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Home My WebLink About2231 FARADAY AVE; 104; 86-610; PermitII) z 0 j:: < a: < ..J 0 w 0 ~[ 0 ~-a:,. I-·-z o. 0 a:· w 0 .;J 5 ~ w z 3: 0 z 0 ~ II) z w a. :,; 0 u ~ a: w :.:: :SI 3: I ~hereby affirm that [ am licensed under [ provisions c:,f Chapter 9 (commencing with 1 Section 7000) of Division 3 of the Business • and Professions Code, and my license Is In l full force and effect. f I I hereby affirm that I am exempt from the Contrac-f ~i;fn~~ea";J P~~~s!f~n;h~o~~!o:~ny9ci\~agr0~oj~fy w~~~~-~ l quires a permit· to construct;·~lle(;'•iinprove; demolish, or ) repair any structure, prior to its isSUance also requires !heap· pl1cant for such permit to file a signed statement that he 1s I t;;:,;;: L~:('/fh~tpt~~ Jh~o~~~~s~~;; .:Jlh t~:ctyg;%~gr~1 I Division 3 of the Business and Profess,ons Code) or that is ex-l ~~fa\1~hne~f?:t~o~d i~;t~s~/~~t~~~l1~J;i°f~~~mt,t!::::i s~~~ I Jects the applicant to a civil penalty of not more than five hun-I dred dollars ($500) I I I I, as owner of the property, or my employees with wages I as their sole compensation, will do the work, and the struc-f ture 1s not intended or offered for sale (Sec. 7044, Business 1· and Professions Code: The Contractor's License law does not apply to an owner of property who builds or improves I thereon and who does such work himself or through his own employees, provided that such improvements are not intend· I ed or offered for sale. If, however, the building or improve-f ment is sold withm one year of completion, the owner-builder I ~;~v~af~~-:~: ~i;i~~e o~fp;~ittg that he did not build or im-I n I, as owner of the property, am exclusively contracting l with licensed contractors to construct the pro1ect (Sec, 7044, I ~~i~~~; ~~~ a:~~f;~;~Jiire~t :r~~e~t~nt~gtg~ifd~ig~~~: I proves 'thereon, and 'who contracts for each projects with a I E~Wf~ctor(s) license pursuant to the Contractor's License f D As a homeowner I am improving my home, and the follow· 1 1 Ing conditions 'exist: 1. The work 1s being performed prior to sale, I 2 I have lived In my home for twelve months I prior to completion of this work 3, I have not claimed this exemption during the I last three years. I D I am exempt under Sec. _______ , B & P.C. f for this reason ______________ I --'-------------1 l I 0 I hereby affirm that I have a certificate of consent to l self-insure, or a cert1f1cate of Workers· Compensation ln-1 surance. or a certi~py thereof (Sec. 3800. Labor Code) r I I I 0 Certified copy is hereby furnished j I CERTIFICATE OF EXEMPTION FROM I WORKERS' COMPENSATION INSURANCE f (This section need not be completed If the permit l is for one hundred dollars ($100) or less) J 0 l certify that in the performance of the work for which I this permit is issued, I shall not e"mploy any person in any I manner so as to become subject to the Workers' Compen- sation Laws of California. , I NOTICE TO APPLICANT: If, after making this Certificate I of Exemption. you should become subject to the Workers .. } Compensation, provisions of' the Labor Code, you must forthwith comply with such provisions or this permit shall f be deemed 'revoked. r I I I 1[ D ,1 hereby affirm that there is a construction lending I agency for the performance of the work for which this per-( m1t, is issued (Sec. 30!;)7, Civil Code) f Lender's Name _____________ ] Lender"s Address, _____________ : I I USE BALL POINT PEN ONLY & PRESS HARD APPLICANT TO FILL IN INFORMATION WITHIN SHADED AREA AND DECLARATIONS. ' CARLSBAD BUILDING DEPARTMENT ! APPLICATION & PERMIT \ " -•:• 2075 Las Palmas Dr., Carlsbad, CA 92009-4859 (619) 438-1161 JOB AD'DRESS ''· AV, ST.RO, NEAREST CROSS ST. l DATE OF APPLICATION' BUSINESS LICENSE# ~u;;;o PERMIT NUMBER '2.-""'1.l.~:'I . .-':· /'j ~ 1 -E-?(1((7£5 JC4-/,,1~87' ' • :-r::> A .'T""\.,.. -a ,ift,~ (pf D . ' LOT ,BLOCK I SUBJ?'.VISION I ASSESSO,PARCEL NO, /wCZZACT°h/if/ CONTRACTORS PHONE# ZdNE ! C. /g/9-~92,..-ff.J;:; OW~K: LML ~ &'t'##~e/17' C I OWNER'S PHONE CONTRACTOR'S ADDRESS 2 STATE LICENSE NO. BUILDING SQ. FOOTAGE ' 7~cJ £~~<: ~/ CY._ Lf~ OWNER'S MAILING ADDRESS ~ ~ OtetJa. 75) ·7?3o b)9J,/V'~('/' 'd~ C#-DY.litv//-;; ;/fs;oc ~ DESIGNER'S PHONE ~IJ-~.15-!?II~ DESCRIPTION OF W~• /-7M. ./J rv e,,1-,:: ~(?~ R/1-/4/t DESIGNER'S ADDRESS STATE LICENSE NO. ~ u::: >, ~ 0 C. I~ at?', ,4; __ pF_f:5~t_CE:.-. j,J ~ ~E-LL- 6016 Oil l2/04/B6PRMT 0:::;:)~J,:;:. ! ' .--~ '-1- F/P FLA ELEV. NO 00-Pl,. EDU / \ . ' . ' STORIES '"'"•? "t, '. YO NO I I PARKING SPACE' RES UNITS I GRADING PERMIT ISSUED I REDEVELOPMENT TYPE 6cc LOAD FIRE SPA AREA CONST YO ND YO NO YO NO Not Valid Unless Machine Certified · QTY. PLUMBING PERMIT -ISSUE 7.50 QTY. MECHANICAL PERMIT -ISSUE 3~.CD SUMMARY/ACCOUNT NUMBER EACH,FlXTJ!ljE TR.AP ,·,. , .. ,. . INSTALL FURN. DUCTS UP TO 100,000 BTU l/-. ..--BUILDING PERMIT 001-810·00-00-8220 -,.,,~t-- EAC'H BUJLDING SEWE'R ·t· ..... · -OVER 100,000 BTU SIGN PERMIT 001-810-00-00-8221 EACH WATE,R HEATER ANDIO!YfENT BOILER/COMPRESSOR UP TO 3 HP /I ___ PLAN CHECK 001-810-00-00-8821 It,!,,. - EACH GAS SYSTEM 1 TO 4Jd'\fTLETS BOILER/COMPRESSOR 3-15 HP I TOTAL PLUMBING 001-810·00-00-8222 EACH GAS SYSTEM 5 Q)l'MO RE METAL FIREPLACE ELECTRICAL 001-810·00-00-8223 7.S-- EACH INSTA~ .. ALT¢,' REPAIR WATER PIPE VENT FAN SINGLE DUC:f MECHANICAL 001 ·810·00-00-8224 II -- EACH VACuuij,{~EAKER MECH EXHAUST -HOOD/DUCTS MOBILEHOME 001-810-00-00-8225 . WATERSOm{R RELOCATION OF EA FURNACE/HEATER SOLAR 001-810·00-00-82?6 EACH ROOF DRAIN (INSIDE) DRYER VENT STRONG MOTION 880-519-92-33 ~. n-'L v TOTfiL MECHANICAL FIRE SPRINKLERS 001-810·00-00·8227 ,. TOTAL PLUMBING I I/. -PUBLIC FACILITleS FEE 320-810·09-00·87 40 . st)IJ BRIDGE FEE 360-810-00-00-87 40 U-lo-i.., -QTY. ELECTRICAL PERMIT -ISSUE QTY. MOBILE HOME SETUP PARK·IN-LIEU (AREA ) NEW CONST EA AMP/SWT 1BK R CAR PORT TIF 134-810·00-00·8835 1 PH ' , ,. _\ _ ll'H AWNING LA COSTA TIF 133-810-00-00-8835 EXIST BLQG EA AMP/SWT/BKR' GARAGE FMF -Z..-{ 0 -1 PH 3 PH LICENSE TAX 001-810-00-00-8162 I£) 5<o - REMODEL'AL TER PER CIRCUIT ]O.r-MFF, ~1.,.-~ /S-t:/0 880-519-92-57 ,..roe/ --- TEMP: p'0 L.-E-;: 200 AMPS ·,:\·, ·\ OVER 200 AMPS TEMP OCCUPANCY (30 DAYS) , CREDIT DEPOSIT / (-Z,..O -'). TOTAL ELECTRICAL I I~,--TOTAL TOTAL FEES PAYABLE I ~ C/,f-i,.. . ~ .,_ V I HAVE CAREFULLY EXAMINED THE COMPLETED "APPLICATION ANO PERMIT" AND 00 HEREBY Expiration. Every permit issued by the Building 0fflc1al under the provisions of this * AN OSHA PERMIT IS REQUIRED FOR e/CA VATIONS OVER CERTIFY UNDER PENALTY OF PERJURY THAT ALL INFORMATION HEREON INCLUDING THE Code shall expire by llmitat1on and become null and void If the bu,ldtng or work s· O" DEEP A.NO DEMOLITION OR CONSTRUCTION OF authorized by such permit 1s not commenced within 180 days from the date of such DECLARATIONS ARE TRUE AND CORRECT ANO I FURTHER CERTIFY AND AGREE IF A PERMIT 15 permit, or 1f the buildlnff or work authorized by such permit 1s suspended or STRUCTURES OVER 3 STORIES IN HEIGHT ISSUED: TO COMPLY WITH ALL CITY. COUNTY AND STATE LAWS GOVERNING BUILDING CON-abandoned at any time a ter the work 1s commenced for a oeriod of 180 davs. I r, STRUGTION. WHETHER SPECIFIED HEREIN OR NOT. I ALSO AGREE TO SAVE INDEMNIFY ANO APPLI ~GNATURE ¥{ OWNERO CONTRACTOR~ A;,~R~;,!S'.• -01:o/i¾ KEEP HARMLESS THE CITY OF CARLSBAD AGAINST All LIABILITIES, JUDGMENTS, COSTS AND EXPENSES WHICH MAY IN ANY WAY ACCRUE AGAINST SAID CITY IN CONSEQUENCE OF THE -I.·\ />-'---· BY PHONE 0 ~ --. Ao J I I) I ·~ • t/ '$/, GRANTING OF THIS PERMIT. \, . . "-----=--· --r-- "Cl 0 '('.) ..... C ro () a. C. <( I .:.:: C a: 0 Cf) Cf) Q) Cf) Cf) <( I :,': .Q ai >- Q) () C ro C u::: C Q) e (.? 0 u Q) C. Cf) C 2 .c $'. ! 1 ':·:t . :. .· 1 _ . ,; ' ',\. ',v ' -, ... , • . • " q,: ~ ' • .;. • , ' •'. •;,. +. + ~~' -.-. -. -. TYPE 1 ----r DATE-.. 1 INSPECTOR ; _ _ ·::· ~ :~~: '· --~ -_BUILbii\jG·~· i . :·. --. .. \>r.0.9N9~t_10~~·:~·:·.··>:: ·~:~ f f:<:: :~.j ... , , .. 81;;lNFQRQ~P ,STE.Ek ... . . .., . k. . .. 1,. . . . ... ---~~,_._2._' . ,.,,,..,~ ..... -;~-.lJ'\l'~ FIELD .INSPECT!Or;i REGb~b.· . . .,' ,• .. · -.(- '\~ i\'~5oui_~~-o s~_ECl.~,L'1Ns,i=?~cT10N$ · ~ ..,----.. - ,.~ ... -\J r~·'. <\ . ;\ ~~-.\. \ . -.... . :·1 . .. ;_; .. ,:-. ' .:..., .... --. ~~-.:.. \ ··_\",'~:.. .. ~G:,. O,~ tO·A .· ( t 1;, . . . . . •, . ,,/\; ;.( \ __ , ___ -ji· __ ,·~_--._ -~~· -~--·7.~,t\;}\~\-~ . 'V . .._ . ., .\ .. , .... .. ··. r-,, ' . . ·''. '" , '.'i '· .... IN~p~ctcfa·s.'IIJQTES .. ~-" "~' __I ~\;.,.~?,~_cS!·~f::;'~ .. ~ . :_:~M~SONBX. '.: .. _ ... ~:· 1< . . ... ·, ·" ... •GllJNltS OH GROUT · · l, ·. ,. , . · ·. ;"si.i~: FRAI\Jt~: ciiC6oR .. D':GE LING . -•, --.. '· ·. INSPECl',IQN-.. REQ. II:: I INSPEGT-Ofsl'S ., .... . 'cHEC~~ED APP'f'iGV:AL··: ::: DJ\,T.E: ---=~?7:r ·. "'-~'". -. ·::. I: 2\.,_l ... ~xn .· ./ ... . . . '· , .. -· •,, ...... ·.:· .•.. · ···· ·' .. , .. .,. · ._,, · ·· :., :SO'ILSCOlvll?LIANCE-,". f .. · . . :tlHEATHTNG: ·. d· ,ROOF . -.t:fs' EftJC . i=iRioi=no . . . ' F,RAMi\.··_.: . . . . . . < ,t:.' .. . _F?UNBATION.IN$P: .·-~· . . ' ._.::...~ , .. ,--;? \ ~-'. . .. ;;. -.·\·~ :.~ .. '. ·, ,•: , .. '. ··· · ·• ··· ...... , · .,, · ·· · · , S,TRUCTURAt'-CONCRcTE >. "-c·.; r'\ \ _ ~s.., . -"! · ._;,, , ,:I, l· L .. , li .. f .. i',:1 ;", ? ' -- '·. ,: :l, ;, :·· ,, ~ 1~ , ;, ' ~. ,_ \ J: , I ~-, ( \. ,: .• _EXTER!QR LAT~... . . ,. L 'OVE_R;?OOQ_PSI' -· : . .. . ..,, . . . \ \'. '\';::.i::-'.· .,,... . . • •.· INSULAJIO'.N .. :::.· _; .. Ji' . ·PRES;TRES~E0 . ,'; r_ · i,: ,.:.· ·,; , ., · . :·,:-:.., ~-i -. :." :,.:·· .. ····:·:·:.·:.:.· .. ·.: .,, ...... : .. :.:: .. .. . . .. CONCRETE. . ~-\ \ .. _ ... ~-f( 'l!\ITERIQ.8.. lATJ-:1 ~ DF,l,~VIJA,l.:.l;:_, . l . po·s,t TENSfOJ\JEo' . ..... . .. .. . ·:,• . . ;, - <·-r~.·-· ·.-· ::_ptJ;;1111·aH~tGc l .=: -~,:~::~;;Ni · .