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2774 LOKER AVE W; ; CB950711; Permit
B U I L D I N G P E R M I T 07/26/95 10:37 Page 1 of 1 Job Address: 2774 LOKER AV WEST Permit Type: INDUSTRIAL TENANT IMPROVEMENT Parcel No: 209-100-10-00 Valuation: 282,093 Construction Type: VN Suite: Lot#: Occupancy Group: B-2 Reference#: Description: 2ND STRY MEZANINE, 1ST &2ND : FLOOR R&D & OFFICES-BUILDOUT Permit No: CB950711 Project No: A9501017 Development No: Status: Applied: Apr/Issue: Appl/Ownr : DESIGN BUILD TENNANT IMPROVEME 9770 CARROL CANYON RD, STE B Entered By: 619-549-8455 ISSUED 05/25/95 07/26/95 RMA SAN DIEGO, CA 92126 __ ,. · ---··--· · ., -.... "'r-......._, ~ ...... *** Fees Required *** ,,·-*** , ,· -.-,.,F"ees·-,Colle,cted & Credi ts *** --~ ----------------------/ I' -/, • .,,,..~ '\ \ <(',' -\ ,~~ .;,....:~ \ ,,~/\ ~' ----"" --------------------- / / /' '\ \,. \ ,, ., • \ . ,' ,4 : • / / ' 5, 9 7,2. 0 0 , , .. ; \,; \ '. / I .-. , , '"-'' ''( . .., '-I • 00 \.., · / TQta.l Gredi'ts: \ . oo ' /'\ -M ,,. ', ..... , ' \ \) /'" \ 5 ,,.972} Q_O Tot9-·t' P~me9-·t'~ ·:, \ 7 3 o. o o Fees: Adjustments: Total Fees: / _,_ ... , ·,. / ...:;'Balance -,Due-: , 5,242.00 . . / /'; ........ / ~ ~-. \ '\ ~,.: , . \ Fee description / <::·-.,. / Uni ts ·Fe\e/Un,i t; Ext fee Data --------------------/--~-""--> ' ~-.::~~ '\,('"',,,,..,.~;..:.._~•v_,,'';:_-.,,.,.,,.,,--r _,,...,.-'/ \i ""'; ,-~·;,-J, -\ _______________ _ :~!!d~~~c~ermit i r/< ! 't:.c~;:,0 ~ ;/' ,q\ ;,<, \ 1!:~. ~~ Strong Moti. on Fee ! \."'-._// • ,~v, ., ",i;;::7 // ,,S:::}: \ , ; 5. 9. 00 \ --(~FF'. JttniJJ i ~, 1:a Ir {<,~;{;;; 14 9 9 : 0 0 "PFF CFif '·t-und-')-,1, .. !~ \' , l:' f , :,;fr}} / 1384 00 \\ \ .:::. ~.·,, !. ,J ,; ,. 7 /1/ ' • \ (TIF\r·tn19·~ ~;?/ .. Y, )7 / 230.00 \TIF CFD \Fund/• t;,,r' C.,-,,;;, / _I 212 . O O l\ ' ; .} '1-t / Enter Bridge Fee , <=~\ ~--,.1 ,~:coi;20R2-:8.6.00,/ ; 286.00 * BUILDING TOTAL \ (( 1 ,,.-, '-,,"" 1ff2 // I 5782.00 Enter "Y" for Plumbing I~stie:::F~e:; >'·---. _;, ____ ,,..---/ 20. 00 Y * PLUMBING TOTAL ~ \!// /l.1;-::-// 20.00 Enter "Y" for Electric Remodel/Alter Per AMP * ELECTRICAL TOTAL '--...,, ,._ r I f ... ..., / Issue, .. Fee !..,.->;,~: ,,/ 10.00 Y '""""·, >'·' 3(?,.9// . 25 75. 00 Enter 'Y' for Mechanical Issue Install Furn/Ducts/Heat Pumps Each Exhaust Fan * MECHANICAL TOTAL Fee> > > 7 1 9.00 6,50 85.00 15.00 Y 63.00 6.50 85,00 fNSP./r-1---- lcLEARANCE _____ 1 2872 07/26/95 0001 01 02 C-PRMT 5242"00 CITY OF CARLSBAD 2075 Las Palmas Dr., Carlsbad, CA 92009 (619) 438-1161 \ @Jur~[o l3 ~ PERMIT APPUCATION City of Carlsbad Building Department 2075 Las Palmas Dr., Carlsbad, CA 92009 (619) 438·1161 1. PERM.IT 1YPE From Llst 1 (see back) give code of Permit-Type: _____ J: ___ T __ :C ______ _ For Residential Projects Only: From Llst 2 (see back) give Code of Structure-Type: ____________________ _ Net Loss/Gain of Dwelling Units __________________ _ 2. PROJECT INFORMATION Address Z774 L.Oli'l:.f( ~Vf., ~T Buildmg or Suite No. Nearest Cross Street /:. L ,=:Lill;.12.T"!, LEGAL DESCRIPTION Lot No. subd1v1S1on Name/Number i PE-rt.. MA-P ,AJo. ot !e,s-o CHECK D£IDW lF sUBMl'l'l'Eb: PLAN CHECK NO. q50-7!J 2051 05/25/95 0001 01 C-PRMT (i2 FOR OFFICE USE ONLY UmtNo. Phase No. 730,JOO D 2 Energy Cales D 2 Structural Cales D 2 Soils Report D 1 Addressed Envelope , • ASSESSOR'S PARCEL "?.OCf-/~0 ... c5 / • EXISTING USE Of=~IC.~/W, U. PROPOSED USE oji',:1 U fW, ij, I --~ I DESCRIPTIONOFWORK Sull-b•CU.T' /$,'r ~ ~LOI.Jt. fh.Dod LA,S f IZ-1; ~ ttll"~l~ fll[.-ZAJ111tC SQ. IT. /.p sq O # OF STORIES 2_ # OF BEDROOMS • ~-.f$ 6;[lri{'f'cf6Ms -:J_/VQ <{urJA_ :{. WN IACI Pru&JN (if dmerenf from applicant~ NAME (last.name first) AJ>l>l5!.&0) LI ,SN ADDRESS q7 7 O IJrut,,ru,1..,~ lfU.,~ IUJ,\,,b., \ B CITI ~Af.J t\L fl ~O STATE ~ ZIP CODE q '1---I "Z (e, DAY TELEPHONE $' 4 q _ ~ <f-.4S5" 4· ~:nam!\~S 1Wi~°tE~:~:~k~J~R ,f~;~£R =~RO~~ te<JM)1 c11Y ~~ .. ,~ STATE M z1PCODE q-z..iu DAYTELEPHONE er<t4 ... B4-Ss--s. PROPEIUY OWNM NAME (last name first) l-£1=. \ J'I\-N\. f.. 4$ ADDRESS 2.'714 Lt, t<.£ ft. /tu"-.JJ uJfr.. cITI ~~ B A.-A sTATE lA zIP coDE tf-z. o~ DAY TELEPHONE q"3o ... Z '2-" o 6. CONTRACIOR NAME (last name first) ~ Q f J; ADDRESS Cf I '7 0 eA-ruz,ou,.. ~~ ~A,b 1..B CITI ~ 4::.l.v(«_o STATE eA; ZIP CODE C/1..tl-U,, DAYTELEPHONE 54q-t,4~5"" STATE UC. #~'1S-54ucENSE CLASS s CITI BUSINESS UC.# ( l qg, "3-Z.4 D£s!GN£R NAM£ (last name hrst) LE.e > MA-fc.l<.. ADDRESS CITI ~ b~f' STATE (]A. ZIP CODE q""l (o I DAY TELEPHONE ZS'Z.,J?o~sTATE UC.# 1. WOR1<£Rs' OOMPEN Workers' Compensation Declaration: I hereby affirm that I have a cert1hcate ot consent to self-msure issued by the D1Cector of lndustnal Relations, or a certificate of Workers' Compensation Insurance by an admitted insurer, or an exact copy or duplicate thereof certified by the Director of the insurer thereof filed with the Building Inspection Department (Section 3800, Lab. C). INSURANCE COMPANY '1ot..