAN03 19FEB03 - --~-------_.. HIC4-64400 Med-GasMains-Level 1 Core Area 4 10 1030JAN03 12FEB03 ..-, ....----_u- -----,--_u,--------....-----..-.. -- ____n- .. ---, H1C4..65100 Fire P,otection Pipe-Level 1 Core Area 4 10 1030JAN03 12FEB03 H1 C4-43200 Building Insulation - Lobby All Lvls Area 4 6 6 06FEB03 13FEB03 H1C4-54500 FramePartitionWalis-Level1CoreArea4 10 1006FEB03 19FEB03 HIC4-62500 Rli VAVBoxes-Level 1 Core Area 4 5 5 06FEB03 12FEB03 H1C4-64200 WaterMains-Level1CoreArea4 10 1006FEB03 19FEB03 --- ..- ------.. H1C4-62200 RlIWasteNentMains-Level1CoreArea4 10 10 11FEB03 24FEB03 HIC4-62150 Insulate Ductwo,k-Level1 Gore Area 4 10 10 13FEBO3 26FEB03 H1C4-62300 In-WaIiVentlWater-LeveI1Area4&6(upper) 10 1013FEB03___26~EB03 H1C4-64450 In..Wa II Med-Gas-Level 1 Gore Area 4 7 713FEB03 21FEB03 HI C4-721 00 RlICableTray-Level1CoreArea4 5 513FEB03 19FEB03 H1C4-72500 OH/ln-waIiConduit-Level 1 Areas4&6(upper) 10 10 13FEB03 26FEB03 -- --- H1C4-64350 Insulate Water Pipe - Level 1 Gore Area 4 7 7 18FEB03 26FEB03 ..----- H1C4-55100 Frame Ceiling/Soffit Studs - Level 1 Core Area 4 5 5 20FEB03 26FEB03 H1C4-67200 Wire Temp Control-Level 1 Co,eArea4 10 1020FEB03 05MAR03 ---,----,--- ,.." H1C4-63450 Insulate HVAC Pipe.. Level' Core Area 4 10 10 24FEB03 07MAR03 -.., ---..-..-..u- ,-,-_......_,-,-_....,_.._,----_.._-,.._--, ---.._u--- '-'--' ----- _,__Ne HIC4-73200 Pull Branch Wire - Level 1 Areas 4 & 6 10 10 27FEB03 12MAR03 _.._---------- IH1C4~92100 Hlr/SDrywall-LeveI1Areas4 & 6 (upper) 20 20 27FEB03 26MAR03 Core Hospilal - Area 5 Hic5-721O0 - R/IC~b~-T;;y~L~~;11C;;;Area 5----- ---- - -- 5 -..; 1O0CT02A 14JAN03 n..-__-- ----- H1C5..62150 Insulate Ductwork - Level 1 Gore Area 5 8 2 140CT02A 28FEB03 H1C5-63100 R/I HVAC Pipe- Level 1 CoreA;ea 5 10 3 140CT02¡\--- 16JANO3- I!UiS7R1I HVACPipe-Leve11 Core Area 5 .._f--.._--- H1C5-54300 Elevator S haftwalls-Core Area 5/4 10 3 06NOV02A 17JAN03 Elevator Shaftwalls-Core Area 5/4 H1G5.62500 RlIVAVBoxes-Level1CoreArea5 5 514JAN03 20JAN03 RiI VAV Boxes-Level 1 Core Area 5 H1C5..43200 Building Insulation - Lvi 1 Core Area 5/4 2 2 16JANO:¡-- 17JANO3' L\IlIi7Bulldlng Insulation - lvl1 Core Area 5/4 ---- --..- -_..--~------,-_u_--- ---1- __n - --__n..-- H1C5.62200 RlIWasteNentMains-Level1CoreArea5 10 10 28JAN03 10FEB03 , ------- H1C5-54500 FramePartilionWalis-Level1CoreArea5 10 1006FEB03 19FEB03 -,..- ----- H1C5-62300 In-WaIiVentlWater-Level 1 Core Area 5 10 10 13FEB03 26FEB03 --------,~.. f---__..___n --..-- --.... H1C5-64400 Med-GasMains..Level1 Core Area 5 10 10 13FEB03 26FEB03 'u_--- --------- H1C5..64450 In-Wall Med.Gas-Level1 Core Area 5 7 713FEB03 21FEB03 H1G5-72500 OH/in..wall Conduit.. Level 1 Core Area 5 10 10 13FEB03 26FEB03 ---- ,---- H1C5-55100 FrameCeiling/SoffitStuds-LeveI1CoreArea5 10 1020FEB03 05MAR03 H1C5..64200 WaterMains-Level1CoreArea5 10 1020FEB03 05MAR03 ---,-- ----- -, _u_--- H1C5.67200 Wire Temp Control- Levell Core Area 5 '. 10 1020FEB03 05MAR03 -....-,-------- -, ---,-,---------------- -- -- ......__n_--.. .. -..- ---.. H1G5-73200 Pull Branch Wire-Level 1 Gore Area 5 10 10 27FEB03 12MAR03 H1C5..64350 InsuiateWaterPipe-Level1 Core Area 5 7 7 04MAR03 12MAR03 -- - ---1--------,-....---..--..,------ H1C5..63450 Insulate HVAC Pipe-Level 1 Core Area 5 7 710MAR03 18MAR03 ,"dD". "0',"0", ),"0", 1uo Do" ;:~~~~~I~£WU~U__~E'"Ye" Ilc" 14JAN03 l. .. T Pmg"" e" 14JAN03m26 .l TCri1""AoIMly M. A. Mortenson Aurora Medical Genter - Oshkosh 1--.. - .....£""'-"'1- Appro", 2003 JAN FEB ~~~O ,27 ,:¡ 10 --,17 ~A__,- ~2_4 ,:¡ ..___,1ß ---- rAIl Duct Mains/Branches - Level 1 Cc ~Æðjjj~Med-Gas Mains - Level 1 Core Area 4 Protection Pipe - Level 1 Core Area 4 ~"MMuu"f\7Buliding Insulation - Lobby All Lvls Area 4 1. Frame Partition Walls - Level 1 Core l'\u'WiWS-\/RiI VAV Boxes - Level 1 Core Area 4 L-,¡¡:¡¡:..",.:&¡,:33"""'uiIVWater Mains - Level 1 Core Area 4 RII WasteNent Mains.. Level 1 Core Area¿]TIiTI1iuuuJR..uuJÐ"N"..QÐ,V Insulate Ductwork - Level 1 Core Area ~lliJ1_"-.lliJ1'_M.A7 In-Wall VentlWater - Level 1 Area 4 & 6 (upp. In-Wall Med-Gas , Level 1 Core Areaß1fL-m!!11!E1111jþill,7 fray - Level 1 Core Area 4 OHAn-wall Conduit - Level'1 Areas 4 & 6(upp~ Insulate Water Pipe - Level 1 Core Frame Ceiling/Soffit Studs - Level 1 Core Are1\..... Wire Temp Control - Level 1 Core AreaL' Insulate HVAC Pipe - Level 1 Core Pull Branch Wire - Level 1 HmS Drywall- Level 1 Areas 4 & 6 (uppe- :-(:VA/I Cable Tray - Level 1 Core Area 5 Insulate Ductwork - L, WasteNent Mains - Level 1 Core Area 5 Partition Walls.. Level 1 Core In-Wall VentlWater' Level 1 Core Med-Gas Mains - Level 1 Core In-Wall Med-Gas - Level 1 Core AreaLW:&¡,:33%WJ"_iS/ OHAn-wall Conduit - Level 1 Frame Ceiling/Soffit Studs - Level 1 Core Water Mains - Level 1 Core Wire Temp Control- Levet1 Core AreaL,"...,J"""/;'¿far""'~ Pull Branch Wire - Level 1 Core Area ('\"C-íffi!i7'1J1lm¡¡", Insulate Water Pipe - Level 1 Core Area~"Yllim"'123S7 Insulate HVAC Pipe - Level 1 Core Area!\5'~ Sh"'90f11 ~ ~. ~ Aurora - Hospital 8 Week Lookahead I AC:~i~J__- ---- -- -_~~~~~n______- __I .~~~,I, ~~~J, Early Early Start Finish North IPU -Area 2 ,..oo, oo---,- H1N2-54200 Frame/Rock Elect Closets - Level 1 N IPU Area 2 5 I.! 123DEC02A - - - ----- --------------,-_.,-,--..---- - H1N2-43200 Building Insulation - Lvi 1 N IPU Area 2 5 5 13JAN03A 22JAN03 ----,-- ------ H1N2-72200 All Elec Panels & Conduit - Level 1 N IPU Area 2 10 10 16JAN03 29JAN03 ..-----,-..--.. ..------..- ---.. ------..,..-oo,---- ..,--- H1N2-541O0 Frame Coord, Walls - Level 1 N IPU Area 2 10 1,_10 128JAN03".._........ 10FEB03 ------~....,--,----- H1N2-62200 All WasteNent Mains - Level 1 N IPU A,ea 2 10 ~~ 28JAN03 10FEB03 H1N2-54500 Frame Partition Walls - Level 1 N IPU Area 2 10 10 ~E3():J.......... 05MAR03 -- H1N2.62100 All Duct Mains/Branches - Levei 1 N IPU Area 2 15 15 25FEB03 17MAR03 H1N2-62300 In-Wall Vent/Water - Level 1 N IPU Araa 2 10 10 27FEB03 12MAR03 H1N2-72500 OHlin-waIl Conduit - Level 1 N IPU Area 10 10 27FEB03 12MAR03 H1N2-63100 RII HVAC Pipe - Le-",,~PU Area~____- 10 10 04MAR03 17MAR03 H1N2=64400 ,---oo..------ Med-Gas Mains - Leval1 N IPU Area 2 10 _'.fJ 04MAR03 17MAR03 --~ ---,---- H1N2-64450 In-Wall Med-Gas - Level 1 N IPU Area 2 7 7 04MAR03 12MAR03 H1N2.65100 Fire Protection Pipe - Level 1 N ,IPU Area 2 10 10 04MAR03 17MAR03 -..----------- H1N2.55100 Frame Ceiling/Soffit Studs - Lvi 1 N IPU Area 2 10 10 06MAR03 19MAR03 H1 N2-62500 All VAV Boxes - Level 1 N IPU Area 2 5 511MAR03 17MAR03 H1N2-64200 Water Mains - Level 1 N IPU Area 2 10 10 11MAR03 24MAR03 H1N2-72100 All Gable Tray - Level 1 NIPU Area 2 5 511MAR03 17MAR03 H1N2-62150 Insulate Ductwork - Level 1 N IPU Area 2 8 8 13MAR03 24MAR03 H1N2-73200 Pull Branch Wire - Levei 1 N IPU Area 2 10 10 13MAR03 26MAR03 Link-Area 2 to Area 1 - H1L2-33100 Gravei @ SaG - Level 1 Link H1L1-33200 Frost Removal at Link H1 LO-33200 FRP SOG . Level 1 Link ':1.'.1::°-52000 LayoutITop T,ack - Level 1 Link H1 LO.62000 R/I Storm Piping - Level 1 Link H1LO-33300 Spray Fireproofing - Level 1 Link H1 LO-43200 Building Insulation - Link H1LO-54100 Frame Coord, Walls - Level 1 Link Emergency Room - Area 7 H-,-E7~~~- ~t:J.VAC P'p..._:,=evel-,~..!-!"".? H1E7-54100 Frame Coord. Walls - Level 1 ER Area 7 - --- -_.._--_..-~---_..,_oo ----- H1E7-54200 Frame/RockElectClosets-Level1 ER Area 7 H1E7-72200 All Elec Panels & Condult- Level 1 ERArea7 H1E7-43200 Building Insulation - Lvi 1 ER Area 7 H1E7-62100 All Duct MainslBranches - Levell ER Area 7 HIE7-62200 R/I WasteNent Mains - Level 1 ER Area 7 HI E7-651 00 Fire Protection Pipe-Level 1 ER Area 7 "" 0"" ,,'¡,hO"," b'eO"" '"" 0". 15AP",02I/""""""",=""""""":"-1 , 11e4L 280eT03' """""""-IE,'y"" "JAN03 .L T P""'" Boc "JAN03 09,26 .L T Cri<'", AoU""y '" PrimAverA ~v,tpm' ine 10 1 4 3 2 2 2 1 21JAN03 10 22JAN03 1 05FEB03 4 06FEB03 3 06FEB03 2 12FEB03 2 13FEB03 2 14FEB03 10 10 5 10 5 20 15 10 8 02DEC02A 10 13JAN03A 5 16JAN03 10 23JAN03 5 3OJAN03 20 06MAR03 -- --- 15 13MAR03 10 13MAR03 21JAN03 04FEB03 05FEB03 11FEB03 10FEB03 13FEB03 14FEB03 17FEB03 24MAR03 27JAN03 22JAN03 05FEB03 05FEB03 02APR03 02APR03 26MAR03 M, A, Mortenson = N I FEe I M~_, "1}---,....,-~Qoo_-,--~?"_.._"....;¡,-,-,,,_......JO_--~V_- -~>L...._...ß_,-----,.oo,1.0 - 1VFrame/Rock Elect Closets - Levell N tPU Area 2 Building Insulation - Lvi 1 N IPU Area 2 ~RII Elec Panels & Conduit - Level 1 N IPU Area 2 /y;:'TèF""';¡-"'-'.:iIE£C""""'f'C17Frame Coord. Walls - Level 1 N IPU Area 2 WasteNent Mains - Level 1 N IPU Area 2 Frame Partition Walls - Level 1 N IPU AreaL'š~:Ffuili1i1¥_,"§1L,¡:fl7 All Duct Mains/Branches - Level 1 N IPU Area, In-Wall VentlWater - Level 1 N IPU A OHlin-wail Conduit - Level 1 N IPU A,,¡I'j¡¡¡;¡¡¡;¡¡iii".¡¡!"¡¡¿¡:"'J@k~ All HVAC Pipe - Level 1 N IPU Area Med-Gas Mains - Level 1 N IPU Area In-Wall Med-Gas. Level 1 N IPU Area,l'(:'¡jB¡j§i-¿¡T-""-¡,1\7 Fire Protection Pipe - Level 1 N IPU Areaf'j!Jj Frame Ceiling/Soffit Studs - Lvi 1 N IPU Area, All VAV Boxes - Level 1 N IPU Area Water Mains. Levei 1 N IPU Area RII Cable Tray - Level 1, N IPU Area Insulate Ductwork - Level 1 N IPU Area Pull Branch Wire - Level 1 N IPU Area NGravel @ SOG - Level 1 Link L'šITfB1i':ë1i¡¡¡¡_.llfk'1}¡fh,,¡¡¡¡¡,,*,7Frost Removal at Link L§7FRP SaG - Level 1 Link ~LayoutfTop Track. Level 1 Link ~All Storm Piping - Level 1 Link LJfi1i7Spray Fireproofing - Level 1 Link LJfi1i7Building Insulation - Link ß~Frame Coord. Walls - Level 1 Link 'ZrFW,,;cc;;;..;;1""::C;:;C;7:nYFrame Coord. Walls - Level 1 ER Area 7 1W,,7."¡--7Frame/Rock Elect Closets - Level 1 ER Area 7 Elec Panels & Conduit. Level 1 ER Area 7 Insulation - Lvi 1 ER Area 7 Mains/Branches. Level 1 ER Area S'w.I10ol11 "". R"""oo Aurora Medical Center.. Oshkosh Aurora.. Hospilal 8 Week Lookahead i,A,~t~1 Activity lOrig'Rem' ,. Early I Early L_,_--'D Description 'Eur Dur __~~~Finish !3urgieal Expansion - Area 8 - HIS8-3:J_160,... ,~hallo"'--f'.le."!r~e:,Leve,I_1 Surg Ar~a8 2 2 23JAN03 24JAN03 ¡!!2S8-33200 FrostRemovalatSurgery 10 1023JAN03 05FEB03 HIS8-33200 FRP SOG - Levell Surg Exp Area 8 2 2 06FEB03 07FEB03 .---- ---- ;;IS8:5200.<>._~!youtITé'P_T.':....""-:.L~~_el~_Sul'.g E~pi\re~_____- 3 3 10FEB03 12FEB03 HIS8.62000 R/I Storm Piping-Level 1 Surg ExpArea 8 7 710FEB03 18FEB03 H1S8-54100 FrameGoord,Walis-LeveIISurgExpArea8 7 713FEB03 21FEB03 H1S8-4.:32.<J~~uilding-"'-~ation..:L."r.1.Su,g_,Area.s_____------, _4 4 14FEB03 19FEB03 ;;,1S8-54200 Frame/Roek Elect Closets - Levell S~~Area 8 ._5 .__,_!52<!F'E'B.D3.,..__213f'EB03__- H1S8-72200 R/I Elec Panels &Cond-Level 1 10 1003MAR03 14MAR03 Meehanical- Area 6 -- _._-----~---------_._-~-'- -,---- ------,- .--.-..--- - - .- --- H4M6-33400 MasonryWalis-Lowe,Mech/ElecArea6 15 5300CT02A 20JAN03 --,-----..-------..-.-,----..--"......-, --..-1- H4M6-74100 Set/ConnElectrieaIGear-LeveI1MechArea6 25 5300CT02A 20JAN03 HIM6-33400 Masonry Walls - Upper Mech Area 6 15 5 04NOV02A 20JAN03 .-.-------,--- -- -.-, m -.. -.-----.. ,"'. ' H4M6-66100 Install EquipmenlSupports-Level 1 MechArea6 10 211NOV02A 15JANO3 --- -.-,-,..--.----,------------""--------' ...._-_..,--,-1.....-' HIM6-43200 Buildingfnsulalion-LvllMechArea6 5 225NOV02A 15JAN03 -- .--- H4M6-63100 HVAC Pipe Mains - Levell Mech Area 6 40 2525NOV02A 17FEB03 ---- -~--'---_._'-'---- ~ ---- -- -, . -- -- - . - ---- H4M6~200 Set/Conn Mech. Room Equipment - Levell Mech 40 25 04DE~~_- 29£EBO~ HI RO-64200 Water Main to ExistBldg-Lvl 1 Areas6&7 10 10 14JAN03' 27JAN03 H4M6-67200 Wire Temp Control- Levell Mech Area 6 30 30 17JAN03 27FEB03 H1M6-62100 R/I Duct Mains/Branches - Levell Upper Area 6 10 10 21JAN03 03FEB03 ------ H1 M6-54500 Frame Partition Walls - Levell Upper Area 6 5 5 28JAN03 03FEB03 H1M6-62500 R/I VAV Boxes- Levell Upper Area 6 5 528JAN03 03FEB03 H1M6-63100 R/I HVAC Pipe - Levell Upper Area 6 10 10 28JAN03 10FEB03 H1M6.65100 Fire Protection Pipe - Levell Upper Area 6 10 10 28JAN03 10FEB03 .--.- .._---_.,----,-------'------_..., H4M6-64200 Water Mains. Levelt Mech Area 6 --~!51---'.5 28JAN03 --, ,17FEB°3..._..- HIM6-62150 Insulate Ductwork - Level 1 Upper Area 6 5 5 04FEB03 10FEB03 H1M6-64200 WaterMains-Level1UpperArea6 5 504FEB03 10FEB03 HIM6-64400 Med-Gas Mains - Levell Upper Area 6 5 5 04FEB03 10FEB03 --~ ---- HIM6-67200 Wire Temp Control-Level 1 Upper Area 6 5 504FEB03 10FEB03 H1M6-72100 R/I Cable Tray - Levell Upper Area 6 5 5 04FEB03 10FEB03 H4M6-63450 Insulate HVAG Pipe - Levell Mech Area 6 20 20 04FEB03 03MAR03 HtM6-63450 InsulateHVACPipe.LevellUpperArea6 7 707FEB03 17FEB03 HIM6-64350 Insulate Water Pipe-Level 1 Upper Area 6 5 511FEB03 17FEB03 H4M6-65100 Fire Protection Pipe-Levell Mech Area 6 10 10 I1FEB03 24FEB03 HI M6.62200 R/I WasteNenl Mains - Levell Upper Area 6 8 8 25FEB03 06MAR03 HIM6-73200 Pull Braneh Wire - Levell Upper Area 6 10 10 27FEB03 12MAR03 H4M6-981 00 Tesl&Balanee HVAC Systems-Level 1 MechAreaE 20 20 11MAR03 07APR03 S"rtD". FI,I,hOale DalaD". Roo Dal. 15APR,021f"iw.."R",_R"4,*z_~7Ea"YBe<, IIC4L ~~~~~~: .L T Prog,," Be< 14JAN03O9,26 .L T CrlUcal Aor"lly M. A, Mortenson Aurora Medical Genter - Oshkosh --_oj p.3. AN I 2M3- ,20 27 3 FEB ,10 ....J.7. M..,--.---,! -1" A!ì ill! ,l\J&,7Shaliow Electric - Levelt Surg Area 8 ð';CC-::TJ¿¡:CC,TfT,C7\7?,': '..\/Frost Removal at Surgery 6!i1i7FRP SOG - Levelt Surg Exp Area 8 ~VLayoutITop Track - Level 1 Surg Exp Area 8 RII Storm Piping - Level 1 Surg Exp Area¿'¡;:-bIj;T,;;;C;;';:C:¡;¡ Frame Coord. Walls - Levell Surg Exp Area~'fi'ß?"w¥§,g7ifi,] ~Building Insulation - Lvi 1 Surg Area Frame/Rock Elect Closets - Levell Surg Area/'-i'c=,-c.:V R/I Elec Panels & Cond - Level 1 Surg Exp Are ~j-,-:,::::C'::::ï7MaSOnry Walls - Lower Meeh/Elec Area 6 .:o/£.'it;j[~/Set/Conn Electrical Gear - Level 1 Mech Area 6 Masonry Walls - Upper Mech Area 6 1-li:S7,'.. -Install Equipment Supports - Level 1 Mech Area 6 ~BUildlng Insulation - Lvii Meeh Area 6 HVAC Pipe Mains - Levell Mech Area 6 Mech. Room Equipment - Exist Bldg - Lvi 1 Areas 6 & 7 Le Duct Mains/Branches - Level 1 Upper Area 6 ~Frame Partition Walls - Level 1 Upper Area 6 Boxes - Level 1 Upper Area 6 HVAC Pipe - Level 1 Upper Area 6 Protection Pipe - Level 1 Upper Area 6 ~Water Mains - Level 1 Mech Area 6 ~Insulate Ductwork - Level 1 Upper Area 6 ~Water Mains - Level 1 Upper Area 6 ~Med-Gas Mains - Level 1 Upper Area 6 ~Wire Temp Control- Level 1 Upper Area 6 ~R/I Cable Tray - Level 1 Upper Area 6 HVAC PII In~ulate HVAC Pipe - Level 1 Upper Area~~ Insulate Water Pipe - Levell Upper Areal"f'&ðL+."J,7Æ!\l Fire Protection Pipe - Level 1 Meeh Area~Jii""~W.f¡¡iQHi5+\I All WasteNent Mains - Level 1 Upper Area~7 Pull Branch Wire - Level 1 Upper Area~£!""¡¡"i;¡¡¡;::Ti5ii7"ifi,] Test&Balanee HV AC Systems - Levell Meeh Are~1 Sh," 11 or 11 ",,1,100 @ Primavera Systems, Inc, Aurora - Hospital 8 Week Lookahead --,-I Áctivity ID Activity Description ~"m"1Ii1i South Elevation (I.1SB 1- 4~~F1<J°f_l'erim -"t er_&..F'~ ~h, i n_g, :..S ~~"- v.t.1()~_A-,=a2.... West Elevation MOBI-41100 ErectP,ecastPanels- MOB Canopy MWB1-42200 Roof Perimeter & Flashing - W Elev MOB Area 1 MWBI-43100 Frame Alum Curtain wall- W Elev MOB Area 1 MWBI-43101 Gtaze-W Elev MOB Area 1 --,--,---- ,~~---------- Roof - MRBI-32400 - MOBI-314S0 - MRB1-42600 - , MOBI.42600 I iVI-RB1-67200 I' MOBI-42700 Elevators i!MVB1-S1200 MVB1.S1300 MVB1-S1400 MVB2-51200 MVBI.51500 - MVB2-S1300 -----~ MVB2-S1400 MVBI-S1600 MVB2.51S00 MVBI-S1601 MVB2-S1600 ""rtO". en,;,hD". )"'0". RurtO". Roof Perimeter & Flashing - E Elev MOB Area 1 Frame Alum Curtainwall- E Elev MOB Area 1 Glaze - E Elev MOB Area 1 Set/Conn Rooitop AHU's - Roof MOB Area 1 Stud Framing - MOB Canopy Metal Roofing @ Roof Screens - Roof Area 1 MOB Metal Flashing/Guiter - MOB Canopy Wire Temp Control- Roof MOB Area 1 ~1F~~~Can°I'Y___- ,----------- Orig I Rem :1' Dur Dur Early Start Early Finish 14JAN03 16JAN03 22JAN03 27JAN03 27JAN03 24JAN03 29JAN03 OSFEB03 06FEB03 17FEB03 Instail Elevator RailsiRam-Elevator 1&2 Area 1 10 10 14JAN03A Install Elevator Plaitorm - Elevator 1&2 Area 1 10 10 31JAN03 Set Elevator Equip. Elevator 1&2 Area 1 10 10 31JAN03 Install Elevator Rails/Ram - Elevator 3 Area 1 5 5 31JAN03 Install Elevato, Entrances - Elevator 1&2 Area 1 4 4 14FEB03 InstaliElevatorPlaitorm-Elevator3Areal 5 5 14FEB03 - --- ---- Set Elevator E~_:..Eleval~r.:J_'2'.e"..2...,___~....s -_..5 1_~EBI):J Install Elevator Cab/Cntrl- Elevator 1&2 Area 1 10 1020FEB03 Install Elevator Entrances - Elevator 3 Area 1 2 2 21 FEB03 Test ElevatorCab/Controls. Elevator 1&2 Area 1 10 1006MAR03 , ,-------- Install Elevator Cab/Cntrl- Elevator 3 Area 1 5 5 06MAR03 Frame Coord, Walls. Level 3 MOB Area 1 All WasteNent Mains - Level 3 MOB Area 1 1 06JAN03A 3 14JAN03 3 20JAN03 3 23JAN03 10 8 10 8 7 8 to 14JAN03 8 ISJAN03 10 16JAN03 8 27JAN03 7 29JAN03 8 06FEB03 15APR02lfSE--~9'~~'V 11C4l -~..""--+ -. E,,"YB" 23OCTO3 -, 14JAN03 J. TP"gr." °" 14JAN03 09..49 J. T erlU,,' Aoti,Uy 30JAN03 13FEB03 13FEB03 06FEB03 19FEB03 2°I'E~3___,- 20FEBO3 OSMAR03 24FEB03 19MAR03 12MAR03 27JAN03 27JAN03 M. A, Mortenson --- ---JAN~ ----,--------.2 QQ J ~--- I==~. ,::¡ï1XR:==~= J,~-~O 2.7 .L....-~lQ-------.i1L,__~__-,-,';¡.. _____"10_- Roof Perimeter & Flashing - E Elev MOB Area 1 Frame Alum Curtainwall - E Elev MOB Area 1 -----,------- -..--- Roof Perimeter & Flashing - N Elev MOB Area 1 Frame Alum Curtainwall - N Elev MOB Area 1 Glaze - N Elev MOB Area 1 --------,------,,--,-,,------ Roof Perimeter & Flashing, S Elev MOB Area 1 ------- Erect Precast Panels - MOB Canopy Roof Perimeter & Flashing - W Elev MOB Area 1 ~Frame Alum Curtalnwall- W Elev MOB Area 1 ('I*"'J":!!\/Glaze - W Elev MOB Area 1 ~Stud Rooftop AHU's - Roof MOB Area 1 MOB Canopy @ Roof Screens - Roof Area 1 MOB Flashing/Gutter - MOB Canopy Control- Roof MOB Area 1 Elevator Ralls/Ram - Elevator 1&2 Area 1 Elevator Platform. Elevator 1&2 Area 1 ,yator Equlp- Elevator 1&2 Area 1 Elevator Rails/Ram . Elevator 3 Area 1 Install Elevator Entrances - Elevator 1&2 AreaLjw.u:"',kAÆ'l Install Elevator Platform' - Elevator 3 Area~ ' Set Elevator Equip - Elevator 3 Area ßj'Jjj'z"¿,-Ç-C'E::iJ Install Elevator Cab/Cntr! - Elevator 1&2 AreaßTI",.gjf"C""',C:,"/'!?i:Ci'C;"c'\7 Install Elevator Entrances - Elevator 3 Area~ Test Elevator Cab/Controls - Elevator 1 &2 Area,i'S Install Elevator Cab/Cntrl . Elevator 3 Area(l;;?Z-::,'2--CV Frame Coord. Walls - Level 3 MOB Area 1 Mains - Level 3 MOB Area 1 Sh.et 1 013 _R.""," Aurora Medical Genter. Oshkosh Aurora - M,O,B, 8 Week Lookahead ¡ A~tlVity i Activity Orig Rem I Early 'f Early ID Description Dur Dur Start Finish ~B1-54200 Frame/Rock Elect Closets- Level 3 MOB Area 1 5 5 22JAN03 ~~~~~3_- M3BI-62100 R/I Duct Mains/Branches - Level 3 MOB Area 1 20 20 22JAN03 18FEB03 ---~--- ----~~---~ ------,-- ---- ~ - ------- u- --.., ----, -, M3BI.43200 Building Insulation-Lvl3MOBArea 1 7 723JAN03 31JAN03 M3BI-63100 R/i HVAC Pipe - Level 3 MOB Area 1 10 10 29JAN03 11 FEB03 M3BI-65100 R/I Fire Protection Plpe- Level 3 MOB Area 1 10 10 29JAN03 11FEB03 M3BI-72200 R/I ElecPanels&Conduit-LeveI3MOBArea 1 10 10 29JAN03 l1FEB03 M3BI-62000 R/I Sto,m Piping - Level 3 MOB Area 1 10 10 04FEB03 17FEB03 M3BI-62150 Insulate Ductwork - Level 3 MOB Area 1 7 7 05FEB03 13FEB03 r,Æ~,1-62500 R/I V A V Boxes - Level 3 MOB Area 1 ,~~ ~_...! -...2 ~~03 --- _'3F_~~~3,_..I M3BI-64200_\^/ater:!:1a~n,s_:.LeveI3M()B.A-,ea_'__-- - 10 1005FEB03 18FEBO3.1 M3BI-72100 R/I Cable Tray - Level 3 MOB Area 1 7 7 05FEB03 13FEB03 M3BI-63450 Insulate HVAC Pipe - Level 3 MOB Area 1 7 7 12FEB03 20FEB03 -- -~~ ~---- ----- M3B~_:672°.'1. \^/ir~:"2I'_~ontro~~ MOB ~:.a_1____,,-,,~ _.._7 __7 '-4~EB03.. ,- 24FEB03 M3BI-73400 Pull Security Sys Wire - Level 3 MOB Area 1 5 5 14FEB03 ~OFEB03 M3BI-73500 Pull Comm Sys Wire-Level 3 MOB Area 1 10 10 14FEB03 27FEB03 IM3B1-54500 Frame Partition Walls-Level 3 MOB Area 1 10 1018.F.1õ~°:J.__~ 0~~F1~ ~3BI-64350 Insulate Water Pipe - Level 3 MOB Area 1 7,"-": _,?£:EB03__- ;.>7£:fõI3():J IM3BI-62300 In-WaIiWasteNent/Water-Level 3 MOB Area 1 10 10 25FEB03 10MAR03 M3B1-72500 OH/ln-waIiConduit-LeveI3MOBAreal 10 10 25FEB03 10MAR03 M3B1-55100 FrameCeiling/SoffitStuds-Level3MOBAreal 10 1004MAR03 17MARO_~ M3B1-73200 Pull Branch Wire - Level 3 MOB Area 1 7 7 11 MAR03 19MAR03 , --.,----- Level 2 M2B1.54200 M2B1-72200 M2B1-54100 M2BI-62000 M2BI-62200 M2B1-43200 M2BI-62100 M2BI-63100 M2B1-65100 M2B1-62150 M2B1-62500 M2B1-64200 M2B1-72100 M2B1-54500 M2B1-63450 M2BI-67200 3',"0", "o"ho", "'aoa" '"" 0", Frame/Rock Elect Closets - Level 2 MOB Area 1 R/I Elec Panels & Conduit - Level 2 MOB Area 1 Frame Goard. Walls - Level 2 MOB Area 1 R/I Storm Risers - Level 2 MOB Area 1 R/I WasteNent Mains - Level 2 MOB Area 1 Building Insulation - Lvi 2 MOB Area 1 R/I Duct MainslB,anches - Level 2 MOB Area 1 R/I HVAC Pipe - Level 2 MOB Area 1 R/I Fire Protection Pipe - Level 2 MOB Area 1 Insulate Ductwork - Level 2 MOB Area 1 R/I VAV Boxes - Level 2 MOB Area 1 Water Mains - Level 2 MOB Area 1 R/I Cable Tray - Level 2 MOB Area 1 Frame Partition Walls - Level 2 MOB Area 1 Insulate HVAC Pipe - Level 2 MOB Area 1 Wire Temp Control- Level 2 MOB Area 1 5 5 15JAN03 21JAN03 ----- -----~~ 10 10 22JAN03 04FEB03 10 10 28JAN03 10FEB03 --------_.._~~- -----,-.... 5 5 28JAN03 03FEB03 --- 10 10 28JAN03 10FEB03 4 4 03FEB03 06FEB03 20 20 12FEB03 l1MAR03 10 10 19FEB03 04MAR03 10 10 19FEB03 04MAR03 7 7 26FEB03 06MAR03 7 7 26FEB03 06MAR03 10 10 26FEB03 I1MAR03 ~- ~-- 7 7 26FEB03 06MAR03 10 10 04MAR03 17MAR03 7 7 05MAR03 13MAR03 -~--- - 7 7 07MAR03 17MAR03 ;~~~~~;IßMjj:>im_¥ßilim%mnill_"7 E"'Y." 11C4l 14JAN03 .L Tpm"",." 14JAN0309:49 .L T ChIt'"~ Ao".tty M, A, Mortenson Aurora Medical Genter - Oshkosh f---- "13, 2!li& "LAN F.Eß, 20 27 3 ,10 ,17 ,24 ~FrameiRock Elect Closets - Level 3 MOB Area 1 L\1"i¡:¡æ=,¡.wn..n':'!d¡:¡7'~d~~d.1DW:'~iS7R/1 Duct Mains/Branches - Level 3 MO 11.11 ;L~1J! Insulation - Lvi 3 MOB Area 1 HVAC Pipe - Level 3 MOB Area 1 Fire Protection Pipe - Level 3 MOB Area 1 Elec Panels & Conduit - Level 3 MOB Area 1 R/I Storm Piping - Level 3 MOB Area 1 L]I:mi¥ØJ¡¡;'!ilim%m¡:¡l7lnsulate Ductwork - Level 3 MOB Area 1 ~~R/I VAV Boxes - Level 3 MOB Area 1 ð.ë£,...E"Z;¡"i'ftl~~&VWater Mains - Level 3 MOB Area 1 f\"Þ1::i!i!j¡i¡¡:¡¡i7T:o1:::~7R/1 Cable Tray - Level 3 MOB Area 1 Insulate HVAC Pipe - Level 3 MOB Area/lffifA:;¡u'ðI"m""h¡;¡' Wire Temp Control - Level 3 MOB Areaf\~æ""\7 Pull Security Sys Wire - Level 3 MOB Area(yc::n¡ITP:'71T..4í[7 Pull Comm Sys Wire - Level 3 MOB Frame Partition Walls - Level 3 MOB Area Insulate Water Pipe - Level 3 MOB Area/"l':>iMlli,,:n_dDß:V Level 3 MOB OHnn-wall Conduit - Frame Ceiling/Soffit Studs - Level 3 MOB Area, Pull Branch Wire - Level 3 MOB Area ~E ~Frame/Rock Elect Closets - Level 2 MOB Area 1 Elec Panels & Conduit - Level 2 MOB Area 1 """'I7Frame Coord, Walls - Level 2 MOB Area 1 Storm Risers - Level 2 MOB Area 1 WasteNent Mains - Levei2 MOB Area 1 - Lvi 2 MOB Area 1 - R/I Duct MainslBranches - Level 2 MOB R/I HVAC Pipe - Level 2 MOB R/I Fire Protection Pipe - Level 2 MOB - Insulate Ductwork - Level 2 MOB..._- R/I VAV Boxes - Level 2 MOB Area Water Mains - Level 2 MOB Area R/I Cable Tray - Level 2 MOB Area/'f!}! Frame Partition Walls - Level 2 MOB Insulate HVAC Pipe - Level- Wire Temp '--, Sh"" of 3 ~=--Bf~:=, 0'" Aurora - M.O.B. 8 Week Lookahead ---,l--- ..-, Activity Activity " ..ID -- -_..,-, ..- ..__--_PescrlpUo-,,__-- - ----- ~2B1-73400 Pull Security Sys Wire - Level 2 MOB Area 1 M2B1-73500 Pull Comm Sys Wire - Level 2 MOB Area 1 M2B1-62300 In-Wall WastaNentlWater - Level 2 MOB Area 1 M2B1-72500 OHlin-wail Conduit - Level 2 MOB Area 1 M2B1-64350 In-"~I~!e_WalerF'ip_e:,,I,~~e~2_t.1()B..!!,,".,1_- ,-" ,---, Orig Rem Early Dur Dur Start --- --,-.