-·, ... ·: -· .: ·:, ·· ... I; :'j ,t-v·~1:·."' I .. ·<[] SEWsER A.ND.:Bl!,CO ~ q. lj'.u,po __ :..: ,'!;l!GH_S;ftENGtri"~ ·., . -. , . .... • ...... , . ·.. . · ··· "" ...... · .. BOLTS U~P;RQROU,~p:, P WA$Tl= .. · ·WAT!;R.· ;.-. . . . . . . .,· · ...... · .... .· ........ · ·· ·· ·· "· · · · ·· ·· iii,'· .... · ., · .SPEC!AL rvt'A'.SONRY . Toe:9uir~•-'Q' \l,VA$T:,;. ·· _. PiYvATEB, · · · · •1 Tl)~· AN.P ~H,QV:V.l:fq:>,At\!. ; . . ·} · : . , --]'.~ ~;.,O .. 'GAs· TEST -. . 1. ·.,_ __ ,· ... • .... _:: : .. ·.: . ..! . ---·-. · n: WATER HEATER , ij·_::SOL~R\IVATER .. , .f .... ::: . ·. . . ,·· . . . . . . . . . • ', c J' - •I~~ ... :.;<;'. -_a:!_._ -~--·.. . .. 1 . ···T-,-=-.~. ELECJRICAL . 'i' . . -.. I . ·, •. . . :tJ ·.ELECJ:'F~IC llNDE.RGROl:JNi'.f . ·. · :uFFEFf; · . 'PILE;S .. Ci?-ISSONS '<. .. ROUGH-:ELl;CTRi¢ . . :_·: . ' I· ·, . . . . ': l J --: . J,:. ' .. ,· . . :I,: ., ; ., . I ' ,, . ,,_' ,, . ' -. . ~ --.. , ' . ., ., ' ., . q ,ELEbtRiQ ·$.~Rv16E d. TEM_ pRAi=w·: ··o ·soNDiNG;., •. tl.PbO'L ·. J .. . • • . , . . • .• 1, 7 .1 '·\:.' . X \ 1:_}\f' -'. ,._~-· ., ' • I'·-. l -.-·=-;--...:..·~·--1,·:. ,1 .MECHANICAt·.,· :.1 - El oµpr:~P.~E.M:i .. · p .REf.. :~tf.$!NG, . i.l ~-'----'-'f .- - t -~ • -n-s - 't:·' . . ~~-_l_-~_ec_' '~ ....:~ ""..,) \.\ -1,~----;-----;.-c-·6:) ·, \~-----~ \ ~{-~. -=-~ "J \. ',M.~::• ~~ .. _,--. 1~,.l ~- ~l 9: -t:7 ' ' \. r,.. ~Q ~ .. t .~~X_ii~,~ .. ,,' .--:: ~<~ ··~·-·-.....·. : .. ~E~1~:AIR.¢b;~o,_,·~YSTEMS .J _-2;; ~-F·:---r: .,, .. . .. _ __ _ _ . VENTILATIN'G SYSTEMS ··:· · · '"· !JflTP UiH r-~,n-1,-· .. ,:..,:,,,_~•.::.tr ,,:;:,,.\···.-d··, ·. . , :.. . . . . . . . L :~=<~~;::::i'\.., /.;..,,,..:..;: ·c.~::=,; · . -, ,·.1-~.,: -;:, ,' , · , ·,w,; · ·\•. ~ ·, ;•,. ·.·;·<<,_ ~.' _.,,. . -.•. • ... ,_,,,._ . ~"."-~ -,-.: ! . cAi;,,L;FOR.FINAL./N,SPECfy/ON Wffii/9::)A.L.u:AP.,':l?(l@R.,f.li/4.Tf!j:. :_: -~"~ · ,-.. :,, ·;:: . .;•. ·. ---.~--. .). ... '.. . . , ·:'~{_'· _> . . ..... ~" ' ,·. .. ITEMS.ABOVE HAIVE BEEN-ltPPBO'\l,ED .. ·,, .... 1:,: . < . -~ -~-. •· i-_....,.;;.""", .-._._,_,.~,'--',-~~....,,.~,-,-. ~.,...,........--"-".;...,...,~-~--.;--..,__,_.....,...=,....,.....--'---+'-~ . :-: ... ," . : : ... Fl~~L .. ·• . _ . ·-.,., --~ , .: :~,~·::'-:> :···?/3': < '. -~ ¾:.. I'.~,-.: ·. '_:'.: ' . .. P_l;;UMBIN_G"':'· -~~·50/$,1': .,Jl... l · t-,:.x,.:·., ,.. _;..; 1-:,\ ,~:'r :~ . .:-,,~~ r\ _._ : . ELECTR.ICAL ·· ,· ~-···-.·. · " ··-'---~ .. · · · ·--r-\ · .:_:·:··:._--.. ,::_,,,:~" iJ:., -., . --~":' , , ./. -·· . ·--:_:;: .. ,_~_· c:.';:}_' .... ~ .. (~~! __ i:,.. -MECHANICA:L ---· ... . .... · --•·. ~ ··.: · ,-. .,., · ·, · ... , , , · .. :-~··' .. ... .._. J .. ~-·-~:: ·::::~ '.1·:>-··-,: ...: ~' rt':::·::.s~t:r~-, .,.1, .... : .. : suit.bi NG · . · , ·· .. . · .. · . · · · · -·· · I · · I .. · .. I ·1 · · ··· · I SP.,~CiA1_.b_o_~()iTiON§' ... -_ . ~-/:·-· -· ... ___ . . . . , . . .· .. . .. . ... .• I, ~ ' .. . .... .. {~_ ' . ;:·:, :i-:_::, , .... '~· ... ~ > -''le ~<-V -\M" . '-~ ~ I "' ,,,_. ,• ...._"'I:"".,.. ' • ~,_ ,' < ~" . rt£Ct1\!Er, THIS IS TO CERTIFY THAT INSULATION HAS BEEN INSTALLED IN D£C CONFORMANCE WITH THE CURRENT ENERGY Iiji:GULATIONS, CALIFOltNIA l O 1986 ADMINISTRATIVE CODE, TITI..E 25, ~-,.TE 0! CALIFORNIA, IN THE THE KOLL co. B{!D..DING LOCATED AT: ~ /Oyf sITE ADDRr:ss: s;9;:iJ3 \ ~~OAY ,Sr£:: "> .Ceei-6Br1D Number Street City D"E:µl \ ~, Ul:.::J EX':FERIOR WALLS Manufacturer_,_,...,\...,.,_}-'l ___ Thickness/Typed'&/un R/Value_/ ___ _ CEILINGS -oU~P~WD£0 Batts: Manufacture!' <..J \.-/\ Thickness f.c/3/uf( R/Value /q --- GENERAL CONTRACTOR: ____________ LIC. /! ______ _ BY __________ TITLE _____ DATE ______ _ INSUl.ATION CONTRACTOR: WESTERN INSULATION LIC.# 481278 BYC') ·¥ nn.Mo~¼l.~·niATE 1-9 10 l&o FINAL BUILDING INSPECTION RECEIVED l.Jt~ 1 0 ,~Wi PLAN CHECK NUMBER: DATE: PROJECT NAME: --------------------------------- 22:tt"'. ~.'.:2'.H },,.-1rkiy l:'. ?.ulf:> !Off ADDRESS: ----------------------------------- PROJECT NO.: TYPE OF UNIT: ________ UNIT NUMBER: ________ PHASE NO.: _______ _ (1':(f.;,.(!',.' 1..~·1 ,:-.h,1.4l 1 _____________ NUMBER OF UNITS: CONTACT PERSON~·-------------------------------- CONTACT TELEPHONE: ______________________________ _ INSPECTED ·~ DATE !-;J-to-V ~ DISAPPROVED BY: INSPECTED: APPROVED INSPECTED DATE BY: INSPECTED: APPROVED DISAPPROVED INSPECTED DATE BY: INSPECTED: APPROVED DISAPPROVED COMMENTS: ---------------------------------- Rev. 1/86 WHITE: Suspense GREEN: Engineering CANARY: Utilities PINK: Planning GOLD: Fire POOR QUALITY ORIGINAL S I CASHIER'S VALIDATION Q!itu nf Q!arlshnh SEWER PERMIT APPLICATION APPLICANT TO FILL IN SHADED AREA ~,·],:',I. SEWER PERMIT NUMBER: --=S=--=E=--__,_~.:,_~ ...,_!.J..(---·.c:._() _____ _ BUILDING PLAN CHECK NUMBER: PC ·-,' 1. ,:_., f 0 ' ' ,., 'I.It " BUILDING ADDRESS: --'---'--_.· ._:,_; __ -',.-'''-'-" --''-·.,__t _..._,'--~-1 BUILDING TYPE: ___ i_:'--..!v..:..t1--"/';,:....:.,.f'-.;.,..~,'-t/_lQ"'-'-, _______ _ I. ,;•· 1 NUMBER OF EDU'S: ----'''-·"-.,;'·\=~~'------------ ~- OWNER: ____ ,'-/-'-.. _,_1_· _._:"-~ ---'f'----)_. __.· ...,1 ~--_._ .. __ _,__',,~--, CALCULATIONS: ______________ _ I . • i. MAILING ADDRESS: __ -:-_:..c. .. , ----''---/..,_,~' .....,·.'--'----'--"'---'.(_· .. ::..1./ __ -t----'/~:"'-51-'-"){_=)-"-{~_-'1_""""-"-'•___;_/-'-'/:,,,__}1--"-:1----u"-',..j'-'':'1---·i,_,_1_;;_. __ i. l-='·~::_-( _-;_' -=-0....,.t;::_.I __ _ ·/ l -i -.. -~--~ CONTRACTOR:_~~,___.,'-'---'-""'--.....,'.'-/--~-----+--------------'_..:::.;,;---' 2 __ 1'-·---1 ~---'' • ""-J __ _ - . / ·, ) , () MAILl~G ADDRESS: __ ··=·=;''---'-t.. ____ ,___,..;,.···----=-'-·· __ ,.__:>":.....:....· --+-------------------- LEGAL DESCRIPTION: ______________ , CONNECTI-ON FEE COST PER UNIT ' { -,~ \ 1/ ' . --''" Is,· %1 ,ff. } t·~ 10 x·NO UNITS ~ I ' •, fl l/·;;·70--..,.J ... LATERAL CHARGE: _____________ _ '/ .-,:, ·; ,~) ,. TOTAL CHARGES: --·=-·;;cc:.. • .-'_. f-"'. '------------ ASSESSORS PARCEL NUMBER: -----------1 PREPARED BY: -+··,:,;·:ce..·"'~---··=:=-:,_-·:.---::---·1~_7,''-4,7_· .:.,_l_L~· -'-'A~_ ....c'~''-"-/-'-':"""'L:::_i __ _ ~ (PRINTED NAME) COMMENTS: ------------------------------------- .... I' WHITE: DPS GREEN: Finance CANARY: Water PINK: Building GOLD: Applicant ESGIL CORPORATION 9320 CHESAPEAKE DR., SUITE 208 SAN DIEGO, CA 92123 (619) 560· l 468 DATE: 11j 2-4( seo QAPPLICANT CCJ JURISDICTION"'.:) D PLAN CHECKER D FILE COPY OUPS JURISDICTION: C"3::1:?c£ e ,9::0 PLAN CHECK NO: BCo -G \ 0 -..:re D DESIGNER PROJECT ADDRESS: 27?3 \ FM@BDft:( A JB" PROJECT NAME: s II II \J a:s::: (;:;: ·11 D D ·:.o D D __ .,, D D The plans transmitted herewith have been corrected where necessary and substantially comply with the jurisdiction's building codes. The plans transmitted herewith will substantially comply with the jurisdiction's building codes when minor deficien- cies identified ______________ are resolved and checked by building department staff. The plans transmitted herewith have significant deficiencies identified on the enclosed check list and should be corrected and resubmitted for a complete recheck. ·The check list tiansmitted~erewith is.for yo~r-inforfuation. .The pJans .~re being held ~t Esgil Co~p. until corrected·_ plans are submitted for recheck. ·• The applicant's copy of the check list is enclosed for the jurisdiction to return to the applicant contact person. The applicant's copy of the check list has been sent to: Esgil staff did not advise the applicant contact person that plan check has been completed. Esgil staff did advise applicant that the plan check has been completed. Person contacted: '3:ESrGNs;;:i2. '7{:-- Date .contacted: idz..t\ 8'1 Telephone # ________ _ REMARKS: _________________________ _ * 1)¢51 ~ 0~ rz.. ~l.P«T>. ti\:2.-l\:\, P;c.;,, :tPt..D By: J1M ~\s½1cvvl En_cl osures :6) >..,,;..\ ::....+l)_._IOM,.;:;..;;...;;....:.,s:;;;.__ _____ _ ESGIL CORPORATION '· •• .-I f 1. r I. l ' ESGIL CORPORATION 9320 CHESAPEAKE DR., SUITE 208 SAN Dll!GO, CA 92123 (619) S(i0· 1468 DATE: II' 101 ~~ QAPPLICANT crl?]:RISDICTI~ 0 PLAN CHECKER QFILE COPY QUPS JuRisoicTioN: C A-12-ks e &o PLAN cHEcK No= BG.--Co-, o -r 0 DESIGNER PRoJEcT ADDREss: zz.3 \ Ei5::f?.&Oert.t Aue-. PROJECT NAME: C::::::. -\\ ~ II ._)\..)\~ c:: D D D ll. D IJ .. , ~ . 11 D D The plans transmitted herewith have been corrected where necessary and substantially comply with the jurisdiction's building codes. , -. The plaµs transmitted herewith will substantially comply with the jurisdiction's building codes when minor deficien-cies identified ______________ are resolved and .checked by building departrnent_s-taff. . . The plans transmitted herewith have significant deficiencies . identified on the enclosed check list and should be corrected and resubmitted for a complete recheck.·. ·.The check list transmitted ·herewith is fo~ ·your,.'. iniorin~tion. . The p:lans .~re being held at Esgil Co.;-p. until corr~cted ·.:.-. .; pians are submitted for recheck. . · ··:.· · · :._: : .... ,. The applicant's copy of the check list is enclosed for the jurisdiction to return to the applicant contact perso·n." The applicant's copy of the ·check list has b·een sent to: · LYNN R1ll-.lt;H:A:~<-IJ T. H:Ow)3:R.Q cf; 14-ssoc..,J -~' Esgil staff did not advise the applicant contact person that plan check has been completed, o-rt+'=1'2-"i1+l'rK W1VT1 L..lN. '1-', Esgil staff did advise applicant that the plan check has been completed. Person contacted: Date contacted: _______ Telephone# REMARKS: -------------------------- ESGIL CORPORATION Enclosures:G)Ss'/z,-1-.11 L1~, w/3 lif:"Yl/1$ @J:ceo L-m. z/ 19 ! co/..; ~fr5 , CD Of..] ON C,hU S , s TE l\)J'. w \ \ I .-® ··:-,. International \ ... 5360 SOUTH WORKMAN Mill ROAD • WHITTIER, CALIFORNIA 90601 • (213) 699-0541 BOARD OF DIRECTORS CHAIRMAN DAVID A. BASSETT, P.E, BUILDING SAFETY DIRECTOR MEDFORD, OREGON February 19, 1986 Fit lE r·: it:.· r ';\,; E O ~ .f.