~ ~L,,fl. POUCY NO.Pt,J!,U,80(Sb/EXPIRATION DATE 'J-3 f • q~ Cernhcate of Exemption: I certify that m the performance of the work for which this permit 1s issued, I shall not employ any person m any manner so as to become subject to the Workers' Compensation Laws of California. SIGNATURE DATE s. oWNER-BOMM DEClARATION D D D Owner-Builder Declaration: I hereby afhrm that I am exempt from the ConfractoPs Llcense Law for the followmg reason: I, as owner of the property or my employees with wages as their sole compensation, will do the work and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who does such work himself or through his own employees, provided that such improvements are not intended or offered for sale. If, however, the building or improvement is sold within one year of completion, the owner-builder will have the burden of proving that he did not build or improve for the purpose of sale.). I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The Contractor's Llcense Law does not apply to an owner of property who builds or improves thereon, and contracts for such projects with contractor(s) licensed pursuant to the Contractor's Llcense Law). I am exempt under Section _______ Business and Professions Code for this reason: (Sec. 7031.5 Business and Professions Code: Any City or County which requires a permit to construct, alter, improve, demolish, or repair any structure, prior to its issuance, also requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's Llcense Law (Chapter 9, commencing with Section 7000 of Division 3 of the Business and Professions Code) or that he is exempt therefrom, and the basis for the alleged exemption. Any violation of Section 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars [$500]). SIGNATURE DATE COMPLETE THIS SECTION FOR NON-RESIDENTIAL BUILDING PERMITS ONLY: Is the applicant or future building occupant required to submit a business plan, acutely hazardous materials registration form or risk management and prevention program under Sections 25505, 25533 or 25534 of the Presley-Tanner Hazardous Substance Account Act? DYES 8.NO Is the applicant or future building occ!.!Pant required to obtain a permit from the air pollution control district or air quality management district? DYES !i1 NO Is the facility to be constructed withil\J,000 feet of the outer boundary of a school site? l,c(,;., A.I«$ 'flA\-l}J 01,,J ,:..1 (.,~ DYES 15J NO lF ANY OF TIIE ANSWERS ARE YES, A FINAL CERTIFICATE OF OCCUPANCY MAY NOT BE~ AFrER JULY 1, 1989 UNLESS TIIE APPUCANT HAS MET OR IS MEETING TIIE REQU1REMENTS OF TIIE OFFICE OF EMERGENCY SERVICES AND TIIE AIR POllUTION OONTilOL DISfRICT. 9. UJNsl'ROCIIDN LENDING AG£NCY I hereby afhrm that there 1s a construction lending agency for the performance of the work for which this permit 1s issued (Sec 3097(1) CIVIi Code). LENDER'S NAME N Ir. A LENDER'S ADDRESS Io. APPLICANT CER.'11Fl 1 certify that I have read the application and state that the above mformatlon 1s correct. I agree to comply with all City ordmances and State laws relating to building construction. I hereby authorize representatives of the City of Carlsbad to enter upon the above mentioned property for inspection purposes. I AISO AGREE TO SAVE INDEMNIFY AND KEEP HARMLESS TIIE CI1Y OF CARISBAD AGAINST All LlABilJTIES, JUDGMENTS, OOSTS AND EXPENSE.5 WIIlCH MAY IN ANY WAY ACCRUE AGAINST SAID CI1Y IN OONSEQUENCE OF TIIE GRANTING OF TIIlS PERMIT. OSHA: An OSHA permit is required for excavations over 5'0" deep and demolition or construction of structures over 3 stories in height. Expiration. Every permit issued by the Building Official under the provisions of this Code shall expire by limitation and become null and void if the building or work authorized by such it is not commenced within 365 days from the date of such permit or if the building or work authorized by such permit is suspended or aba o t any time after the work is commenced for a period of 180 days (Section 303(d) Uniform Build.in& ~).I'>"""' APPUCANT'S SIGNATURE DATE: :,-.. Z.S~:7;;::, PERMIT APPllCATION PLAN CHECK NO. City of Carlsbad Building Department 2075 Las Palmas Dr., Carlsbad, CA 92009 (619) 438-1161 FST. VAL'------------- 1. PERMIT 1YP£ PLAN CK DEPOSIT ________ _ VAIID. BY __________ _ DATE~------------From List 1 (see back) give code of Permit-Type: ____________ _ For Residential Projects Only: From List 2 (see back) give Code of Structure-Type: ____________________ _ Net Loss/Gain of Dwelling Units __________________ _ 2. PRQJECf INFORMATION FOR OFFICE USE ONLY Address t; Neare"krZstet" Bu1ldmg or Smte No. a ve ri <.A., we_, <;-+ LEGAL DESCRiPTION Lot No. Subd1V1s1on Name/Number UmtNo. Phase No. D 2 Soils Report D 1 Addressed Envelope Ctfl ..,R-vc .. /+ l<clF STORIES s /J 1YAvJ , "'r: ' -ro o r 'f, /) ev( -Iv\. 'Celt I CA-L---~ OF BEDROOMS # OF BATHROOMS JA-i 9 ?7 6 Ct-i r r Ge1t:t~ r DI?.. S:u-f~ ts DAYTELEPHONE :S-t:'./9-¥1/::;;-~ CITY STATE ZIP CODE DAY TELEPHONE S. PROPER.TI oWNER NAME (last name first) ADDRESS CITY STATE ZIP CODE DAY TELEPHONE 6. OON'l'RACIDR NAME (last name first) ADDRESS CITY STATE STATE UC.