------...., 5 5 07MAR03 10 10 07MAR03 10 10 11MAR03 10 10 11MAR03 7 7 12MAR03 Early Finish 13MAR03 20MAR03 24MAR03 24MAR03 20MAR03 Level 1 M4B1-62050 Fab & Deliv, MOB Ductwork 15 1 09DEC02A 14JAN03 M1B1.54200 Frame/Rock Elect Closets - Level 1 MOB Area 1 5 1 20DEC02A 14JAN03 M1B1-62050 Duct Risers - Level 1/2/3 MOB Area 1 10 5 OSJAN03A 21JAN03 M1B1-62000 RII Storm Risers - Level 1 MOB Area 1 10 10 14JAN03' 27JAN03 --- f----- M2B1-54300 Elevator Shaitwalls - MOB 3 3 14JAN03 16JAN03 M1B1-72200 RII Elec Panels & Conduit. Level 1 MOB Area 1 10 10 15JAN03 2SJAN03 M1B1-54300 Frame Shaftwalls - Level 1/2/3 MOB Area 1 10 10 29JAN03 11 FEB03 M1B1-43200 Building Insulation - Lvi 1 MOB Area 1 5 5 07FEB03 13FEB03 M1B1-54100 Frame Coord, Walls - Level 1 MOB Area 1 10 10 11FEB03 24FEB03 M1B1-62200 All WasteNent Mains - Levell MOB Area 1 10 10 11FEB03 24FEB03 MOB1-43150 Alum. Vestibule - MOB Canopy 5 518FEB03 24FEB03 M1B1-62100 All Duct Mains/Branches - Level 1 MOB Area 1 20 20 05MAR03 01 APR03 M1B1-63100 RII HVAC Pipe - Level 1 MOB Area 1 10 10 12MAR03 25MAR03 M1B1-65100 All Fire Protection Pipe - Levei 1 MOB Area 1 10 10 12MAR03 25MAR03 02JUN03 s""o,,, F¡OI", 0", """n", "",'°'" ;~~~~~:I!"'rIT!F!Fr"_QE'rtYB" ItC4l "'AN03 .L T Proom" 0" WANO309,49 .L T C,¡Ii", A"¡,ily M, A, Mortenson J.3- 2!!.. .20_--_.2Z Eß.. ;3 ,10 ,17 ,24 ;3 10,- Pull SecurltySys Wke - Level 2 MOB M.a~ Pull Comm Sys Wire. Level 2 MOB Area~i'k_([fi In-Wall WasteNenUWater - Level 2 MOB OHnn-wall Conduit - Level 2 MOB Insulate Water Pipe. Level 2 MOBÚea Fab & Deliv, MOB Ductwork Frame/Rock Etect Closets' Level 1 MOB Area 1 Puct Risers. Level 1/213 MOB Area 1 All Storm Risers. Level 1 MOB Area 1 Elevator Shaftwalls - MOB & Conduit - Level 1 MOB Area 1 I!IE!!JiIVFrame Shaftwalls - Level 1/213 MOB Area 1 ~Bulldlng Insulation - Lvi 1 MOB Area 1 Frame Coord, Walls - Level' All WasteNent Mains - Level' Alum. Vestibule. MOB CanoPl'Ji",,"Þ#""'??J\7 Rn Duct Malns/Branches - Level 1 MOB Areaf'VZ.7ZZ!7'~"""'.I""" All HVAC Pipe - Level 1 MOB Area All Fire Protection Pipe - Level 1 MOB Area Aurora Medical Center.. Oshkosh Aurora - M.O.B, 8 Week Lookahead Sh,"3,!3 -=-o;;~ - l..------_,..__,1'",'loo..- _C"'",;..,I.._A9""""- LOAD TESTING AT UNITY POWER FACTOR ENGINE MODEL NO KTA50-G3 SERIAL # 33153057 PROJECT: AURORA HOSPITAL REPAIR ORDER NO: 56035 TEST DATE 3/25/2003 10F2 . -. - AMPERAGE WATER OIL AMBIENT OIL HOUR METER TIME VOLTAGE L1 L2 L3 TEMPERATURE PRESSURE HERTZ TEMP TEMP KILOWATTS READING 8:50 480 380 368 359 1141114 100 60 45 75 306 .7 9:10 480 758 747 739 176/176 81 60 45 182 619 1.0 9;30 480 1115 1087 1099 178/178 79 60 45 191 915 1.3 9:50 480 1554 1558 1559 178/179 76 60 46 196 1249 1.7 10:10 480 1504 1510 1512 179/180 75 60 46 198 1248 2,0 10:30 481 1503 1495 1505 179/180 74 60 46 202 1252 2,4 . 10:50 480 1504 1490 1508 179/180 74 60 46 203 1249 2.8 11:10 480 1499 1492 1507 178/179 73 60 47 203 1248 3.1 11:30 480 1499 1495 1510 179/180 74 60 47 203 1250 3.4 11:50 480 1498 1490 1509 179/179 73 60 48 203 1248 3.7 '~NOTE: FUEL PUMP ON DAY TANK WILL NOT STAYED PRIMED~' TESTED BY WARREN PHILLIPS GENERATOR MAKE: CUMMINS HZ DROOP RECOVERY TIME MAXIMUM HERTZ MINIMUM HERTZ MODEL: DFLC-5585593U SERIAL NUMBER: A030454429 KILOWATTS: 1250KW STANDBY VOLTAGE: 277/480 VOLTS 60 HZ AMPERAGE: 1504 AMPS@ 1.0PF CUMMINS NPOWER, LLC 939 LAWRENCE DRIVE DE PERE, WI. 54115 PROJECT: AURORA HOSPITAL REPAIR ORDER NO: ENGINE MODEL NO KTA50-G3 56035 TEST DATE 3/25/2003 LOAD TESTING AT UNITY POWER FACTOR 20F2 SERIAL # 33153057 - -, - AMPERAGE WATER OIL AMBIENT OIL HOUR METER TIME VOLTAGE L1 L2 L3 TEMPERATURE PRESSURE HERTZ TEMP TEMP KILOWATTS READING 12:10 480 1499 1495 1507 180 72 60 50 203 1248 4.0 12:30 480 1500 1493 1509 179/181 71 60 50 204 1247 4.3 12:50 480 1501 1495 1509 179/180 72 60 51 204 1249 4.7 '~NOTE: FUEL PUMP ON DAY TANK WILL NOT STAYED PRIMED GENERATOR MAKE: GUMMINS MODEL: DFLC-5585593U SERIAL NUMBER: A030454429 KILOWATTS: 1250KWSTANDBY VOLTAGE: 277/480 VOLT 60 HZ AMPERAGE: 1504AMPS@ 1,OP.F. TESTED BY WARREN PHILLIPS HZ DROOP RECOVERY TIME MAXIMUM HERTZ MINIMUM HERTZ CUMMINS NPOWER, LLC 939 LAWRENCE DRIVE DE PERE, WI. 54115 LOAD TESTING AT UNITY POWER FACTOR ENGINE MODEL NO KTA50-G3 SERIAL # 33153057 PROJECT: AURORA HOSPITAL REPAIR ORDER NO: 56035 TEST DATE 3125/2003 1 OF 2 .~.. AMPERAGE WATER OIL AMBIENT OIL HOUR METER TIME VOLTAGE L1 L2 L3 TEMPERATURE PRESSURE HERTZ TEMP TEMP KILOWATTS READING 1:30 480 380 369 359 1121112 101 60 51 74 307 .9 1:50 480 757 749 742 180/181 83 60 51 187 619 1.2 2:10 480 1120 1120 1105 181/183 81 60 51 198 933 1.6 2:30 481 1494 1499 1489 184/186 79 60 52 204 1249 1.9 2:50 480 1491 1500 1487 185/186 78 60 52 209 1246 2.2 -3:10 481 1499 1502 1485 184/186 77 60 52 207 1245 2.5 3:30 480 1494 1497 1489 184/186 77 60 52 207 1247 2.9 3:50 480 1498 1499 1491 184/186 76 60 52 207 1248 3.2 4:10 481 1493 1498 1487 185/186 76 60 51 207 1249 3.5 4:30 480 1492 1500 1489 184/186 76 60 51 207 1248 3.9 - ~'NOTE: FUEL PUMP ON DAY TANK WILL NOT STAYED PRlMED'~ TESTED BY WARREN PHILLIPS GENERATOR MAKE: CUMMINS SERIAL NUMBER: A030454428 KILOWATTS: 1250KWSTANDBY VOLTAGE: 277/480VAC 60 HZ AMPERAGE: 1504AMPS@l.OP.F. HZ DROOP RECOVERY TIME MAXIMUM HERTZ MINIMUM HERTZ MODEL: DFLC.5585593U CUMMINS NPOWER, LLC 939 LAWRENCE DRIVE DE PERE, WI. 54115 ") ßl/15/2ßß3 16: 14 '1 92ß2332794 STAFF ELEG OSHKOSH PAGE Øl F ax Transmittal Aurora Oshkosh Q VA LIT Y. INTEGRITY, EXPERIENCE. To: K"I/~AI ~NbA Ftom: ...)e~ ,li'e.c..4 LI~z:.. Ref: Co hd..te.A - ¡;>1$~t!t-T3 Date: IJ~/ð'5 Pages: (~'NU1tJ,ber of pages (Including cover meet) --, o"'~::'-;" ~ Eif7J)~: i ~¿! A he;e.,v ¡::; ,t2. ~ ~ -¡ ~'4 ~ .,Iz, MI1.WAtIKD: om(;); W13 NO30 c...pbel1 Dr( . MOIIOmon.. Fan., WI 53051 (262)181-8230 'PSX(Z/i2)781-1680 1'0 B.. 917. But1~W'.......... 53007-0917 M.UJ1S N 01lJi'ICI 6J2aMollOMDt!vc . '!OII, WSCòDS!¡¡ 53716 (608) 222.7353 f ,Pax (608) 222.7346 E-~ ~,OOID JOII SITE INFORMATION OSHX:OSH WEST CLINIC F Acn.trY Aurora ModieAI c...tor 8O! N, WCBthavœ Drive' 0-' WI 54904 (920) 233.2783 'Fax (920) 233.2194 B-MMI OahkoollAUI'CJ'II@slaffeJeclriç"on1 NATIONAL ELECTRICAL CODE COMMITTEE LaVerne E. Stetson, U.S, Dept.ofAgricuIlure,NE [U] Rep. American Society of Agricultural Engineers (Alt. to B, Bauman) 'd N. Tilmont, IBEW Local 952, CA [L] Rep, International Brotherhood of Electrical Workers (Alt,toS,Johnson) mond F. Thcker, RADCO, CA [RT] 70--21 (AIl, to M, L. Zieman) (VL545,550,551 and 552) David Gorin, Nat'!.Assn, ofRV Parks & Campgrounds, VA [U] Rep. Nat'I.Assn. ofRV Parks & Campgrounds (Voting Alt, to ARVC rep.) (VL 550, 551, and 552) CODE-MAKING PANEL NO. 20 Articles 422, 424, 680 Robert M. Milatovich, Chair [E] Clark County, NV Rep, International Association of Electrical Inspectors Cline, McMurtrey Electric,lnc" CA [M] , National Electrical Contractors Association J. Egàn, In!'1. Brotherhood of Electrical Workers, MO [L] ,International Brotherhood of ElectricalWorkers pher Gill, New York Board of Fire Underwriters, NY [E] KoesseI, Intertek Testing Services, N.A. Inc" MO [RT] LaBrake, Jr., Niagara Mohawk Power Corp" NY rUT] , Edison Electric Institute N. Pearse, Leviton Mfrg, Co,lnc" NY [M] . National Electrical Manufacturers Association Ramirez, Mr. Electric Service Co., Inc., NY [1M] , Independent Electrical Contractors, Inc. y Sardina, Carrier Corp" NY [M] . Air Conditioning and Refrigeration Institute 422,424, and 426) J. Talka, UL Intrnational Germany GmbH [RT] . Weizeorick, WI [M] , Association of Home Appliance Manufacturers 422, 424, and 426) West, Balboa Instruments, CA [MJ ,National Spa and Pool Institute 680) M. Yurkanin, Electran Process Int'!. Inc" NJ [U] . Institute of Electrical & Electronics Engineers, Inc, Alternates Anchales, San Bernardino CountylDept. of Bldg. & A [E] Rep, International Association of Electrical Inspectors (AIt. to R. M. Milatovich) Dennis L. Baker, Springs & Sons Electrical Cont. Inc"AZ [1M] Rep, Independent Electrical Contractors (Alt. to M. Ramirez) Brnce R. Hirsch, Baltimore Gas & Electric Co., MD rUT] Rep. Edison Electric Institute (Alt, to N. F. LaBrake, Jr,) Mark Leimbeck, Underwriters Laboratories, Inc., IL [RT] (Att.toD.J.Talka) Tom McDonald, Hubbell, Inc., CT [M] Rep, National Electrical Manufacturers Association (Alt. to J, N. Pearse) Stephen P. SchoemehI, In!'1. Brotherhood of Electrical Workers, MO [L] Rep, International Brotherhood of Electrical Workers (Alt. to R.J. Egan) Robert E. Wisenburg, Coates Heater Co., Inc., WA [M] Rep, National Spa and Pool Institute (Alt. to L. L. West) (VL 680) Nonvoting Rick C. Gilmour, Canadian Standards Assn" ON William H. King, Jr., U,S, Consumer Product Safety Commission, MD Andrew M. Trotta, U.S. Consumer Product Safety Commission, MD (Alt. to W. H, King, Jr,) NFPA Electrical Engineering Division Technical Staff ley, Assistant Vice President/Chief Electrical Engineer oggero, Principal Electrical Specialist . Mastrullo, Senior Electrical Specialist 'Connor, Electrical Project Specialist/Support Supervisor Lee F. Richardson, Senior Electrical Engineer Jeffrey S. Sargent, Senior Electrical Specialist Joseph V. Sheehan, Principal Electrical Engineer NFPA Staff Editor Joyce G. Grandy, Senior Project Editor ," ..NOTE: Membership on a committee shall not in and of itself constitute an endorsement of the Association ,é'~' or any document developed hy the committee on which the member serves, Committee Scope: This Committee shall have primary responsibility for documents on minimizing the risk of electricity as a source of electric shock and as a potential ignition source of fires and explosions, It shall also be responsible for text to minimize the propagation of fire aod explosions due to electrical installations, ICAL CODE 2002 Edition 01/16/2003 19:05 9203036491 MORTENSON OSHKOSH PAGE 01/01 1M ~.~= AURORAIIEDICAI. GENTER FIELD OFFICE .al_W"""""O","._~,WI- ,920\003_.. FAX 1920) '.""'1 FAX TRANSMITTAL TO: COMPANY: FAX: TOTAL PAGES: HARD COPY: REMARKS: Kevin Benner City of Oshkosh 9:zo..236-5084 1 No OATE: Januæy 16, 2003 FROM: Todd Stone PROJECT: Aurora - Oshkosh RE: Rooftop Unit Vestibule KJWW#: 101260C Kevin: Pu!!!Usnt to your observations noted on the January 9, 2003 Conection Notice, please find the following clarification: Item #1: Meeting to discuSS chiller disconnect location with EleGtri<:a1 Inspector scheduled for Thursday, January 16, 2003. Per manufacturer, the complete assembled 'flane Custom Air Handfing Unit induding eleGtricaI components installed at the factory shall bear the ETL label. Item #2: Item #3: The center vestibule of the Trane Custom Air HandUng Unit is used as a relief air passage only. The manufacturer indicates this design does not consider the Vestibule as a plenum space, If further documentation is required, please advise, T ASIta$ ¿c.. ~.~ 1õt.A!>e:retG- /'IA- Mol>..T1W~oJ Thil facoimll8 may contain prIIIIl8!J1ICI ømtIot conftd.nltOl in/ormollon inlondod for tho us. of lIIe odd......, If yIIU .... not !he add....see (or lIIe pe..... rooponsible for dOli...... h to Iho a-on addN!SSod), yo" ..., nOl copy or d.l"", tftI. to an"",. .ro.. W ~~:::,::s fllcalrnllo by mi8tal<a orWhhn not boon raoeöwd p"",ol1)', ploooo noÐfyoondorimmedôo!oly byeoling C:\Dol:ll- tftd semnøa1tM1My DOCUmet115IKJWW ..,...\Olll-L 101280CI-C__n Corroo.pond..colfllx_kbO1180,.IrlCpo<1lon ItOm.,doc FAX PRlN11MG: Jan....ry 18, 2003 Fax Transmittal I i A'J.'.:' ora. O~osh INTEGRITY, EXPER~ENCE, i ! ".1 8¿rN¡tJ¡r,L.. ... rÂI,."~~ Rcf.: 6/." 4/te.,,¡.¡o FArJ"'" "'f"F¡«f;-r,¡J G, Dale: /r.4ItlJ Pages: f) Nuû1ber ofpases (Includíøg cover sheet) ¡6"1I ^', ! I :/ ill ",tp~¡4.JD Mvl-"" ¡::;"'e.7-~#J"/ iPAl .f#,øVIe..6! PI £I-¿ #A$ 86'E; .f;~/p¿.c.Ý'7Ésr4'Þ.1 ¿"/,4-C- J...Ø_I-r ,. ¡t:;,¿e.~, -r.li!',fJV,{MIT7;f¿..I ,.I.. .,.. Wn! tl.. 'I fjU¡)KI'I! .'1 (4./..- i I i ,I ! d I , I 1 JOB sn1Il/WOItIW.'JIOII' I 0SRIr0SH Wl!ST CUN!C: FACIUrY:J' , AuraraJ.crodloatCœter: 801 N. W"-"-Drivo' 0ab1<0sb, WI . (920)233..2783 O'IIX(920)233-.2794 \ MlLW~ onto WmNS03DCampboUDIj '~1'1IIU. W'I'5SOSI (2Q)78J42JO "axÇ!S)181-1680 POIlecrPI~'30~PJ7 N omCB 4¡ZIMaaoooDrive . ~'37\6 (6OI)2ZZ-735' . "...(608)222-7346 \!-UoíI ~@.-po...... UWI ~~-:I i tØ 39\1d HSO>lHSO :J313 ~~\llS Þ6a€€l:øI:6 I '3ø :gy <:øø¡;¡Þl:nø OSHKOSH AURORA INPATIENT EXPANSION Ground Fault System Test Report QUALITY. INTEGRITY. EXPERIENCE. N!x.S,,"'¡,,/d"gm l"'-'il<,,-,ß,,¡M Test performed by: Staff Electric Co., Inc. W133 N5030 Campbell Drive Menomonee Falls, WI 53051 Prepared for: Aurora Medical Clinic 801 N. Westhaven Drive Oshkosh, WI 54904 Date: February 3, 2003 Equipment Location: Circuit Identification: ServiGe "ME/2" Main Breaker NAME PLATE DATA - OVERCURRENT DEVICE Manufacturer: Square D-mx electronic trip Ampere Rating: 3000 NAME PLATE DATA - GROUND FAULT SYSTEM Manufacturer: Square D Type: Micro-logic Pickup Range: A-J Time .1 to.4 cycles / seconds As Found Settings: Pick-Up: Pick-Up: A A Amperes Amperes Time: ~ cycles I seconds Time: ~ cycles / seconds As Left Settings: INSPECTION: Type of ground Fault System: Neutral Ground Strap / Zero Sequence / ~ Current Transformer Location: ~ / Incorrect Neutral to ground Location: ~ / Incorrect Monitor or Test Panel: None / Operational/Not Operating Test Notes: GROUND FAULT FUNCTION TESTED PER MANUFACTURERS RECOMMENDATIONS ØJ,t3l/2øø3 ø8: 48 92ø2332794 STAFF ELEG OSHKOSH PAGE øl Fax Transmittal '! I Au[OJi,ia Os~osh EXPER~ENCE. 1 11 I ! _'IIIC_Q "'¡~S/IKf UALITY. INTEGRITY. mn.~I. ' ~ To: II.. (N "I Prom: CIiIL- Ref.: tA-'\4"; G~I-n:."" J3tf~,e:-A-E¡¡.~ Date: '/31/03 Pages: ( 4- ) NuJ2ber ofpases (Including cover sheet) Ie-V!...} , ( . í I I ~Þ= ,I I tle#C ,4# -t'1# ~~.--r£,c;~ : r II" ß """,< "". &. """'" r ðA r "k ,( "'" i / ,v. '1',4 ..' ..J G- "v -r "é '" Æ ,P f' ...,. ",..;. .f' -7""" (!') 5"",,'/J4'5'. :1 ?¿~~€ ¿:t;vtE ¿/~ /I cA¿¿" :1 tPr"TfI ~v~ c:,.,-~e-",v-r£:1 I 17./tØ 5, / {~ t--- i I 'I JOB S1'1'B1 OS!UCOSH we::"O'BMA nON I Aunont Cl,lWOFÀ I tolN.WeIGIa ~O- oo:.mr ,I (920)m.;;3~;:; ~~ WI moJ 233-2794 : B-MiúI OsbkDoM ¡ 1U'Cr8@lfaIfo1ecttlc""",1 'I ! WI33 - ~':'.AWŒE OJftCJI ØQ -- Da . Moaamoaee PO&l9~~4J:~) 781:~ WI 53051 ~mu--- ,:':¡¡SõOO7-<J917 _DrIYO . (œa=~ (60sr=:l1716 -- !!Il!31/2!!1!!13 !!I8: 48 92!!12332794 STAFF ELEG OSHKOSH PAGE 02 lobi Property Profile POLYESTER/GLASS-MAT SHEET LAMINATES NÊ~¡¡¡i¡õEs~GPo:;;GPö:'i à¡;¡;:;;-" - --l . Nema Grade GPO-1 ' GPO.! G~ GPO-3 C<>Iot Brown Red Red Gra" UL. Recugni1ign FiIoI !illn'nlJAr - E75481 E76481 - r) 0 Tensile Slrenoth TMoIIe Modulus F""'urat SITo , FIÆWrAI MOCIUIUe Fie><u~1 """""'h' Hot. 130" C Com-.tva S . RA- Shear 5trennth IZOO I-set -, , Wat9f Abao,""" in 24 h",- ... EIGctIiC SlTongth 1/16" ThiCk/1MR Pe""""'""iar SIT in Air " SeClllc Strength If18',TIIIcIcnèS!t'::.: ',", " ,\/PM" ' 0149 -ridèurBi SIT rn:6iI" ":~::.':,""',"",,;,ix "<:,.., EI_ic Sltet\O!h 1/8" Thielen- Parallel SfS Oil , Carbon l!ack Ros\sIahc:8, , "" -,:,," '.. ' : 1AIn."'- AM Reslll18noe See. II!CTIodc Resfst&nœ ICTII.,,->,:;;w'/,!:'r', ..-:<,"'v,' ¡"\Ii,'" UI. HAm I!ðIIaœ Trøek Rate I"/min, _1V.60!ù' ',i'~".,.;",'P",,'¡"<¡;j:,:", ..,"':~è""';"':",',,'" Diss"""'on Facto< 60 Hi f'II""""'" MHz ','"',, ,",'<":,"';,'>' DIssIOMIon f'ac1or MHz u=& --- ~94 , UL HIlI WII& ,- ULH .. n Surfa... Bum c:ha,"""""",cs 1114" It1iQk\ " ' ", Asdfam I'BrIeI FI8me Sp,øed Indeoc. (1/4" thlek Psi P,he 10" Psi PsI X 10' ' Psi Psi Psi Ft.1bI;". %"'wej VPM KV 0638 D638 0790 D19O 0790 D895 0731! 0256 0570 0149 0149 ,,":' ", D23O3 04"" .,: D3838 UL 748 '"DI5(). 0150 ,'. ,:;:,:"," :0150- 0160 ,:"":"!,,,,,~, 'iOhmsxt~" DG!57 see, . If ExMsurI> - - U194 UL 74eA. UL 746A E84 E162 Ul748B UL746B gMn 1.3 20 000 t.2 12,000 35 000 12,000 8.0 ,3 1.82 400 450 40 ,- 130 500+ 0.0 5.5 ,012 5.2 .016 1, liB -' - - - , 11.000 1.4 21000 1.3 13000 35000 12500 8.5 .2 '.1> >460 SSG 4S 10 OOD 1,4 20 000 1.3 12,500 35,000 \2500 U .2 ! 5SO 45 , ,>400 180 180 soo.: ' 600+ 0.0 0.0 5.0-, ,:- . 5,1 -025 ..029 ., . 4.6 ' 4.5 .012 .018 U 1.8 YO 'SO 1-45 - - - 1:!O 160 YO 38 68 - 12.0 140 c 12000 1.6 22000 1.4 12.000 3S,Mt\ 13000 10' .2 1.85 400 , 500, " 46 -.MO'., 180 ,.. IJOO..' 0,0 5.0: .02 4.2 ,D1S 2 YO - ~ - 20 10 \Jt,T.m""'~"""""" EJeclnçaI Mechanlcel ,"0 "C - - NoN CorpolQtlon p- NEMA GPO ,_;¡tee In . range oI_ile; IIIId t/18 ØfOPOrIy value. IIsIIId .'" .....- represenlative of "'" -.. _of""'.. conllgura<tono ........ bor..-to I0OI""""" Howover, 1I1e1ina1de1e".iMfion ..",........;omøy 01 Norll NEIA"GF'O _teslorany....,oo......,._lttllooolan!!Ol1!llblllo/"""""" 'IhoI8l8n...."""".~brimplie<l,ÖI\GIUdIng-- 0',' . ......nty 01 .......",...1ítY '" -.. ror . -- purpœe. Und9< no elre""""""", shall """" COI>Orallon be now.. lor ,_., '" " " ' ....-..en"'h"'_. ' IIDIII. COIIPGIIA1IGII- CaIt88I ~ 0 n.-eI COIII8SÎtí5 .1heøJepIMtioc 0 &~ MaI8II8II 6360 North BOIh Streøt - Milwaukee. WI 53218-1610'-414-464-11480- 800-367.70530 FAX 414-464-768!1 www.t\Ol\l,com o'rIfI>Onohl,com 01(31/2£1£13 £18:48 92£12332794 STAFF ELEG OSHKOSH PAGE 03 lobi Corporation . POI..YESTERIGLA~AT SHEET '-All/NATES NEMA GRADES G~-1, G~-2, GPO-a (' NOh! Corporation produces four t'ligh quality polyester/Øf9SS mat reinforced sheèt ProduCl8. each of which mee\$ or e1CCMCIe \lie physical properly requirements for GPO IyØtlTamln8lM outlined In NEMA St8ndaro PubrlCalion NO. LI 1-1998, Each of !he Nohl GPO I8mill8les possesses a unique set of attrIbUtes that malces II pattlcutally weB wited for dillemnt types of eIeoIricøt and med1anit;al eppIiealions. Tt'I. NðhI !lades. APO-1. APO02, APO-3. and lST are deSCribed below: GRADE APO-i is IIf\ eeonomiça, geneI8I pul!O8ll NEMA CPO-, lamlnøle that . perfurms we" in ioppIiealions where good eledl'iC8l properties. good physlaal strength, and modeoate IIüt reslslanœ are required, but Where higher name is I'lOl. Grade Af'O-'Ì Is suitable lor producing a _iety of cMçtrieal fnsuIaIing and !lUPøorI components Including barriers. mounting panels, brush halders, COIIaI!I. wedges and blocking used in rotating apparatUS, dry-type transfmmers, and large switçhlj$. Gtade APO-1 laminate can function well In IEEE ClasA 8 operating temperaWfI!8, The lItanderd color for APO-1 Is brown, and is moI48d In thicknesses ot 1/32" through 2". GRADIE APO-IIS a general purpose NEMA GPO-2 laminate suited for çpIIcaIIons wI1ere good fIIIrN! NIIIIetanœ Is requied in addItIOn to good eleçtriçal propertIes, good physical pIi)peIties and good heat resistance. 1yplcal uses for QnIde APO-2 include high amperage mountIrIg panelS,swllch Þas88, terminal strips end are shool oomponents. Grade APO.2 Is a Ul recognized prcc!uoI. with a r temperature Indej< of 130' C Eleclrlcal and ,eoo C MeCl1anícaJ. Grade APo-2 "- Is produœd In. ~ stIII\dIII'CI eaIom, red and blaCfl, end is _liable in 1hidmesse8 of 1132' to 1-112"1 - GRADE APO4 it II oeneml purpose NEMA GPO.s laminate that perfom1ti well in electrical application$ {hat requlm high an: and carbon trac:k røsistance 88 well as flame re$i8lance, phy$ica! 8bengIh, and modw,e heat resistance, Grade APO-S IaÍnlnate 1$ wed ID(!ensIveIy In \lie mekiI1O of plI8se Md en<! barrims. ln8uIatlng supports, bus bar suppoIIs anC/ mounting panels In sw'1IChgMf and other types of eleclrical appat8tUs. Grade APO.3 Í8'8 UL recognizGCI prodUCt with a temperature Index of 120" C Electrical and 1400 C Mechanical. Grade APO-3 is produced In 1IIree standard colors; red, black, and white, and is mokled in thid<nU88S of '132" 10 2". GRADE LST is a !lpGClai purpose, NEMA GPO-a laminate that 11M )OM deSigned for appliCatIone where superior weàIher reeI8tance is desitaÞte in eddIlion to high arc and carbon track re8lstllnce, lIame resistance, physical 1ItNngtII, and modenIte III!at resistanCO. GI'SISII L8T Is parBculatly weI suited for appIidIfiOIIS in 1he transporl8llon Industry wnete loW smoke generation and toxicity are requfred in addition to good tlame resistance. Bes«:leS beiI\Q used lor electricat inSI.I1aIIOn components such as bafriel$ and mounting panels, Grade LST is also utilized In a variety 01 exterior mechanical appllcatlol'lll such as COIIef pIa- - shimS. bulk heads and sign boIøds. Glade LST Is molded in thicknesses of 3132" 10 1-112" and its stIIndarc "oIor is light ~, L IIOIIl cøDRIOI8. . c..-. ~ . TIu!r-.t t:I8NISIIeI . TIhmn8pIaIics . --- ......... 6360 North 60th Slrem 0 Milwaulcee. WI 53218-t8tO .414484-8480oi30C).387-7053- FAX 414-464-7689 www,noII!.com . Imo8nohLcom Bl{31!2BB3 BB:4B 92B2332794 STAFF ElEG OSHKOSH PAGE B4 ":Ön:icOmbiil~~¥:t~~; . '," ,r rnatslifœstUin' <J8SiQÎ1êlfpresSes iO.fotin- ","TheS.t:shèetsare åvallable in tWo,sIZes,. 31'by 73',àrld49" ,by~7. Mdirt thicknesses froni ,:' :"1I3~:U,~.~,2,~" . , ,,"" ': ' , ., .,",,' ,"', , , , ..,,' ,: ',.',.',:' " ..\,~~~.'.t,.; , , ",façilib'.,iS ståfti!d with highly skiIIed.þeiSönne!~"::' " (; :~uipped wìijj a variety of CNC ~t:!'iQt1lJ": /:,. ,~,~customerinqUíriè6',~~,:';;. .. ,èom~nènisRiåde.trom NEMA Gp? l8!lÌiriates,',y'/.,i,i: . ".', . thermoset ~~, thermoplasticS, ,an~ ~r~/, ., , , ~, ,angl~œdmatérials., '" ' ,:',"" , \>,{,\ ',: ~ 1!360 NIJrtÞ 80th SIrMt . Mu-AcM, WI 5:121&-1810 414-464-8480 800-36777053 . 'FAX 414-484--7689 www.nohl.com . inlo@nohl.com \ OSHKOSH AURORA INPATIENT EXPANSION Ground Fault System Test Report "'., EM""""" ,W..œ QUA LIT Y . """.