~, Ji ilQ "' • "• MAR 1 b 188G OFFICES OF ESG/L CORPO,,AT/C"I • 9320 CHfSAPEAl(f o~:. PRESIDENT JAMES E. BIHR, P.E. EXECUTIVE VICE-PRESIDENT DONALD R. WATSON, P.E. F1RsTv1cE-CHA1RMAN Michael Bouse MARK R. RODMAN B ·1a· off" · 1 OIRECTOR,BUILDINGSERVICES Ul mg 1c1a SPR1NGF1ELD,ILL1No1s City Hall sEcoNDv1cE-cHAiRMAN 1400 Highland Avenue ... RECEIVED-·__,__ ·•·· ·--·-cHARLEscLAwsoN ···-·--·-· Manhattan Beach California DIRECTOR OF COMMUNITY • ' 90266 ···--·-·········--· DEVELOPMENT ARLINGTON, TEXAS / IMMEDIATE PAST CHAIRMAN JOHN E. MAULDING, P.E. BUILDING OFFICIAL LANCASTER, CALIFORNIA BOB FOWLER, A.I.A., P.E, DIRECTOR OF BUILDING INSPECTION ALBILENE, TEXAS . PHILLIP M. HERRINGTON DIRECTOR, DEPARTMENT OF BUILDING ANO SAFETY RENO, NEVADA DOUGLAS E. HOOD BUILDING OFFICIAL COLORADO RIVER INDIAN TRIBES PARKER, ARIZONA SOL J, JACOBS, P.E, DIRECTOR OF INSPECTIONS MINNEAPOLIS/ MINNESOTA JAMES L. MANSON DIRECTOR, DEPARTMENT OF BUILDING ANO SAFETY COUNTY OF SPOKANE SPOKANE, WASHINGTON MICHAEL J. NOLTE BUILDING OFFICIAL • CRESWELL, OREGON WILLIAM E. SCHLECHT BUILDING OFFICIAL COUNTY OF WASHINGTON H!LLSBORO, OREGON JAMES R. SINGLETON BUILDING SAFETY ADMINISTRATOR TUCSON, ARIZONA BRENT SNYDER BUILDING OFFICIAL PACIFICA, CALIFORNIA RONALD R. TREMBLAY BUILDING OFFICIAL ASSARIA, KANSAS STANLEY WHEELER BUILDING OFFICIAU FIRE MARSHAL LIVERMORE, CALIFORNIA EUGENE J. ZELLER, P.E. SUPERINTENDENT OF BUILDING AND SAFETY LONG BEACH, CALIFORNIA SUBJECT: Corridor Construction Requirements Sections 3305 (g) and.(h) Fr Q z·· 'I (<'-··,··• ?:.ti 1;.!t;J 1982 Uniform Building Code Ans'd .......... ., Dear Mike: We have reviewed the plans enclosed with your letter of January 16, 1986, and it is our opinion that the corridor system interconnecting areas 1, 2 and 3 designated on the plans must comply with the require- ments of Sections 3305 (g) and (h). ·· You stated in your letter that each of areas 1, 2 and 3 depicted on the office plan enclosed has ar( occupant load of less than 3 0. Further- more, each of the three portions is provided with an exit. You ques- . tioned whether a nonprotected corridor for each of the three sections would be considered acceptable. Our answer is no. The corridor system is serving the total of. areas 1, 2 and 3. Acco~dingly, the total occupant load of areas 1, 2 and 3 should be consider·ed in deter- mining whether or not the corridor system by which they are served must be of fire-resistive construction or not. The aggregate area representing a total occupant load of 85 as you stated in your letter would require the corridor -system to be of one-hour construction with openings protected as required by Section 3305 (h). Please note that in the 1985 code an exception was added to Section 3305 (g) to allow up to 100 occupants within an office space before corridor protection is required. This exception applies when the entire story in which the space is located is equipped with an automatic sprinkler system throughout and smoke detectors are installed within the corridor in accordance wit}:l their listing. ·: You also asl(ed whether a 20-minute assembly across the corridor where it crosses from Section 1 to Section 2 anc! again where it crosses from Section 2 to Section 3 would satisfactorily divide the portions . being served so that each section could be considered separately and thereby permitting the corridors to be nonrated. We feel that this would not meet .the intent of the code. If, however, horizontal exits complying with Section 3308 are provided at the locations where Regional Offices: 6738 N.W. Tower Drive • Kansas City, Missouri 64151 • (816) 741-2241 12505 Bellevue-Redmond Road, 5yite 208 • Bellevue, Washington 98005 • (206) 451-9541 · 603 \Vest 13ih Street, Suite 2-F • Austin, Texas 78701 • (512) 479-8278 ... -2-. the 20-minute assemblies are proposed across the corridor, the corridors in each of the three sections may be nonrated. We are returning your plans enclosed herewith. If additional questions should arise regarding this plan, please do not hesitate to contact us. . · TJK:amg:em Sincerely, f.4c_ T. J. Koyamatsu, P.E. Chief Plan Ch_eck Engineer Enclosure . ... · . .. ......... .. . . --.... -..... -...... .. . ... ····----· .. ----·-·------....... --.. ··-·---. . . . . . . ........... -. . ··--...... -----.. , __ .. -·---.. '· £€ ~-e.. G/../C4-///J1~T ,? .;J& r7',1-½ . -rf , ...!-? tf'»./ V/..4--?'f;! I.!? I "1---~-;;:-... --;:-~----;-:-------(r.1 -· .. ;. ;'l /l ~ -~ ,~ I n· --· i~i l . 0 I).--· ~= 4 --· ~ -I U) -ri ! ~·· ti W· ·-··,··-· . .I I . • I I ., •-!/. I n <..J -~ "'-"-.;, J') -··---------------------· -- . ., -C nn r : .L!J <....) ~ LI) ::-.J r r.J r. : 1 --•· -·. --.,..M;__.. ______ ,., ________ .;_.., __ ..,__;_ ___ ...:..-__ _;___~ ·.1 111 I\ . . . . : .. . . . Date,~ . Prepared by i ·((iVV\ Jurisdiction C'A1'2..L~ioAO VALUATION AND PLAN CHECK FEE CJ Bldg, ~ept • (J Esgil PLAN CHECK NO, 8(o · & 10 -r ) . \I II BUILDING ADDRESS 2'2' -5 t \:=°A-~<t..PJ-0'4-':f AucE.) Sum:: \:;; APPLICANT/CONTACT Lt{ 1'1 ,\J. PHONE NO. .Z~ 5 G, 1 (i;, ~ BUILDING OCCUPANCY '6 --z... DESIGNER PHONE I\ ------ TYPE OF CONSTRUCTION V-N CONTRACTOR PHONE BUILDING PORTION I Ofr=-. T, \, . Air Conditioning- Commercial Residential Res •. or Comm. Fire Snrinklers Total Value Fee Adjusted To Reflect ----- BUILDING AREA VALUATION VALUE MULTIPLIER . . ze.~o \ 5'60 ~ @;, ( 4,~. ub ~i.SO -lC\. e.C)) = 4-3 Z.oQ- ' ! . . @ .. .. ;:, -ca ' @ -45,200 D Energy Regulations (Fee x 1.1) OHandicapped Regulations (Fee x 1.065) Building. Permit Fee. $ __ Z_5'_l._, _0_6_· ___________ $_· _____ _ Plan Check Fee $ \ ~ lo 1 4-0 $ _..;::;.._ _________________________ _ COMMENTS._:-------------------,---------', 8/4/82 • • . . PLAN CHECK NO. 'lr!__---l/ Q ADDREss.,,?.2 J/ ~ A.,.... DATE 1(/c/µ .. I,., (I) == (I) ·-(I) >+" (I) co 0:: 0 PLANNING TYPE OF PROJECT AND USE: ZONE: C--\I\ SCHOOL DISTRICT: --------,---------CARLSBAD~)~ SAN MARCOS SETBACKS: FRONT SAN DIEGUITO C, f-:: DISCRETIONARY ACTIONS: ENCINITAS REAR CJlL --SIDE D lL. -----------------------REDEVELOPMENT PERMIT REQUIRED: --------------------LANDSCAPE PLAN COMMENTS: -----------------------ENVIRONMENTAL REQUIRED: -----------------------COASTAL PERMIT REQUIRED: YES ------NO ~ ADDITIONAL COMMENTS: OK TO ISSUE:_@::::"--------DATE: \;;l.\:; \ <l\o • ' V -------------------------------------------------------------------------------------------- ~ rr~r r rrr rr r~rrr. n rr r.rrr rr n rr.r r n r r.r r r r.nrr. r r r. r r r r. rrr rr r r rrr r. r rn r r. r.r.r. r r rr.nn r.nr r.nrn r. r rn r. r. rnr. r. r.n r.r. r. r.n r.nnnnnnr.r. r. r. nr nnnnnr ENGINEERING LEGAL REQUIREMENTS LEGAL DESCRIPTION VERIFIED?~ EASEMENTS: JJ/lr= EDU'S: .,?,2-~~ APN CHECKED? __ , ..... 1J-P!::=---------- RIGHT-OF-WAY:_~-==·'-"-"'~·ii------- DRAINAGE: .,Uk:: IMPROVEMENTS: ___ ftJ_,4....,.~---· ______ ..,,,..,.., _ __,..,....,,.,.,-==--,...,..,..~--------FIELD CHECK DATE & INITIALS: PERMITS REQUIRED GRADING: '/J~ l DRIVEWAY: NII&-? FEES REQUIRED GRADING COMPLETION CERTIFIED: ----- INDUSTRIAL WASTE: ;j). PARK-IN-LIEU QUADRANT: Al/~ ' FEE PER UNIT: /ti/A P.F.F.: JJ/& TRAFFI'C ;ACT FEE PER UNIT: __ , __ l TOTAL FEE: JJ/4 TOTAL FEE :-#-~.,_/ ...... t) __ _ DD_ FACILITIES MGMT. FEE:~~~',eJ.~-c;'C.-Y.. ___ . BRIDGE & THOROUGHFARE FEE: 'fr1" Z SEWER LATERAL: A/A: SEWER FEE (CONNECTION): .. ~ u (I) ..c: u Ul C: Ul co (I) a: I,., 01 O"l 0 C: I,., "O :s ca a. C: c: ADDITIONAL COMMENTS: -------------------------- "C a, +" a, a. E Tlf: /'fx. I.~ x 10~ ZIO 8 ~ DK TOI~~ DPD2:DPD6:1O/24/ DATE: // /10/flt> -~,....---1-,---------- 1200 ELM AVENUE CARLSBAD, CA 92008-1989 (!Cttp of <tCa·rl~bab FIRE DEPARTMENT PAGE 1 OF __j_ TELEPHONE (619) 438-5523 APPRO~ DISAPPROVED PLAN CHECK REPORT PLAN CHECK# ~G-~10 PROJECT /-lop,::::/ ofri e..o ADDRESS 8-)..31 ?At?nr111_v /Iv£ <:;u,,E: £ ARCHITECT ?§S?. Qg_ /o i.,.J ADDRESS 71?,o 6#C?uJ.,..,.ir I RO.,PHONE ;!) Cf 2 · t-,<;_..f_C) OWNER /(.,,// fbR>, ( .. ADDRESS 5,iol tJft:ff6; 0A. PHONE C,:2 1 I I OCCUPANC~ B-.:i.., CONST. _\..,._/_-~t-J ___ TOTAL SQ. FT. 9) '3 _I) I /',oo &i STORIES-~:.;._=----- D SPRINKLERED ~TENANT IMP. APPROVAL OF PLANS IS PREDICATED ON CONFORMING TO THE FOLLOWING CONDITIONS AND/OR MAKING . THE FOLLOWING CORRECTIONS: PLANS, SPECIFICATIONS, AND PERMITS _· _ 1. Provide one copy of: floor plan(s); site plan; sheets ---------------~---- --2. Provide two ·site plans showing the location of all existing fire hydrants within 200 feet of the project. __ 3. Provide specifications for the following: __ 4. Permits are required for the installation of all fire protection systems (sprinklers, stand pipes, dry chemical, halon, CO2, alarms, hydrants). Plan must be approved by the fire department prior to installation·. __ 5. The business owner shall complete a.building information letter and return it to the fire department. __ 6. _-L7. FIRE PROTECTION SYSTEMS AND EQUIPMENT The following fire protection systems are required: D Automatic fire sprinklers (Design Crlteria: ______________________ _ D Dry Chemical, Halon, CO2 (Location: ________________________ _ D Stand Pipes (Type: ------------------------------0 Fire Ala:rm (Type/Location: ___________________________ _ Fire Extinguisher Requirements: IN One 2A rated ABC extinguisher for each /,,ao n sq. ft. or portion thereof with a travel distance to the nearest ' extinguisher not to exceed 75 feet of travel. D An extinguisher with a minimum rating of ___ to be located: D Other: __________________________________ _ __ 8. Additional fire hydrant(s) shall be provided ______________________ _ ~ 9. ~10. ___:y_ 11. EXITS Exit doors ·shall be·openable from the inside without the use of a key or any special knowledge or effort. A sign stating, " This door to remain unlocked during business hours" shall bei placed above the main exit and doors !lJ{,...rJ 1A1',L1c:,r,,j AN 1[11/J<Cll,1/"1,; .t-y/1"' j'!A01_2o/h. EXIT signs (6" x ¾" letters) shall be placed over all required exi~s and directional signs located as necessary to clearly indicate the location of exit doors. GENERAL __ 12. ·storage, dispensing or use of any flammable or combustible liquids, flammable liquids, flammable gases and hazardous chemicals shall comply wi.th Uniform Fire Code. __ 13. Building(s) not approved for high pileq combustible stock. Storage in closely packed piles shall not exceed 15 feet in height, 12 feet on pallets or in racks and 6 feet for tires, plastics and some flammable liquids. If high stock pil- ing is to be done, comply with Uniform Fire Code, Article 81. __ 14. Additional Requirements. ----~~----------------------- <f:..Af{ O, f~ J CA. Cf~! 