# ZIP CODE UCENSE CIASS DAY TELEPHONE CITY BUSINESS UC. # DESIGNER NAME (last name hrst) ADDRESS CITY STATE ZIP CODE DAY TELEPHONE STATE UC. # 1. WORKERS' COMPENSATION Workers' Compensauon Declaration: I hereby affirm that I have a certificate of consent to self-msure issued by the Director of lndustnal Relations, or a certificate of Workers' Compensation Insurance by an admitted insurer, or an exact copy or duplicate thereof certified by the Director of the insurer thereof filed with the Building Inspection Department (Section 3800, Lab. C). INSURANCE COMPANY POUCY NO. EXPIRATION DATE Certificate of Exemption: I certify that m the performance of the work for which this permit 1s issued, I shall not employ any person m any manner so as to become subject to the Workers' Compensation Laws of California. SIGNATURE DATE 8. OWNER-BUILDER DEC!LARA110N Owner-Bmlder Declaration: I hereby afhrm that I am exempt from the Contractor's License Law for the followrng reason: D I, as owner of the property or my employees with wages as their sole compensation, will do the work and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who does such work himself or through his own employees, provided that such improvements are not intended or offered for sale. If, however, the building or improvement is sold within one year of completion, the owner-builder will have the burden of proving that he did not build or improve for the purpose of sale.). D I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The Contractor's license Law does not apply to an owner of property who builds or improves thereon, and contracts for such projects with contractor(s) licensed pursuant to the Contractor's license Law). D I am exempt under Section _______ Business and Professions Code for this reason: (Sec. 7031.5 Business and Professions Code: Any City or County which requires a permit to construct, alter, improve, demolish, or repair any structure, prior to its issuance, also requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law (Chapter 9, commencing with Section 7000 of Division 3 of the Business and Professions Code) or that he is exempt therefrom, and the basis for the alleged exemption. Any violation of Section 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars [$500]). SIGNATURE DATE COMPLETE THIS SECTION FOR NON-RESIDENTIAL BUILDING PERMITS ONLY: Is the applicant or future building occupant required to submit a business plan, acutely hazardous materials registration form or risk management and prevention program under Sections 25505, 25533 or 25534 of the Presley-Tanner Hazardous Substance Account Act? DYES D NO Is the applicant or future building occupant required to obtain a permit from the air pollution control district or air quality management district? DYES D NO Is the facility to be constructed within 1,000 feet of the outer boundary of a school site? DYES D NO IF ANY OF TI-IE ANSWERS ARE YES, A FINAL CERTIFICATE OF OCDJPANCY MAY NOT BE~ AFfER JULY 1, 1989 UNLE.5S TI-IE APPUCANT HAS MET OR IS MEETING TI-IE REQUIREMENTS OF TI-IE OFFICE OF EMERGENCY SERVICES AND TI-IE AIR POU.UTION CON1ROL DISfRICT. 9. CONS'l'ROCTION LENDING AGENCY I hereby affirm that there 1s a construction lendmg agency for the performance of the work for which this permit 1s issued (Sec 3097(1) CIVll Code). LENDER'S NAME LENDER'S ADDRESS 10. APPDCAN I CRR'nFICA'llON I cerufy that I have read the apphcauon and state that the above mformanon 1s correct. I agree to comply with all Cny ordmances and State laws relating to building construction. I hereby authorize representatives of the City of Carlsbad to enter upon the above mentioned property for inspection ·purposes. I AISO AGREE 10 SAVE JNDEMNIFY AND KEEP HARMLESS TI-IE CITY OF CARLSBAD AGAINSf All LlABILITIES, JUDGMENTS, msTS AND EXPENSES WlllCH MAY IN ANY WAY ACXJlUE AGAINSf SAID CITY IN CONSEQUENCE OF TI-IE GRANTING OF TIIlS PERMIT. OSHA: An OSHA permit is required for excavations over 5'0" deep and demolition or construction of structures over 3 stories in height. • ,-" L ,I f / \ ' t . \ , i ·, __ .. 1.· I i < ) .. i I . ·, / . -----l, . ./?RCJ~~£,l.(LA!_L~--Lt::~11Jt,,~ __ --. 4///LT~~~i(/~---:·--_· - -1 . ----······ . ·--\;;--::l;..;,w _£._'C~L.vvL2 ,t:lrU,/.J--:f /,v~ ~cJt2,;<J .. I . . ) . . ,----· _}! _j:.u... ~ A4' . _/.l~ /)?J<J/llt.u:::J ~ ' .. ·-b'--b--'---4-,~ (--'-f-<.J..S_,__,_Jc ~c _; /tdn:.s . ,41+~~~-=r _JQ , . C Mu;,J1Cr;,[ . I ~ . r ~ ;': ,. --t+--'-~-------------~l f -------------------.. ----·---·[ . . i ---++------'----------------~ ' r ---... --·----·------~------1 ... -: ,• \. . -, . ~ --. ~. . . -. ' • ) '• ~ I _,; -·:1 .· ..... 