¥""uld,,gm ¡~""g"'R,,i'" INTEGRITY. EXPERIENCE. Test performed by: Staff Electric Co., Inc, W133 N5030 Campbell Drive Menomonee Falls, WI 53051 Prepared for: Aurora Medical Clinic 801 N. Westhaven Drive Oshkosh, WI 54904 Date: February 7, 2003 Equipment Location: Circuit Identification: Service SB/N Main Breaker NAME PLATE DATA - OVERCURRENT DEVICE Manufacturer: 3re D-mx electronic trip circuit bre Ampere Rating: 3000 NAME PLATE DATA - GROUND FAULT SYSTEM (.iI'Ianufacturer: Square D Type: micrologic Pickup Range: 500->1200 Time .1 to.4 cycles / seconds As Found Settings: As Left Settings: Pick-Up: A-SOD Pick-Up: A-500 Amperes Amperes Time: ~ cycles I seconds Time: ~ cycles / seconds INSPECTION: Type of ground Fault System: Neutral Ground Strap / Zero Sequence / Residual Current Transformer Location: ~ I Incorrect Neutral to ground Location: ~ / Incorrect Monitor or Test Panel: None I Operational/Not Operating Test Notes: GROUND FAULT FUNCTION TESTED PER MANUFACTURERS RECOMMENDATIONS. (' Benner, Kevin From: Sent: To: Cc: Wettstein, Michael [mwettstein@trane.com] Friday, February 21, 2003 10:23 AM 'Michael Mccain' 'Larry K Lonadier'; 'ben.goetter@mortenson.com'; Stone, Tim; Logemann, Andy; Nordeen, Andy; Farwell, Joe; 'kbenner@ci.oshkosh,wi.us' Update: Aurora Disconnect height SO T6-E278 Subject: Mike, I just want to give you an update on the design status of the flexible disconnect solution for the Oshkosh Aurora Medical center. We are working diligently with Cutler Hammer and Underwriters Laboratory on this solution, I will be receiving a "prototype" of this solution no later than 2/28/03 to validate the design, I project to have (2) "modification kits" of this solution on site no later than 3/10/03. I understand the startup date is scheduled for 3/15/03. In addition UL has given their verbal approval for this alternate construction. Cutler Hammer is confident that an official letter from UL will be drafted soon. Please look into the installation of these "modification kits", I would project about 1/2 a day per starter to install. I have also been working with Kevin Benner the local electrical inspector. Kevin is up to date with all of the above information and this soiution. I will contact you with any changes or updates to the above, Thanks Mike Wettstein - Electrical Engineer The Trane Company mwettstein@trane,com Phone (608) 787-2000 Fax (608) 787-2204 @ Underwriters Laboratories Inc.", NOTICE OF COMPLETION AUTHORIZATION TO APPLY THE UL MARK 12laboralrny Drive, PO Box 13995 Research Triangle Park, NG 27709-3995 United States Country COOe (1) (919)549-1400 FAX No, (919)547-6021 http://w.vw,ul.oom February 28, 2003 CUtler-HaDm1er 2900 Doc Bennett Road Fayetteville, NC 28306 Attention: Rick Russell Reference: File E55632, 03RT3085 Subject: Addition of Alternate Flex Shaft Disconnect Handle Construction for Trane CVSK!CVSL Enclosure construction to File E55632, Vol. 2, Sec. 3. Dear Mr. Russell, We have completed our engineering investigation under the above project number and find the product complies with the applicable requirements. This letter temporarily supplements the UL Follow-Up Services Inspection Procedure and serves as authorization to apply the UL Mark to the above product which is constructed as described below: Similar to products covered in the UL Follow-Up Services Inspection Procedure, except for the changes as shown in the attached draft of the revised Follow-Up Service Procedure. To provide the manufacturer with the intended authorization to use the UL Mark, the addressee must send a copy of this Notice and all attached material to each manufacturing location. This authorization is effective for 90 days only from the date of this Notice. Records covering the product are now being prepared and will be sent to you in the near future. Products produced which bear the UL Mark shall be identical to those which were evaluated by UL and found to comply with UL's requirements. If changes in construction are discovered, authorization to use the UL Mark may be withdrawn and products that bear the UL Mark may have to be revised (in the field or at the manufacturer's facility) to bring them into compliance with UL's requirements. Sincerely, ~--~ Reviewed By: 1?i"~ SON DINE Senior project Engineer Conformity Assessment Services Tel, 919-549-1415 Fax: 919-547-6485 Email: son.h.dinh@us,ul,com ROBERT MATHEWS Senior Project Engineer Conformity Assessment Services A not-for-profit organization dedicated to public safety and commitled to qualily se"ice File E55632 VoL 2 Sec. 3 and Report Page 8 Issued: 2001-05-02 Revised: 2003-02-28 Each of the above enclosures are provided with two hinges and two latches on each door except for the Trane CVSF and CVSH enclosures which have one door provided with 3 hinges and 3 latches and the Trane-Lacrosse High Fault Box which has 4 hinges and 4 latches (see Ills. 3 and 4 for details). Also provided with casketing around the perimeter of door(s). The enclosures may also be provided with the following Parts A-D: A. Bus Bar - constructed of tin plated copper with cross sectional area sufficient to carry full load currents without exceeding 1000 A/in.'. B. Insulator Standoff - (QEUY2) 1-1/4 in. tall minimum. C. Barrier - (Provided on Carrier XRH unit mount enclosure only). Constructed from (QMFZ2) Fastex, Type "Formex" GK-17 - Measures 20 in. wide. Mounted on upper stiffener of right hand door. D- Line Shield - Constructed from (QMFZ2) Fastex, Type "Formex" GK- 17- Measures 15.3 in. by 7-3 in. Mounted to cover RD circuit breaker line terminals. Alternate - For CVSK and CVSH enclosures with flex shaft disconnect handle construction. Enclosure is provided with four door hinges, four quarter-turn latches, three spring catch latches, door brace, and flex shaft disconnect handle compartment, reference IlL No.5 for details. Also provided with gasketing around the perimeter of the door and may be provided with Parts A, B, and D above. First door hinge is located 3.51 inches from successively 15.03 inches apart from each other. the top and then First quarter-turn latch is located 4.23 inches from the top and then successively n inches apart center-to-center from each other. First spring catch latch is located 1. 33 inches from the top, next latch is 29.22 inches from the top, and the third latch is 54.86 inches from the top. Door is provided with a horizontal brace centered across the inside of the door. Both upper and lower flange of door brace are spot welded to the enclosure door at a minimum of three equally spaced points. Door brace is 0.105 inch thick minimum, with 0.61 inch flange by 26.68 inches long by 1.21 inches deep by 2.96 wide including flanges. Flex shaft disconnect handle compartment box is 0.105 inch thick minimum, by 14 in. high x 6 in. wide, by 9.11 inches deep tapering to 4 inches at the bottom, reference IlL No.6 for details. Top of box is provided with two holes and four threaded studs used to attach box to the bottom of the main enclosure. 6. Ratings - The ratings of these Wye-Delta controllers are as described in Vol. 2, Sec. 1 of this Report. 7. Short Circuit Ratings - The short circuit ratings tabulated in Tables 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12 may be applied to industrial control panels constructed in accordance with Items 1-6 above. Hammes Company 18000 Won 5mb bo" Soi" 250 Bc""kfidd, Wi""o,io 53045 Td 262 792 5900 Fa 262 792 3620 Mr, Kevin Benner City Of Oshkosh Inspection Services Division 215 Church Avenue P.O. Box 1130 Oshkosh, Wisconsin 54903-1130 March 11, 2003 RE: Aurora Medical Center - Inpatient Expansion (Oshkosh, Wisconsin) Correction Notice/Field Inspection Report dated January 06, 2003. Dear Kevin: We understand you have a concern as to why The Aurora Medical Center facility intends to provide emergency lighting in public restrooms and which branch of the emergency system that we will connect these lights. It is our intent to provide the restrooms with emergency lighting, and the current design and installation method is to circuit these lights to the critical branch of the emergency system. Since a great number of visitors to a hospital are either on medication or experiencing an elevated stress and/or anxiety level; orientation and safe exiting from all public used facilities within the hospital is desirable 24/7. We have previously reviewed this issue with Mr. Jon Cechvala, inspecting architect with The Department of Health and Family Services, at both Aurora BayCare Medical Center and Aurora Medical Center of Manitowoc County. Mr. Cechvala concurs with this logic and has found this critical branching lighting in the public restrooms to be an acceptable method of installation. We believe that we are in compliance with the intent of NEC 517-33 (A) (9). As you are aware, this code section noted is somewhat subjective in nature, Connecting the public restroom lights to the critical branch is strongly desirable in that it is "needed for safe effective hospital operation". Please accept this response for consideration in reference to your concern. We would be happy to discuss this further should you have any additional questions, and thank you in advance for all the effort expended on our project, on behalf of the City of Oshkosh. Sincerely yours, Cc; Mr. Jon Cechvala, DHFS Mr. Jim Skaala, KJWW DALLAS DENVER DETROIT Los ANCELES MADISON MILWAUKEE ORLANDO SEATTLE WASHINGTON D,c. MAR-14-2003 FRI 07:28 AM SQD SERVICES MAR, 13,2003 4:52PM SQUARE D COMPANY r;:n SGUARE rJ OOMF'ANY tI;h Sc:hntider Electric FAX NO, 9207571056 NO,307 p, 02 P, 2 IIS22WtO1WnonqSlM/,S_PorIc,IL 8Ø1'1fi. PHOm¡(847)57&-tlOC. PAX(M7)671-331i5 March 13.2003 $çhneider ElectriclSql,lsre [) Attn: Terry Michels N.10S1 Tower View Drive Greenville, WI 54942 RE: Q2C# 16827882 SwItchboards Dear Mr. Michels This letter Is In regards to the glastlc barriers Installed in the above referenœ<f switchboards, This order has five switchboard ßne-ups. Square D Fìeld SeNice Representative was on site to in!ltalf '80ti00 barriers between the main circuit breaker saction and feeder circuit breaker sflctlon In all five IIne-l,IpS. The elastic barrier material used is UL listed and ~ the $eme material used by the Square D assembly plant. The material used and the inataJlatlon of the material by factory qualified personnel does not void warranty of the switchboards. Warranty will still follow Square D terms and conditions for 18 months from date of invoice. If you have any other questions or conœms please feel free to con1act me. Regard!>, š:~t' Susan Li Quality Manager, Chicago Assembly Plant 03/18/2003 08: 35 9202332794 STAFF ELEC OSHKOSH PAGE 01 Fax Transmittal Aurora Oshkosh QUALITY. INTEGRITY. EXPERIENCE. To: (I.. Ct1,~ BtS",v,),ø, From: ~FF /2.¡pr.K~e:e- ~ Ref.: #<\Ð8 Sg¡l-lIle... ~";Þ þl'/4>c..-r' Date: ~/"'/ø~ Pages; (z...) N~mber of pages (Including cover sheet) II çJl/ ~ ¡j,~ /J: r;¥'P' ~r ~ r~ ¡t(¡;# ,(ßvÞI? f,;1-/ /t3;/ rJ/fJ 1/-/6 ¡V1,1/¡;e) 8P-4K~,. I 4¡1¡f,f)~!}. . ' ~ Jg-r~ ~s:~,,"-rç MTLWAUKU OFFICI: WI 33 N5030 Compbell Dr. . Meno",one. Fall" WI 53051 (262) 781-8230 . FIJX (262) 781-1680 POBox 917' Butler, Wio<onsj,153007-O917 MADISON omcJt 6328 Monona Drive . Modi""" Wísoonsin 53716 (608) 222-7353 . Fox (60R) 222-7346 E-Mail staffesr@execpc.com .JOB SITE IJIm):RMA TION OSHKOS¡,I WF..8T CLINIC F ACD'.ITY AuTor. Medicol Center 801 N. Westhaven Drive' Os11kosh. WI 54904 (920)233-278) 0 Fox (920) 233-2794 E.MaiJ OsbkoshAuTOr,@staffe1ec1ric,com 03/18/2003 08: 35 9202332794 STAFF ELEG OSHKOSH PAGE 02 OSHKOSH AURORA INPATIENT EXPANSION Ground Fault System Test Report QUALITY. INTEGRITY. EXPERIENCE. f." . ,v,o.'.h",",< ,. I~"".'R"¡'" Test perfonTIed by: Staff Electric Co., Inc. W133 N5030 Campbell Drive Menomonee Falls, WI 53051 Prepared for: Aurora Medical Clinic 801 N. Westhaven Drive Oshkosh, WI 54904 Date: March 18, 2003 Equipment Location: Circuit Identification: Service MOB Main Breaker NAME PLATE DATA. OVERCURRENT DEVICE Manufacturer. Square "00 Ampere Rating: 2500 NAME PLATE DATA - GROUND FAULT SYSTEM Manufacturer. Square D 640->1200 Type: Micro-Logic TIme ~ CyCles f seconds Pickup Range: As Found Settings: As Left Settings: PIck-Up: Pick-Up: 840 640 Amperes Amperes TIme: ~ cycles f seconds TIme: ~ cyclas / seconds INSPECTION: Type of ground Fault System; Current TransfOnTIer Location: NeUtral Ground Strap I Zero Sequence I I Residual Neutral to ground Location: Monftor or Test Panel: Com!ct I f ¡Correct I / Incorrect Incorrect None f I OgeraUonal I Not Operating Test Notes: GROUND FAULT FUNCTION TESTED PER MANUFACTURERS RECOMMENDATIONS Mar-ZO-03 03:11PD FrOB-TRAME CTV EXPORT THETRANECOMPANY TraDe Development Center, FAX To: Kevin Benner City of Oshkosh Electrical Inspector Phone: Fax phone: (920) 236-5084 ce: REMARKS: 0 Urgent ¡:¡;;¡ For your review Kevin, Here is the UL letter. 6087874967 T-58Z P.Ol/03 F-816 La Crosse, WI 54601 Date: 032003 Number of pages including cover sheet: ...L- From: Mike Wettstein phone: Fax phone: (608) 787-3165 (608) 787-XXXX 0 Reply ASAP 0 Please COIt\IDent Mar-20-03 03:111>11 Fron-TRAIIE cry EXPORT 5087874967 T-58Z P, OZ/03 F-816 @ Underwrtt.ers laboratories IRe", NOTICE OF c:om>LBTION AvrHORIZATION TO APPLY THE UL IWUt 12 \.abOraIOIYDrive, PO Box 13995 _TrIaogIePa1<.NC~ \k1i1ed Stales Coun\rf COde(') {919) 549-1400 FAX No. (919)541-6021 hI!p:/loww,uI.œm February 28, 2003 Cutler-Hamner 2900 Doc BeDDøtt Road FayetteviUe, NC 28306 Attention, Rick Russell Reference, File B55632, 03RT308S Subject, Addition of A1~ernate Flex: Shaft Disconnect: Handle Construction for 'traDe c.vsK/CIlSL Enclosure coru>truction to FHe 5SS632, Vol. 2, Sec. 3. Dear Mr. Russell, We have completed our engineering investigation under t1æ above project n~r and find the product complies with ~b.e applicable requirements. This letter temporarily supplements t1æ UL FollOW-Up Services Inspection procedure and serves as autlJorlzation to apply the UL Mark to the - product which is constructed as des=ibed below' similar to product!> covered in the ur. Follow-Up Sexvices IDSpection procedur<o, except for the changes as shoWn in the attached draft of the revised FOUOW- Up Sexvice PrOcedure. To pr<:>Vida the manufacturer with the intended authorization to use the UL Mark, the addressee must send a copy of this KoHoe and aU attached material to each manufacturing location. This authorization is effective for 90 days only from the date of this Notice. Records coveri"9' tb." product are now being prepared and will be sent to yo» in the near future- Products produced which bear the UL Mark shaH be identical to those which were evaluated by UL and found to comply with UL's requirements. If change. in construction are discovered, authorization to use the UL Mark may be withdrawn and product" that bear the UL Mark may have to be revised (in tbe field or at the manufacturer'" facility) to bring them into compliance with UL's requirelllellt" ' Sincerely, ~--~ soN DINIl Senior project Engineer conformity Assessment services Td. 919-549-1415 Fax, 919-547-6485 EmaiI, son.h.dinh"ua.»l.com Reviewed By, 1?iFP'-------- ROBERT MIl'l'!ŒWS Senior project sngineer conformity Assessment Sexvices A~~ _Ð plJbllcsalety and - Ð quaRly - Ø3/3112ØØ3 Ø8: 4Ø 92Ø2332794 STAFF ELEG OSHKOSH PAGE Øl F ax Transmittal Aurora Oshkosh QUALITY. INTEGRITY. EXPERIENCE. To: K6tI",¡ ßø¡JH'U¿ From: -:Ji-HR~&'c;." Ref.: MA'¡V Bt6ICtil. c"li:ø"JO ,:~...,. .,...-GS-ru'fÀ', Date: '3/" 103 Pages: ( 3 ) Number of pages (Including cover sheet) ¡!ÇVI#, . / Å-if ¡-¡IF (~) ,z~,uA,,4J,¡4J# H ¡pe" ...,.,- G¡/,~".JD ç..,r 7"éS""- ~e-h~7'S ¡t:::D,e rt/IF' r,Ðet/ I e".€ r,/""'" W~.5 F",,~'I!:t!r.Q ?#5"- a/iF£¡I( (SP/MEV Æ;VÞ ",,£ f'~tll',ee' WE ~PF 7P EAI,r"ec:;,."%Ø'..,..¡I//~ PIlEK. ,4,v( d"I3""",,)~ p(."~1I1 C".,..r ~I!!' ~ 6# ¿.. t..-. f'/.4,v Jl $/ ~r-/ WI33 N5030 c::' ~~J¡ omc¡¡ (262) 781.8230 ; FM'ønomOll.. Foil.. WI $30$) POB' ax (262) 781-1680 ox 917 . Butler, W;ocollsln 53007-0917 6328 M MADISON OmC11. (6~ Dmc . Modi_. WiBCOlL,jn 537¡ 6 )222~7353 . Fax(6Ò8)222-7346 l',MBll staffest@execpç,com .JOB SIn JNFO'RMATION OSHKOSH WF-ST CLlN1C F ACU.UY AUJ'OJa MedIcal Center 801 N. WcsII!a- Drive. Oshkosh WI 54904 (920) 233-2783 . Fax (920) 23¡¡'2794 E'MaU O.bkosbAUTOnI@st.trelectric,com Ø3/31/2ØØ3 ØS: 4Ø 92Ø2332794 STAFF ELEG OSHKOSH PAGE Ø2 OSHKOSH AURORA INPATIENT EXPANSION Ground Fault System Test Report QUALITY. INTEGRITY. EXPERIENCE. Test performed by: Staff Electric Co., Inç. W133 N5030 Campbell Drive Menomonee Falls, WI 53051 Prepared for: Aurora Medical Clinic 801 N. Westhaven Drive Oshkosh, WI 54904 Date Printed: Mardi 31 , 2003 Date Test Performed: March 28,2003 Equipment Location: Circuit Identification: Main Electrical Room SB/ME1 NAME PLATE DATA - OVERCURRENT DEVICE Manufacturer: Square D Ampere Rating: 3000 NAME PLATE DATA - GROUND FAULT SYSTEM Pickup Range: Square D 500->1200 Type: micrologic Manufacturer: TIme ...:1!2:!. cycles ,~ As Found Settings: As Left Settings: Pick-Up: Pick-Up: A-SOO Amperes A-SOO Amperes TIme: -.!:!.... cycles I ~ TIme: -.!:!.... cycles I second§. INSPECTION: Type of ground Fault System: Current Transformer Location: Neutral Ground Strap Zero Sequence Residual Neutral to ground Location: Monitor or Test Panel: Correct Correct Incorrect Incorrect None Operational Not Operating Test Notes: GROUND FAULT FUNCTION TESTED PER MANUFACTURERS RECOMMENDATIONS Underwriters Laboratories Inc. Mr. Kevin Benner City of Oshkosh 215 ChurGh Avenue Oshkosh, VVl54903 RECEIVED APR 1 7 2003 DEPARTMENT OF COMMUNITY DEVELOPMENT April 15,2003 Our ReferenGe: File #E55632, Project #03RT04313 Subject: Aurora MediGal Center Field InspeGtion on Trane Cooling System DisGonneGt Handle Dear Mr. Benner: Please be advised that on April 4, 2003 our Field Representative visited the above loGation for the purpose of making a field inspeGtion on the subjeGt produGts, manufaGtured by Cutler Hammer/The Trane Company, Our Field Representative determined that the subjeGt produGts Gomplied with our requirements. If you have any questions or Gomments, please GontaGt the undersigned. Mark Arons_n Area Manager, Great akes/Appleton Area Underwriters Laboratories 1045 N. Lynndale Dr. Suite 1 B Appleton, VVI 54914 TRAME'. Appleton Sales District The Trane Company PO Box 24 Appleton WI 54912 TEL 920734 4531 FAX 920 734 2044 CTStoneJr District Manager Commercial Sales April 18, 2003 J.F. Ahem Co. 855 Morris Street P.O. Box 1316 Fond duLac, WI 54936-1316 Attn: Larry K. Lonadier Re: Aurora Health Care 801 N. Westhaven Drive Oshkosh, WI 54904 . Dear Larry: Enclosed is a copy of a letter dated April 15, 2003 from Mark Aronson Area Manager Great Lakes/Appleton Area Underwriters Laboratories, 1045 N. LynndaleDrive Appleton, WI 54914. It is with regard to the Cutler Hammer devices on:' , Tra.ne S~lësOrdér: T6-E278 Trane CentraVac 1\t1ôdéY:Twô CZ)'CVHF770' Serial: L02L20501, L02L20111 As his letter indicates "Our inspection determined that the product examined complied with our requirements." Thank you for your patience. As indicated earlier The Trane Company will pay for this Underwriters Laboratories Field Inspection. If you have any questions please call me. Very truly yours, .lHE ~NE COMPANY C.T. STONE, JR. cc: >vinBenner:Electric~1 Inspector City of Oshkosh Michael McCain...:. J.F. Ahem Co. Michael Wettstein - Trane La Crosse Jerry Tripp - Trane La Crosse Andy Nordeen - Trane La Crosse Andy Logemann - Trane Appleton An American Standard Company @ Underwriters Laboratories Inc. APR I 7 2003 April 15, 2003 To: The Trane Company, Attention Tim Stone Fax/Email/Address: 3225 W. Spencer Street, PO Box 24, Appleton, WI 54912 FROM: Mark Aronson, Underwriters laboratories OUR REFERENCE: File #E55632, Project #03RT04313 Based on your request dated March 31, 2003 a field inspection of the subject products was performed by Allen Denoo of our Appleton office on April 4, 2003. Our inspection determined that the product examined complied with our requirements, Since the Field Inspection has been completed, we are closing this project and have instructed our Accounting Department to issue a final billing of $525,00 for this project. Should you have any questions concerning your billing, feel free to contact me or our Accounting Department at 847-272-8800, extension 43100, Regards, P M'~ Area Manager, Great lakes/Appleton Area Underwriters laboratories 1045 N. lynndale Drive Appleton, WI 54914 18 Nationally Recognized Testing Laboratory (NRTL) by OSHA CUSTOMER Toshiba America Medical Systems 2441 Michelle Drive Tustin, CA. 92661 CONTACT TERRI ROSE Toshiba America Medical Systems 2441 Michelle Drive Tustin, CA. 92661 JOB SITE AHC - Oshkosh Health Center 501 North Westhaven Drive Oshkosh, VVl54904 EQUIPMENT TYPE MODEL NO.: TOSHIBA CT SCANNER AQUILION 16 SLICE & AQUILION 4 SLICE UL STANDARD(S) ENGINEER X-RAY EQUIPMENT (UL 187) BEHAILU ASSEFA JOB COMPLETED Sep. 3, 2003 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE-28000-180/181 Page 2 September 3, 2003 1.0 PURPOSE The purpose of these inspections is to provide assurance that the equipment under evaluation meets the requirements of the appropriate codes, safety standards outlined in under our field labeling procedure. These requirements are required by the local jurisdiction authorities, when equipments are not Listed or Recognized by third party Nationally Recognized Testing Laboratories (NRTL), the likes of ENTELA, UL, CSA, etc, This inspection addresses only electrical systems with respect to electrical fire and electric shock hazards only. 2.0 SUMMARY This filed inspection was initiated by Mr. Abel Garcia of TOSHIBA AMERICA MEDICAL SYSTEMS. lli£. and was evaluated on September 2 2003 Based on the criteria set forth in our Field Labeling Procedure, it has been determined that the equipment: GANTRY UNIT PATIENT TABLE CBTB 01A CONTROL CONSOLE "CPU" RECONSTRUCTION PANEL PCDU - PCDU-125 A uilion 16 Slice GANTRY UNIT PATIENT TABLE CBTB 01A CONTROL CONSOLE "CPU" RECONSTRUCTION PANEL PCDU - PCDU-125 A3572198 A3572203 A3572199 A3572199 82734 U27214 U27215 U27212 U27213 U27218 Evaluated at AHC - Oshkosh Health Center. 501 North Westhaven Drive. Oshkosh. WI ~ conforms to the standard used for field labeling of these equipment. This report contains results regarding the indicated equipment for installation at the particular final installation location. This equipment is not intended as an endorsement of the equipment nor an approvai of similar or identical equipment at another location. 3,0 CONDITION OF ACCEPTANCE 3,1 In the event of modifications resulting in a change in the materials, manufacturing methods, loading or environment that would affect the use of the accepted product under the provisions of the noted electrical standards, this acceptance will be considered automatically cancelled. The applicant will be required to request re-examination of this product to determine acceptability, 3.2 ENTELA's acceptance of the equipment does not assume or discharge the responsibility of the equipment manufacturer, installer or other relevant parties. 3150 Hilltop Mall Road, Suite 44 - Richmond CA,94806 - Phone 510 2237891 - Fax 5102222138 Report No,: FE-28000.180/181 Page 4 September 3, 2003 5.0 CRITICAL COMPONENTS VERIFICATION The following components that are in a live circuit were inspected to insure that it bears the listing or Recognition mark of a Nationally Recognized Testing Laboratory (NRTL) marks. This designation insures that the companies listed under the NRTL program have performed construction and performance evaluation in these components, and therefore deemed acceptable for our inspection in this instance, MAGNETIC CONTACTOR FUJI SB-2NB YES DISPLAY MONITOR FLEX SCAN L685 YES DISPLAY MONITOR FLEX SCAN L685 YES 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE-28000-180/181 Page 5 September 3,2003 5.1 Grounding Exposed non-current carrying parts of the equipment were inspected for grounding means in accordance with applicable UL standard and provisions referenced in the National Electric Code(NEC) Article 250, Comment: Properlv Grounded 5.2 Guarding of Live Parts All internal components were inspected for installation in Metal enclosure and guarding provided in accordance with the applicable reference suggested in the applicable national standards and National Electric Code (NEC). 5.3 Over-Gurrent Protection Over-current protections, installed in the unit(s) were evaluated for compliance with the applicable national standard and National Electric Code (NEC). Protective device were verified to be of proper size and rating, and of type suitable to be used in this application. 5,4 Internal Wiring Internal wiring and wiring method were evaluated for compliance with the applicable national standard and National Electric Code (NEC). Wiring was verified to properly sized and rated, with a temperature rating suitable for the application in this unit. Inspection of separation of iive circuit was examined at this location, 5.5 Warning labels WARNING Labels are provided on all side of the units to Protect the operator. Refer to the Operator and service manual for a detailed description of the labels. 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE-28000-180/181 Page 6 September 3, 2003 6.0 APPENDIX: PICTURES Power Conditioner Unit for CT Scanner Unit (UL) Listed 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806... Tel 510 223 7891 - Fax 510 222 2138 Report No,; FE-28000-180/181 Page 7 September 3, 2003 Aauilion Multi Slice/16 CT Scanner Unit with the aantrv opened 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE.28000.180/181 Page 8 September 3, 2003 The AGuilion CT Scanner with the Gantv opened shows the Xrav head and electronics control cabinets includinG the coolinG units. 