0 ! A ffAI.' --15. Dale--<-/_,_/_·-~/:..,,,,.../_-__.;,.,[,'-' .,;;;~'----- Report mailed to architect ___ Met with _____________ _ --~Jo Plans ,· BUILDING ENVELOPE SUMMARY BUILDING ENVELOPE COMPLIANC Form 1 (NA-8/81) y:_k. __ f'::.._1=>..__ __ Date: _____ _ Permit Application Number:---- Thi• form provld•• ap•c• to lna.,t aumm.,, data on th• building enr•lope. Form 1 la ua•d In con/unction with Form 2 and Form 3 workah••t• to pro,ld• th• n•c••auy Information on building heating (U•Value) and cooling (OTTVJ dHlgn criteria comp/lanc11. . . SITE DESCRIPTION (from Bulldlng Location Data) LooaUon Code Number 1~ 'z::i Latitude 2 •• ~~. "2... Degree Daye•h•atlng. 3. .z.. 0 c=t '2.. Solar Fac:tor, S.F. "· IU,J Cooling AT, ASHRAE 5. ~ C dHlgn t•mp. • 1 a~F) HEATING DESIGN CRITERION Standard' Uow-10."4-2."i u0,_,11._•_I __ uo,; __ 12. __ _ Maximum Allowable , 214 Uowerau-13.=== Pro~oaed Uow, .. -14. • 6"! Uor--15. U0 f ... _ .. , .. 1 8. __ _ Propo••d UoveraH --17 • • '217 Ll11• 11 muat not exceed Line 13 Note: M•xlmum Allowbl• Uo,erall end l'ropo••d uo,erell are 011loulat•d on l'•r,• 4 of rarm 2. Note: For h••t•d only building•, Uor la oaloulated for the 1uopoaed building from Form 2 (Heated Only Building} ualng th• .,,lu• from Lin• :, ti tor th• •r•• ol akyllr,hta, end th• relu• from Lin• 3 7 /or th• averell roof er••· BUILDING DESCRIPTION (from pl11na) Occupancy Type Code Number ( from Occupant Rating• for BuUdlnga and Rooma) GroH CondJtlone4 Floor Area, ft2 Number of Floora Average Gron Conditioned Area par Floor, ft.2 • Average Wall Height par Floor.ft. (facing condltlon•d •P•c•) . e. 0 ~1:t 8. Sa. 15"'1 '1 a. g COOLING DESIGN CRITERION Standard OTTVw, .. -18. ~\ • (o or.rv ,, __ ... ,s.1+· I 0 Proposed 0 TTV w .. _, ... 21.z..._4-__ ._.'3_'$' •I I L, 2. OTTV r·-..... 22,,.. ... •.-- Standard I~ oJ Pro_poHd lo of? OTTV ... _,_, 20., ' _ OTTV ...... _, 23. • Line 23 mu•t not . •xceed Lin• 20 Note: St•nder.d OTTV end l'ropo••d OTTV •r• o•lcul•t•d on P•g• 4 of Form 2. Note: For h••t•d •nd cooled building•, OTTVr I• caloul•t•d for th• propo••d building from Form 2 (H••t•d end Cooled Building) ualng the ulue from Lin• 2& tor th• area of alr1llr,hta end th• ,alu• tram Lin• 27 for th• overell root er••· Th• 6 percent exemption do•• not •PPIY to eny oooled bulldlnga. . .. . -. ·------. -· -. - C JLi<;-I NAl.. :,~J,IifJ~L:N~~r~:Eo~~MPLIANCE Form 2 (NA-8/81) ( ) ' . -A' "roJect Title:. sPia:::::.. sui-rG"" k..r:>t-;L--MULTI s e:,t-D_ S-loo St.-1 11""~ Date: ;r:uvco 3. 'ab .; HEATING DESIGN CRITERION COOLING DESIGN CRITERION '-¥111 Surfiet Winter MCF Total Waif 8urf1e• Summer TOeq Tottl 'rype Area, u.2 U-V•Ju• Btuthr-°F Typ• Area, fl 2 U-Value Btu/hr- Typt 1 '364-1: ,08 1: I • 6°! Type t 864 x ·,oa x 4':1 • -~041 Typ• 2 ___ 1 ____ x ____ ., _____ Type 2 ---•----•----• Type 3 ___ x ____ x ____ • _____ Tys,e 3 ___ x ____ x ____ • Type"' . X----·----· -----Type "' ___ r ____ z ____ _ Type 5 ___ ,r __ ....__'I' ____ • _____ Type 5 ___ x ____ • ____ • Total b~ Tot1f 8 bu.. ~C>'+I _._wait f. ___ Totlf 2. -=--==-1-Awa ff 10. -,-Total 1 f. ---=- Ooor Surface Wlnt•r MCF Total Door Surface Summa, TDeq Total Type Arn, 11 2-U-Valu• Btunv-°F Type Ar••• ,r2 U-VaJu• Btu/hr Typ• 1 ___ , ____ x ____ .. _____ Type 1 ____ x ___ x ____ • ~YP• 2· ___ x ·r ____ • _____ Type 2 ___ x ___ x ____ .• ":ypt 3 ___ _. ____ x • _____ Type 3 ___ x ____ x ____ • ~our . Total ··door 3. ---Total ·.c. ----• i.dooi 12. ___ Total 13. ··raring 9urfaet Winter To11f Olazlng Surface 8F SC Summer AT Tor,·1 .-,,,. Aru; rt 2 U-VaJu• Blu/,.._oF Type ArH. 112 U-Vafue Blu/ hr ... ;,i,t 1 6~0 x '· 1 • 6~3 Type 1 b3o ·x[(IZ2'~~)+( ).I x..l2-)]-34-2-3>1 -~,; 2. ___ _. ___ • •• 'type 2 ---•[(-X-)+(---x-)]• ·101 3 ·x ___ • _____ Type 3 ___ ir[(-•-)+(·---"-)]• -0111 b iolal 1 -:i. .:::, 2 ::,I · s. l;,30 Total -e. q3 A 1,1. · ~0 Total 15. ':;;) 4-.;;:. •Ind ow window --,111 14 o. Tofaf 7 bZ. Total , . ~·. _ Total 37 z 7 9> ·\,w 1. ·14 n2 Huflno a.===== Aow .19. 1~ .'--,.,. Coollno.17. L... lln• t+3~1 IIH Zf4•f lln• t0.f.12~t.f tine r 1+13+18 ,w• 762-+. 14-94 • 11. .5"I OTTVw• 372-72. .;. lt..t4Li • 1a. 2-½.9~ lln• • 1111•7 Btu/hr-uLOf' 1111• 11 ""• "1 Btu/hr-n2 MATERIALS DATA FORM (Heated and Cooled Bulldlng) ProJect Tltle: Kou.-Mo<...---n'-s r.::.L-t> s-100 _,...L!'"T"l?' '.A' I • HEATING DESIGN CRITERION Roof Surfac\ Winter Type Area, fl u-value Type 1 I ,s-r -:;1 x •OS--• Type 2 . X -Type 3 X • Type -4 X • Tolaf ,e:\ ~op•rue19.~1 ' roo Skylight Surface Winter Type Area~ ft2 U-Valut Type 1 Jl • Type 2 Jl • Type 3 Jl -Tolal A 21. akynght Total Aor 23., l5"!j n2 Rn• t9f2t 0 or • l'=-l~lC\ + #ne2.f ,,,_ 23 \, ·- Total Btulhr-°F 76 Total . 20. 7 b Total BtuJhr-°F Total 22.-======- Tolal Heating 2-4. 7 b nn• 2ot22 25. • 0 '7 Btu/hr-ft~ CJc t,__:t; ...;14 l.. Page 2 of Form 2 Date: -;:-'.)£..YO~ g 6 COOLING DESIGN CRITERION Roof Surface Type Area; 11 2 Type 1 15"14 Type 2 Type 3 Type ,4 Total Aq 28. 1·5""1q para roo Skyllghl Surface Type -Araa:rf 2 Type 1 Type 2 Type 3 Total A 28. ekyllght Total iS-1'1 Aor 30. .,. 2e-t2a OTTV,• 2-4-ho &,e3f Summer Ac Ma Total U-Value Btu/hr· xilx • 05' X ..:J1 X ..l!£._. 2.4-60 xilx x_x_• xilx X ·--xilx ·-·-· Total ;zr. Z4bo SC Summer .AT Tolai U-Value Btu/hr X [(!.!,!; x_)+( x_J~ x [(ll!x_)+C x_)•. x·[(U!x_} +{ x_ 9! Total ~o. u2 Total Cooling a1.~4-b'O -.... 27+Z9 t:$""\4 -32 Lbz. + ,,,_ ~o Blu/hr-112 z ]) . CD .... CD ->.J ,1ATERIALS DATA FORM 1 r0Joct Title: Kou_ fv)V'L:0 1~ ~LD-5""100 S.~ITI= A· Floor Type HEATING DESIGN CRITERION Winier U-Value ______ .,. _____ x >oe::::. ____ x ____ _ ____ x ____ _ Type 1 Type 2 Type 3 Type -4 Total "rioor 44·===="2 U of "" . ltn• 46 ,: ,. .' ' r \I. I y ;, . r 'A I ' I ,.,v, ,., , I ' • ! r:!t,._-r. I .,. . ' 1r\.·, /-\_:_,,_,,,, 1\i. ~ ,._,,,, a::,i,.;.,-...,._. \ ~ .,_ ~ .N-' J ( B b4 7. ,_ 4 2 °}) t(l 5" I~ 7-, I) 864 +IS-lq ~~o fc.>S~C ~-:.f O ,Jf. -rt.At.L (-: E./...: ! t-Je,.) Tolal Blu/hr-°F .2-19 I \ ( ~ c 8 ::, ~ "'I-• s I J -t-1 s 19 'j. • O ::> J _ , 2-I 7 c::. '~ -r is 19 - . ,· /' \ ::~A.J....JCA£r~ O"TTY (~oo:.1N, · ( ~ bu. :x ~I. loJ i-(I 5""iq "' 4 ... r o J = l 4-,o7 'i? blt -+ 15' 19 • n ( ' ......, ! --..... ,. • 1 ,-) -· c-,r-_ . ..,.,_,~r;. r, . V . O~ •. tJ _., ~.--, v-~ V. , ....... . .(. i t,1-1-z< 2. 4-,,,.;-) +(I S"I ~ , I. b 2 ) : Io. 08 . ~ B b,> -+ I S'I~ / Page 4 of Form 2 Dete:::-·,.n_'r'o~ 86- ' -z :D . a, ..... a, --.,J ' P RO P O .S ED C O N s·r RU CT IO N A SSE MB LY BUILDING ENVELOPE COMPLIANCE ' "" Ch•t:k on• •nd writ• In con1tructlon uumbly number below (e.g. W•II· 1, ,roo.1·2, etc.) j§ Wall-_ · D Roof-_ D ·Floor-_ ,11101,J Form 3 (NR-8/81) List of Construction Compononta R-Value $"ketch of Conatructlon Aaumbly _ Framing type: M /E:-1'.'A L If wood comp/et• th• fotiowlng •nd •dfu•t con•tructlon •uemb/'f tor fr•mlng: Size:-=-· X -• .Spacing· -• O.C. lndlc•t• •r••, weight of con•tructlon ••••mbly, •nd •pproprlate fat:tor• below: Wall: Aria Sb '1 tt:2 Weight b lb/ft3 MCF --1£2. · TDeq ~ Roof: Area _____ tt 2 Weight __ lb/ft3 Mc Ac Floor: Area (r•lud only) ----ft 2 I/. 11 --1,· vz . "1rf. ,;.:iA /20 2. ~-II IN~Lll.Af'1otJ . 3 •.. Vz." ~yf. ~AM 4. 5. e. 7. 8. £tfi~e Surface Air FIim lns_l_d~ Surface Air FIim Total Thermal Resistance CR.r) U-Value (1/Rr> '~f2 Coo/Ing • ~f;; Cooling l3,1,(, Cooling ,O~ Coo/Ing 4$ I I ,e .le.~ He•tlng ,bi!:, H••tlng l~-2(.;; Hu ting d2~ He•tlng Note: Tote/ 111 end U•V•lu• mu•t II• •dfu1ted for th• •ff•t:t et fr•mlng when approprlat•• -- ,f' , . . P.ROPOSED CONSTRUCTION ASSEMBLY .. 8 UILDING ENVELOPE COMPLIANCE -., r~ Check one •nd writ• In con•tru,:tlon uumbly number below (e.g. W•II· r, Rool•Z, etc.) '. 0 Wall-_ ·· ~ Roof-_ O "Floor-_ Lf1t of Conatructlon Component, ----1. ~Bl.I IL r:~ lJ f _ fZ.OOf . __ ===:::;:~~=i~~-2~---v~·1 • PL'fwooo ____ . .,.__.,__3_: At~f,..-~----_ --···-··-- $-ketch of Con1tructlon A111mbly 4~ ~-tz~ 11 __ J~~~L ___ _ ; -15;~.-~\½t'. """1c.HT"J~C.. 7-J L,,i. 7. 8. Form 3 (NR-8/81) R-Value , '33 ·, fZ .-so lj,O l,Z, r· Framing type: wool? Outside Surface Air FIim •%~ I ,1 Cooling Hu ting II wood ,:omplet• th• lo/towing and •dfud ,:on•trur:tlon a•••mbly for framing: Size:_• X • .Spacing_• ___ • 0.C. lndlt:•t• •r••, weight et t:on•trur:tlon ••••mbly, and •pproprl•t• f•,:tor• betow: Wall: Area ft2 Weight ---1b/ft3 MCF TDeq Roof: Area 15' ~ ft 2 Weight jZ, lb/ft3 ~: -:17'[ Floor: Area (r•IHd only} ----ft 2 ln~-~~e Surface Air FIim • 22. ,~ I Coollnr, H••tlnr, Total Thermal Realatance CR.1 ) lJ,17 ilf, 7 ~ Cooling H••tlng U-Vafue (1/RT) . 06 .os Coollnt1 H••tlnt1 N•t•: Tot•I 111 •nd U•V•l11• 11111•1 b• •df11•t•d tor th• •ff•ot of fr•mlnt1 when •pproprlate. -- ---· I . ' ' I ;., 1 Documentation Fonn HV AC Systems Complicmc:e Form4 lR.C, s'too su1re ''e:1 ' Plot-ct?ble CKC S"/00 Locatlma £. l::,RRPERI WE.RINE/~ £}11,,/NEE"/e/N!::, JN{. £. DRAPER Dor:um.aa.d br I0-3D·8b Note: All items refer to a single air-conditioning system and the spaces served by this system. Use additional forms for multiple systems. System Give system name, or number as called out on drawings. DESIGN CONDITIONS Building occupancy type (Table 1 of Appendix I) .... . 