1 .... • 1 ' -r CITY OF CARLSBAD INSPECTION REQUEST PERMIT# CB950711 FOR 07/22/96 DESCRIPTION: 2ND STRY MEZANINE, 1ST &2ND FLOOR R&D & OFFICES-BUILDOUT TYPE: ITI JOB ADDRESS: 2774 LOKER AV WEST APPLICANT: DESIGN BUILD TENNANT IMPROVEME CONTRACTOR: OWNER: REMARKS: MW/RANDY/PG 493-5944 SPECIAL INSTRUCT: PERMIT COMES UP EXPIRED TOTAL TIME: --RELATED PERMITS--PERMIT# TYPE SE900141 swow AS940009 ASC FA940007 FALARM CO940051 COFO FAD94006 FADD AS950051 ASC FAD95025 FADD CB960269 ELEC CB961177 ITI SE960075 swow PHONE: PHONE: PHONE: STATUS ISSUED ISSUED ISSUED ISSUED ISSUED ISSUED ISSUED ISSUED ISSUED ISSUED INSPECTOR AREA TP PLANCK# CB950711 OCC GRP B-2 CONSTR. TYPE VN LOT: CD LVL DESCRIPTION ACT COMMENTS () ... /'" '-" 19 ST Final structural £ 29 PL Final Plumbing 39 EL Final Electrical 49 ME Final Mechanical 1= ------------------------------------------------------ ***** INSPECTION HISTORY***** DATE 041696 041596 041296 022796 020696 011796 011196 011196 011096 011096 011096 011096 011096 011096 010996 120595 120495 DESCRIPTION Final Combo final Combo Final Combo Final Combo Final Combo Interior Lath/Drywall Frame/Steel/Bolting/Welding Rough Electric Frame/Steel/Bolting/Welding Rough Electric Final Structural Final Structural Final Electrical Final Mechanical Final Combo Rough/Ducts/Dampers Rough/Ducts/Dampers ACT co CA NR CA co AP AP AP co co co co co co NS PI PI INSP TP TP PK TP TP TP TP TP TP TP TP 29 29 29 TP TP TP COMMENTS ELEC A/B NOT COMP NO PLAN/SUPT-TALKED TO REC MG SEE LIST RM #208 RM #208 WALLS SEE JOB CARD CONTROL RM FINAL BUILDING INSPECTION DEPT: BUILDING ENGINEERING PLAN CHECK#: CB950711 PERMIT#: CB950711 -------~1 \][IRE---' PLANNING PROJECT NAME: 2ND STRY MEZANINE, 1ST &2ND FLOOR R&D & OFFICES-BUILDOUT ADDRESS : Q.2.7.A.=LOI<EILAY._Jl~t-=--:-~ CONTACT PERSON/PHONE#: MW/RANDY/493-9544 SEWER DIST: CA WATER DIST: CA U/M WATER DATE: 11/15/95 PERMIT TYPE: ITI By_ == ::=i::=-:;::: ~~~PECTED~ DATE 1 l-)5~4S-APPROVEDL INSPECTED: DISAPPROVED INSPECTED BY: INSPECTED BY: COMMENTS: DATE INSPECTED: DATE INSPECTED: APPROVED DISAPPROVED APPROVED DISAPPROVED DATE: July 18, 1995 JURISDICTION: Carlsbad PLAN CHECK NO.: 95-711 ESGIL CORPORATION 9320 CHESAPEAKE DR., SUITE 208 SAN DIEGO, CA 92123 (619) 560-1468 SET: II PROJECT ADDRESS: 2774 Loker Ave. West PROJECT NAME: Y. I. for Syntron D APPL:I CAN=r--....__. --------~ J ~-Gl-Jl:JR-l$QIG-1-10N--- D PLAN REVIEWER D FILE 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 deficiencies identified in the attached list are resolved and checked by building department staff. D The plans transmitted herewith have significant deficiencies identified on the enclosed check list and should be corrected and resubmitted for a complete recheck. D The check list transmitted herewith is for your information. The plans are being held at Esgil Corporation until corrected plans are submitted for recheck. D The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant contact person. D The applicant's copy of the check list has been sent to: • Esgil Corporation staff did not advise the applicant that the plan check has been completed. D Esgil Corporation staff did advise the applicant that the plan check has been completed. Person contacted: Date contacted: (by: ) Telephone #: D REMARKS: By: Abe Doliente Enclosures: Esgil Corporation D GA DCM D PC 7/11/95 trnsmtl.dot , .... ...,.,, THE FOLLOWING OUTSTANDING CORRECTIONS SHOULD BE RESOLVED WITH THE BUILDING OFFICIAL: PLUMBING, MECHANICAL AND ENERGY CORRECTIONS JURISDICTION: Carlsbad PLAN REVIEW NUMBER: 95-711 PLAN REVIEWER: Glen Adamek DATE: 7/18/95 SET: II 18. Air conditioning unit condensate waste may be drained by ind_irect waste pipes discharging into an approved type open receptor, but not direct connection to a sink tailpiece. UPC, Section 608(a). Please correct. 22. The licensed architect or civil engineer signing the plans, see item # 2 above, must also sign the ENV-1 form on sheet T-24. Please correct. Note: If you have any questions regarding this plan review list please contact Glen Adamek at (619) 560-1468. To speed the review process, note on this list (or a copy) where the corrected items have been addressed on the plans. DATE: June 12, 1995 JURISDICTION: Carlsbad PLAN CHECK NO.: 95-711 ESGIL CORPORATION 9320 CHESAPEAKE DR., SUITE 208 SAN DIEGO, CA 92123 (619) 560-1468 SET: I PROJECT ADDRESS: 2774 Loker Ave. West PROJECT NAME: T.I. for Syntron D APPJJ_~ ~~N D PLAN REVIEWER D FILE D The plans transmitted herewith have been corrected where necessary and substantially comply with the jurisdiction's building codes. D The plans transmitted herewith will substantially comply with the jurisdiction's building codes when minor deficiencies identified below are resolved and checked by building department staff. D 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 for your information. The plans are being held at Esgil Corporation until corrected plans are submitted for recheck. D The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant contact person. • The applicant's copy of the check list has been sent to: Lisa Addesso 9770 Carroll Canyon Road, Suite B, San Diego, CA 92126 • Esgil Corporation staff did not advise the applicant that the plan check has been completed. D Esgil Corporation staff did advise the applicant that the plan check has been completed. Person contacted: Date contacted: (by: ) Telephone#: D REMARKS: By: Abe Doliente Enclosures: Esgil Corporation • GA • CM D PC 5/30/95 trnsmtl.dot Carlsbad 95-711 June 12, 1995 PLAN REVIEW CORRECTION LIST TENANT IMPROVEMENTS PLAN CHECK NO.: 95-711 OCCUPANCY: B-2 TYPE OF CONSTRUCTION: V-N ALLOWABLE FLOOR AREA: 32,000 SF SPRINKLERS?: Yes REMARKS: First Floor -20,878 SF (exist'g); DATE PLANS RECEIVED BY JURISDICTION: DATE INITIAL PLAN REVIEW