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE-28000-180/181 Page 9 September 3,2003 The inside of the CT Scanner Gantry Cabinet with the detector, power supply, coolinq unit and power distribution cabinets. 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE-28000-180/181 Page 10 September 3, 2003 The CT Scanner Gantry and data reconstruction display monitor 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE-28000-180/181 Page 11 September 3, 2003 Data Reconstruction and ImaQe reconstruction processor unit 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE-28000-180/181 Page 12 September 3, 2003 Side of the CPU and Imaqe Cabinet Imaqe Processor CPU CPU Unit 3150 Hilltop Mail Road, Suile 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Report No.: FE-28000-180/181 Page 13 September 3, 2003 7.0 APPENDIX: ELECTRICAL WIRING DIAGRAM .~ 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tel 510 223 7891 - Fax 510 222 2138 Nationally Recognized Testing Laboratory (NRTL) by OSHA LETTER OF COMPLIANCE September 3, 2003 Mr. Terri Rose Toshiba America Medical Systems 2441 Michelle Drive Tustin, CA. 92661 Dear Mrs. Rose The field evaluation of your AQUILION 16 Slice and AQUILION 4 SLICE CT SCANNER was done at AHC - Oshkosh Health Center, 501 North Westhaven Drive, WI 54904 on Wednesday Sep. 3, 2003 using the Standards for X-ray Equipment (UL 187). The following tests, Leakage Gurrent, grounding continuity and dielectriG voltage withstand tests, were performed with aGceptable result. AttaGhed to this letter is our letter of complianGe. It shows all pertinent information related to the investigation and is our Gonclusion to the project. If you have questions, please give us a Gall. Sincerely, ~~7 Behailu Assefa Managing Engineer 3150 Hilltop Mall Road, Suite 44 - Richmond CA,94806 - Phone 510 2237891 - Fax 5102222138 Date: Purchase Order No.: Job Number: Applicant: Equipment: Rating: Inspection Site: Standards: Conclusion: Labeling: Sep.3,2003 HQ-69448 FE-28000-180 , FE-28000-181 TOSHIBA AMERICA 2441 MICHELLE DRV TUSTIN, CA 92780 AQUILION 16 SLICE andAQUILION 4 SLICE CT SCANNER(S) 200VAC 3PH / 60 Hz 100KVA AHC - Oshkosh Health Center 501 North Westhaven Drive Oshkosh, WI 54904 X-ray Equipment (UL 187). The above reference equipment has been evaluated and tested and, as far as applicable in the field, found to be in compliance with the above referenced standards per our field labeling procedures. In accordance with the verifying compliance, the above equipment was field labeled with the following serialized field label. A uilion 4 slice GANTRY UNIT PATIENT TABLE CBTB 01A GONTROL CONSOLE "CPU' RECONSTRUGTION PANEL PCDU - PGDU-125 A uilion 16 Slice GANTRY UNIT PATIENT TABLE CBTB 01A CONTROL CONSOLE "CPU" REGONSTRUCTION PANEL PCDU - PCDU-125 A3572198 A3572203 A3572199 A3572199 82734 U27214 U27215 U27212 U27213 U27218 This report contains only findings and results regarding the indicated equipment for installation at this location. The referenced units were evaluated for fire and shock hazard only. This evaluation is not intended as an endorsement of the equipment or an approval of similar or identical equipment at another location. This completes the work anticipated under our field-labeling program. If you should have any questions, please don't hesitate to contact us. Sincerely, , ". 'iT ~., ~ivi7Cwf',~ ) Behailu Assefa Managing Engineer 3150 Hilltop Mall Road, Suite 44 - Richmond, CA 94806 - Tei 510 223 7891 - Fax 510 222 2138 Hammes Company 18000 Ww Smh b"" S,i" 250 B",kfi,ld, Wi"",i" 53045 T" 262 792 5900 Fa 262 792 3620 September 25, 2003 Mr. Kevin Benner City of Oshkosh InspeGtion ServiGes Division 215 ChurGh Avenue P.O. Box 1130 Oshkosh, Wisconsin 54903-1130 RE: Aurora Medical Center - Inpatient Expansion (Oshkosh, Wisconsin) Correction Notice/Field Inspection Report Item #4, Page 2 dated September 9, 2003 Dear Kevin: We understand you have a Goncem how the facility distributes emergency power to the elevator machine room panels, Your concern appears to be which branch of the emergency system these pane is are fed from. As installed, these panels are served from the Critical branGh of the emergency system, so service and work on elevators may be performed under emergency conditions, Administration feels this is most appropriate as maintaining vertical circulation at all times is necessary in the three story hospital. We believe that we are in compliance and meet the intent of the NEC 517-33 (A) (9), as the elevator controls and associated elevator machine room equipment loads are "needed for effective hospital operation". The receptacles will also be identified as required by the NEC, Please accept this as our response to this issue. We would be happy to discuss this further should you have any additional questions. Thank you. Sincerely Yours, HAMMES COMPANY C: Mr. Jon Cechvala, DHFS Mr. Jeff Rechlicz, Staff Electric Co, Mr. Jim Skaala, KJWW Engineering Mr. Ben Goetter, M. A. Mortenson Company DALLAS DENVER DETROIT Los ANGELES MADISON MILWAUKEE ORLANDO SEATTLE WASHINGTON D,c. '- .'J ~ OJHKOJH City of Oshkosh Inspection Services Division 215 Church Avenue PO Box 1130 Oshkosh WI 54903-1130 Fax To: Staff Electric From: Kevin Benner Fax: 233-2794 Pages: 2 Phone: 233-2783 Date: 10/03/03 Re: Under Desk Heaters CC: 0 Urgent 0 For Review 0 Please Comment 0 Please Reply 0 Please Recycle . Comments: Greetings! Could you please forward a copy of this fax to Mike McCain from Ahem. The attached is a copy of the clearances that were required for the installation of the heaters under the desks in the original clinic. Any questions please feel free to call me at 236-5046. Good Day, Kevin . , k,,'Pl 309 786 5967 K,IWW ENGINEERING ~~'. K.,JIVW 141 002; 003 Iá!OO¡ . TRANI!" MúJw - ;g;Ã17 )ßßer-l- EWFß:IN¿r Installation ï:fþiã(y---'-----'----'- SarvÎc\!l.iteratü;; Product Section .. Air f';ñïïinãiõevic';;'and HeatiiigP;;;:¡u;;ïš --~------ Product Elootrio:: Wall Fir!, Model -'--------ËWf13 Ut...t"ro Typo Installation ~----------'_.. 1 Sept",mber 1995 SV-TD-WF.EWFEl-IN.1-99S N,.w 5oquonoo o.t. File 1'10 5"por...'¡o. ---,---------- ---,,--' Architectural Electric Wall Fin Heaters ,(', i1z/ ( d Æ t:.- -loa-¡ , j - /II1""~4- ~~ FÆom ¿:. 7Õp ~ /I;" ~~4~e- ~.;;~ A'~ .4. .s;:Of>-!IOl> F cJk.~ ~- ~-kr,-. EWFB Models ~,,~._, / - .vf EWFB-DSf E\lVPB-DBTS ~~--~ eNF~DBF eNFEl-CB ~ ,¿ /k:>"¿ /,2('8"';:), !-..;.. Desìgn Saqu"",cè ¡Z't t" .3. EWFB-DBCT EWFB-DBCF EWFB-RDBT.PD E:.WFB-ASHDB !l8Sa '(, '- $"'",'" T""" C...,ony... """y of ,,01'0"'" prod." """"""""', It "-"'."""" '00,,/' "",II"" (~.. ondd"'o,wl'h'" no'~' Th,'."~'~;~ """VI"'" " '.,"'.,..."'" r¡("""Io;,I~"""'" .",." ,. ""., .,~III"", ""cl~," """""d"\,,, CArn,,';<ah Stondard 1M, 1995 . TRANE' Installation EWFB-IN-1 Supersedes Service Uterature Air Terminal Devices and Heating Products 8ectric Wall Fin EWFB installation 1 September 1995 SV-TD-WF-EWFB-IN-1-995 New Ubrary Product Section Product Model Ute,ature Type Sequence Dale AleNa Architectural Electric Wall Fin Heaters " EWFB Models EWFB-DBT EWFB-DBTS EWFB-DBF EWFB-CB EWFB-DBCT EWFB-DBCF EWFB-RDBT -PO EWFB-ASHDB "A" Design Sequence 9888 s_t"'T,~.Comp~yh".poli'T"'O"",,",prod~t "',,~~.oL It "~N"""",hI '°,""'" "K,t". ';00' Md"",o w'hout 00'" T"';"'t.t";,""",~,,;,,,ot th.",,;pmMt ,oIN""'. """"",' ""',""" "",byq".tI""'P..;~,""""'i';M' , eAmerican Standard Ino, 1995 General Table of Contents Page Description 2, . Model Number Description 3. . General Literature Ghange History Warnings and Cautions Receiving 5. , . Installation Rough-In WIring To Install Heaters 7 . . . Gontrols 8. . WIring Diagrams 14 . Dimensions 20 ' Accessories Model Number Description All standard Trane Products are identified by a multiple character model number that precisely identifies a particular type of unit. An explanation of the alphanumeric identification code used with Air Terminal Devices & Heating products is provided below, Its use will enable the owner/operator, installing contractors, and service technicians to define the installation, components and options of a particular EWFB unit. Importantl Be sure to refer to the model number stamped on the unit nameplate when ordering replacement parts or requesting service, Model Number Breakdown EWFB 1 5320 A 0 1 0 123 4 5 67 8 9 10 11 12 13 Digits 1,2,3 Electric Wall Fin Digit 4 Development Sequence Digit 5 Unit Model & Series Number 1 = DBT (6" (152mm) High X 3-112" (89mm) Deep, Top Outlet) 2 = DBF (6" (152mm) High x 3-112" (89mm) Deep, Top Outlet with Front Inlet Grille) 3 = DBTS (4" (102mm) High x 2-518" (67mm) Deep, Top Outlet) 4 = CB (4.112" (114mm) High x 2-5/8" (67mm) Deep, Top Outle!) 5 = DBGT (7" (178mm) High x 5" (127mm) Deep, Top Outlet) 6 = DBGF (7" (178mm) High x 5" (127nìm) Deep. Top Outlet with Front Inlet Grille) 7 = RDBT-PD (5" (127mm) High x 6" (152mm) Deep. Rounded Pedestal Top Outlet) 8 = ASHDB (8"-20" (203mm-508mm) HIgh x 5-1/2" (140mm) Deep. Top Outlet) Digit 6 Unit Length 1 = 2 Foot (6.6m) 2 = 3 Foot (9.8in) 3=4Fooi(13.1m) 4 = 5 Foot (16.4m) 5 = 6 Foot (1g.7m) 6 = 7 Foot (23m) 7 = 8 Foot (26.2m) 8 = 9 Foot (29.5m) 9 = 10 Foot (32.8m) Digit 7 WattsIFoot (Single Element Heaters) 1 = 125 2 = 188 3 = 250 4=93 5= 141 6 = 282 7=333 8 = 375 (Double Element Heaters) A=282 B =376 G=500 D=438 E=564 F=666 G = 750 H=625 DigitS Volts/Phase 1 = 120 2 = 208 3 = 240 4 = 277 2 Digit 9 Unit Model ASHDB Height Only 0 = Not Required for other Models 1 = 8" (203 mm) High 2 = 10" (254 mm) High 3 = 12" (305 mm) High 4 = 14" (306 mm) High 5 = 16" (406 mm) Hi9h 6 = 18" (457 mm) High 7 = 20" (508 mm) High Digits 10,11 Design Sequence Digit 12 Type and Color Finish 1 = Painted Golor 2 = Glear Anodize (204R1) 3 = Anodized Golor Finish Digit 13 Extended Enclosures 0 = No Extended Enclosure 1 =6" (152 mm) 2= 12" (305mm) 3 = 18" (457 mm) 4=24"(610mm) 5= 30" (762 mm) 6 = 36" (914mm) 7 = 42" (1067 mm) 8 = 48" (1219 mm) 9= 54" (1372 mm) A=60"(1524mm) EWFB-IN-1 ,/ Literature Change History EWFB-IN-1 (September 1995) Original issue of manual; specifically intended for use by experienced service technicians. Provides Installation procedures for EWFB units of "A" design. ,/ E\NFB-IN-1 General Warnings and Cautions Notice that warnings and cautions appear al appropriate intervals throughout this manual. A WARNINGS! are provided to alert installing contractors and other personnel to potential hazards that could result In serious personal injury or death. A Gautions: are provided to alert personnel to conditions which could result in moderate or minor personal injury or damage to equipment or property. Your personal safety and the proper operation of this machine depend' upon precaulions. The Trane Company assumes no liability for installation or service procedures performed by unqualified personnel, A WARNING! To reduce the risk of fire, do not store or use gasoline or other flammable vapors and liquids in the vicInity of the heater. A WARNING! To avoid possible electrical shock, make certaIn that all power is turned off at the main switch before wiring. All wiring and electrical grounding of the entire heater Installation must be grounded as a precaution against possible electrical shock. A grounding termInal in the heater splice compartment is provided for thIs purpose. A Caution: To reduce risk of fire from high temperatures: . Keep electrical cords, furniture, draperies or any other blocking material away from heater. . Do not Install heaters against paperboard, tow density fiberboard or vinyl surfaces. . Do not place heater below electrical convenience receptacle. . Check the supply voltage to made sure it is the same as indicated on the heater nameplate. 3 Receiving 1. Make sure that the number of cartons agree wilh the bill of lading. packing lisl and original order. 2. Material was shipped in good order and the Trane Company holds clear bill of lading, therefore any concealed damage must be reported at once 10 the carrier for inspection ànd settlement. 3, All material is shipped FOB Factory and therefore it is important to note all shipping damage. The Trane Company will assist the customer file a claim. but it is the custome~s responsibility to file the claim with the carrier, General General Trane Architectural Draft Barrier heaters may be mounted individually. end to end and wall to wall. Each heater is factory pm-wired, ready for branch circuit connection, . Draft barrier (DBF. DBT) heaters are constructed of 12 gauge aluminum and are equipped with an aluminum finned heating element, automatic reset thermal OJt-outs and are available with optional relays, disconriect swftches, and transformer relays. Integral thermostat and disconnect switch are also available as accessories. . Commercial Draft Barrier Com-Board (GB) heaters are constructed of 14 gauge aluminum and are equipped wfth an aluminum finned heating element, automatic reset thermal cut-outs and are available with optional relays, disconnect switches, and transformer relays, . Architectural Draft Barrier Draft barrier (DBTS) heaters are constructed of 12 gauge aluminum and are equipped with an aluminum finned heating element, automatic reset thermal cut-outs and are available with optional relays, disconnect switches. and transformer relays. 4 . Architectural Draft Barrier DBCT & DBCF heaters are constructed of 0.100" (2.5mm) extruded aluminum front covers and 16 ga, steel backs, DBGT pedestal heaters and DBGF heaters with optional finished backs have a 0.100" (2.5mm) extruded back as well as an extruded aluminum front . Architectural Draft Barrier RDBT-PD 12 Gauge Pedestal Mounl7" (158mm) x 6" (152mm) extruded aluminum draft barrier, extrusion is 0.100' «2,5mm) thick heat treated to T-5 hardness, Architectural Sill Height Draft Barriers Sieres ASHD-B8 to 20 heaters are constructed of 16 gauge furniture steel and are equipped with an aluminum finned tubular heating element(s). automatic reset thermal cut-outs, and are available with built-in regulating thermostats and disconnect swftches. EWFB-IN-1 Installation .... Rough-In-Wiring 1. Run branch årcun of proper voltage and wire size to location of the terminal box of the heater, Table 1 provides correct wire size for wire entry. 2. WIre entry into the healer installation is commonly made into one heater. Through wiring (Factory furnished) is used for connection to adjacent heaters, 3. 112" (13mm) and 314" (19mm) knockouts are located at each end of the heater back panel for wire entry. A knockout is also located on each side of the junction box, A 112" (13mm) and 3/4" (lgmm) EMT must no exceed allowable numbers of conductors according toN.E,C, 4. All wiring and electrical grounding of the heater back panel to be in accordance with National Electrical Code and applicable local codes, A grounding terminal In the heater splice compartment is provided for this purpose. ./ Table 1 - Wore sizing To Install Heaters 1. Series OBT and GOT. oaTS and CB heaters must be mounted a minimum of 2" (51mm) from finished floor. Series OBCT and DBCF heaters and Series ASHOB-8 to 20 must be mounted a minimum of 3" (76mm) from finished floor. Once installation height has been determined, proper markings along the wall should be made to Insure that the heater will be mounted eve~ly. If the wall surface is not even, attach the back panel to the high spots, This will eliminate a distorted appearance, Shims can be used to maintain a straight line along the front surface ff necessary, 2, When multiple heaters are to be wired together, remove terminal box end knockouts. 3. Mount the back panel to the wall using suitable fasteners (by installer). 4. Insert correct electrical service through the appropriate knockout in either the left hand or right hand junction box, Wore Rough In Maximum Watts per Circuit using Type Wire Size 75'C Wire 120V 208V 240V 277V Copper 14 144 2496 2880 3324 Wire 12 1920 3328 3640 4432 10 2880 4992 5760 6648 Aluminum 12 1440 2496 2880 3324 Wore 10 2400 4160 4800 5540 EWFB-IN-1 5 Installation 5, Gonnect grounding wire 10 screw provided in junction box. 6, Replace junction box covers. 7, When heater sections are mounted end to end. install a chase nipple and locknut in the terminal box end knockouts to insure grounding continuity and to protect the wiring. Where heater sections are spaced apart, rigid conduit (by installer) should be used to enclose the wire and insure-grounding continuity. Use rigid conduit (by installer) when witing through comer sections 10 enclose wire and insure grounding continuity. For Series ASHD8-8 to 20 heaters, when not installed wall to wall or with adjacent heaters, end caps ASHDB-810 20EC must be used. 8, The power supply may be brought into the end of one heater and the remaining heaters may be connected in parallel using the factory installed wires in the wireway, 9. When wiring multiple Series ASHDB-8 to 20 heaters, do not exceed the values given Table 2. Table 2 - Series ASHDB-8 to 20 Parallel Wiring more than one unit Voltage Length Amps Maximum 208 Volts 13'(4,Qm) 31.2 WattsIFoot 240 Volts 15' (4.6m) 31.2 500 277 Volts 1T(5,2m) 30.7 6 Notice To ensure a proper installation, make sure that all pieces are securely snap fitted. For ease of installation. snap bottom of front cover firsl, and then snap top part of the front cover to the back plate. Do not operate heater unless front cover is in place. Notice When using either 112" (13mm) or 314" (19mm) EMT for field wiring, do not exceed allowable numbers of conductors according to the National Electrical Code, Table 3 - Weights Model Lbs, per Ft. No, (Kg per M) DBT 4,0(6,0) DBF 4,0(6.0) DBTS 2,7 (4,0) CB 3.0(4.5) DBCT 5,0(7.5) DBCF 5,0(7.5) RDBT-PD 5.0 (7,5) 7.5 (11.2) 8,5 (12,6) 9,5 (14.1 ASHDB 10,5 (15.6) 11,5 (17.1) 12,5 (18,6) 13,5 (20,1) EWFB-IN-1 Controls Table 4 Note: When heaters are furnished with controls make certain that the heater or heaters do not exceed the lowest amperage rating of the controls furnished, For example, if a thennostat and disconnect are furnished where the thermostat is rated at 25 amps 240 and 277, the disconnect is rated 20 amps 240 and 277, Therefore, the combination of heaters should not exceed 20 amps at 277 or 240, ./ Controls Type Catalog Number Description DBF-ITS, DBT-ITS, CDF-ITS. CDT-ITS Single Pole DBTS-ITS Rated 25 amps at 120 to 277. CB-ITS 50' to 110'F temperature range. Tamper proof and adjustable through discharge louver. DBCF-ITS, DBCT-ITS RDBT-PD-ITS DBF-IDS, DBT-IDS, CDF-IDS, CDT.IDS Disconnect DBTS-IDS Switch CB-IDS Double Pole rated 20 amps at 120 to 277 VAC. DBCF.IDS. DBCT-IDS RDBT-PD-ITS DBF.ITD, DBT-ITD, CDF-ITD,CDT-ITD Double Pole DBT5-1TD Rated 25 amps at 120 to 277. Thermostat CB-ITD SO'to 110'F temperature range. Tamper proof and adjustable through discharge louver. DBCF-ITD, DBCT-ITD RDBT-PD.ITD Architectural Dran Integral thermostats: wire entry from either end Barriers Senes DBF & Disconnect swftch: right hand wire entry DBT Thermostat and disconnect right hand wire entry Relays: right hand wire entry - control section ll1ermostat - disconnect and relay: right hand wire entry. control section Arch~ectural Dran Integral thermostats: wire entry from either end - control section Barrier Series DBTS Disconnect switch: right hand wire entry - control section ll1ermostat and disconnect right hand wire entry - control section ; Note: Control section mounted on right side Relays: right hand wire entry - control section unless specified Thermostat. disconnect and relay: differently right hand wire entry - control seeton Field Wring With Commercial Dran Integral thermostats: wire entry from either end Integral Controls Barrier.CB Disconnect switch: mount e~her end Note: Control seeton ll1ermostat and disconnect: mount either end attached on e~her side Relays: control section Thermostat - disconnect and relay: control section IArch~ectural Dran Integral thermostats: wino entry from either end Barrier Series DBCT & Disconnect switch: right hand wire entry ,DBCF Thermostat and disconnect: right hand wire entry Retays: right hand wire entry - controi section Thermostat - disconnect and retay: right hand wire entry - control section ArcMectural Dran Integ",1 thermostats: wire entry from either end Barrier RDBT-PD Disconnect switch: right hand wire entry Thermostat and disconnect: right hand wke entry , Relays: right hand wire entry. control section i Thermostat. disconnect and relay: right hand wire entry - control section 7 ./ EWFB-IN-1 DBT & DBF - Controls Description--$Ingle Pole Catalog Number-DBF.ITS, DBT.ITS, CDF-ITS, CDT.ITS Rated 25 amps at 120 to 277. 50 to 110" F temperature range. Tamperproof and adjustable through discharge louver. Descriptlon-Oouble Pole Them1ostat Catalog Number-DBF-ITD. DBT-ITD. CDF.ITD. CDT.ITD Rated 25 amps at 120 to 277. 50 to 110' F temperature range. Tamperproof and adjustable through discharge louver, Wiring Diagrams Wiring Diagrams Description-Disconnect Switch Catalog Number-DBF-IDS, DBT-IDS, CDF-IDS, CDT-IDS Double pate rated 20 amps at 120 to 277 VAG. Field Wiring With Integral Controls . Integral thermostats: wire entry from either end. . Disconnect swnch: right hand wire entry. . Thermostat and disconnect: tight hand wire entry. . Relays: right hand wire entry-control section. Thermostat-disconnect and relay: right hand wire entry-control section. When heaters are furnished with controls, make certain that the heater or heaters do not exceed the lowest amperage rating of the controis furnished. For example, if a thermostat and disconnect are furnished, the thermostat is rated at 25 amps 240 and 277, the disconnect is rated 20 amps 240 and 277. Therefore, the combination of healers should not exceed 20 amps at 277 or 240, ._._~... _......~.._.~--_... .~-,. h;'~ ¡. l~ :fF Jo.-~:eE Ii .1 .~. --~. :,.,==::"- -Ë- ...- :",=:"","::'-=.:¡;;:-'::-:"I::I::I~ "-,--,- .._~ n_."'-", ~-~..._--~ _._~..--~ -_..--,~ U :ff'~ ~h ~-~ i!' -~,~ ~_n.w. --ið:Œ 11 .. ,., ,.----.. :;:~I::I::I¡<-' ._""~'~ " .-. - '. --.:'"-1::1::1: --,-- "."-_.'- .."--.-- ._.,..,".~ Wiring Diagrams - Control Section , - F;iõW,;¡;;g - T:'":~~\~~---_._--_._"-'-~;' .,.w Rei" S",., I .""""--y Coo..., "'~;, í f ' -_._--~~-_.._.. I T, "" l2 ..,-_....__...,------,- , Th"mo,,", /-'~ R,lay To""U T1~d;t ~ U ~;:, , ,-. . ...__.~"~:=1_~~:-:L_--..- ----.... - ,-..., - T, Hu l2 T' ~~"h Relay T, Hu" T1 D"'OM'" Swit,h ."""1 c"::.:,~,, n L , ---- ---- ,-- To"" l2 T2 T"..fo'm" Relay T,"" " T1 D"con...! I S,,¡toh Th"mo.ta' ~~"h I Rel,y ::::~:::~::; ~ n~ ' Di;:~~~" ."""'-<j> <,"",10",", fl.";' ~ ".. ,-,---- ,,~'~"',.---,,¡, :':C~.::!. ~ Th"mo"" TO""l'T2~l2 ! ~:::~;;'" To ""lI " --(--?;~ II ",..s""I, T""mo"" , ..-'- --- -- -, EWFB-IN-1 T"..fO'm" R,'" 8 ."""". ---0 " VAC Co",," C"",¡, ::::~:::~~~ ~~.I ...""~ CB - Controls DescrlpUon-Slngle Pole Catalog Number-CB-ITS Rated 25 amps at 120 to 277. 50 10 110' F temperature range, Tamperproofand'adjustable through discharge louver. DescrlpUon-Doubie Pole Thermostat Gatalog Number-CB-ITD Raled 25 amps at 120 to 277. 