05':I Project Latitude (Table 2 of Appendix I) ............. . Heating Degree Days (Table 2 of Appendix I) ....... . HEATING LOAD DOCUMENTATION (Attach calculations)· Outdoor Design Temperature, Winter ............... . Indoor Design Temperature ........................ .. Tempe·rature of adjacent unheated spaces ......... . Transmission Heating Losses ....................... . Infiltration Air ....•...•.........•..................... Heat Loss From Infiltration ......................... . Ventilation Air ....................................... . Heat Loss From Ventilation .............•............ Outdoor Air for Special Processes .................. . Heat Loss From Process Air ........................ . Other Heat Losses (describe) ....................... . Total Heat Losses .................................. . --=)..::a'$ __ ··F __ .;;:;..C..:.B __ "F _. _1-=S;....;o~- l,1 (, Oo ··F Btu/Hr. CFM Btu/Hr. CFM Btu/Hr. CFM Btu/Hr. Btu/Hr. Btu/Hr. COOLING LOAD DOCUMENTATION (Attach calculations) Outdoor Design Temperature, summer, dry bulb .... . Outdoor Design Temperature, summer, wet bulb ... . Indoor Design Temperature, summer, dry bulb ..... . Indoor Design Temperature, summer, wet bulb ..... . e.5' F (., Eb '·F 7f.-·F (f 3 F Transmission Heat Gain ............................ . -2..0 Btu/Hr. Infiltration Air ................••...................... -,CFM Heat Gain From Infiltration ......................... .. Btu/Hr. Outdoor Air for Special Processes .................. . -CFM Heat Gain for Process Air ........................... . Btu/Hr. Solar Heat Gain Through Windows, etc ............. . Heat Gain From Lights, Equipment, People, etc ..... . '31, !.a'.i] Btu/Hr. ;i.~i ~er Btu/Hr. Heat Gain From Other Sources ..................... . ---Btu/Hr. i . I ) Form 4· continued Outdoor Air: CFM Per Person (Not to Exceed Tabulated Minimum Ventilation Rates) • . . I o Heat Gain From Outdoor Air • .. .. .. .. .. .. .. .. '1 -i.. -z... Total Cooling Load .. .. .. .. .. .. .. .. .. .. .. • .. • .. .. .. .. . "q, Z B 2- TEMPERATURE CONTROL· 2 CFM/Peraon Btu/Hr. Btu/Hr. Attach manufacturer's data or other, give specification or drawing reference which shows that the room thermostats meet the requirements of T20-1503 (a) and (c). REFERENCE (page dr sheet No.) fr( -I Indicate drawing or specification reference where the temperature control device requirements given below are documented. An automatic temperature control device shall be provided for: • each separate HVAC system.............................. M -I • each zone ..••....•..•....••.. ~ .....................•.... SIMULTANEOUS HEATING AND COOLING ,-1/ A The following requirements apply to the use of new energy and need not be complied with when recovered energy is used to control temperature. In each case, when resetting hot and cold deck temperatures, one representative zone may be chosen to represent no more than ten zones with similar heating or cooling requirements. Concurrent operation of independent heating and cooling systems serving common spaces must provide either or both of the controls given below. List reference specification page or drawing number where control requirements can be verified. • Sequential temperature control of heating and cooling systems ............................. . • Automatic reset of heating temperature, to limit energy input only to that level to offset heat loss due to transmission and infiltration ........•....•................................... REFERENCE M-1 t:1-1 Reheat systems -give ·reference specifications page or drawing number which will show compliance with the following when reheating 20% or more of the total air In the system. • When serving multiple zones, controls must automatically reset the cold air supply to the highest temperature level of the zone requiring the most cooling .................. .. • Single zone reheat systems shall be controlled to sequence heating and cooling ........................ .. 7--81444 i . I ~ Form 4 .continued Oual-auct or multizone systems-give reference specifications page.or drawing number which will show compliance with the following: • Hot deck temperature -must be automatically reset to the lowest temperature necessary to satisfy the zone requiri.ng the most heating ........... . • Cold deck temperature -must be automatically reset to the highest temperature necessary to satisfy the zone requiring the most cooling ..•......... REFERENCE ti/A Recooling systems -give reference specifications page or drawing number which shows compliance with the following Jf recooling 20% or more of the total air in the system. • Controls must automatically reset the temperature of heated supply air to the lowest temperature necessary to satisfy the zone requ'iring the most heating ... _ ............................. .. HVAC SYSTEM RESTRICTIONS & SPECIAL REQUIREMENTS Several HVAC System types have special requirements or restrictions. In this section, the type of system used in the design must be listed and any special restrictions given here referenced to show compliance. Supply references to proper specifications page or drawing numbers. Type HVAC System Used -Describe type of system to be used (include reference for specifications for the system). ---------------------------------- Constant volume reheat system -when serving both interior and exterior zones -separate cooling coils are required if the exterior zone exceeds 20% of the total air quantity through the cooling coil. REFERENCE __ Constant volume dual-duct or multizone systems which utilize new energy to simultaneously heat and cool air streams which are subsequently mixed for temperature control are prohibited for buildings larger than 20,000 square feet of conditioned space. If used, the air leakage for dampers utilized for the mixing of heating and cooling air shall be limited to a maximum leakage of 3~ of the total air quantity handled by the dampers when operating at the maximum system pressure to which the dampers will be subjected. Manufacturer's label or nameplate shall state leakage rates. REFERENCE ___ ,1--J/;_1/rt_._ __ _ Form 4 · continued ' Economizer Cycle -For each cooling fan system, for other than duat·duct or multizone systems, which serve zones having total cooling capacity greater than 134,000 Btu/hr or more than 5,000 CFM must have an economizer cycle unless one of the exceptions allowed is claimed. REFERENCE ·-&4 ___ ---·- Electric Resistance Heating Systems -These systems shall not be used unless the total installed electric resistance heat \7il)es not exceed , 0% (ten percent) of the annual heating energy reQuirement or a life cycle cost analysis. Form 8 (see Section 4.2 of this manual) shows an alternate system life cycle cost exceeds that of the electric resistance system. Give reference If less than 1 O % or include Form 8 if calculating life cycle cost. REFERENCE_~_.._.,;J.....__._L,;_A-____ _ ' MEGHANICAL AND GRAVITY VENTILATION Mechanical ventilation -Dampers which are automatically interlocked and closed on fan shutdown are reQuired. REFERENCE -~-'L......-..cfl.._ __ _ GravityVentitators -Either automatic or readily accessible manually operated dampers must be provided for all openings to the outside with the exception of combustion air opening~, REFERENCE-J.4._1/..._fl:.__ __ _ POWER CONSUMPTION IN FANS Constant volume system Total -:Supply Air Quantity •......•••.•...•............ Total Pressure of Supply Fan ...................... .. Total Supply Air Quantity Adjusted for Process Loads ...•••••...••.•..•.••.............. Total Gross Floor Area ............................. .. Net Fan Performance Index (FPI) _. .................. . Variable volume system Total Supply Air Quantity ~t ty1aximum Flow ........• Total Pressure of Supply Fan at Maximum Flow .... . Total Gross F10or Area ............................. .. Fan Performance Index at Maximum Flow (FPlm) ... . Variable Volume Adjustment Constant ..•............ Adjusted Fan Perf~rmance Index, FPla .•............ 117° CFM _....._/-'-, '-' t:>x___ Inches Water /500 /, '-I .5 • $ --t----· ----------· ~ ~------ CFM SQ.ft. CFM Inches Water SQ. Ft. PIPING AND DUCT INSULATION AND DUCT CONSTRUCTION References to the piping insulation, duct insulation and duct construction requirements presented in Section 4.2 of the Energy Conservation Design Manual must be given below: REFERENCE ___ /ll.,_-_.I ___ _ ~ ' Documentation Form & HVAC Equipment Compliance Form 6 References giving the specification page or drawing sheet number or manufacturer's data must be submitted to demonstrate compliance with Division 6 of the standards. Electrically Operated Cooling System Equipment ' Absorption Water Chilling Cqoling System Equipment Combustion Heating Equipment (Oil and gas- fired comfort heating equipment- Electrically Operated Heating Heat Pumps · Electrical Resistance Space Heating Equipment Requirement for Manufacturer's Maintenance Procedure, Full and Partial Capacity and Stand-By lnput(s) and Output(s) Specification Reference Statement that the Building Design Substantially Complies with the California Energy Commission Regulations for New Nonresidential Buildings Standard rating capacity, Btu/hr Minimum EER (COP) Reference Heat source (check one) Direct fired (gas-oil) Indirect fired (steam-hot water) Minimum EER (COP) Reference Minimum combustion efficiency at maximum. rated output· Reference Minimum EER (COP) Reference Supplementary Heater . Control Reference Reference for Full-Load J Energy Input and Output Reference Reference 1 I z I 7 7 I 7' 7 t y/A ' M-1 ;-1-1 -· ,/ COMMERCIAL LOAD ESTIMATE FOR CRC 5100 SUITE "E" BY WEATHER ENGINEERING INC. 10/30/86 SUITE "E" 10/22/86 SAN DIEGO *USER SUPPLIED LAT= 33 ALT= 26 CONST= 70W/40R/ 70B ID= 76/50 75 WALL COLOR: MEDIUM ROOF COLOR: MEDIUM SERI 30206831.6 D.B.TEMP TOTAL TONS RSH TONS C.F.M. 1. JUN AT 9 A.M. 75.2 3.89 3.29 1,710 2. JUL AT 9 A.M. 76.2 4.09 3.47 1,805 3. OCT AT 10 A.M. 73.2 5.08 4.49 2,334 4. NOV AT 2 P.M. 77.0 4.90 4.28 2,224 5. SEP AT 3 P.M. 83.0 4.49 3.81 1,982 6. JUL AT 4 P.M. 84.0 3.54 2.88 1,494 7. JUN AT 4 P.M. 83.0 3.39 2.74 1,426 I ZONE HEATING--> = 22,334 W/INFIL= 22,334 C.F.M = 580 INPUTS CEILING PARTITION, FLOOR SKYLIGHT TRANSMISSION FACT. 0.05 0.00 0.00 0.00 TEMP DIFF HEATING 0 0 0 40 TEMP DIFF COOLING 20 0 0 -3 FLOURESCENT LIGHTS y SOLAR•FACTOR SKYLIGHT = 0.00 EFFECTIVE AVERAGES FOR ZONE LOADS OR OP-COST EXPOSURE: N. NE E. SE S. SW W. NW WALL TRANS. FACTORS 0.00 0.00 0.08 0.00 0.08 0.00 0.00 0.00 GLASS TRANS FACTORS 0.00 0.00 1.13 0.00 1.13 0.00 0.00 0.00 GLASS SOLAR FACTORS 0.00 0.00 0.56 0.00 0.56 0.00 0.00 0.00 ROOF TRANS. FACTOR = 0.05 SKYLIGHT TRANS. FACTOR= 0.00 NUMBER OF PEOPLE = TOTAL LIGHTS = OTHER ELECTRICAL = E. TYPE 1 GLASS AREA= S. TYPE 1 GLASS AREA= TOTAL GLASS AREA = .TOTAL GLASS AREA = SKYLIGHT AREA ' = SKYLIGHT AREA = E. TYPE 1 WALL AREA = s. TYPE 1 WALL AREA = TOTAL WALL AREA = PARTITION AREA = CEILING AREA = FLOOR AREA = AREA OF ROOF = OUTPUTS 15 SENSIBLE PEOPLE LOAD = 3;750 LIGHTING LOAD = 750 OTHER ELECTRICAL = 150 E. TYPE 1 GLASS SOLAR= 320 S. TYPE 1 GLASS SOLAR= 470 TOTAL GLASS SOLAR = 470 TOTAL GLASS TRANS. = 0 TOTAL SKYLIGHT SOLAR = 0 TOTAL SKYLIGHT TRANS = 90 E. TYPE 1 WALL LOAD = 192 s. TYPE 1 WALL LOAD = 282 TOTAL WALL TRANS. = 0 TOTAL PART. TRANS = 1,500 TOTAL CEILING TRANS = 0 TOTAL FLOOR TRANS = 0 ROOF LOAD = 3,675 15,998 2,560 8,298 23,400 31,697 .