COMPLETED: June 12, 1995 FOREWORD (PLEASE READ): JURISDICTION: Carlsbad USE: Office/MFG/ WHSE ACTUAL AREA: 3295 SF (Add'n only) STORIES: 2 HEIGHT: OCCUPANT LOAD: 33 (Add'n & T.I.) Second Floor -3,700 SF (exist'g), -3,295 SF (new) DATE PLANS RECEIVED BY ESGIL CORPORATION: 5/30/95 PLAN REVIEWER: Abe Doliente This plan review is limited to the technical requirements contained in the Uniform Building Code, Uniform Plumbing Code, Uniform Mechanical Code, National Electrical Code and state laws regulating energy conservation, noise attenuation and access for the disabled. This plan review is based on regulations enforced by the Building Department. You may have other corrections based on laws and ordinances enforced by the Planning Department, Engineering Department, Fire Department or other departments. Clearance from those departments may be required prior to the issuance of a building permit. Code sections cited are based on the 1991 UBC. The following items listed need clarification, modification or change. All items must be satisfied before the plans will be in conformance with the cited codes and regulations. Per Sec. 303 (c), 1991 Uniform Building Code, the approval of the plans does not permit the violation of any state, county or city law. To speed up the recheck process, please note on this list (or a copy) where each correction item has been addressed, i.e., plan sheet number. specification section, etc. Be sure to enclose the marked up list when you submit the revised plans. LIST NO. 40, TENANT IMPROVEMENTS WITHOUT SPECIFIC ENERGY DATA OR POLICY SUPPLEMENTS (1991UBC) tifoiw.dot Carlsbad 95-711 June 12, 1995 1. Please make all corrections on the original tracings and submit two new sets of prints, to: Esgil Corporation, 9320 Chesapeake Drive, Suite #208, San Diego, CA 92123, (619) 560-1468 or to the jurisdiction's building department. 2. Plans and calculations shall be signed by the California state licensed engineer or architect where there are structural changes to existing buildings or structural additions. Please include the California license number, seal, date of license expiration and date plans are signed. Business and Professions Code. 3. UBC Section 304 requires the Building Official to determine the total value of all construction work proposed under this permit. The value shall include all finish work, painting, roofing, electrical, plumbing, heating, air conditioning, elevator, fire extinguishing systems and any other permanent equipment. Please provide a signed copy of the designer's or contractor's construction cost estimate of all work proposed. 4. Provide a note on the plans indicating if any hazardous materials will be stored and/or used within the building which exceed the quantities listed in UBC Tables 9-A and 9-B. 5. A complete description of the activities and processes that will occur in this tenant space should be provided. A listing of all hazardous materials should be included. The materials listing should be stated in a form that would make classification in Tables 9-A and 9-B possible. The building official may require a technical report to identify and develop methods of protection from hazardous materials. Section 901 (f). 6. The tenant space and new and/or existing facilities serving the remodeled area must be accessible to and functional for the physically disabled. See the attached correction sheet. Title 24, Part 2. This will have to be field verified by the city staff. 7. Provide ~n exit analysis plan (may be 8 1/2" x 11" or any convenient size). Please note that exiting through the warehouse is not allowed. 8. Please refer to the following corrections for electrical, plumbing, mechanical and energy items. ELECTRICAL PLAN REVIEW PLAN REVIEWER :Chuck Mendenhall 9. Specify the wire type insulation (i.e. THWN). NEC 310. Carlsbad 95-711 June 12, 1995 10. The grounding electrode conductor size for the transformer secondary must be #4 for the 3/0 secondary feeder. NEC 250-94. 11. Indicate the total load demand on the service. Include the existing and the new loads. 12. Specify the wiring method you intend to use for this project (i.e., EMT, Metal Flex, NMC etc). 13. Provide receptacle(s) within 25 feet of HVAC equipment. UMC 509. 14. Provide a written description of the processes and chemicals used for the production and manufacturing in this tenant space. It appears that there are some areas that are considered hazardous under Article 500 of the NEC. Clearly indicate on the plans any areas that are classified as Class I or II because of the hazardous materials or processes. Note: If you have any questions regarding this electrical plan review list please contact the plan reviewer listed above at (619) 560-1468. To speed the review process, note on this list ( or a copy) where the corrected items have been addressed on the plans. PLUMBING, MECHANICAL AND ENERGY CORRECTIONS PLAN REVIEWER: Glen Adamek 15. Provide smoke detection in supply and return air ducts for required automatic shut-off controls as per UMC, Section 1009. 