50 to 110' F temperature range. Tamperproof and adjustable through discharge louver. Wiring DIagrams .; Wiring Diagrams -Control Section Wiring Diagrams DescrlpUon-Dlsconnect Switch Catalog Number-CB-IDS Double pole rated 20 amps at 120 to 277 VAG. Field WIring With Integral Controls . Integral thermostats: wire entry from either end, . Disconnect switch: mount either end, . Thermostat and disconnect: mount either end. . Relays: control section. SingIoPh..."""" ~ """"""'~ . & ..... """" <& B:O;~ ~:!i .._-~......- -- ""__.- " ..- ~ ~= ".~ Wi'" To k" L2 -,_..-----,-,_. ToH"LI T1~L' roww s.,., a~""'l Con'ola'w;1 I To H" L2 .._~:-:':~- Th"mo..o. ToH"LITI LI Poww Ro'o, S.,., ROIO, To H.L2 T2 ~ Tholmo"" , ToH"L'TI ...... SM"" R"o. ""m.., 'O" o¡,c~",o! a"."" ~ Switoh Con'~ a,wll L L2 a~."" wwSuppl, Th"moota! ---oL Sw"," L 0 ~::::~::~~: PowwS.,., I ~:;~~ect --fC-~ I i ""mOIl" . Thermostat-disconnect and relay: control section Note: Gontrol section is attached on either side. When heaters are furnished with controls, make certain that the heater or heaters do not exceed the lowest amperage rating ofthe controls furnished. For example, If a thermostat and disconnect are furnished, the thermostat is rated at 25 amps 240 and '77, the disconnect is rated 20 amps 240 and 277, Therefore the combination of heaters shouid not exceed 20 amps at 277 or 240. T. H-" T2 R,lo. u~"" To H. " T1 Oi,co..,o! Switlh am.",,! co.::':;"." n L , ,,"U" m T...o'onne< . Re'o, To H." T1 T.... SM"" a"."" ---0 ROo, 6 O~c~.,ct Switch L L2 24VAC PowwS",., : COO"" CI".;I T".,'o<m« R,lo, ::::~::~~: ~n, am.""~ 9 EWFB-IN-1 oaTS - Controls All controls must be mounted in 6" (152mm) or 12" (3O5mm) control secOOn. Description-Slngle Pole Catalog Number-DBTS.JTS Rated 25 amps at 120 to 277. 50 to 110' F temperature range. Tamperproof and adjustable through discharge louver. Description-Double Pole Thennostat Catalog Number-DBTS-ITD Rated 25 amps at 120 to 277. 50 to 110' F temperature range. Tamperproof and adjustable through discharge louver. Wiring Diagrams Description-Disconnect SWIIch Catalog Number-DBTS-IDS Double pole rated 20 amps at 120 to 277 VAC, Field WIring WIth Integral Controls 0 Integral thermostats: wire enby from either end---<:ootrcl section. 0 Disconnect switch: right hand wire enby-c:mtrol section. 0 Thermostat and disconnect: right hand wire entry---<:ootrcl section. 0 Relays: right hand wire entry-control section. . Thennostat-<liscoonect end relay: right hand wire entry-control section, sr,¡Io-- .... m.,.!~ ~$¡¡ ;;o=:.."':'.::..--~- æ WIring DIagrams - Control Section R,lo, ToHaUT2 Ro""'rio, T:oH:'~~ ;,-~,._--'-~ ;:-; ""w. 5.""" G~'odL I Coo~I"'~" R"a, I I I i f- ---- j I T"'::::,mw::::~~ m'~. 5"" I G~""" ---<I) "'" 0;."",,- S_h l " "VA<: Pow."-', Comro' C;,~;' To HaL1 TI Oisc~", S_h Th,"no,'" To HaL1 TI TO",'l2_,_,_":"~::-- R"av I-m.- I ToHa" T2 Th'RnO"" ---;:ß ToHa" 11 .,. ! Relo, T""m,{., : moo,"ne", I Swnoh I Th"mo"" I Oi,cono,c, Switch II ""w. 5""" ~I TOH"12T2~" ""w.S"",,, I TOH"L1TI~ll I I L___,- ..--- EWFB-IN-1 T.""""""", Relay 10 Note: Control section is mounted on right side unless specified differently. Wlen heaters are furnished with controls, make certain that the heater or heaters do not exceed the lowest amperage rating of the controls furnished, For example, if a thermostat and disconnect are furnished, the thermostat is rated at 25 amps 2~ and 277, the discoMect is rated 20 amps 2~ and 277. Therefore, the combination of heaters should not exceed 20 amps at 277 or 2~, G',"od--Y u To Hot2 T2~l2 ToHaL1 11 ,~. L1 Roo, Gro"""~ DBTC & DBCF . Controls Description-Single Pole Catalog Number-OBCF-ITS, DBCT-ITS Rated 25 amps at 12010277. 50 to 110' F temperature range. Tamperproof and adjustable Ihrough discharge loLNer. Description-Double Pole Thennostat Catalog Number. DBCF-ITD. DBCT-ITD Rated 25 amps at 120 to 277. 50 to 110' F temperature range. Wiring Diagrams Tamperprcol and adjustable through discharge louver, Description-Oisconnect Switch Catalog Numbe1".[)BCF-IDS, OBCT-IDS Double pole rated 20 amps at 120 to 277 VAG. Field Wiring With Integral Controls . Integral thermostats: wire entry from either end, . Disconnect switch: right hand wire entry, . Thermostat and disconnect: right hand wire entry. . Relays: right hand wire entry-<:ontrol section. . Thermostat-disconnect and relay: right hand wire entry-control section, When heaters are furnished with controls, make certain that the heater or heaters do not exceed the lowest amperage raUng 01 the controls furnished, For example, Wa thermostat and disconnect are furnished, the thermostat is rated at 25 amps 240 and 277, the disconnect is rated 20 amps 240 and 277. Therefore, the combination of healers should not exceed 20 amps al277 or 240. -.--- -,._---~~_.., ¡. :a~::'¡ h h ;jr~~ it " ~ u ..,¡ .. :;,::::.::=..- -¡;- -- :;.,=:::-..:::.:- ..-:.:::.1::1::1= -_._,- ._.,.~.., -~-_ft,--~-" ~O;;::=,~'=""~ ,!~-o. ~-- or. ~ 0 ~¡. - -~ --. II ~' --- _0 -- Œ h M . ~ ..--- :=:':--I::I~I:;- '_h_,- ,.--- -':::'I::I::I~ -.--- ~,_...- ._.'.m'~ .~--.- ._.,_.~ WirIng Diagrams - Control Section I-, -. :::-;V'~= I ~~ :::~~~ ~n- S~'l' - - c~.." n ~ ToHu" ,.IdV,\rln, ' Th"mo"'. -------..- ' To HU II n..,.. 11 ",w" ---,------------1 Rei" G"'~'=:;' c.':':. r""'.' I' T":::;m"::::~:: T..n, Is..." Ii L ~'" ""'. G,o.'" .--- ~ .'" 0 - 0"""- I T'"mo"" To H. L2 T2 , l Sw.,h l, I i ToH"" n---Í~ S-I<' I 2'VAC Po."S"., ! , ".,., T'o~' ! ~::: I I i I i T";:~:;me< Wiring Diagrams '" I O¡oeoon", ~ Sw;I<h ¡Th"m"'.. TOH"12T2-----O~ I' "",onn." ToHul1T1 ~L1 "."S"., Sw;I<h --\.....,..~ i "'-"" i- ----------~ 11 ------------ ;:::~::~. ~ +-----.::'i JJ . I G"""~ EWFB-IN-1 ROBT-PO - Controls Description-Single Pole Catalog Number-~mBT-ITS Rated 25 amps at 120 to 277. 50 to 110' F temperature range. Tamperprocfand adjustable through discharge louver. Description-Double Pole Thermostat Catalog Number-RDBT-ITD Rated 25 amps at 120 to 277. 50 to 110' F temperature range. Tamperprocf and adjustable through discharge louver. Wiring Diagrams _...........n' Wiring Diagrams Descrlption-Disconnect Switch Catalog Number-RDBT-IDS Double pole rated 20 amps at 120to 277VAC, Field Wiring With Integral Controls . Integral thermostats: wire entry from either end, . Disconnect switch: right hand wire entry. . Thermostat and disconnect: right hand wire entry. . Relays: right hand wire entry-control section. . Thermostat-<lisconnect and relay: right hand wire entry-control section. VVhen heaters are furnished with controls, make certain that the heater or heaters do not exceed the lowest amperage rating of the controls furnished. For example, if a thermostat and disconnect are furnished, the thermostat is rated at 25 amps 240 and 277, the disconnect is raled 20 amps 240 and 277, Therefore, the combination of heaters should not exceed 20 amps at 277 or 240. '.....,u.....n'.,m""",....m.._", ¡\':i""'" i- ~fì~"- ^ ^ i;;~~~;;: ^ ^ 6. ::::~~:: '~}¡~ i- i- ~ .::~' e~ ~-~:-:--ìJ: ~~ ~! ~ :;,=.-=:-..:::..- -~,- '::".:;' ¡: :¡~:::¡ ,.,-" """" ....".."..,., ,~ i- ~! '-"-""n'~"_~"""~" :::,=::'=:::<::::':" ::-.:t..I::I::I:; ~-;,::,;:"'.,';:.::::,:" ,- :¡t~~"" õ:;:Þï- "'~' ~"'. ~f e, ..V- e3 ...:-'~-::.~~-.:::.."¡",~", Ii ~i1:Œ~h :::,:=-::::--":':':" ::-.:t.."¡::¡::¡:: ~-:.::::.~;,..,~~ Wiring r"--- ! :;,=::';::::.":':':" ::-~'::..I::I::I:: ::..;::;:':.~=::" ,~agralTl...:ControISection ----, RodW",", T:';:~~';~:' .... I ~ ",., co_",--y CMUOI"'~" I I !-- """,omo"", "'" --T"""-""'- I R,Oy II o;"OM'" Swit," _...J ;::::~~- ,.., Co,,"" ¡ C~I'" Oo~, n' 2 T. H. L2 ,.-,.-':,~~~--- -- -"-"'---'---- -----, To H. " T R.'a, I ¡ T""moo", T."" "'2 "" To",,"Tt~~-. "'" '""~(", L1 .... S- t .. ...""~ T..n"..m" ' , ToH"" Tt T --- ' S~,," '. "".y '.. C,,".. - ' "0 'd" I DL""""", L Swlt," ; '2 ' 2<VAC "'..S",., Con'~' CL",Lo , """"mo"" -o~ : ; D"COM'" ;:::~:~:~~: "'.'"'.' ' Swò,," ... ,/ T_~", ::::~:::~~~ ~TJI C~""'~ EWFB..IN~1 ' T"n"..m" "'" --,-------..------, "12 Wiring Diagrams ASHDB ... Heaters over 5' (1 ,52m) long may have 2 heafing elements Wiring diagram-heater only Note: On 277 von whfte wire is neutral. WIring Diagrams so,.",."'...'" ul:a: dd ", "'00" ".~'oo' ." A- .0 'M'. W,. ".. "'Coo'~'.""'o"o., ., '..w. '. ".w. ,. ".w. " ,.w. ,.....,."'.",," W"H ~"",...", 'W",CH ~ ~ ~ ~ -::ft:H i Hi . ~U:""d§~3~ ,,'""" cu<,,"' "'""H""'"'" ~. .~ v'\IV =~ w --<>"0"."° ~~ w ~:~~~ ... 0-- \ {f. !~ :~:C:~:~'."?;;:o;~~;.:" =:;¿'~~:~~.I::m~ ",..-.,.,".,., "'.." " "" ",,>c ,/ WIrIng DIagrams. Control Section , -,---_...._---,-, F'."""".' To.uLZ-,--------,_. To,"" T1-R--" Po",", ) L!ffJ S.,., G~""'L Coo,,"""," I -,,-,-.----- SO..,"..... .UT" "'.. """"""""'"",,"T '"£AMO"" . < . «~~ h~ ea~ ;;:C';:':';,~O;:;::~::"':H ~;,~::t:*- ~,.;::;;;~,',';;:;~:¿- "k." ,~.. """w"'~oe"..<c, ."'<C. AHO ""'ou """",.O"" '"£A""CU""'< o'se ,w n w - ~h """';.'":~:"" .0""'° "". ::',.~"",:';,~?_;-::~~~~.;H =::~'~~.:r¡,-;f::I::I~- ....-.,.-"".... "'...".""""C R.rAY I ~ir"h ftd" CO""o"""" n L 2 I I R.la, To." l2 ._--~~~~~.._.,- LT Pow. 5",1, Olsconn." Swltoh ,..-j ! G~,"" ---<¡> n M<h I, G~,,"" ¡ I ~~. ~~P.' I -=L.~,:---C'--I ~::::~:~:~~: Pow.S"", I ,-.I , T"'mom' I , Th"mo"", Ol"onn",' Sw"ch ---.... - ..- _A_"~ To .00T T1 Oloeonn.", Switch G"""""" I I r-- i To." 12 T2 , T"O$lo,"", ! ""ay To." LT T1 Olsconn«! Switoh Goo,"" -"-'--0 " VAC Coo"o' C'"", ,,-----..--...... I I I EWFB-IN-1 T""s'o,m,, R.lay ::::~::~~~ ~n, G"""'~ 13 Dimensions BF Ibottom Iouve~ Type ~7 m IImgth DBF & DBT only 15" (4. -----. <,.-"""", Type DBF """'.~-' ...".. '.""""~----' I:: ,-"".... 0' .-T'" <l'.~"'" ...,"""""",, """COAH'. . / M"'" -ÔÇ}\r~~ "...'"C_. ~ ..c"".. """,....n ::-"'fJ"'" "".... ""';.,,. - Knockouts and MOuntinBTG Hole. ,.!- (Typ.. DBf and D ' \:: .;.:... ,.,."..,.",..~ ,:-1 .-.-.., 0 :::;;:. I,.. ,-...... "-! ..,:...;1- '-~', .";;;¡!-""-"""""fllJl . + t r -----, ,. "" ~--"'-: : n "';r """"" , : : y "'",.... TypeDBT """'-""'"',. :;.-n- ;;~ ) "";0',-'-' ".."". ~::: """""',..- .-JI'._:¡--- "s""'" T'" w", .L . , ". ...-, -, -.- ~ ",-, ~'.-1 ,- r--I ~ ",- ~ ..-, "" .... ;:0':::1 [;1' . ",- ..""'" -I ~-: '"".... 0 . , 'M"__"~::;:"-:' ~ ,._I",[""~:,'r ' .,... '" ..... . .JJ. .,~ . ~ -¡....¡ .- ¡,....¡ ,.,_m""", ...- c,..... C'- Aceassoñ.. ,.- Corners on PD Units have Pedestals '0- ]-- ,. ",- ,. ~-- T.- """""'1 "-....--....... iIJIi""""". ""'" Uì,. ",,- ljj-"'~Œ ç "" - .o' ,. ,. I """"""""" ""-I 'J""'" ",,".... w.....¿J,.. ...... . .- '-J I 'N" ",- ' - ~~~ ",-, ",'., ~ 00"'" c..",. .,- CO"" N("t. ----' ,. "OS m '-IS'.""'MI"_' '............. TypIcal Installation An:hitectural Pedestal He.ter> Sorie$ DBT Ind OBF ~ 100-250 Watts Per Foot .....--... ~~1:. ..."'...- ö ,~~. EWFB-IN-1 14 Typo CB ~ ~ KnockoutS and Mounting Holes ...",ur<1" ¡ I ",....,~.... -I .".,.>0' ~~ .... -r-I-'"----'_"--J t- '-:1 ,-, ~~';.'" :r"'" ,~'.~'..,~ ",,""'" , ~-'-.~~'I , , , '...- accx ~h~~!..9._j L_c(.; '"j ,-,...,,$1>:-- ~ LJ 61 ~~~~ ,~- ~ ~ ¿:~ ø.... fÃl ø- ll$K A<:cossories H .... .,.... iJJIjÞ~o~ ..- ""- ~=. <!J. .,.... ,. df Typ¡cal Installltion ,/ "'"...""', "'C""""' Dimensions r "'" n~-1 "'ro}- ~"'N" m"o. T TI ..- ..- "".... "".... 1 1 "0 ",'::.., CA' , "'- J:::.. .-<~.... 1 111... ",:-:.:.. Un...... ¿Jr~'f:~~ ':'~.,- .",,"'" """0 Pedestal Heaters -~.. CB-PD 100-250 Watts Po< Foot- Bement Pedestals Field Moun1ed As An Option ö ,.._w........, "'" ",:'::.., Yf£.=4 T I ,.L ..- ........ .. "".... , ",JJ .~~~ ',;.:\'¡""'_. .....".- .....,.", -::~.:. " "... t:1] .- ,I :r 1"....1" ,.""'.... ""~~",-,, ~ ..~ """"" .-. Bo¡ Ti"i'. "",. ",."'- '".-' . . ... + - ""-"'" "",.._no ,::;.... .. ...",....'" on--', -I L,,-. 0lIo."'" 1 .,- ,.- ,... "'--_0 ouo"'" ....., ....""" 15 EWFB-IN-1 Dimensions Knockouts 100 Mounting 1101.. Typo DBTS "'- ~- I ,- ]- .....,..~'-"""" ..,.",., ~:~ O'SCH.'C, LOUV" ... ... [j J,~. ,.O~ c.. G Typicallnstallotion Accessori.. r ,~. N° "".,.""'-"'~Œ.""'" [!j"- 'T ,. r ,.. ",;':,~, 'T"'" I '.- "m,-"""'" ~"'" co..,. ....":..",,, 0.' .". "0' ..... EWFB-IN..1 16 r~¡"";".., ~I~~:::"III >('"'L';;"" "' - -' ~ H '..." "°".., ,.- os""" "-1'~:" -.. -:<'~- T """,' t ... rfffi,L ì};.g~- Li¿bJ-l ~::;: .'- co..", '<,,- .",.., """"".""""""'.' I~~h". ..... d{f!:"'" ~~;: 1S:-".~~..:~'~- "',....., , + .. ..,-w....... e O<A,HOtE ',- :. "'1'.~";- I ".' ,- ". ,,- ""- ~ ¡"" .... ... ... Dimensions Type DBCT and DBCF (Bottom Louvelj - s- ""..... -- ..-'- Knockouts and Mounting Holes li"~'-",,';"',-"'::::~,:;::~" l--~' I 17 ~:~ -, 0 : .~- -~~~ ' """"'11 -'(--r--' I,~- ,~i "" 1-!l1 'õ,';;,.~ r -.... ¡ T' : í) 0 ,,'O- J Y .,~' I L- _J ":" ,~ iJ '-I'! ,- H""HO"'~ r"""""1 3"'l <L<H<.' IG,= ì [;J-ì ," ,- - '",,~, ""~, <.0 3- : CAP '" """ . . , T , .~-~J:1I. . .{;;~ :,;;.-t '.0 ~. Typical Installation Accessories ""o"",COON" ,......~."""""'~'" ./w",/," \ /~ tJtJ J~ ;; -;7 .~". """.."".., ",n"" SM""'" NOTE: Front covers available as standard through 1 5'- Backplate available as optioo through 15'. ëEr'~~""(~' l ".~, ""~ I. J. ..; .. ,.."'m.' '" """"',';"""l""~""" or l~:'-. I -<"",,"~. r r ':.- ,- "",- -, r """"" ~",;;..., 1,~:~¡:~:~. L4ml ';.:.~.,~, 'OR"" ",- """'" ~:~~: Architectural Pedestal Heaters Sene. DBCF-PD, DBCT-PO C>6""" ,.............., EWFB-IN-1 r - ,"""'" _T""."."".l<"',"----~~.:.~ ,t ~+..- .;~:~: .."'...- ..--.. :-..~;:~. 17 Dimensions Unit Length 18 "\ S' l\1.1 """, 1- EWFB-IN-1 D. l/1}eoS' 10OS r"", "-,":::.08-8"",, 20 ""'101 <>unting Hole. .~ --."PJ1;"., '"5"" ~J,~';'i:'" ~ Ii":.:::' ""'t":.:::' '-L ~"" ::",," ~, ,""' .. r""'1 ".":.""' ¡""",or; ¡"'" '~... --., On # ~d~~~":.. ""- ~~....._. ,.I t ¡ ~ ""no. r?'- '. ,.' / ~~~.~L ;;'i~~.,.:::,IQ!)¡~:::, II ~~:~ "'..~, ..:'- gl::::: ,.......... ":--... """"'" .'¡:;:, ~""fina¡ ""'.. ...:::,::?""" , p~ .~. '.. ~..;;,-- ,.,...,."",,-----' H.... ,.. -" "-s. "" .1"~ rio. 4Skos.BPo ::..~ 5<»W.""", oor 'Foo, '..1"'" 'Zi~"".:." I I "'" ""," ~~......r.. '1 ""' ,. .t~::.=-- "fi~. '.j¿Fc:ii:;:'~fJ""~ /¡,..;.,,",~ ~:-""""'" ~",...¡ "'... ""-. -"-. ~ -:ì 1 ..r~:~' . '<A. ..."""","""",,~""" :f:.,.J -""" ",,"". '«. "'"....:::%"'" "'-f) "'lJ "'eo. Iil'V1'B-IN-1 ..,l~'t"'" ."."..,:::'~~;.... 19 Accessories Rod Hangers Mount rod hanger bracket to back plate using screws provided. Place fin tube on rod hanger, then place rod hangers into desired hole in mounting brackets. ~anger . . ::~Bracket '1- -, ~. ~_.~ ~ J ß. Valve Gompartment (6" (152mm) or 12" (305mm» blank section used for controls. Valve Compartment (6" (152mm) or 12" (30Smm» with access door - screw driver slot door. snap frts to back cover. EWFB-IN-1 Slide Cradle Mount slide cradle as shown in illustration making sure bracket screw is backed off one turn to allow slide cradle bracket to move with expansion. Inset element into cradle at proper location. Q¡ Valve Compartment w/Oplional Access Door 20 10/03/2003 10: 35 9202332794 STAFF ELEG OSHKOSH PAGE 01 " Fax Transmittal Aurora Oshkosh ,,' INTEGRITY, EXPERIENCE. To: /<e.v/lv_8e /liNEI'< From: 'v, ~ ~1It1c.-c... ~:~:~)"$ÎO~ ",.' , ' Pages: ( ~umbl'o;pag~Includiñg cover sheet) .- ¡f}~Û 5/-Mp ~ -::r ,v FO /I g) ~P ~ \fÝ~ \ ('(Q , , r~ fJ/~ If WAUIOtE OFFICE Wl33 NS030 C bell Dr, 'MenomoneeFalls, WIS30SJ (262) 78:-8230 ' Fox (262) 781.1680 POBox 917' Botler, W.9COJI,in 53007.0917 JSON OFFtCE ón8 Monon.o.I 've ' Modi,on, Wi,COIlsin 53716 (608)22 7353 ' F"'I(608)222-73-46 E-MI 'I JiUI/f<3t@_com JOB SITE INFOIlMATlON OSHKOSH WEST CLtNIG F AGILITY Aurora Medical Center 801 N, w..uu.vcn Drive' o.hkosb, WI 54904 (920) 233-2783 . Fox (920) 233-2794 I E-Moil OsbkoabAurom@sratreJec1rio,oom 9202332794 CAST BRONZE CLAMP WITH COPPER STRAP GROUND STRAPS, ADJUSTABLE Burndy adjustable grnund ..rape are mads from pur.. annealed coPPer. Tho heavy type '. .050' thiok and 314' wI<Io. Tne fight type I. ,025' thick and 3/4' wide. The bolts. nuts and washers ere plehld ".01. Four IIIzes CO"", . ground pipe 'ang<> of 318' to 4". Gfouncl wire oonnectlon .on be soldered or soIder'ess. ~ @ .cCOMMOOATES CONDUCTOR RANGE CATALOG WATER HUB NO. PIPE GROUND SIZE H W C.11CSH.1 6$0l 1/2 1.06 MAX (13) (27) CoI1CSH.2 1/2-1 3/4 1.75 8.50 1.25 (13-25) 4IOSTR [1~ 1441 (216] (32( MAX 1 1,50 C-11CS/1.3 (25) [381 ~ REFERENCE ACCOMMODATES DIMENSIONS CATALOG NO. WATER Pfle W GSfTSo 318.1 .050[1) (10-25) 5.61 GSIT25 .02511) (1421 GS2TSO .050(11 3/8.1 ¡10.511 9.38 GS2T25 .025(11 12311) .75 GSaTSO .050(1) 1'9) 318.3 13,20 GS3T25 /10- 76] .025[11 (335) GS4TSØ .000[IJ 318-4 17.00 GS4TZS (1O -102) .025/1) (432) Violation(s) of at 855 N Westhaven (above) / 1030 W 20" (below) Aurora. 1030 w 20th, 1910 S Koeller.doc 13 Taken by Kevin Benner ~~ - Aurora Medical Center" ~ 855 N. Westhaven Drive Oshkosh, WI 54904 T (920) 456 6000 www.AuroraHealthCare.org December 8, 2003 Benjamin J. Goetter Assistant Project Manager M.A. Mortenson Company 801 N. Westhaven Drive Oshkosh, WI 54904 Dear Mr. Goetter: This letter is to clarify the use of the hydrotherapy units in the labor/delivery/recovery/postparturri suites at Aurora Medical Center of Oshkosh. The hydrotherapy is utilized as a method of providing comfort and relaxation during labor, up until the time of delivery. The units are not utilized for the actual delivery. This non- medical application of hydrotherapy provides benefits to the laboring mother. In addition to aiding in relaxation, laboring in the unit can increase a laboring woman's pain tolerance, and may relax perineal muscles and tissues, reducing the need for episiotomy. The policy of Aurora Medical Center Oshkosh is to offer the hydrotherapy during labor for the above referenced uses. Delivery of the infant in the whirlpool tub is contraindicated. Should you have further questions, please feel free to contact me at 920-456- 7606. Sincerely, f'-" r-r-o' . /J.~ ~~ Frances R. Finley, ACHE Administrator J~~-~J~'J. ,.~" ~"~~,, ~~ "'~" 'M~~ ~.'UJ Iiii:' Underwriters \CI Laboratories Inc." .;. P;(n NIll'lIIIIrook DIvI8km ~3 pjlngsten Rood NonnDrOOk, It 60062-2096 U8A l>WN.ul.l:om tot 1 8472728800 t",: 18472728129 CusIomer gervk:e: 1 877 854 3577 February 19. 2004 .....---... ........ Our Reference File Number: NC6889 Our Reference Project Number. O4CA03687 Mr. Ben Goetter M.A. Mortenson 801 North West Haven Drive Oshkosh, WI 54904 Subject: Field Evaluation of (9} Kohler, Model 1433-H-96-BC Whirlpool Bathtubs for Installation in a Heathcare Facility Dear Mr. Goetter. On January 28, we completed a Field Evaluation of the subject products located at Aurora Medical center, 601 N West Haven Drive, Oshkosh, WI, 54904. The following is the result of our evaluation. It was determined that the Whirlpool Tubs complied with the requirements for installation in a healthcare facility and UL's Field Evaluated Products Mark was applied. Attached Is a copy of our report for your records. We appreciate the opportunity to be of service to Delta Medical Systems. Should you have any questions or comments, please feel free to contact us at any time. nTruIYYO~Vd- ~Ext. 43041} Sr. Project Engineer Conform~y Assessment Services E-mail: jereml.m.pecl<@us.ul.com Reviewed by, ~~.<!-i.t::~ . Steve Gardner Staff Engineer Conformity Assessment Services E-mail: chantel.carson@us.ul.com ^, "d""doI11 ",""","". wor",. lor . ..,.. wOrln with "¡,,.lIy. """¡,, ,,' ",,)w"d,. U~, U~, .uu. ~.U~U~U'~. ,.~,,~,,~~, u~",u~, ,~u~ u.' w 1JND1I:i\WRITERS loNiIOPA'J:ORIIIS :me. NC6889. 04CAO3687 lŒl'OR!! ON P!IILe IIVAIoUATED PROOUC'l l'l\ODOCT: Hydro-massage Whirlpools ~ ~TY!'e) (Manufacturer) 1433-H-96-ßé ~Mode1 No.) See Report (Serial Nos.) FE Label Serial No. FE142462 - FE142473 Date A.pplied: 2004-01-28 Product Looation: Aurora Medical Center 801 N. West Haven Drive Osbkosh, WI 54904 Eva1::;? ~ ~mi I:'eck (Ext, 43041) Senior Project Engineer Conformi ty Assessment Services F.-mail: jerelDi .m_P<'ck@us.uLcom Reviewed By: - -:j¡:'--: ~" S"teve Gardner Staff Engineel' Conformity Assessment Services "~{"~{:"'mq U:"b ~L~~"~b4~' ,.~,c."~u,, ~mu~" NC6899, 04CP.O3687 Janua,ry 28, 2004 Page 2 Basic Standards Applicable: OL 544, The Standard for Medical and t)er>tal Equipment OL 1795, The Standard for Hydro-massage Bathtubs Brief f'.r.oduct Overview: Hydro-mas.aqe Whirlpool Tubs used in patient rooms. SUpply Connection Descriøtion: Cord Connected, 120 V - Single Phas,"" Summary of Maior Gomponents: Gomponent Manufactur.er ~ SE'~ia.1 Numbeu! Hospital Room Number Hydro-massage Whirlpool Tub Kohler 1433-H-96-BC T02K4759 ! 301 T02J9430 / 302 T02J9076 ! 303 T02K1697 / 304 T02J9428 ! 308 TO2J907S I 309 T02J9429 ! 310 TO2V0436 / 311 TO3K4760 ! 