-1, 487 0 0 69 -102 -33 0 1,500 0 0 I ! , I . . ! . I, SUITE "E" SAFETY FACTOR = EVAP FAN H.P. = MISC SENSIBLE = VENTILATION CFM = MISC. LATENT = NUMBER OF PEOPLE= VENTILATION CFM = TOTAL CFM-STD AIR= 0% 1.00 0 150 0 15 150 2,334 SAFETY B.T.U.S FAN HEAT GAIN -DT MISC. SENSIBLE 0. A.SENSIBLE LOAD MISC. LATENT PEOPLE LATENT LOAD O.A. LATENT LOAD TOTAL LATENT LOAD ROOM SENSIBLE = 53,911 ROOM LAT. LOAD ********************************************** SUITE "E" = 0 = 3,073 = 0 = -462 = 0 = 3,075 = 1,384 = 4,459 = 3,075 --> GRAND TOTAL LOAD= 60,982 BTU'S OR 5.08 TONS<-- LOAD RUN FOR # 3. OCT AT' 10 A.M. AREA (SQ FT) = 1,500 SQ. FT PER TON = TOTAL CFM-STD AIR = 2,334 CFM PER SQ FT = HEATING LOAD ' PARTITION LOAD = 0 CEILING LOAD = VENTILATION LOAD = 6,600 . ROOF HEATING LOAD = FLOOR'HEATING LOAD= 0 SKYLIGHT LOAD = GLASS HEATING LOAD= 21,244 WALL HEATING LOAD = SLAB HE~TING LOAD = 188 INFIL HEAT LOAD = WARM UP LOAD = 0 H LOAD WITH VENT = COIL SELECTION PARAMETERS 75.8 / 53.8 TOT SENSIBLE LOAD = DB TEMP ENT/LVG = WB TEMP ENT/LVG = SPECIFIED ROOM RH TERM AIR TEMP = T. ST. EVAP FAN= BLDG. 'U' FACTOR= 62.3 I 53.2 TOTAL COIL LOAD = = 50% RESULTING ROOM RH = 55.00 I 110 DEGREES ROTATED= 0 1.50 NON-CEILING RETURN 0.74 STAPLES DEFAULTS 295 1.56 0 0 0 902 0 28,934 56,522 60,982 45% HEAT PUMPS· , , ... •• '"'' ••.• .. ,-,,r,. lm11an..ipnh$ IN City of lrntu~t,y. l.A PRELIMINARY PRODUCT DATA NOTE: Use the Information In this publication for preliminary reference only. JllilUUJIJJJ1wu1111UJ1 II~ .d. · Jl!H"111.11Ulllllllll'frl.ll. 11111111111111111111111 I~~ 1~·'!illJill~jj l.l lJ ll I u 11111111111111111111111111 illlli.WlliiilllUll! 11 u 1) 1111111111111111111 11 ~~t!'}!JJJ~~Jillirnl!JJ iJ.i~J! I llllllllll11111111111111111 ~- ; ,l.ll J. " UJJIJIIIIJll 111111111111111 Ital ".!~~1'.!J~JJilU!.111·111!1 IIIIIIHIIIIIHIIIIIIII ,·II ·. t1i1ililli~~~t;~~l;-;1 '.1j1 JJ:.1: 111 0 11 1 111111111 1 1011011111111111 •. · ,.__ , -. -. . 111111111 · " Model 542G Is our latest generation of packaged heat pumps for residential and commercial applications. These heat pumps are the result of our firm commitment . to the design and development of the finest heat pumps modern technology can offer. Our commitment Is backed by our advanced engineering, testing, and research labo- ratories; and our wealth of practical experience. Model 542G Is designed In one basic cabinet size, fea- tures a round side-by-side duct configuration on sizes 018 thru 048. Rectangular duct configuration Is available on 060 size only. Voltage options meet most residential and commerclal requirements. Models Install easily on a roof- top or a ground-level pad. FEATURES FACTORY-ASSEMBLED PACKAGE Is a compact, fully self-contained, all-electric, combination heating/cooling unit that Is prewlred, preplped, and precharged for mini· mum Installation expense. RUGGED, EFFICIENT, COMPRESSORS are specifically designed for heat pump duty and high energy efficiency during heating and cooling operation. Each compressor Is hermetically sealed against contamination to help pro- mote longer life and dependable operation; and vibration Isolated to provide quiet operation. During heating opera- tion, these reliable compressors are designed for continu- ous operation down to extremely cold outdoor tempera- tures. All compressors have Internal high-pressure and overcurrent protection. INDOOR BLOWER MOTORS have been carefully selected to minimize energy consumption and to withstand the heavy-duty, year-round, operation required by heat pumps. These motors are designed to meet the require- ments of a wide variety of residential and commercial applications. DIRECT-DRIVE, PSC, OUTDOOR FAN MOTORS have been selected to help reduce energy consumption. Units are designed for cooling operation down to 55°F. BUILT-IN RELIABILITY COMPONENTS Include a suction- tube accumulator that keeps liquid refrigerant from reach- Ing the compressor, a /ow-pressure switch that stops the compressor If the refrigerant pressure drops to an unsafe operating level, a crankcase heater to keep the compres- sor oil warm and free of refrigerant for maximum lubricity, compressor quick-start components on single-phase units to Improve starting c_haracterlstlcs, and a unique metering device to eliminate potential serviceability requirements of check valves and expansion devices. UNIT DESIGN-Indoor and outdoor colls are computer- designed for optimum heat transfer. Vertical outdoor fan discharge carries sound and air up and away. The high- voltage Inlet panel is designed to accommodate a fleld· Installed electrical disconnect. A low-voltage terminal block simplifies thermostat connections. Refrigerant service connections make checking operating pressures easier. TIME/TEMPERATURE DEFROST system Is used to Increase heating cycle efficiency. This type of defrost system has proven to be very reliable. The time/tempera- ture control "looks" for coll Icing conditions only at pre- set time intervals, starts the defrost cycle only If the defrost thermostat senses Icing conditions, and automat- ically ends the defrost cycle when the coll has warmed sufficiently to melt the ice. WEATHERIZED CABINETS are constructed of heavy-duty, phosphated, zinc-coated steel; and finished with corrosion-resistant, modified alkyd, fade-resistant, baked Malibu beige enamel. Interior surfaces of the blower sec- tion are insulated to help keep ·the conditioned air from being affected by the outdoor ambient temperature. ACCESSORIES SUPPLEMENTAL ELECTRIC HEATERS, that mount Inside the heat pump blower compartment are avallable In a vari- ety of KW and voltage options. Form No. PDS 542G.18.1D .'\ LJ'erf ormanc;e data ARI STANDARD RA TINGS IINGLE-,HAIE IIODELI CIIII .... Coollnt HI-TetllP Lo-Temp ..... ...., HS,F TC IEEfl TH c.o.,. TH c.o.,. 011 &75 18.0 II 0 111.0 11.0 6.7 124 900 24.0 11.0 240 13.0 6.75 030 1100 30.0 110 29.5 17.0 6.7 .. 1300 u 35 4 11.0 36.0 3.0 20.5 2.0 u oa 1575 41.0 II 0 405 22.5 u CMI 1800 470 11.0 45.5 25.5 ea OIO 2200 5115 8.6 II0.5 35 5 6.8 THA££-PHASE IIODELI HI-Temp Lo-Temp Ctm .... COOiing HIii HIit (Integrated) TC HR TH c.o.,. TH C.O.P. 030 1100 30.0 8.11 295 13.0 o» 1300 354 8.5 3110 170 042 1475 8.2 41 0 85 40.5 3.0 20.5 1.8 CMI 1700 47.0 82 45 5 25 5 OIO 11100 5115 8.2 60.5 35 5 C.O.lt. -Coeltlc,ent of Perlorm1nce IER -Energy EN,c,ency R1110 (3-phue un1t1 only) HI,, -Huling Se11on11 Per1orm1nce Factor (11ngle-phue unit1 only) IIIR --S111on11 Energy Ethc11ncy_ R1110 (11ng1e-ph111 un111 only) TC -To111 Coot1ng Cap1c1ty (1000 Btun1 TH -Total H11hng Capacity (1000 Btuhl. Don not 1nc:tuoe 1upple- m1n111 heat. i units are rated 1n accordance w1111 DOE 1111 procedures and meet I....__ JOE An10tn1111 Conservation Services Program Standards Rated ,n accordance w1tn ARI Standards 240-81 and 270·8" .. Dimensions -1s"---t I l'-' ••nctu• *""'·.,... suppoit ct11nne11. Single-Package Heat Pumps A11tn91 art net values. rellecung the eNec11 of c11culat1ng tan heat. Supple· men111 electric hell 11 not ,ncludeO. A11ing1 ire based on Cooling lllndarcl: IIO F db. 67 F wb indoor entering 111 temperature and 95 F db 111 entering outdoor unit HI-Temp H11ttng ltanderd: 70 F db indoor entering 111 temperature and 47 F db. 43 F wb 111 entenng outdoor unit Lo-Temp H11ttng Standard: 70 F db indoor entering 111 temperature and 17 F db. 15 F wb 111 ent1t11ng indoor unit FAN PERFORMANCE EXTERNAL STATIC CFII PRESSURE (tn. wg) HI Lo 011 700 90 85 ·600 1 00 9S 024 900 70 65 eoo 80 7S 0311 1125 65 60 1000 80 70 o» 1300 53 JS 1170 ~ S6 Oo12 1S7S 80 -1400 1 10 43 Oo1I 1800 65 4!:, 1600 80 60 OIO 2200 65 42 1970 1 00 B:, ' Single-Package Heat Pumps L .. physi~al data { .,,__ 011 OM NO 03I 042 IIIFIIIUIIANT (11•22) 5.5 1.0 7.0 OIIIJll'Cllarfe"CII) 83 9.5 Rtfrll Control AccuRater,. coM,11111011 Hermehcllly Se11ee1 OUTDOOR ,AN Propeller -Direct Drive AlrDltctlafp Ctlll 2000 I 2000 I 2000 I Ven,,, 21100 21100 INDOOR ,AN Centrifugal -Direct Drive Air Dlletl.,._ ARI Clm (HI lpNCI) 100 I IIOO I 1125 I Hor1zon,a1 1300 1575 DIMINIIONI (In.) A 48 I 42'• Ct 22'.-I 24''1 Duct D 14 (round) FIL TEii SIZE (ln.)i Dl1poaabl1 20 • 25 20 'I 25 (2) 15 a 20 15 a 20 ,2, 20 a 20 20 • 20 ,ermanent 15 a 20 15 a 20 "Factory rtlnger1n1 cn1,g1 tD1men11on C ,ncludn ~,.,n. b111 1uppon cnanne11. iRecommendecl 1I1IC1-1upphed l1ller1 ire one in tnIck . 