16. Clearly show where Class I, 11, or Ill-A liquids are being used in the building. As per UBC, Section 705(b) within B occupancies, exhaust ventilation is required, taken from near the floor at the rate of at least six air changes per hour. Clearly show on the plans. 17. Detail exhaust ventilation system and dust collection systems compliance with UMC Chapter 11. a) Clearly show materials being exhausted or collected. b) Detail the exhaust outlet clearances as per UMC, Section 11070). c) Detail required exhaust ducting system showing: i) Duct support as per UMC, Section 1107(f). Carlsbad 95-711 June 12, 1995 ii) Fire protection as per UMC, Section 1107(g). iii) Clearances from combustibles as per UMC, Section 1107(h). iv) Protection from physical damage as per UMC, Section 1107(i). v) Minimum conveying velocities as per UMC, Section 1105(b) and Table·No. 11-A. vi) Ducts conveying explosives or flammable vapors, fumes or dusts shall extend directly to the exterior of the building without entering other spaces. UMC, Section 1105(a). 18. Condensate waste from the air conditioning units can drain to a lavatory tailpiece, but to a sink tailpiece. Please correct. UPC, Section 608(b). 19. Obtain approval for the condensate drywell system for NC and dehumidification unit from the City Building Official. 20. Provide automatic shut-off controls for lighting as per Title 24, Part 6, Section 131(d). 21. On the plans clearly show the wall insulation locations, thickness, and R-values, as per the energy design. 22. The licensed architect or civil engineer signing the plans must sign the ENV-1 form on the plans. (Because a contractor can not sign the plans.) Note: If you have any questions regarding this plan review list please contact Glen Adamek at (619) 560-1468. To speed the review process, note on this list (or a copy) where the corrected items have been addressed on the plans. MISCELLANEOUS 23. Complete and recheck all the callouts and cross references to the details. 24. Shoe 2 X 10@ 16" O.C. for joist c as called out on sheet 3 of the structural calculations. 25. To speed up the review process, note on this list (or a copy) where each correction item has been addressed, i.e., plan sheet, note or detail number, calculation page, etc. Carlsbad 95-711 June 12, 1995 26. Please indicate here if any changes have been made to the plans that are not a result of corrections from this list. If there are other changes, please briefly describe them and where they are located in the plans. Have changes been made to the plans not resulting from this correction list? Please indicate: Yes D No D The jurisdiction has contracted with Esgil Corporation located at 9320 Chesapeake Drive, Suite 208, San Diego, California 92123; telephone number of 619/560-1468, to perform the plan review for your project. If you have any questions regarding these plan review items, please contact Abe Doliente at Esgil Corporation. Thank you. Carlsbad 95-711 June 12, 1995 VALUATION AND PLAN CHECK FEE JURISDICTION: Carlsbad PREPARED BY: Abe Doliente BUILDING ADDRESS: 2774 Loker Ave. West BUILDING PORTION BUILDING AREA (sq. ft.) Remodel 3,295 SF Second Floor Add'n 3,295 SF Air Conditioning Fire Sprinklers TOTAL VALUE Building Permit Fee: Plan Check Fee: Comments: ESGIL FEE= 0.80 X 729.63 = $583.70 PLAN CHECK NO.: 95-711 DATE: June 12, 1995 BUILDING OCCUPANCY: B-2 TYPE OF CONSTRUCTION: V-N VALUATION MULTIPLIER per city per city VALUE ($) 237,240 $ 1,122.50 $ 729.63 Sheet 1 of 1 valuefee.dot SYNTRON Bioresearch, Inc. To: Esgil Corporation 93 20 Chesapeake Drive Suite# 208 San Diego, CA 92123 Re: PlanCheckNo.: 95-711 To Whom It May Concern, D.B. u .I. JUN 2 21995 Rt:~EJVE.D 2774 LOKER AVENUE WEST, CARLSBAD, CALIFORNIA 92008 TEL: 619-930-2200 • FAX: 619-930-2212 June 19, 1995 2774 Loker Avenue West Carlsbad, CA 92008 I would like to provide clarification for several items noted on the Initial Plan Review completed June 12, 1995 by Mr. Abe Doliente. The proposed improvements are intended to increase the amount of pro- duction space, not for any new processes. I will address specific items as numbered by Mr. Doliente. 4. Syntron Bioresearch, Inc. will not store or use any hazardous materials which exceed the quantities listed in UBC Tables 9-A or 9-B. Syntron does not intend to increase the amounts of any existing hazardous materials, or add any new hazardous materials to those which are currently in use as detailed in the Technical Report prepared by Eriksen-Rattan Associates Inc. on 17 March 1994. 5. Syntron does not plan to use any hazardous materials or processes in the proposed im- provements. Assembly of products generally consists of snapping plastic parts together and placing assembled parts into cardboard packages. The activities planned for each new room are as follows: Rm. 101: This is a humidity and temperature controlled "Dry Room" used to assemble products under low humidity conditions. Rm. 102: This will be for temporary storage of semi-finished products. Rm. 103: This will be for access to the drying chamber of a lyophilizer (freeze-drying unit). Rm. 104: This will contain a dust collector for a vacuum table which is located in Rm. 101. Products will be assembled over ports in the vacuum table to prevent the spread of any dust in the assembly area. Rm. 105: Corridor Rm. 106: This is actually not separate from Rm. 107, and is not intended as a equipment room. Rm. 107: This will be for storage of R&D materials, which will consist of small numbers of assembled pre-production products. 