312 Component Description Listed, Recognized, or Otherwise Certified ~ œ r!.ot determined ~ Hydro-massage Whirlpool Tub x Listed UL Tests Conducted: 01, 5H, The Standard for Medical and Dental Equipment - Earth and Enclosure Leakage Current Tests Waived: Test All Othc>r Testing from OL 541 Reason Tests Were Waiver:! OL H95 Listing Copsideration,,!Co""""r>ts: OL Listinq wa.s verified. Since construction. and testing requirements are similar between OL 544 and OL 1795, only Earth and Enclosure Leakage CUrrent Teata were conducted. The maximum a"ailable Earth Leakage Current was mMsured to be 27 Ü\ w!1ich is within the required limit of 300 Ü\. Conclu"ior>: The hydro-massage ba!:htuJ:>s did comply w;ith the Field EvaJ.uation requirements applicable to the products and tho Field Markings were applied to the product. GITY HALL Inspection Services Div 215 Ghurch Avenue PO Box 1130 ~ Oshkosh WI ~ 54903-1130 OfHKOfH ON ,He w"" City of Oshkosh March 8,2004 Ben Goetter M. A. Mol1enson Company 17975 West Sarah Lane Brookfield, WI 53045 Reference: Aurora Medical Center 855 N Westhaven Dr. Oshkosh WI 54904 Dear Mr. Goetter: This document is to clarify the acceptance of non-metallic wiring methods that were used to provide the electrical power supply to radiology equipment, medical treatment equipment and a linear accelerator in patient care areas throughout the hospital and the medical office portion of the facility. The use of these wiring methods were questioned 9/25/02 and again on 8/26/03. At the time of inspection, during the discussions with JeffRecWicz of Staff Electric and myself, I agreed that I would research McGraw-Hill for a second interpretation of this code article. The results of this research supported my interpretation. See the attached copy of the McGraw-Hili documentation. After this discussion, Mr. Rechlicz still did not agree with the violations based on past practice that had been approved in other municipalities in the State of Wisconsin. At that time I called Monte Ewing with the Department of Commerce and Mr.Ewing agreed with my interpretation. At this time Mr. Rechlicz called Tom Garvey also with the Department of Commerce for his interpretation. Mr. Garvey then conducted a field inspection and agreed with Mr. Rechlicz. The reasoning Mr. Garvey gave for his decision was based on the definition of a branch circuit as is deemed in the National Electrical Code as "the circuit conductors between the final overcurrent protection device protecting the circuit and the outlet(s)". I assume that this also involves the definition of an individual branch circuit, which is "A branch circuit that supplies only one utilization equipment". The National Electrical Code 240-10 Article states that where supplementary overcurrent protection is used for equipment or for internal circuits and components of equipment, it shall not be used as a substitnte for branch-circuit overcurrent devices or in place of branch-circuit protection. The National Electrical Code 517-11, states that the purpose of article 517 is to minimize electrical hazards to patients by creating a low potential difference between exposed conductive surfaces that are likely to become energized and a patient. Article 517-13 states that in a patient care area all fixed electrical equipment shall be grounded by an insulated copper conductor and installed in a metal raceway with the branch circuit conductors. Per the attached copy of an email ITom Tom Garvey and Monte Ewing ITom the State of Wisconsin Department of Commerce, it has been detennined that conductors feeding any overcurrent device are feeder conductors. Therefore any overcurrent device located in the in the patient care areas and the overcurrent devices located in fixed equipment are considered to be branch circuit overcurrent devices. GITY HALL Inspection Services Div 215 Ghurch Avenue PO Box 1130 ~ Oshkosh WI ~ 54903-1130 OfHKOfH ON ,""VMm City of Oshkosh Consequently the fixed electrical equipment in the patient care area is not fed from a branch circuit and the metallic raceway requirement would not be applicable for this installation. In the case of the CT Simulators there is a factory required & supplied shunt trip circuit breaker disconnect located adjacent to a power conditioner containing circuit breakers for the line and load for the conditioner. In my opinion this is supplemental overcurrent protection required by the manufacture and a metallic wiring method should have been provided to this disconnect. In the case of the Linear Accelerator, the factory required & supplied disconnects for this unit is located in the control room across the hallway from the patient treatment room. There is not a disconnect located adjacent to the unit and non-metallic wiring methods were used to feed an open floor box fabricated into the concrete floor. The linear accelerator "Power Distribution Unit" is set directly OVer the floor opening. Inside the "PDU" are several circuit breakers, transfonner(s), etc., whose components are strictly used for the linear accelerator only. In my opinion at the very least a metallic raceway should have been installed from the manufacture required and supplied disconnect installed in the control room across the hallway to the "PDU" in patient care area. These two types of installations are specifically mentioned in the email from Tom Garvey. There are additional patient care / treatment eqnipment in the hospital and medical office building that are wired with the same wiring methods. Regards, )~vv~ City of Oshkosh Electrical Inspector Kevin Benner CC: City of Oshkosh Property File Staff Electric Aurora Health Care Richard Miller (Director of Plant Operations) Tom Garvey (Department of Commerce) Co'\',yrighl (c) 1999 by The McGraw-Hill Companies, Inc. All rights reserved. Use of this product is subject to the terms of its " Licènse Agreement. Chapter 5 Article 517 ARTICLE 517. HEALTH CARE FACILITIES 517-1. Scope. Although the NEC is not intended as a design specification, the requirements for" electrical construction and installation" given in parts Band C of Art. 517, essentially present design requirements. For example, the rule in Sec. 517-30 mandating segregation of emergency and normal circuits necessitates an additional raceway system with all attendant components. Similarly, the rules for equipment ground- fault protection on the "next level of feeder disconnecting means down stream" as given in Sec. 517-17 present a design requirement. Therefore, in reality this article covers the design and installation of electric circuits and equipment in hospitals, nursing homes, residential custodial care facilities, mobile health care units, and doctors' and dentists' offices. But, this article does not cover "performance, maintenance, and testing" of electrical equipment in such facilities. Such considerations are covered in other industry standards-such as NFP A 99. Any specific type of health care location-such as a doctor's office or a dental office-must comply with Code rules whether the location is a sole occupancy itself or is part of a larger facility (like a hospital containing other types of health care locations) or is within a school, office building, etc. Veterinary facilities are not subject to the requirements of Art. 517. 517-3. Definitions. Patient Vicinity: This term provides a definite value for limiting the area-horizontally and vertically-in which special grounding requirements are to be observed in patient care areas. Psychiatric Hospital: This is a facility used around the clock to provide only psychiatric care for not less than four resident patients. Selected Receptacles: This phrase designates specific receptacles that will provide power to appliances used for patient care emergencies. A dissenting vote in the panel acceptance of this definition noted that the wording would allow task receptacles of any kind to be supplied by the emergency system, even receptacles as unimportant as those for floor cleaners-which is contrary to the basic concept that the emergency system is intended to supply only extremely limited loads. 517-10. Applicability. All the Code rules on "Wiring and Protection" apply to the entire wiring system in hospitals and to "patient-care areas" of clinics, medical and dental offices, outpatient facilities and doctor examining rooms or treatment rooms in nursing homes and residential care facilities. The basic rules of part B apply to all health care facilities except those areas covered by Sec. 5l7-10(b)(I) and (2). Part (b)( I) exempts those areas of a health care facility that are not intended for examining or treating patients. Areas that are dedicated to other purposes-business offices, corridors, waiting rooms, restrooms, etc.-need not be wired as indicated in part B. The wording used in part (b)(2) is intended to exclude those health care facilities where patient rooms are used "exclusively" as sleeping quarters. The last sentence further reinforces the idea that such rooms are only permitted to be exempt where there is no intention to ever use the rooms as a treatment area. 517~13. Grounding of Receptacles and Fixed Electrical Equipment. In patient care areas of all health care facilities, nonmetallic wiring methods are excluded. Electrical nonmetallic tubing, rigid nonmetallic conduit, and nonmetallic sheathed cable (Romex) may not be used in any part of a hospital or in patient care areas of clinics, medical and dental offices, outpatient facilities, nursing homes, or residential custodial-care facilities. (See part (b) of Sec. 517-10 .) Part (a) requires the use of a separate, insulated equipment grounding conductor run with the branch-circuit conductors in a metal raceway or metal-clad cable from a panelboard to any receptacle or metal surface of fixed electrical equipment operating over 100 V in all health care facilities. But a separate grounding conductor is not required in a feeder conduit to such a panel. For feeders, the metal conduit is a satisfactory grounding conductor, as recognized generally in Sec. 250-118 (11). But for all branch circuits to "receptacles and all . . . fixed equipment. . ." in "areas used for patient care," neither metal conduit, jumpers with box clips (G-clips), nor a receptacle with self-grounding screw terminals [Sec. 250-146 (d)] may be used alone without the grounding wire run with the branch-circuit wires ( Fig. 517-1 ), which must be in a metal raceway or in Type MC, Type MI, or Type AC cable (so-called BX). But, those metal-clad cables must have an "outer metal armor or sheath of cable" that "is identified as an acceptable grounding return path." Type AC cable, Type MI cable, and Type MC cable with a smooth or corrugated continuous metal sheath all satisfy that grounding requirement. Type MC with a spiral-wrap metal sheath with two grounding conductors-one of which is insulated copper-has been a source of controversy. This controversy centers on the fact that Sec. 250-118 (11) specifically recognizes the spiral metal sheath in conjunction with the internal equipment grounding conductor as a type of equipment ground. And, it certainly seems that where an additional grounding conductor is provided and at least one of the two is insulated copper, the requirement for redundant grounding-which is the objective here-has certainly been satisfied. The present wording is intended to prohibit the use of Type MC with two grounding conductors; however, some inspectors feel the wording used does not do so. "Identified" is defined in Art. 100 as "Recognizable as suitable." And, those inspectors feel that the specific mention of Type MC in conjunction with its grounding is a ground return by Sec. 250-118(11), which essentially makes Type MC with one ground "recognizable"-and there "identified"-as one return path and one additional insulated copper conductor within a Type MC cable. Therefore, it satisfies the rule. Check with the inspection authority before using Type MC with two ground wires because not all are accepting such installation. It should be noted that the phrase requiring an insulated equipment grounding conductor within these type cables (which appeared in Exception No. I to Sec. 517-11 in the 1987 NEC) has been deleted. But it is the intent of the Code Making Panel to require an insulated copper equipment grounding conductor, sized in accordance with Sec. 250-122, to be run in any such cable assembly in a patient care area in every health care facility. The ground terminal of receptacles must be grounded to an equipment grounding conductor run in a metal raceway or metal- covered cables. Either metal raceway or metal cable must be used for circuits in patient care areas of hospitals, clinics, medical and dental offices, outpatient facilities, nursing homes, and residential custodial care facilities -always with an insulated copper equipment grounding conductor included in the raceway or cable. This rule applies to "areas used for patient care"-which, in hospitals, covers patient bedrooms and any other rooms, corridors, or areas where patients are treated, like therapy areas or EKG areas. But, for other than hospitals, part (b)(1) of Sec. 517-10 excludes waiting rooms, admitting rooms, solariums, recreation areas, as well as business offices and other places used solely by medical personnel or where a patient might be present but would not be treated. Exception No.2 to this rule clarifies the use of metal faceplates on wall switches or receptacles without actually connecting an "insulated copper conductor" to each faceplate. They are acceptable as grounded simply by screw connection to a grounded box or grounded mounting strap of a grounded wiring device. Exception No.3 excludes lighting fixtures from the rule for grounding by an insulated copper conductor, provided the fixture is mounted "more than 711.2 ft (2.29 m) above the floor." Although fixtures so located do not need an insulated grounding conductor, they must be fed by a conduit or cable that satisfies part (b) of this section. Part (b) of this section emphasizes that a redundant metallic grounding path is required in patient care areas. Part (b) requires that all branch circuits supplying patient care areas must be run in a metal-enclosed wiring method-rigid metal conduit, lMC, EMT, or Ml, MC, or AC cable-to provide a redundant metallic grounding path in parallel with the insulated copper ground wire required by part (a) in the wiring method. This rule emphasizes the need for high reliability of the ground-fault current return path as major protection against electrical shock. 5i 7~14. Panelboard Bonding. Normal and essential electrical system panelboards serving either the same general care or critical care patient location must have their equipment grounding terminal bars bonded together with an insulated, continuous copper bonding jumper not smaller than No. 10 AWG. Although required to be "continuous," the wording of this rule recognizes terminating this conductor at ground buses and terminals as satisfying the requirement for a "continuous" conductor. 517-16. Receptacles with Insulated Grounding Terminals. Insulated-ground receptacles must be clearly and externally identified. This rule applies to those receptacles that have their grounding terminals insulated from the metal of the box and conduit. 517-17. Ground-Fault Protection. At least one additional level of ground-fault protection is required for health care facilities where ground-fault protection is used on service equipment (see Sec. 230-95 ). Where the installation of ground-fault protection is made on the normal service disconnecting means, each feeder must be provided with similar protective means. This requirement is intended to prevent a catastrophic outage. By applying appropriate selectivity at each level, the ground fault can be limited to a single feeder, and thereby service may be maintained to the balance of the health care facility. As shown in Fig. 517-2 , with a GFP (ground-fault protection) hookup on the service, a GFP hookup must be put on each feeder derived from the service. The second paragraph is aimed at ensuring that essential systems are not isolated when the additional level of feeder GFP is actuated. This requirement previously appeared as a FPN but now is included in the rule itself. Consequently, it is no longer advisory, but rather mandatory. Installation of GFP on the load-side of an emergency transfer switch, at the output of a generator, or on any system rated for voltages other than 480Y /277 V or 600Y /347 V is expressly prohibited. And part (b) requires that selection of the tripping time of the main GFP be such that each feeder GFP will operate to open a ground fault on the feeder, without opening the service GFP. And a time interval of not less than 0.1 sec (i.e., the time of six cycles) must be provided between the feeder GFP trip and the service GFP trip. As shown, if the feeder GFP relays are set for instantaneous operation, the relay on the service GFP must have at least a O.l-sec time delay. A zone-selective GFP system with a feedback lock-out signal to an instantaneous relay on the service could satisfy the rule for selectivity. 517 -18. General Care Areas. Two circuits must supply each bed used for inpatient care. But two branch circuits are not required for each patient bed in nursing homes, outpatient facilities, clinics, medical offices, limited care facilities, and the like. "Psychiatric, substance abuse, and rehabilitation hospitals" are also exempted from the branch-circuit and receptacle requirements for general care patient bed locations. As noted in part (b), receptacles at patient bed locations in "General Care Areas" must be "listed hospital grade" and "so identified." The minimum of six required receptacles at each such bed location may be single or duplex types, or a combination of the two. (Three duplex receptacles provides a total of six receptacles.) All receptacles at all patient bed locations-general care and critical care-must be "listed hospital grade" devices. As noted in part (c), only tamper-resistant receptacles are permitted in pediatric locations. This rule requires that allIS-or 20- A, 125- V receptacles in pediatric locations be "tamper resistant." Although the Code does not contain a definition for that word and the UL Electrical Construction Materials Directory does not refer to "tamper-resistant" receptacles, the last phrase of part (c) gives an indication of its meaning. It seems clear that a tamper-resistant receptacle is one that would make it extremely difficult, if not impossible, to insert a pin, paper clip, or similar small metal object into a slot on the receptacle and make contact with an energized part. Obviously, the concern here is to protect infants or children from shock hazard as a result of playful or inadvertent tampering with the receptacle. The Exception recognizes the use of covers instead of "tamper-resistant" receptacles. It is no longer required that protection against tampering be provided by design of the receptacle and not by attachment of an accessory device, such as a plastic plug, which must be removed to use the receptacle. Receptacles are available with rotating slot covers or internal contact mechanisms, both of which make it necessary to use a cord plug cap to gain access to energized parts. But, caps that limit "improper access" may now be used. 517-19. Critical Care Areas. Patient bed locations in general care areas ( Sec. 517-18 ) must be supplied by six single or , thie~ duplex receptacles, just as critical care area patient beds must be provided with at least six receptacles (single or duplex devices totaling six points for connecting a cord plug cap). The two or more branch circuits to each critical care area patient bed location must include one or more from the emergency system and one or more from the normal system ( Fig. 517-3 ).In both cases, at least two branch circuits must supply these receptacles. In the case of general care areas, additional receptacles serving other patient locations may be served by these branch circuits, but in the case of critical care areas at least one of these branch circuits is required to be an individual branch having no other receptacles on it except those of a single bed location. As covered in part (b), "hospital grade" receptacles must be used at patient bed locations in "Critical Care Areas." Six single or three duplex receptacles (or any combination totaling six receptacles) that are UL-listed as "Hospital Grade" devices must be used at each patient bed location and must be so identified at each patient bed location in "Critical Care" patient areas. The best point to call a reference grounding point is the grounding bus in the distribution panel, which is the transition connection point between the branch-circuit grounding wires and the feeder grounding system. The meaning of part (c) is that a "patient equipment grounding point" (defined as a "point for redundant grounding of electric appliances") is not mandatory. Such a grounding point may be used, if desired, and connected as described in the rule. In its original application, years ago, the "patient equipment grounding point" was a special jack used to make a grounding connection to the metal enclosures of electrical medical equipment because, at the time, many power cords did not contain a grounding conductor. In addition, this was a carryover from procedures for operating rooms, where all metal surfaces had to be grounded to minimize static charge buildup. With today's universal use of good 3-wire (grounding type) power cords and plugs or double-insulated equipment, there is no real justification for requiring this patient equipment grounding jack. Each three-contact receptacle, in effect, becomes a patient equipment grounding point. When a patient equipment grounding point is used in a patient vicinity, it must be grounded to the ground terminal of all grounding-type receptacles in the patient vicinity by means of a minimum No. 10 copper conductor looped to all of the receptacles or by individual No. 10 conductors run from the patient grounding point to each receptacle. Regardless of what additional methods are employed, in order to keep potential differences within the required limits, equipotential grounding is essential to the electrical safety of critical care areas. Some of the earliest equipotential grounding installations consisted of copper busbars run around the walls of patient rooms to which furniture and equipment were attached by means of grounding jumpers. Based on experience obtained through these early installations as well as the refiuements produced by the NFP A Committee on Hospitals, the National Electrical Code now contains the requirements which correlate with the pertinent NFP A standards on the subject. At the same time these new requirements also permit the achievement of the desired end with a minimum of expenditure in labor and materials. Objection has been raised to the concept of grounding every piece of exposed metal in sight. Doing this may actually increase the hazard. Because a shock occurs when a person touches two surfaces with a voltage difference between the surfaces, the fewer surfaces that are deliberately grounded the better. Thus, a door frame or window frame that is not likely to become energized is not required to be grounded. It was not good safety engineering to propose that metal furniture in a patient's room be deliberately grounded5l7-4. Figure 517-4 shows the type of grounding and building "points" that past editions of the Code regulated, along with typical grounding hookups in older hospitals. As required by part (d) of this section, a bonding-type connection is required for feeder metal conduit or metal cable (Type MC or MI) terminations-using a bonding bushing plus a copper bonding jumper from a lug on the bushing to the ground bus in the panelboard fed by the conduit (see illustrations in Sec. 250-72). Bonding locknuts or bonding bushings may be used on clean knockouts (all punched, concentric, or eccentric rings removed), and bonding may be provided by threaded connection to hubs or bosses on panel-or switchboard enclosures. This is required for feeder conduits but not for branch-circuit conduits. And it seems clear that bonded terminals are required at both ends of each and every feeder to a panelboard that serves the critical care area ( Fig.5l7-5). Part (e) makes use of an isolated power system for critical care areas a completely optional technique, simply noting that such systems are "permitted" to be used if the design engineer or the hospital-client wants it. That approach ties in with the deletion of the maximum potential difference of 100 m V "under conditions of line-to-ground fault" in a critical care area-which in past Codes made the isolated power system mandatory. Grounding of this optional power system must satisfY part (t). Part (g) covers receptacles that are intended for use by specific pieces of equipment. Those receptacles intended for special purposes-e.g., "mobile x-ray equipment"-must have their equipment grounding conductor "ex tended" to the reference point within the branch-circuit panelboard that supplys the patient area. 5ì 7~20. Wet Locations. As covered by this section, locations intended for ground-fault protection are limited to patient care areas. So, even though the governing body of the hospital may wish to extend this form of protection to such areas as laundries, boiler rooms, and kitchens, the fact that these are not considered patient care areas does not make GFCI (ground- fault circuit interrupter) protection mandatory in such locations. The designer and/or hospital authorities must designate such "wet locations." Locations which are intended for protection would include hydrotherapy, dialysis facilities, selected wet laboratories, and special-purpose rooms where wet conditions prevail. All receptacles (of any rating) and fixed electrical equipment at a wet location must have GFCI protection, where power interruption "can be tolerated." Otherwise, they must be fed from an isolated power supply. The only Exception eliminates the need for GFCI protection or supply from isolated power for "listed, fixed" therapeutic and diagnostic equipment. 