20 • 20 20 X 25 .. Electrical data (60-Hz) (Preliminary) OPEi V_,H VOLTAGE' Mu Min 011 = 031 2081230-1 253 187 042 04I OIO 030 03I 042 2081230-3 253 187 04I OIO 031 042 ..,.3 508 414 ... -RA -Full Load Amps HACII -Healing, Atr Conditioning and Aefrigeratton •• -lndOOr Fan Motor UIA -Locked Rotor Ampt IICA -M1n1mum Circuil Ainpl OAI -OuldOOr fan Motor &A -Rated LOICI Ampe ·~fflilllllltl llfflita Of ,,_ wolllge range at Which units will c,perate Mtiltactorlly. 1Muifflum .._. element ..... NOTE: U.. copper wire only. COMPIIEIIOR LIIA IIIU 500 9.3 53.0 11 6 650 13.9 82.0 17.2 110.0 22 1 127.0 23.9 135 0 29 1 530 a.1 87.5 u 90.0 12.a 9U 18.0 105.0 18.1 33.11 5.0 45.0 6.4 37.0 1.1 49.0 t.O 20 a 25 IFM FLA 36 3.6 3.5 4.2 40 u 64 3.5 40 4.0 4.5 6.4 2.0 2.0 2.3 3.4 .,_ Ml OIO 11.0 1'.0 I 3200 I 3400 I 1800 I 2200 I 29·, 32. 14 • 28 -·~ell 20 a 25 25 • 25 20 • 20 20 I 25 12) 15 • 20 ,2120.20 BRANCH CIRCUIT OFM Maa F'uHt FLA or HACII CIII MCA lkr Afflpa 1.0 25 16 2 1 0 30 19 1 1 0 35 21 9 1 5 40 27 2 2.1 50 33 7 2.4 60 368 23 60 45 0 1 0 20 14 6 1 1 25 17 ~ 2.1 30 22 1 2.4 40 26 9 2.8 45 31 2 0.7 15 90 1.2 15 11 2 1.2 20 12 8 1.2 20 15 8 42.12 . j L 1.37 DIA H.V. ENTRY 1.63 DIA ELECTRICAL HEAT ENTRY SEE VIEWA DIMENSIONAL. ORA WING Model 542G-Slzes 018 thru 060 13.30 _j_ 23.54 CJA 1400 DIA TYP 542G REQUIRED CLEARANCE (Inches) Top of unit .••...••.......••. 48 Blower access door end •.•• 30 Duct side of unit. ...•..•.••.. 12 End opposite blower Compressor access door access end ••.•.••••••••• 12 side ...................... 30 Bottom of unltabove.~ anticipated snow 1Et¥el . • • 6 NOTE: Provision must be made for fresh ambient air to reach the outdoor coll without recirculation of the air from the out- door fan discharge. MEETS DOE RESIDENTIAL CONSERVATION SERVICES PROGRAM STANDARDS. 2787 SUPPLY-AIR SUPP\.Y· AIR OUTLET INLET 2.35 !VIEWA! 5420 DIMENSIONS AND WEIGHTS Shipping Sin C Wt(lbs) 018 22.1 323 024 22.1 329 030 22.1 346 036 24.5 357 042 29.3 402 048 29.3 445 080 32.8 484 HP,90 ' SPECIFICATIONS-MODEL 54~G-SIZES 042 THRU 060 I MODEL 542G !SIZE N042 P042 E042 N048 P048 E048 N060 P060 E060 . . Unit Volts-Phase (60Hz) 208-230-1 208/230-3 460-3 208-230-1 208/230-3 460-3 208-230-1 208/230-3 460-3 Operatlna Voltaae Ranae 187-253 187-253 414-506 187-253 187-253 414-506 187-253 187-253 414-506 Minimum Wire Size IAWGl• 8 10 14 8 10 14 6 8 12 Total Unit Amps 28.7 18.9 9.6 30.8 22.9 10.9 39.7 27.6 13.8 Compressor Rated Load Amps 22.1 13.7 6.9 23.9 16.0 8.0 30.2 20.5 10.3 Locked Rotor Amos 95.4 82.0 41.0 110.0 92.0 46.0 178.0 124.0 62.0 Outdoor Fan Motor, DD, PSC CHPI .25 .25 .50 .25 .25 .50 .50 .50 .50 Full Load Amps 2.1 2.1 1.2 2.4 2.4 1.2 2.8 2.8 1.4 Indoor Blower Motor, DD, PSC /HP & Soeedsl .50 &3 .50 & 3 .50 &3 .50 & 3 .50 & 3 .50 & 3 .75 & 2 .75 & 2 .75 & 2 Full Load Amps 4.5 4.0 2.0 4.5 4.5 2.0 6.7 6.7 3.4 Max Branch Circuit Fuse Size {Amps) 50 30 15 60 40 20 60 45 25 . . . . . I•••• Rated Coollna Caoacltv @ 95°F (Btuh)t 41,500 41,500 41,500 47,000 47,000 47,000 57,000 57,000 57,000 SEERt 9.0 9.0 9.0 9.0 9.0 9.0 8.6 8.6 8.6 EERt -8.0 8.0 -8.4 8.4 -7.5 7.5 Rated Heatlna Capacltv @ 47°F (Btuhlt 42,000 42,000 42,000 47,500 47,500 47,500 57,000 57,000 57,000 HSPF !Mlnlmum-Realon IVlt 6.2 6.2 6.2 5.54 5.54 5.54 6.0 6.0 6.0 COpt 3.0 3.0 3.0 3.0 3.0 3.0 2.9 2.9 2.9 ARI Sound Rating Numbeq: 8.2 8.2 8.2 8.2 8.2 8.2 8.6 8.6 8.6 •-1-.n••• • ,,. __ . ... : . , ....• Compressor Type Hermetic Compressor Temp & Overcurrent Protection Standard (lnteranl Line Break) Compressor Internal Pressure Relief Valve Standard Compressor Vibration Isolators Standard Vaoor·Tube Accumulator Standard Two•Wav-Flow Refrlaerant Meterlna Device Piston Low-Pressure Switch Standard Comoressor Crankcase Heater Standard Compressor Quick-Start Components Standard-All Single-Phase Units Refrlaerant Service Ports Standard Heat-Savina Reverslna Valve Standard Time-Temperature Defrost System Standard R-22 Refrigerant Amount (Factory Charge) 9 lbs-0 oz 9 lbs-6 oz 10 lbs-5 oz ••,ulJIJl-.••-ln-;'1111:1•1 . Coll Face Area {SQ Ft)-No. Circuits 7.3·7 7.3·7 7.3·7 7.3·7 7.3·7 7.3-7 8.3-7 8.3·7 8.3-7 Width x Height (In.) 37 X 28 37 X 28 37 X 28 37 X 28 37 X 28 37 X 28 37 X 31 37 X 31 37 X 31 Rows & Fins Per Inch 3 & 14 3 & 14 3 & 14 3 & 14 3 & 14 3 & 14 3 & 14 3 & 14 3 & 14 Blower Wheel Diameter x Width (In. l 12 X 6 12 X 6 12 X 6 12 X 6 12 X 6 12 X 6 12 X 6 12 x6 12 x6 Rated Cooling Airflow (Ft3/Min)t 1575 1575 1575 1700 1700 1700 2200 2200 2200 External Static Pressure (in. wc)t 0.20 0.20 0.20 0.20 0.20 0.20 0.25 0.25 0.25 Condensate Drain Connection (Hose) 3/4 · 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 OUTDOOR COIL & FAN Coil Face Area {Sa Ft)-No Circuits 12.0·5 12.0-5 12.0·5 12.0-5 12.0·5 12.0·5 14.0·6 14.0-6 14.0-6 Height & Width (In.) 27 X 63 27 X 63 27 X 63 27 X 63 27 X 63 27 X 63 31 X 63 31 X 63 31 X 63 Rows & Fins Per Inch 2 & 22 2 & 22 2 & 22 2 & 22 2 & 22 2 & 22 2 & 22 2 & 22 2 & 22 Fan Diameter (In.) 22 22 22 22 22 22 22 22 22 . ........ . .... Multi-Speed, Direct-Drive Blower Standard PSC Enerav-Savlna Blower Motor Standard Belt-Drive Blower Standard Two-Speed. Direct-Drive Outdoor Fant Standard PSC Enerav·Savlna Outdoor Fan Motor Standard Computer-Deslaned Relrlaerant Svstem Standard Insulated Blower Compartment Standard Low-Voltaae Terminal Block Standard •use only copper wire for field connections to the unit. Wire sizes are based on 60°C copper conductor at 86°F (30°C) ambient temperature and the ampaclty . shoWn In table. If other than 60°C copper conductor Is used. II ambient temperature is above 86°F, or II voltage drop of wire exceeds 2% of unit total rated volt· age, determine wire size from ampacily shown and the National Electrical Code. tRated In accordance with ARI Standard 240-81 and/or U.S. Government DOE test procedures. *Rated In accordance with ARI Standard 270-84. ELECTRIC HEAT ACCESSORY PRESSURE DROP (IN. WC.) Heater KW 600 800 1000 5-7.5-10 .020 .030 .040 15-20-25 .050 •see table for minimum airflow required for safe heater operation HP,92 CFM FPMin• 1200 1400 1600 .045 .050 .055 .055 .060 .070 1800 2000 2200 .060 .070 .080 .080 .90 .100 : L L 542G ELECTRIC HEATER PACKAGES , BRANCH CIRCUIT Slzea Minimum Power Ground Uaed Heater VOLTSIPH kW Heater Circuit MOCP Stages• Elements Wire Wire With PIN Amps 018 thru.060 309125-101 3.75 5.0 18.0 20.8 309125-102 5.6 7.5 27.0 31.3 309125-103 208/1 240/1 7.5 10.0 36.1 41.6 030 thru 060 • 309125-104 11.3 15.0 54.1 62.5 038thru 060 • 309125-105 15.0 20.0 72.1 83.3 060 • 309125-106 18.75 25.0 90.1 104.0 030thru 060 309126-101 7.5 10.0 20.8 24.0 309126-102 208/3 240/3 11.3 15.0 31.1 36.0 042thru060 • 309126-103 15.0 20.0 41.5 48.0 060 • 309126-104 18.75 25.0 52.0 60.1 036thru060 309127-101 10.0 12.0 309127-102 480/3 15.0 18.0 309127-103 20.0 24.0 060 309127-104 25.0 30.1 • Th888 heaters have circuit breaker overcurrent protection. •VA draw per stage Is 6.2 Ampacltv 22.5 26.0 33.8 39.1 45.1 52.0 67.6 78.1 90.1 104.2 112.6 130.0 26.0 30.0 38.9 45.0 51.9 60.0 65.1 75.2 15.0 22.5 30.0 37.6 MOCP-Maxlmum Overcurrent Current Protection (Fuses or Circuit Breaker) twtre size baaed on 60°C Copper conductors unless otherwise noted. :tYJlre Size based on 75°C Copper conductor. Note: Shaded portions are for 240V. Amps 25 30 1 35 40 1 50 60 1 70 80 2 100 110 2 125 150 3 30 30 1 40 45 2 60 60 2 70 80 2 . 15 1 25 2 30 2 40 2 AIR DELIVERY (CFM) AT INDICATED EXTERNAL STATIC PRESSURE & VOLTAGE (SIZES 018 THRU 060) Slzet Size 1 10 10 10 10 2 8 8 10 10 2 6 6 10 10 s 4 3 8 8 4 3* 2* 8 6 5 2* 1* 6 6 3 10 10 10 10 3 8 6 10 10 6 6 4 10 10 6 4 3 8 8 3 14 14 6 10 10 6 10 10 6 8 10 Blower External Static Pressure (Inches water> Unit Motor Operating Appllca- Size Speed Voltaae tlon 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.9 0.9 018 Low 230 Heating -----800 730 640 -- Coolina -----750 680 550 -- High Heatlna -----820 680 550 -- Coolina -----785 685 575 -- 024 Low 230 Heating 1450 1410 1375 1320 1345 1175 1090 985 850 760 Coolina 1390 1340 1290 1225 1165 1105 1020 915 740 - High Heatlna 1500 1475 1435 1390 1335 1260 1180 1090 980 840 Coolina 1460 1405 1350 1295 1255 1190 1110 1020 870 - 030 Low 230 Heatina --1425 1360 1295 1235 1160 1080 995 925 Cooling --1380 1315 1250 1190· 1125 1045 960 895 High Heatlna --1500 1425 1345 1275 1190 1120 1020 935 Cooling --1450 1375 1295 1230 1145 1080 985 905 038 Low 230 Heating --1440 1400 1245 1290 1225 1140 1040 930 460 Cooling --1400 1365 1290 1240 1185 1090 990 890 High Heatlna --1500 1460 1410 1345 1270 1195 1075 930 Cooling --1465 1430 1365 1300 1230 1145 1020 890 042 Low 230 Heating 1850 1810 1770 1725 1685 1640 1600 1535 1480 1410 048 460 Coolina 1820 1775 1730 1695 1650 1610 1555 1500 1440 1385 Medium Heatlna 1960 1915 1885 1830 1780 1725 1655 1600 1540 1470 Cooling 1895 1880 1850 1795 1745 1690 1620 1565 1510 1445 High Heatlna 2230 2160 2120 2070 2010 1950 1890 1820 1750 1675 Cooling 2145 2105 2060 2000 1940 1880 1820 1750 1690 1615 060 Low 230 Heating 2395 2365 2335 2290 2245 2205 2150 2100 2050 2000 460 Cooiina 2375 2325 2295 2250 2225 2180 2135 2070 2020 1960 High Heatlna 2570 2525 2470 2425 2370 2335 2265 2220 2160 2100 Coolina 2550 2485 2435 2385 2345 2310 2235 2190 2130 2075 CAP. (1000 Btuh) 12.8 17.1 19.2 25.6 25.6 34.1 38.5 51.2 51.2 68.2 64.0 85.4 25.6 34.1 38.5 51.2 51.2 68.2 64.0 85.4 34.1 51.2 68.2 85.4 1.0 ---- --- 815 790 830 805 ---- 1345 1320 1400 1375 1590 1540 1915 1875 2030 2000 NOTES: Air delivery values are based on 230 or 460 unit operating voltage without air filter or optional electric heaters. Deduct field supplied air filter . and electric heater pressure drop. to obtain external static pressure available for ducting. Dashes Indicate portions of the table that are beyond the blower motor capacity. See table for minimum airflow required for field Installed electric heaters. Do not operate unit at a cooling airflow that Is less than 350 Ft3/mln. per each 1200 Btuh of rated cooling capacity. Indoor coll Icing may occur at airflows below this point. 