1 SYNTRON 2774 LOKER AVENUE WEST, CARLSBAD, CALIFORNIA 92008 Bioresearch, Inc. TEL: 619-930-2200 • FAX: 619-930-2212 Rm. 108: This will be for storage of "working inventory" of product components which will be assembled in Rm. 101. Rm. 109: This will be for assembly of products which do not require low humidity con- ditions. Rm. 110: This is a reduced version of the existing Warehouse. There will be no storage of hazardous materials, only packaging materials such as boxes. Rm. 201 : This is additional space for assembly of products which do not require low humidity conditions. Rm. 202: This will contain the dehumidifying/air conditioning equipment for Rm. 203. Rm. 203: This is an additional Dry Room used to assemble products under low humidity conditions. Rm. 204: This will be for dipping coated membranes prepared in Rm. 207 into salt- buffered protein solutions. - Rm. 205: Corridor. Rm. 206: This will for visual inspection of the coated membranes prepard in Rm. 207. Rm. 207: This will be for coating protein solutions on absorbent membranes. Rm. 208: This will be for coating protein solutions on absorbent fiberglass. 14. A. Processes in the proposed assembly and manufacturing spaces include: 1. Lyophilization: A freezed dryer will be used to remove water from the protein coated absorbent fiberglass prepared in Rm. 208. 11. Membrane coating: Equipment will be used to coat small amounts of protein solutions onto absorbent membranes. 111. Fiberglass coating: Equipment will be used to coat small amounts of protein ~ solutions onto absorbent fiberglass. iv. Membrane blocking: Small containers will be used to dip protein coated ab- sorbent membranes into salt-buffered protein solutions. B. All chemical solutions will be prepared in existing laboratory spaces. No chemis- try, chemical storage or mixing of chemicals will be performed in the proposed im- provements. Solutions used in the proposed assembly and manufacturing spaces contain no OSHA reportable levels of hazardous chemicals, i.e., there are no haz- ardous chemicals present in any of the solutions at concentrations of more than 1 % and no toxic chemicals present in any of the ~olutions at concentration of more than 0.1%. ~ No Class I, II or III-A liquids will be used in the proposed improvements. Storage of any / Class I, II or III-A liquids have been detailed on the building plans which were previously submitted in 1994. ~ 2 2774 LOKER AVENUE WEST, CARLSBAD, CALIFORNIA 92008 Bioresearch, Inc. TEL: 619-930-2200 • FAX: 619-930-2212 Please contact me at (619) 930-2200, x236, or Lisa at Design Build (619) 549-8455, if you have any further questions regarding the above items. 3 Best regards, Syntron Bioresearch, Inc. c;UJ~ Roland Strickland Safety Director City of Carlsbad I ¥i ,,. ii ,t44 I• ei• I •l4 •Eli i I, t§ '' I ~I ! /' BUILDING PLANCHECK CHECKLIST DATE: 1/11-f&._ ~ 1 PLANCHECK NO. CB -J52; 71 I BUILDINt:3 Ab'ORESS: cx'J? !i,._~,¥q t:2:£& tu. ~ PROJECT DESCRIPTION: A-1)/J ;e,i,qs-ffl $"t"t"t1d B()afe)r..z:_/4j'f:!-:c:::J, ASSESSOR's PARCEL NUMBER: · ES~ VALUE, ____ _ ENGINEERING DEPARTMENT APPROVAL The Item you have submitted for review haS been approvid. The approval la based on plans, Information and/or speciflcationS provided in your submittal; therefore any changes to tliese Items after ttlis date, Including field modifications, must be reviewed by this office to insure continued conformance with applicable codes. Please review carefully all comments attached, as failure to comply with Instructions In ttlis report can result In suspension at permit to build. DENIAL Please sse the attached report ot deficiencies marked with Q Make necessary corrections to plans or spec'.lfleatlona for complial'.lee with applicable codes and standards. Submit corrected ptans and/or specifications to ttlis office for review, By:_· ________ Date: __ _ D ~ ~ A Right-of-Way pem,lt la raquirid pnorto construction ·------------- of the following improvements: ATTACHMENTS D Dedication Applcatorl D Oedlcatl0n a.clcllt D lmprov.,.,,.,.. Applcldcn D Improvement Checklllt D Future Improvement Agreement D Grading Permit Application D Grading Submittal Checklist D Right of Way Ptrmlt Application D Right of Way Permit Submittal Checklist and Information ShNt D Sewer Fee Information ShNl By:. ________ Date:. ___ _ ENGINEERING DEPT. CONTACT PERSON NAME:. ____________ _ City cl Carlsbad ADDRESS: 2075 Las Palmas Dr., Carlsbad. CA 92009 PHONE: (619) 438-1161. Ext. A-4 P:\DOCS\CHKLS1\BP0001.FRII REV 05/11 /M 2075 Las Palmas Or.