517-21. Ground-Fault Circuit-Interrupter Protection for Personnel. This rule correlates with the rules in Secs. 210-8 (b)(l) and 210-7 (d)(2). Those two Code sections deal with GFCI protection of l5-and 20-A, l25-V receptacles installed in new bathrooms and replacements made in existing bathrooms in occupancies other than dwellings. The intent of Sec. 517-21 is to exempt receptacles installed in critical care areas-whether new installations or where replacement is made in an existing installation-from being GFCI-protected where a toilet and basin is within the same room. Literally, the rules of Secs.2l0-8 (b)(l) and 2l0-7(d)(2) would mandate GFCI protection for any l5-and 20-A, 125-V receptacles installed in such a location. But, for any "critical care" patient bed location where the toilet and basin are in the room, and for bathrooms separate from the care area-critical or general-GFCI protection is required for l5-and 20-A, l25-V receptacles. 517-25. Scope. Essential electrical systems are covered for hospitals, clinics, medical and dental offices, outpatient facilities, nursing homes, residential custodial care facilities, and other health care facilities for patient care. 517-30. Essential Electrical Systems for Hospitals. This section makes clear that essential electrical systems which are to be installed in hospitals must observe the rules of part (c). Essential electrical systems in hospitals are subdivided into the emergency system (consisting of the life safety and critical branches) and the equipment system, whereas essential electrical systems for nursing homes and the like are the branches shown in Code diagrams 5l7-4l(A) and (B) for the emergency system. It should be noted that the critical branch in hospitals comprises different equipment and connections than does the critical system in nursing homes. In Sec. 517-30 (c)(3), although wiring of the emergency system is required to be installed in a "metal raceway," Exception No.3 permits Schedule 80 rigid nonmetallic conduit for such circuits. Only the Schedule 80 version of rigid PVC conduit may be used without concrete encasement. Exception No.4 says Schedule 40 PVC conduit and electrical nonmetallic tubing is permitted for other than branch circuits in patient care areas-where encased in no less than 2 in. (50.8 mm) of concrete. But note that although such a raceway may be used for emergency circuits, it is not permitted for such circuits that are "branch circuits serving patient care areas." Exception No.5 allows limited use of Type MI cable instead of metal raceways to supply branch circuits in patient care areas provided the metal armor permits redundant grounding in accordance with Sec. 517-13 . And Exception No.6 formally recognizes flexible metal conduit and cable assemblies in pre-fabbed "headwalls" and where flexibility is needed. 517-31. Emergency System. Code diagrams 517-30(A), (B), and (C) in the Code book clarify interconnections and transfer switches required. Handbook Table 517-1 summarizes the loads supplied by the hospital emergency system, which must restore electrical supply to the loads within 10 sec ofloss of normal supply. 517-41. Essential Electrical Systems. In part (b), a single transfer switch may be used for the entire essential electrical system instead of using a separate transfer switch for each branch, as shown in Code diagram 517-41 (C). One transfer switch may supply one or more branches of the essential electrical system in a nursing home or residential custodial care facility where the essential electrical system has a maximum demand of 150 kV A. Separate transfer switches are required only if dictated by load considerations. For small facilities, the essential electrical system generally consists of the life safety branch and the critical branch. For larger systems the critical branch is divided into three separate branches for patients, heating, and sump pumps and alarms. Code diagrams 5l7-4l(A) and 5l7-4l(B) illustrate typical installations. , 5'17:42. Automatic Connection to Life Safety Branch. Part (a) describes the switching arrangements for night transfer of corridor lighting. The rule is intended to assure that some lighting will always be provided in the corridor regardless of the mode of operation. 517-43. Connection to Critical Branch. This section details the loads requiring transfer from normal source to the alternate power source. In part (b )(2), elevator operation must not trap passengers between floors. This rule, which was only a recommendation in the 1978 Code, is now mandatory. 517-60. Anesthetizing Location Classification. Figure 517-6 shows the classified hazardous locations of part (a). Note that part (b) requires designation by the hospital administration that a particular location (operating room, anesthesia room, etc.) is nonhazardous. Section 5-2 ofNFPA 56A requires signs prohibiting the use of flammable anesthetics. Hazardous locations rules are separated from those for other-than-hazardous locations. A third category is also designated-"above-hazardous locations." The Code covers wiring and equipment in three relations to anesthetizing locations: Sec. 517-61 (a) (within-hazardous), Sec. 517-61 (b) (above-hazardous), and Sec. 517-61 (c) (other-than- hazardous). 517-61. Wiring and Equipment. Part (a) calls for explosionproofwiring methods, in general, for such locations. Part (a)(4) notes an extension of the hazardous boundary. Section 517-60 (a) (I) defines the area of a flammable anesthetizing location as a Class I, Division I location from the floor to a point 5 ft (1.52 m) above the floor. The question then arises, Is the seal required in the upper conduit entering the switch box on the wall of a hospital operating room as shown in Fig. 517-7 ? The box is partly below and partly above the 5-ft (1.52-m) level. Part (a)( 4) states that, if a box or fitting is partially, but not entirely, beneath the 5-ft (1.52-m) level, the boundary of the Class I, Division I area is considered to extend to the top of the box or fitting. Therefore, the box or fitting is entirely within the hazardous area, and a seal is required in conduit entering the enclosure from either above or below, as shown in Fig. 517-7 . If the box or fitting is entirely above the 5-ft (I.52-m) level, a seal would not be required at the box or fitting, but conduit running to the box from the hazardous area would have to be sealed at the boundary, on the hazardous-location side of the box. If the box shown were recessed in the wall instead of surface-mounted, some means would have to be provided to make the seals accessible [ Sec. 501-5 (c) (I)], such as removable blank covers at the locations of the seals. Part (a)(5) calls for explosionproofreceptacles and plugs within hazardous locations described in Sec. 517-60 (a). In part (b)(l) of this section, rigid metal conduit, electrical metallic tubing (EMT), and intermediate metal conduit (IMC) or Type MI or MC cable that has a continuous "gas/vaportight" sheath are permitted in "above-hazardous anesthetizing locations." In "other-than-hazardous anesthetizing locations" [ Sec. 517-61 (c)(l)], wiring may be in rigid metal conduit, EMT, or IMC--or may be Type MC, Type AC, or MI cable. Again, the armor on the Type MI or MC cable must be "identified" as a ground return path. But rigid nonmetallic conduit may not be used for wiring in anesthetizing locations that use nonflammable anesthetics. And it may not be used in or above a hazardous anesthetizing location. Many of the requirements for safety in the above-hazardous anesthetizing locations are not included for other-than-hazardous locations. Hospital-Grade Receptacles The NE Code generally requires that "hospital-grade" receptacles (the UL-listed "Green-dot" wiring devices) be used at patient bed locations in health care facilities. However, it should be noted that Secs. 517-61 (b)(5) and 517-6l(c)(2) of the Code also require use of "receptacles and attachment plugs" that are "listed for hospital use" above "hazardous" anesthetizing locations and in "other-than-hazardous" anesthetizing locations. As described, those rules require that all 2- pole, 3-wire grounding-type receptacles and plugs for single-phase 120-,208-, or 240-V AC service must be marked "Hospital Only" or "Hospital Grade" and have a a green dot on the face of each receptacle ( Fig. 517-8 ). The relation between the phrase "listed for hospital use" and the phrase "Hospital Grade" is explained in the UL Electrical Construction Materials Directory (the UL Green Book), under the heading "Attachment Plug Receptacles and Plugs." It says: Recepta'C!es 1isted for hospital use in other than hazardous locations in accordance with Artic1e 517 of the National Electrical C~d~ are identified (I) by the marking "Hospital Only" or (2) by the marking "Hospital Grade" and a green dot on the receptacle. The green dot is on the face of the receptac1e where visible after installation. Of course, in the defined hazardous areas of flammable anesthetizing locations [ Secs. 517-60 and 517-61 (a)(5)], receptacles must be explosionproof type, listed for Class I, Division I areas. Underwriters' Laboratories Inc. devised a special series of tests for wiring devices intended for hospital use. These tests are substantially more abusive than those performed on general-purpose devices and are designed to ensure the reliability ofthe grounding connection in particular, when used in the hospital environment. Hospital-grade receptac1es have stability and construction in excess of standard specifications and can stand up to abuse and hard usage. Devices which pass this test are listed as "Hospital Grade" and are identified with these words and a green dot, both of which are visible after installation. UL listings inc1ude l5-and 20-A, 125- V grounding, nonlocking-type plugs, receptac1es, and connectors. This c1ass of device is acceptable for use in any nonhazardous anesthetizing location. As noted in the Exception to Sec. 517-61 (b)(2), receptacles above a hazardous location do not have to be totally enc1osed and may be standard, available hospital-grade receptac1es of the type that would be used to satisfy the rule of Sec. 517-61 (b)( 5). As covered in part (c) (I), in anesthetizing locations that are not hazardous (no flammable agents used), Type AC cable is recognized along with Types MI and MC cable and rigid metal conduit, IMC, and EMT -but any such cable or raceway must contain an insulated-copper equipment grounding conductor and its outer jacket must be an approved grounding conductor. Note that although the rule here does not specify a "copper" conductor, because an anesthetizing location is a patient care area, the copper wire is required by Sec. 517-B . 517-63. Grounded Power Systems in Anesthetizing Locations. Part (a) used to call for a general-purpose lighting circuit, fed ITom the normal grounded service, to be installed in each operating room. And an Exception used to recognize feed ITom an emergency generator or other emergency service that is separate ITom the source of the hospital's "Emergency System," as defined in Sec. 517-2. Figure 517-10 shows a layout where such an emergency supply (at lower right) is now the required source of supply to the lighting circuit in the operating room. In part (f), an isolated power system (ungrounded operation with a line isolation monitor) is required only in an anesthetizing location with flammable anesthetics. As the rule has appeared in recent editions of the NEC, isolated power systems have been required for locations with both flammable and nonflammable anesthetics. But in 1984, a revision was made in Sec. 517- 104(a)(I) to change the phrase an "anesthetizing" to a "flammable anesthetizing" in this section. As a result, an anesthetizing location that does not use flammable anesthetics will not require use of an isolated power system. Section 517-63 (f) now makes the requirement for an isolated power system applicable only for anesthetizing locations where "flammable" anesthetics are used. For those cases where the anesthetizing location is used solely for nonflammable anesthetizing materials, an isolated power system is not mandatory in the NEC (although NFPS 99 would require it for wet anesthetizing locations). Figure 517-11 shows the application of a completely packaged transformer loadcenter to provide power for the ungrounded, isolated circuits in hospital operating suites. 517-64. Low-Voltage Equipment and Instruments. Specific details are given for use of low-voltage equipment in an anesthetizing location5l7-l2. Figure 517-12 shows some of the rules. Section 517-160 (a)(2) limits isolating transformers to operation with primary at not over 600 V. 517-160. Isolated Power Systems. Each isolated power circuit must be controlled by a switch that has a disconnecting pole in each isolated circuit conductor to simultaneously disconnect all power. That is in part (a)(I). As covered in part (a)(2), any transformer used to obtain the ungrounded circuits must have its primary rated for not more than 600 V between conductors and must have proper overcurrent protection. This Code rule used to limit the transformer primary to 300 V between conductors, which often required two stages of voltage transformation to comply with the rule, as shown in Fig. 517-13 . That diagram shows the circuit makeup used in a hospital to derive the 120- V ungrounded circuits, with transformation down from 480 to 240 V and then to 120 V. The ungrounded secondary system must be equipped with an approved ground contact indicator-to give a visual and audible warning if a ground fault develops in the ungrounded system. Isolating transformers must be installed out of the hazardous area [part (a)(3) 1. The ground indicator and its signals must also be installed out of the hazardous area. In an anesthetizing location, the hazardous area extends to a height of 5 ft (1.52 m) , .ab"oV'e the floor. Fixed lighting fixtures above the hazardous area in an anesthetizing location, other than the surgical luminaire, and certain x- ray equipment may be supplied by conventional grounded branch circuits [Sec. 517-63 (b) and Sec. 517-63(c)]. Part (a)(5) requires isolated circuit conductors to be identified by brown and orange colors. Part (b)(1) details a line isolation monitor and clarifies line isolation monitor alarm values, specifying 5.0 mA as the lower limit of alarm for total hazard current. Figure 517-14 shows the basic concept behind detection and signal of a ground fault. The diagram shows major circuit components of a typical ground detector/alarm system. Partial ground energizes current-relay A, opening contact A2 (energizing red light and warning buzzer). Pressing the momentary-contact silencer switch energizes coil C, opening contact Cl (disconnecting buzzer), and closing holding contact C2. When ground is cleared, contacts resume the position shown in drawing. The purpose of such a ground indicator is to provide warning of the danger of shock hazard and the possibility of a fault in the system due to accidental grounding of more than one conductor. If one conductor of an isolated system becomes grounded at one point, normal protective devices (fuses or CBs) will not operate because there is no return path and, therefore, no flow of short-circuit fault current. However, if an accidental ground subsequently develops on the other conductor, a short circuit will occur with possible disastrous consequences, such as ignition of ether vapors by arc or a lethal shock to personnel. Benner, Kevin From: Sent: To: Subject: Ewing, Monte [mewing@commerce.state.wLus Tuesday, September 16, 2003 11 :23 AM 'Benner, Kevin' FW: Aurora Health Care Hospital Although I don't agree with the outcome of this I have to agree with Tom's response. I spoke with Jim Pauley of Square D Company and with Mark Earley Supervising Engineer for NFPA while in Florida last week. We all had to agree that the recent change in the definition of a "Branch Circuit" messes things up. All agreed that this should be called a branch circuit and the raceway should be metal Gust to inform you). But Code Panel 1 made the change without consideration of this requirement in 517. I used the example of a 50-amp breaker in a service with a 100-amp breaker used as the xray transformer disconnect for a single piece of equipment. During the ROC cycle for 2005 NEC deadline October 02 we need to submit proposals to Panel 1 on definitions and to Panel 17 on the feeder problem. Best we can do. > ----Original Message---- > From: Garvey, Tom > Sent: Monday, September 08, 2003 7:26 AM > To: 'Benner, Kevin' > Cc: Hertel, Joe; Ewing, Monte; 'skaalajj@kjww.com'; > 'baycare@staffelectric.com' > Subject: RE: Aurora Health Care Hospital > > Kevin, > > At the request of Staff Electric, I made a limited inspection at Baycare > Oshkosh on 8/28/03. The purpose of my investigation was to determine the > nature of the supply conductors to several rooms. The rooms either > contained or were to contain utilization equipment such as CAT scan, > X-ray, or Linear Accelerators. > > The issue that I was asked to comment on pertained to the supply > conductors from the power distribution equipment. This circuit was run > underground. The wiring method for the underground portion of the circuit > was rigid nonmetallic conduit. The code issue involved application of NEC > 517-13(b). > > NEC 517-13(b) states in part that "all branch circuits serving patient > care areas shall be provided with a ground path for fault current by > installation in a metal raceway system or cable assembly." > > I examined the supply conductors to and distribution equipment in rooms > 1602, H1254, M1024 and the DS Simulator room. In each case I found that > the supply conductors terminated within an enclosure that contained a > shunt trip circuit breaker. The shunt trip breaker then supplied a power > distribution unit (PDU). The circuit breakers on the load side of the > power distribution units supplied loads such as lights and motors > associated with the utilization equipment. In each case, a full size, > insulated, equipment grounding conductor was pulled with the supply > conductors. > > In each case I examined, the supply conductors to the shunt trip circuit > breaker were feeder conductors. NEC 517-13 does not apply to these > conductors. This determination is base upon the definitions of "Feeder" in > Article 100, page 21 and "Branch Circuit", page 19 of the 1999 NEC > > If you have further questions, please contact me. > > Tom Garvey, Electrical Inspector > State of Wisconsin > Department of Commerce >414.852.3696 > > > > ----Original Message----- > From: Benner, Kevin [SMTP:kbenner@cLoshkosh.wLus] > Sent: Tuesday, September 02, 2003 9:20 AM > To: 'TGarvey@Commerce.State.wI.US' > Subject: Aurora Health Care Hospital > > Tom, > I will need a letter from you for the inspection you conducted on 8/27/03 >@ > 855 N Westhaven Dr. > > Kevin Benner > > > > ------------------------------------------------..----------------------- >-- >-- > This e-mail is intended for the use of the addressee(s) only and may > contain > privileged, confidential, or proprietary information that is exempt from > disclosure under law. If you have received this message in error, please > inform us promptly by reply e-mail, then delete the e-mail and destroy any > printed copy. Thank you. > > ======================================= =================================== >== >== > Çopyrj,Zht (c) 1999 by The McGraw-Hill Companies, Inc. All rights reserved. Use of this product is subject to the terms of its Licensé Agreement. Chapter 5 Article 517 ARTICLE 517. HEALTH CARE FACILITIES 517-1. Scope. Although the NEC is not intended as a design specification, the requirements for "electrical construction and installation" given in parts Band C of Art. 517, essentially present design requirements. For example, the rule in Sec. 517-30 mandating segregation of emergency and normal circuits necessitates an additional raceway system with all attendant components. Similarly, the rules for equipment ground-fault protection on the "next level of feedér disconnecting means down stream" as given in Sec. 517-17 present a design requirement. Therefore, in reality this article covers the design and installation of electric circuits and equipment in hospitals, nursing homes, residential custodial care facilities, mobile health care units, and doctors' and dentists' offices. But, this article does not cover "performance, maintenance, and testing" of electrical equipment in such facilities. Such considerations are covered in other industry standards-such as NFP A 99. Any specific type of health care location-such as a doctor's office or a dental office-must comply with Code rules whether the location is a sole occupancy itself or is part of a larger facility (like a hospital containing other types of health care locations) or is within a school, office building, etc. Veterinary facilities are not subject to the requirements of Art. 517. 517-3. Definitions. Patient Vicinity: This term provides a definite value for limiting the area-horizontally and vertically-in which special grounding requirements are to be observed in patient care areas. Psychiatric Hospital: This is a facility used around the clock to provide only psychiatric care for not less than four resident patients. Selected Receptacles: This phrase designates specific receptacles that will provide power to appliances used for patient care emergencies. A dissenting vote in the panel acceptance of this definition noted that the wording would allow task receptacles of any kind to be supplied by the emergency system, even receptacles as unimportant as those for floor cleaners-which is contrary to the basic concept that the emergency system is intended to supply only extremely limited loads. 517-10. Applicability. All the Code rules on "Wiring and Protection" apply to the entire wiring system in hospitals and to "patient-care areas" of clinics, medical and dental offices, outpatient facilities and doctor examining rooms or treatment rooms in nursing homes and residential care facilities. The basic rules of part B apply to all health care facilities except those areas covered by Sec. 5l7-l0(b)(I) and (2). Part (b)(1) exempts those areas of a health care facility that are not intended for examining or treating patients. Areas that are dedicated to other purposes-business offices, corridors, waiting rooms, restrooms, etc.