018 600 MINIMUM AIRFLOW (Ft3/Mln) FOR SAFE ELECTRIC HEATER OPERATION Heat Pump Size I 024 I 030 I 036 I 042 I 048 I I 875 I 875 I 1300 I 1400 I 1700 I HP-93 060 1800 DETAILED COOLING CAPACITIES-MODEL,542G; SIZES 036 THRU 060 . Indoor OUTDOOR COIL ENTERING AIR TEMPERATURES(0 F) Coll Air 85 95 105 115 Ft• Capacity Total Capacity Total Capacity Total Capacity Total per Of MBtuh System MBtuh System MBtuh System MBtuh System Min we, Total Sena KW Total Sens KW Total Sens KW Total Sena KW 5420038 72 40.6 20.1 3.87 38.2 19.2 4.17 35.8 18.4 4.46 33.3 17.5 4.74 67 38.7 25.4 3.76 34.4 24.4 4.03 32.2 23.5 4.30 30.0 22.7 4.56 1050 62 33.1 30.4 ,3.85 31.0 29.3 3.91 29.0 28.2 4.16 27.1 27.0 4.42 57 31.8 31.8 3.61 30.2 30.2 3.88 28.6 28.6 4.15 27.1 27.1 4.41 72 41.7 21.6 4.00 39.3 20.8 4.31 36.7 19.9 4.60 34.1 19.0 4.88 67 37.8 28.0 3.89 35.4 27.0 4.17 33.0 26.1 4.44 30.7 25.2 4.70 1300 62 34.4 33.6 3.79 32.4 32.3 4.06 30.6 30.6 4.33 28.8 28.8 4.60 57 34.1 34.1 3.78 32.3 32.3 4.05 30.5 30.5 4.33 28.8 28.8 4.60 72 42.4 22.7 4.09 40.1 22.0 4.41 37.3 21.1 4.71 34.7 20.2 4.99 67 38.6 30.0 3.99 36.1 29.1 4.27 33.7 28.1 4.54 31.3 27.2 4.81 1500 62 35.4 35.4 3.90 33.4 33.4 4.18 31.8 31.8 4.48 30.0 30.0 4.75 57 35.7 35.7 3.90 33.8 33.8 4.18 32.0 32.0 4.47 29.8 29.8 4.76 54zu042 72 47.7 23.3 4.80 44.4 22.1 5.04 40.4 20.4 5.23 36.4 18.8 5.38 67 44.6 30.3 4.69 41.1 28.7 4.90 37.6 27.1 5.10 33.9 25.3 5.27 1225 62 40.9 36.9 4.56 37.6 34.9 4.75 34.3 32.9 4.94 30.8 30.6 5.11 57 39.5 39.5 4.51 · 38.4 38.4 4.70 33.6 33.6 4.91 30.6 30.6 5.10 72 49.0 25.0 5.04 45.4 23.7 5.27 41.2 22.0 5.45 37.1 20.3 5.62 67 45.5 33.3 4.91 42.0 31.7 5.12 38.4 30.1 5.32 34.6 28.3 5.49 1575 62 42.3 41.0 4.79 39.0 38.7 4.99 35.9 35.9 5.20 32.8 32.8 5.40 57 42.0 42.0 4.78 38.9 38.9 4.99 38.0 38.0 5.20 32.9 32.9 5.40 72 49.2 25.6 5.14 44.7 23.8 5.33 41.4 22.7 5.55 37.3 21.0 5.72 67 45.8 34.6 5.01 42.2 33.1 5.22 38.6 31.5 5.42 34.8 29.5 5.58 1750 62 42.8 42.4 4.90 39.6 39.6 5.11 38.6 36.6 5.32 33.6 33.6 5.52 57 42.8 42.8 4.90 39.8 39.8 5.12 38.8 36.8 5.33 33.5 33.5 5.52 6420048 72 54.0 26.7 5.26 51.9 26.1 5.88 49.5 25.4 6.06 46.8 24.6 6.48 67 49.3 34.2 5.10 47.1 33.6 5.48 44.6 32.8 5.84 41.9 32.1 6.19 1400 62 44.6 41.1 4.93 42.5 40.4 5.28 40.3 39.5 5.63 38.2 38.1 5.98 57 43.2 43.2 4.88 41.7 41.7 5.24 39.9 39.9 5.61 38.1 38.1 5.97 72 55.1 28.1 5.42 52.9 27.6 5.83 50.4 26.9 6.24 47.5 26.2 6.84 67 50.4 36.9 5.27 48.0 38.3 5.85 45.4 35.5 6.01 42.6 34.7 6.37 1650 62 45.9 44.5 5.11 43.8 43.5 5.47 41.8 41.8 5.84 39.8 39.8 6.21 57 45.3 45.3 5.09 43.6 43.6 5.48 41.8 41.8 5.84 39.9 39.9 6.21 72 58.0 30.0 5.64 53.4 29.3 6.03 50.9 28.8 6.45 48.1 28.2 6.85 67 51.4 40.3 5.48 48.9 39.7 5.87 46.1 39.0 6.24 43.3 38.2 6.60 2000 62 47.6 47.6 5.38 45.8 45.8 5.74 43.8 43.8 6.13 41.7 41.7 6.51 57 47.7 47.7 5.36 45.8 45.8 5.74 43.8 43.8 6.13 41.7 41.7 8.51 5420080 72 66.6 32.7 7.20 83.1 31.5 7.56 59.5 30.3 7.92 55.9 29.2 8.26 67 60.2 41.7 6.88 57.0 40.5 7.22 53.6 39.3 7.56 49.9 38.0 7.89 1750 62 54.5 50.2 6.59 51.6 48.9 6.91 48.5 47.4 7.24 44.9 44.9 7.60 57 52.6 52.6 6.50 50.5 50.5 6.85 47.9 47.9 7.22 44.8 44.8 7.60 72 68.0 35.3 7.54 64.5 34.2 7.92 60.7 33.0 8.27 57.0 31.9 8.63 67 61.9 48.6 7.26 58.5 45.5 7.60 54.9 44.3 7.94 51.2 43.0 8.26 2250 62 56.8 56.2 6.99 54.0 54.0 7.34 51.3 51.3 7.71 48.2 48.2 8.09 57 56.5 56.5 6.98 54.0 54.0 7.34 51.3 51.3 7.71 48.1 48.1 8.09 72 68.4 38.4 7.71 64.8 35.3 8.07 61.1 34.3 8.45 57.2 33.2 aao 67 62.5 48.9 7.43 58.8 47.7 7.78 55.3 46.5 8.11 51.6 45.2 8.44 2500 62 57.9 57.9 7.20 55.3 55.3 7.56 52.5 52.5 7.94 49.4 49.4 a31 57 57.9 57.9 7.19 55.3 55.3 7.56 52.5 52.5 7.93 49.4 49.4 8.31 NOTES: 1.Total and sensible capacities are net capacities. Blower motor heat has been subtracted. 2.Senslble heat capacities shown are based on 80°F entering air at the Indoor coll. For sensible capacities at other than 80°F, deduct 850 Btuh per 1000 ft3/mln of Indoor coll air for each degree below 00°F, or add 850 Btuh per 1000 ft3/mln of Indoor coll air per degree above 00°F. 3. Total system KW Includes compressor KW; outdoor fan motor KW, and Indoor blower motor KW. 'L L DETAILED HEATING CAPACITIES-MODEL 542G; SIZES 042, 048, & 060 n , • > . 101a1 101a1 10181 Outdoor lnatantaneoua Integrated Powar ln1tantaneou1 Integrated Powar ln1tantaneou1 Integrated Power Coll Capacity Capacity Input Capacity Capacity Input Capacity Capacity Input Air (MBtuh) (MBtuh) (KW) (MBtuh) (MBtuh) (KW) (MBtuh) (MBtuh) (KW) Temp Indoor Coll Air Temp (°F EDIS) Indoor Coll-Air Temp (°F EDB) Indoor Coll Air Temp (°F EDIS) (°FEDIS) 80 70, IIO 80 70 80 IIO 70 80 80 70 IIO 80 70 80 80 70 80 80 70 80 80 70 80 80 70 IIO ",za lnooor con R1mow (Fhm1n1 ndoor con Alrtlow (Fl'/Mln) 1naoor Coll Airflow (Ft·1M1n) 042 1225 1575 1750 tlU :>U,11 411.11 48.J 50.9 411.9 411.3 4.4!1 4.48 4.82 51.7 47.5 50.1 51.7 47.5 50.1 4.19 4.29 4.81 52.11 48.9 5u.6 52.9 •48.9 50.6 4.24 4.37 4.81 50 45.4 43.8 41.8 45.4 4.38 41.8 4.05 4.28 4.51 46.3 44.4 43.5 46.3 44.4 43.5 4.04 4.26 4.53 46.7 44.9 43.9 46.7 44.9 43.9 4.07 4.29 4.55 47 43.8 41.9 39.9 43.8 41.9 39.9 4.00 4.23 4.42 44.7 43.5 41.5 44.7 43.5 41.5 4.00 4.25 4.45 44.8 43.7 41.8 44.8 43.7 41.8 4.01 4.28 4.47 40 38.1 38.3 34.5 38.1 36.3 34.5 3.78 3.97 4.15 39.6 37.8 35.9 39.6 37.8 35.9 3.84 4.04 4.22 40.0 38.4 36.5 40.0 38.4 36.5 3.87 4.08 4.27 30 31.3 29.8 28.1 27.4 26.1 24.7 3.51 3.67 3.82 32.6 31.0 29.4 28.5 27.1 25.7 3.59 3.76 3.92 33.1 31.5 29.9 29.0 27.6 26.2 3.64 3.82 3.98 20 25.5 24.0 22.2 23.1 21.8 20.2 3.28 3.39 3.52 26.5 25.1 23.4 24.1 22.8 21.2 3.36 3.51 3.64 27.0 25.5 23.9 24.5 23.2 21.8 3.43 3.57 3.70 17 23.8 22.4 20.6 21.7 20.4 18.8 3.18 3.31 3.44 24.8 23.4 21.7 22.6 21.3 19.8 3.29 3.43 3.56 25.2 23.8 22.1 23.0 21.7 2.2 3.36 3.50 3.62 10 20.2 18.6 16.8 18.5 17.1 15.5 3.01 3.13 3.23 21.1 19.6 17.8 19.4 16.0 16.4 3.14 3.26 3.37 21.5 20.0 18.2 19.7 18.3 16.7 3.21 3.33 3.44 0 15.3 13.8 12.0 14.1 12.7 11.1 2.78 2.88 2.96 16.2 14.6 12.8 14.9 13.4 11.8 2.93 3.02 2.88 16.5 15.0 13.2 15.2 13.8 12.0 3.00 3.10 3.18 -10 11.1 9.50 7.74 10.2 8.74 7.12 2.58 2.64 2.70 11.8 10.2 8.39 10.8 9.38 7.72 2.73 2.80 2.86 12.1 10.5 6.68 11.1 9.68 7.99 2.80 2.87 2.94 1:1u:e Indoor Co AlnlOW (Fl /Min) Indoor Coll Airflow (Ft /Min) Indoor Col Alrtlow (t-t 1Mm) 048 1400 1650 2000 60 5r.:> 55.1 5:t.r :>7.5 t>5.1 02.7 4.6J 4.88 5.12 59.0 56.6 54.1 59.0 56.6 54.1 4.63 4.69 5.14 59.2 58.1 55.6 511.2 58.1 55.t! 4.61 4.114 I :>.111 50 51.0 48.7 46.4 51.0 48.7 46.4 4.48 4.71 4.93 52.3 50.0 47.7 52.3 50.0 47.7 4.50 4.74 4.96 53.1 51.4 49.1 53.1 51.4 49.1 4.53 4.81 5.04 47 49.0 48.8 44.6 49.0 46.8 44.8 4.43 4.66 4.87 50.2 48.0 45.8 50.2 48.0 45.8 4.46 4.69 4.91 51.2 49.4 47.1 51.2 49.4 47.1 4.51 4.77 4.99 40 43.0 41.0 39.1 43.0 41.0 39.1 4.25 4.46 4.66 44.1 42.1 40.1 44.1 42.1 40.1 4.30 4.51 4.71 45.3 43.3 41.3 45.3 43.3 41.3 4.39 4.61 4.82 30 38.2 34.4 32.7 31.7 30.2 28.6 4.05 4.24 4.40 37.0 35.3 33.5 32.5 30.9 29.4 4.12 4.31 4.48 38.1 36.3 34.6 33.4 31.8 30.3 4.23 4.43 4.64 20 30.1 28.6 28.8 27.3 25.9 24.3 3.87 4.02 4.16 30.9 29.3 27.6 28.0 26.6 25.0 3.95 4.11 4.25 31.8 30.3 28.6 28.9 27.4 25.9 4.09 4.25 4.40 17 28.4 26.9 25.0 25.9 24.5 22.8 3.81 3.96 4.09 29.1 27.6 25.8 26.5 25.2 23.6 3.90 4.05 4.18 30.0 28.5 26.8 27.3 26.0 24.4 4.03 4.19 4.33 10 24.8 23.0 21.0 22.8 21.1 19.3 3,68 3.80 3.92 25.3 23.7 21.8 23.2 21.7 20.0 3.78 3.91 4.02 28.1 24.6 22.7 23.9 22.5 20.8 3.93 4.06 4.16 0 19.5 17.7 15.7 17.9 16.3 14.4 3.49 3.59 3.67 20.1 18.3 16.3 18.5 16.9 15.0 3.60 3.70 3.79 20.9 19.1 17.1 19.2 17.6 15.7 3.76 3.87 3.96 -10 14.7 12.9 10.7 13.5 11.8 9.88 3.30 3.36 3.42 15.3 13.4 11.3 14.1 12.3 10.4 3.42 3.49 3.55 16.0 14.1 12.0 14.7 13.0 11.0 3.60 3.67 3.73 Size Indoor COi AlnlOW (fl /Min) Indoor coll Airflow (Ft /Min) Indoor coll Alrt1ow (Fl /Min) 080 1750 2250 2500 tlU lfl,U 117.11 115.l 71,0 ·117,9 115,l 5.76 8.ol 6.26 73.7 70.7 67.8 73.7 70.7 67.8 5.84 6.09 8.35 72.8 71.6 68.8 72.8 71,8 68.8 5.73 16.15 6.41 50 63.1 80.5 57.8 63.1 60.5 57.8 5.6 5.85 6.09 65.5 62.9 60.2 65.5 62.9 60.2 5.71 5.95 6.20 66.0 63.8 61.1 66.0 63.8 61.1 5.74 6.02 8.27 47 60.7 58.2 55.7 60.7 58.2 56.7 5.58 5.80 6.03 83.1 60.5 57.9 63.1 60.5 57.9 5.67 5.91 6.15 64.0 61.4 58,8 64.0 61.4 58.8 5.74 5.99 6.23 40 53.6 51.2 48.9 53.5 51.2 48.9 5.35 5.57 5.79 55.6 53.2 50.9 55.6 53.2 50.9 5.48 5.71 5.94 56.4 54.1 51.7 56.4 54.1 51.7 5.57 5.80 6.02 30 45.3 43.3 41.3 39.7 37.9 36.2 5.12 5.32 5.52 47.0 45.0 43.0 41.2 39.4 37.6 5.29 5.50 5.70 47.7 45.7 43.7 41.8 40.0 38.3 5.38 5.80 5.80 20 38.1 36.3 34.3 34.5 32.9 31.2 4.91 5.09 5.26 39.6 38.7 35.9 35.9 35.1 32.6 5.10 5.30 5.47 40.2 39.2 36.6 36.5 35.6 33.2 5.21 5.41 5.58 17 35.9 34.2 22.2 32,7 31.2 29.3 4.83 5.01 5.17 37,3 35.6 33.7 34.0 32.5 30.7 5.04 5.22 5.39 37.9 36.2 34.3 34.6 33.0 31.3 5.15 5.33 5.50 10 31.4 29.6 27.5 28.8 27.1 25.2 4.88 4.84 4.99 32.7 31.0 28.9 30.0 28.4 26.5 4.91 5.07 5.22 33.3 31.6 29.5 30.5 29,0 27.1 5.03 5.19 5.35 0 25.3 23.4 21.2 23.3 21.5 19.5 4.47 4.80 4.73 26.6 24.6 22.5 24.4 22.7 20.7 4.72 4.86 4.99 27.1 25.2 23.0 24.9 23.2 21.2 4.85 4.99 5.13 -10 19.6 17.6 15.3 18.1 18.2 14.1 4.26 4.37 4.47 20.8 18,8 16.4 19.1 17.3 15.1 4.54 4.65 4.75 21.3 19.3 17,0 19.6 17.7 15.6 4.88 4.79 4.89 NOTES: 1.lnstantaneoua heating capacity values shown Include indoor blower motor heat. These values ignore the effect of outdoor coll frost buildup. 2.lntegrated heating capacity values shown ar1 net values to which indoor blower motor heat has been added and from which the defrost effect has been subtracted. To obtain total system heating capacities, add the heating capacity of the supplemental electric heaters to the Integrated capacities. 3. Total power Input values Include the compressor, outdoor fan, and Indoor blower motors. -POWER WIRING --CONTROL WIRING .. CONO£NSER AIRFLOW Q EVAPORATOR AIRFLOW CONDENSATE DRAIN TRAP PAD 'Separale disconnect per NEC required for eleclroc heater. HP,97 A66101