-need not be wired as indicated in part B. The wording used in part (b )(2) is intended to exclude those health care facilities where patient rooms are used" exclusively" as sleeping quarters. The last sentence further reinforces the idea that such rooms are only permitted to be exempt where there is no intention to ever use the rooms as a treatment area. , 517-13. Grounding of Receptacles and fixed Electrical Equipment. In patient care areas of all health care facilities, nonmetallic wiring methods are excluded. Electrical nonmetallic tubing, rigid nonmetallic conduit, and nonmetallic sheathed cable (Romex) may not be used in any part of a hospital or in patient care areas of clinics, medical and dental offices, outpatient facilities, nursing homes, or residential custodial-care facilities. (See part (b) of Sec. 517-10 .) Part (a) requires the use of a separate, insulated equipment grounding conductor run with the branch-circuit conductors in a metal raceway or metal-clad cable from a panelboard to any receptacle or metal surface of fixed electrical equipment operating over 100 V in all health care facilities. But ãšëj)ãÏãte grounding conductor is not required in a feeder conduit to such a panel. For feeders, the metal conduit is a satisfactory grounding conductor, as recognized generally in Sec. 250-118 (11). But for all branch circuits to "receptacles and all. . . fixed equipment. . ." in "areas used for patient care," neither metal conduit, jumpers with box clips (G-clips), nor a receptacle with self-grounding screw terminals [ Sec. 250-146 (d)] may be used alone without the grounding wire run with the branch-circuit wires ( fig. 517-1 ), which must be in a metal raceway or in Type MC, Type MI, or Type AC cable (so-called BX). But, those metal-clad cables must have an "outer metal annor or sheath of cably" that ':is identified as an acceptable grounding return path." Type AC cable, Type MI cable, and Type MC cable with a smooth or corrugated continuous metal sheath all satisfy that grounding requirement. Type MC with a spiral-wrap metal sheath with two grounding conductors--one of which is insulated copper-has been a source of controversy. This controversy centers on the fact that Sec. 250-118 (II) specifically recognizes the spiral metal sheath in conjunction with the internal equipment grounding conductor as a type of equipment ground. And, it certainly seems that where an additional grounding conductor is provided and at least one of the two is insulated copper, the requirement for redundant grounding-which is the objective here-has certainly been satisfied. The present wording is intended to prohibit the use of Type MC with two grounding conductors; however, some inspectors feel the wording used does not do so. "Identified" is defined in Art. 100 as "Recognizable as suitable." And, those inspectors feel that the specific mention of Type MC in conjunction with its grounding is a ground return by Sec. 250-118(11), which essentially makes Type MC with one ground "recognizable"-and there "identified"-as one return path and one additional insulated copper conductor within a Type MC cable. Therefore, it satisfies the rule. Check with the inspection authority before using Type MC with two ground wires because not all are accepting such installation. It should be noted that the phrase requiring an insulated equipment grounding conductor within these type cables (which appeared in Exception No. I to Sec. 517-11 in the 1987 NEC) has been deleted. But it is the intent of the Code Making Panel to require an insulated copper equipment grounding conductor, sized in accordance with Sec. 250-122 , to be run in any such cable assembly in a patient care area in every health care facility. The ground terminal of receptacles must be grounded to an equipment grounding conductor run in a metal raceway or metal- covered cables. Either metal raceway or metal cable must be used for circuits in patient care areas of hospitals, clinics, medical and dental offices, outpatient facilities, nursing homes, and residential custodial care facilities -always with an insulated copper equipment grounding conductor included in the raceway or cable. " This rule applies to "areas used for patient care"-which, in hospitals, covers patient bedrooms and any other rooms, corridors, or areas where patients are treated, like therapy areas or EKG areas. But, for other than hospitals, part (b)(l) of Sec. 517-10 excludes waiting rooms, admitting rooms, solariums, recreation areas, as well as business offices and other places used solely by medical personnel or where a patient might be present but would not be treated. Exception No.2 to this rule clarifies the use of metal faceplates on wall switches or receptacles without actually connecting an "insulated copper conductor" to each faceplate. They are acceptable as grounded simply by screw connection to a grounded box or grounded mounting strap of a grounded wiring device. Exception No.3 excludes lighting fixtures from the rule for grounding by an insulated copper conductor, provided the fixture is mounted "more than 71 v.2 ft (2.29 m) above the floor." Although fixtures so located do not need an insulated grounding conductor, they must be fed by a conduit or cable that satisfies part (b) of this section. Part (b) of this section emphasizes that a redundant metallic grounding path is required in patient care areas. Part (b) requires that all branch circuits supplying patient care areas must be run in a metal-enclosed wiring method-rigid metal conduit, IMC, EMT, or MI, MC, or AC cable-to provide a redundant metallic grounding path in parallel with the insulated copper ground wire required by part (a) in the wiring method. This rule emphasizes the need for high reliability of the ground-fault current return path as major protection against electrical shock. demand of the feeder. The sum of the maximum demand loads for a number of subfeeders divided by the diversity factor for the subfeeders will give the maximum demand load to be supplied by the feeder from which the subfeeders are derived. It is common and preferred practice in modem design to take unity as the diversity factor in main feeders to loadcenter substations to provide a measure of spare capacity. Main secondary feeders are also commonly sized on the full value of the sum of the demand loads of the subfeeders supplied. From power distribution practice, however, basic diversity factors have been developed. These provide a general indication of the way in which main feeders can be reduced in capacity below the sum of the demands of the subfeeders they supply. On a radial feeder system, diversity of demands made by a number of transformers reduces the maximum load which the feeder must supply to some value less than the sum of the transformer loads. Typical application of demand and diversity factors for main feeders is shown in Fig. 100-18 . Device: Switches, fuses, circuit breakers, controllers, receptacles, and lampholders are "devices." Dwelling: Dwelling unit. Because so many Code rules involve the words "dwelling" and "residential," there have been problems applying Code rules to the various types of "dwellings"-one-family houses, two-family houses, apartment houses, condominium units, dormitories, hotels, motels, etc. The present NE Code includes terminology to eliminate such problems and uses definitions of "dwelling" coordinated with the words used in specific Code rules. A "dwelling unit" is now defined as "one or more rooms" used "as a housekeeping unit" and must contain space or areas specifically dedicated to "eating, living, and sleeping" and must have "permanent provisions for cooking and sanitation." A one-family house is a "dwelling unit." So is an apartment in an apartment house or a condominium unit. But, a guest room in a hotel or motel or a dormitory room or unit is not a "dwelling unit" if it does not contain "permanent provisions for cooking"- which must mean a built-in range or counter-mounted cooking unit (with or without an oven). Any "dwelling unit" must include all the required elements shown in Fig. 100-19. Exposed: "(As applied to wiring methods.)" Wiring methods and equipment that are not permanently closed in by building surfaces or finishes are considered to be "exposed." See Fig. 100-20. Feeder: A "feeder" is a set of conductors which carry electric power ITom the service equipment (or ITom a transformer secondary, a battery bank, or a generator switchboard where power is generated on the premises) to the overcurrent protective devices for branch circuits supplying the various loads. A feeder may originate at a main distribution center and feed one or more subdistribution centers, one or more branch-circuit distribution centers, one or more branch circuits (as in the case of plug-in busway or motor circuit taps to a feeder), or a combination of these. It may be a primary or secondary voltage circuit, but its function is always to deliver a block of power ITom one point to another point at which the power capacity is apportioned among a number of other circuits. In some systems, feeders may be carried ITom a main distribution switchboard to subdistribution switchboards or panelboards ITom which subfeeders originate to feed branch-circuit panels or motor branch circuits. In still other systems, either or both of the two foregoing feeder layouts may be incorporated with transformer substations to step the distribution voltage to utilization levels. Grounded Conductor: This is the conductor of an electrical system which is intentionally connected to a grounding electrode at the service of a premises, at a transformer secondary, or at a generator or other source of electric power. See Fig. 100-21 . It is most commonly a neutral conductor of a system, but may be one of the phase legs-as in the case of a comer-grounded delta system. Grounding one of the wires of the electrical system is done to limit the voltage upon the circuit which might otherwise occur through exposure to lightning or other voltages higher than that for which the circuit is designed. Another purpose in grounding one of the wires of the system is to limit the maximum voltage to ground under normal operating conditions. Also, a system which operates with one of its conductors intentionally grounded will provide for automatic opening of the circuit if an accidental or fault ground occurs on one of its ungrounded conductors. Selection of the wiring system conductor to be grounded depends upon the type of system. In 3-wire, single-phase systems, the midpoint of the transformer winding-the point ITom which the system neutral is derived-is grounded. For grounded 3-phase wiring systems, the neutral point of the wye-connected transformer(s) or generator is usually the point connected to ground. In delta-connected transformer hookups, grounding of the system can be effected by grounding one of the three phase legs, by grounding a center-tap point on one of the transformer windings (as in the 3-phase, 4-wire "red-leg" delta system), or by using a special grounding transformer which establishes a neutral point of a wye connection which is grounded. Grounding Conductor, Equipment: The phrase "equipment grounding conductor" is used to describe any of the electrically conductive paths that tie together the noncurrent-carrying metal enclosures of electrical equipment in an electrical system. The term" equipment grounding conductor" includes bare or insulated conductors, metal raceways (rigid metal conduit, intermediate metal conduit, EMT), and metal cable jackets where the Code permits such metal raceways and cable enclosures to be used for equipment grounding- which is a basic Code -required concept as follows: Equipment grounding is the grounding of all metal enclosures that contain electrical wires or equipment when an insulation Copyright (c) 1999 by The McGT3w-HiII Companies, Inc. All rights reserved. Use oftbis product is subject to the terms of its License Agreement. Branch circuit must be in raceway or in metal cable. Romex may not be used for supplying recept- acles or other loads in patient care areas of any health-care facil- ities. Any electrical equipment in area used for patient care Grounding term- inal of equip- ment enclosure (or receptacle) Equipment grounding conductor must be an insulated copper conductor in raceway and cable. QMTS2.Guidelnfo - Polymeric Materials - Filament-wound Tubing, Industrial Laminates, Vulcanized Fibé Page 1 of 6 i /' QMTS2.Guidelnfo Polymeric Materials - Filament-wound Tubing, Industrial Laminates, Vulcanized Fiber, and Materials for Use in Fabricating Recognized Printed Wiring Boards - Component YiewLil!tings Page.ßQtiom QllestiQ!!.S.7 [Plastics - Component] Polymeric Materials - Filament-wound Tubing, Industrial Laminates, Vulcanized Fiber, and Materials for Use in Fabricating Recognized Printed Wiring Boards - Component Guide Information The materials covered under this category are incomplete in certain constructional features or restricted in performance capabilities and are intended for use as components of complete equipment submitted for investigation rather than for direct separate installation in the field. THE FINAL ACCEPTANCE OF THE COMPONENT IS DEPENDENT UPON ITS INSTALLATION AND USE IN COMPLETE EQUIPMENT SUBMITTED TO UNDERWRlTERS LABORATORlES INC. FILAMENT-WOUND TUBING is a tube composed of continuous monofilaments or yarns with controlled orientation in a matrix of a cured thermosetting resin. INDUSTRIAL LAMINATES consist essentially of fibrous sheet materials, such as cellulose paper, glass fabric, etc., which are impregnated or coated with a thermosetting resin binder and consolidated under high temperature and pressure into hard solid products. VULCANIZED FIBRE is made by combining layers of chemically gelled paper. The chemical compound used in gelling the paper is subsequently removed by leaching; the resulting product is dried and finished by calendering. MATERlALS FOR USE IN FABRlCATING RECOGNIZED PRlNTED WIRING BOARDS - The insulating material upon which a conductive pattern may be formed. It may be an industrial laminate or a thermoplastic or thermoset polymeric material in film, sheet, or molded form, or insulated metal sheet, with or without a conductive metal cladding. These materials have been tested in accordance with established procedures to define their properties in order to facilitate evaluation of their use in end-product applications. The tests may include the determination of material flammability (burning characteristics), ignition characteristics from various thermal and electrical sources, electrical tracking and other electrical characteristics, physical and mechanical characteristics, and analytical tests. In addition, the effect of long-term exposure to elevated temperature (air-oven aging), water, ultraviolet light, cold, etc. on property-retention may be evaluated. Due to space limitations, only a limited number of property values may be http://database.ul.com/cgi-binIXYV/template/LISEXT /1 FRAME/shovvpage.html? &name=QMTS2. Guidelnfo¿ 1/31/03 QMTS2.GuideInfo - Polymeric Materials - Filament-wound Tubing, Industrial Laminates, Vulcanized Fil... Page 2 of 6 presented on the individual recognitions. The colors shown thereon are as pigmented by the material manufacturer; unless otherwise indicated, the property values are for the unpigmented (Natural color) material. Levels of performance characteristics required for a particular end-product application shall be in accordance with the requirements of the end-product standard. Flammability - Materials may be classified based on burning tests conducted in accordance with Underwriters Laboratories Inc. Standard Tests For Flammability of Plastic Materials For Parts In Devices and Appliances (UL94). By small-scale tests, materials are classified as 94HB, 94V-0, 94V-l, 94V-2, 94VTM-0, 94VTM-l, and/or 94VTM-2. Electrical Properties - Performance may be evaluated with respect to electrical track resistance, ability to resist ignition from electrical sources, and other electrical properties. Tests were performed using 60 Hertz unless otherwise specified. Performance Level Categories - In order to avoid an excessive level of implied precision and bias, material performance for several tests is recorded as Performance Level Categories (PLC), based on the mean test results (rather than recording the exact numerical results), as indicated in the table following the test description. Hot-wire Ignition (HWI) - Performance is expressed as the mean number of seconds needed to either ignite standard specimens or to burn through the specimens without ignition. The specimens are wrapped with resistance wire that dissipates a specified level of electrical energy. HWI Range Assigned Mean Ign Time (In Sec) PLC 120 and longer 0 60 and up to 120 I 30 and up to 60 2 15 and up to 30 3 7 and up to 15 4 Less than 7 5 High Amp Arc Ignition (HAl) - Performance is expressed as the number of arc rupture exposures (standardized as to electrode type and shape and electric circuit) which are necessary to ignite a material when they are applied at a standard rate, either on the surface of the material or at a specified distance from it. HAl Range Mean No. of Arc Assigned to Cause Ign PLC 120 and greater 0 60 and up to 120 I 30 and up to 60 2 15 and up to 30 3 http://database.ul.com/cgi-binlXYV/template/LISEXT /1 FRAME/showpage.html? &name=QMTS2. GuideInf,... 1/31/03 QMTS2.GuideInfo - Polymeric Materials - Filament-wound Tubing, Industrial Laminates, Vulcanized Fil... Page 3 of6 -.' I Less than 15 41 Comparative Tracking Index (CTI) - Expressed as that voltage which causes tracking on a material after 50 drops of 0.1 percent ammonium chloride solution has fallen. The results of testing the nominal 1/8 inch (3mm) thickness are considered representative of the material's performance in any thickness. CTI Range Tracking Index Assigned (in Volts) PLC 600 and greater 0 400 and up to 600 1 250 and up to 400 2 175 and up to 250 3 100 and up to 175 4 Less than 100 5 High-voltage-arc Tracking Rate (HVTR) - Denoted as the rate, in rnm/min., that a tracking path can be produced on the surface of the material under standardized test conditions. Note is made if ignition on the material takes place. The results of testing the nominal 1/8 inch (3 mm) thickness are considered representative of the material's performance in any thickness. HVTR Range Assigned (in mm/min) PLC 0 through 10 0 Over 10 through 25.4 1 Over 25.4 through 80 2 Over 80 through 150 3 Over 150 through 254 4 Over 254 through 381 5 Over 381 6 D-495 Range Mean Time of Arc Resistance Assigned (in see) PLC 420 and longer 0 360 and up to 420 I 300 and up to 360 2 http:!/database.ul.com/cgi-binJXYV/template/LISEXT /1 FRAME/showpage.html? &name=QMTS2.GuideInfì... 1/31/03 QMTS2.GuideInfo - Polymeric Materials - Filament-wound Tubing, Industrial Laminates, Vulcanized Fil... Page 4 of6 240 and up to 300 3 180 and up to 240 4 120 and up to 180 5 60 and up to 120 6 Less than 60 7 The above characteristics and dielectric strength, volume resistivity, and other electrical and mechanical properties may be determined by means of the applicable ASTM and/or UL specification in the Underwriters Laboratories Inc. Standard for Polymeric Materials - Short Term Property Evaluations (UL 746A). In addition to minimum electrical and ignition test levels, materials which are used in applications involving support or contact with current-carrying parts are also required to display a minimum stability (heat distortion, moisture resistance, dimensional stability) performance level, as described in the Underwriters Laboratories Inc. Standard for Polymeric Materials - Use in Electrical Equipment Evaluations (UL 746C). To determine compliance of a material for a specific application, the test values generated for that material should be compared with the minimum performance level established for that application as outlined in the product standard. Specifically, an industrial laminate that meets the minimum levels of direct support of current carrying parts, in accordance with the Underwriters Laboratories Inc. Standards for Polymeric Materials - Filament Wound Tubing, Industrial Laminates, Vulcanized Fibre, and Materials for Use in Fabricating Recognized Printed Wiring Boards (UL 746E) and Printed Wiring Boards (UL 796), is identified to enable the printed wiring board manufacturer to select appropriate industrial laminates as base materials for printed wiring boards. Thermal Aging Program - The materials covered by this program have, in many cases, been investigated with respect to retention of certain critical properties (e.g. dielectric, flammability, flexural strength, and the like) as part of a longtime thermal-aging program conducted in accordance with Underwriters Laboratories Inc. Standard for Polymeric Materials-Long Term Property Evaluations (UL 746B). The end-of-life of a material at each test temperature in this program has been assumed to be the time when the value of the critical property had decreased to 50 percent of its original (as received) value. The temperature index shown in the individual Recognition correlates numerically with the temperature in degrees C above which the material is likely to degrade prematurely when based in a comparison with similar results of a material which has had acceptable service experience. More than one temperature index may be appropriate for a given material depending on the property requirements for a given application. In certain cases, higher temperatures than indicated in the individual recognition are permitted if so specified by the end-product standard. Metal Clad Industrial Laminates or Films for Use in Printed Wiring Boards - Materials tested for bond strength between the cladding metal and the industrial laminate or film after a solder shock and thermal-aging period and for flammability after a solder shock. The following abbreviations may be used on the individual Recognitions. Abbreviation Term UL 94 Flame Class UL 94 Flammability Classification MtI Dsg Material Designation hup://database.ul.com/cgi-binIXYV/template/LISEXT /1 FRAME/showpage.html? &name=QMTS2. GuideInfi... 1/31/03 QMTS2.Guidelnfo - Polymeric Materials - Filament-wound Tubing, Industrial Laminates, Vulcanized Fil... Page 5 of6 ANSI Typ ANSI Type or ANSI Grade Col Color Min Thk Minimum Thickness Thk Thickness Nom Thk Nominal Thickness Thk Rg Thickness Range Lam Laminate Elec Electrical Mech Mechanical Base MtI Base Material TI Temperature Index HWI Hot Wire Ignition HAl High Current Arc Ignition HVTR High Voltage Arc Tracking Rate D495 Arc Resistance CTI Comparative Tracking Index DSR Direct Support Requirement Max Area Dia Maximum Area Diameter Sold Lts Solder Limits Max Oper Temp. Maximum Operating Temperature Min Board Bid-Up Minimum Board Build-Up Products Recognized under the Component Program are identified by significant markings, consisting of the manufacturer's identification and catalog, model or other product designation, which correspond with the marking specified in UL's published records. Only those components which actually carry the "Marking" shown in the individual Recognition should be considered as being covered under the Component Program. The Listing or Classification Mark of Underwriters Laboratories Inc. is not authorized for use on, or in connection with, Recognized Components. I'.agf- Top Notice o:l'Disdaimer QuestiQRS1 IlL Li~tf.d:t!Lc;I.-CJ"'ssif!f!LP.:rQducts l:rL.Re_cQg.!!i:¡;fd CQIIJPO!!f!:\ÍS Products Ce¡:tifleJlfu.r Canada http:!/database.ul.com/cgi-binIXYV/template/LISEXT /I FRAME/showpage.html? &name=QMTS2. Guidelnfi... 1/31/03 QMTS2.Guidelnfo - Polymeric Materials - Filament-wound Tubing, Industrial Laminates, Vulcanized Fil... Page 6 of 6 , . This page and all contents are Copyright @ 2003 by Underwriters Laboratories Inc.@ The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured under UL's Follow-Up Service. Only those products bearing the UL Mark should be considered to be Listed and covered under UL's Follow- Up Service. Always look for the Mark on the product. http://database.ul.com/cgi-binIXYV/template/LlSEXT II FRAME/showpage.html? &name=QMTS2. GuideInfì... 1/31/03