• Carlsbad, CA 92009-1576 • (619) 438-1161 • FAX (619) 438-0894 BUILDING PLANCHECK CHECKLIST SITE PLAN 1s1/4J 3rdJ li2l D D 1. Provide a fully dimensioned site plan drawn to scale. Show: D D A. North Arrow 8. Existing & Proposed Structures C. Existing Street Improvements 2. Show on site plan: A. Drainage Patterns B. Existing & Proposed Slopes 0. Property Unes Easements E. Easements F. Right-of-Way Width & Adjacent Streets C. Existing Topography 3. Include note: "Surface water to be directed away from the building foundation at a 2% gradient for no less than 5' or 2/3 the distance to the property line (whichever is less).· [Per 1985 UBC 2907(d)5]. On graded sites, the top of any exterior foundation shall extend above the elevation of the street gutter at point of discharge or the Inlet of an approved drainage device a minimum of 12 inches plus two percenr (per 1990 UBC 2907(d}5.). 4. Include on title sheet A. Site address B. Assessor's Parcel Number C. Legal Description For commercial/industrial buildings and tenant improvement projects, include: Total building square footage with the square footage for each different use, existing sewer permits showing square footage of different uses (manufacturing, warehouse, office, etc.) previously approved. EXISTING PERMIT NUMBER DESCRIPTION A t1t 'P lfJ l 0~'J' " . t/ .., I Ftt.f b! .2.,C(or '1' · ft,-'-/fJ..A ~'t$7R::: 6Pfit.e J.s-oo jf1e,-,r ~ 7oo'1 wlh: lf37J' .::= I'• I v . I/.~ I rf-D rJ .t . tt e' C> u -::::. G, • 'f ).-e-1>tJ c,e. 6:''J4 l!fl>V ~ /'9-) 13~ ?tf foO~lf / off.l7'-/11 Ull~e /4$2,1# ussc,eeJ:t" ;:;:-·/../ 3 Et>d e~9,:g-,32.Ji' /iem-4de/-tfJoA-o/J/ ttDN4I 4fpie-e ~ e. ..$"" e;t)t,/" r t..(3 I/S'o711 /Jn.,8,4,~1>0.JJ --to-\i4,/ 1/J /fi1itr/ g-_ ),,.'f c=fv5 (jil-'IP Of.4-a.e-,a pte¥1r:'),,){73 ofrt,,t/.,/l'Jf6-~3J/IP -7.q,_e:c,vt~ II ,, · / tv/ll£e q31 1/J . • 3 J.. f:PvS 01JefZ-. \v, :Z./,.l.J/'J,,. 9-: sooo-: tf, :1(00:: J,,lo?e)V .!_!±2 1 .. 9 -v Page 1 ~4 REYOl/11/M BUILDING PLANCHECK CHECKLIST DISCRETIONARY APPROVAL COMPLIANCE ./ 2nd./ 3rdv' } D D 5. Project does not comply with the following Engineering Conditions of approval for Project No. ______________________ _ Conditions were complied with by:______ Date: ______ _ DEDICATION REQUIREMENTS 6. Dedication for all street Rights-of-Way adjacent to the building site and any storm drain or utility easements on the building site is required for aJI new buildings and for remodels with a vaJue at or exceeding $ -pursuant to Code Section 18.40.030. Dedication required as follows: ________________ _ Attached please find an application form and submittal checklist for the dedication process. Provide the completed application form and the requirements on the checklist at the time of resubmittal. Dedication completed by ___________ _ Date: ___ _ IMPROVEMENT REQUIREMENTS D D D 7a. All needed public improvements upon and adjacent to the building site must be constructed at time of building construction whenever the value of the construction exceeds S -pursuant to Code Section 18.40.040. Public improvements required as follows: ____________ _ Pleae have a registered CMI Engineer· prepare appropriate improvement plans and submit them together with the requirements on the attached checklist for a separate pl.-.check process through the Engineering Department. Improvement plans must be approved, appropriate securities posted and fees paid prior to issuance of permit. Attached please find an application form and submittal checklist for the public improvements requirements. Provide the completed application form and the requirements on the checklist at the time of resubmittal. Improvement Plans signed by: __________ _ Date: __ _ P:\DOCI\CHKLl1\BP0001,fRII Pagt20f4 REVOl/11/M .. 1 st./ 2nd./ 3rd./ DD D D D D D BUILDING PLANCHECK CHECKLIST 7b. eon.tructlon of the public improvements may be deferred pursuant to code Section 18.40. Please submit a recent property title report or current grant deed on the property and processing fee of $ ________ so we may prepare the necessary Future Improvement Agreement. This agreement must be signed, notarized and approved by the City prior to issuance of a Building Permit. Future public improvements required as follows: ___________ _ Improvement Plans signed by: __________ _ Date: ___ _ 7c. Enclosed please find your Future Improvement Agreement. Please return signed and notarized Agreement to the Engineering Department. Future Improvement Agreement completed by: ___________ _ Date:, _______ _ 7d. No Public Improvements required. SPECIAL NOTE: Damaged or defective improvements found adjacent to building site must be repaired to the satisfaction of the City Inspector prior to occupancy. GRADING PERMIT REQUIREMENTS The conditions that Invoke the need for a grading permit are found in Section 11.06.030 of the MuniclpaJ Code. D D D Ba. Inadequate Information available on Site Plan to make a determination on grading requirements. lnctude accurate grading quantities (cut, fill import, export). D · D D Sb. Grading Permit required. A separate grading plan prepared by a registered Civil Engineer must be Submitted together with the completed application form attached. NOTE: The Grading Permit must be Issued and rough grading approval obtained prior to issuance of a Building Permit. Grading Inspector sign off by: _______ _ Date: ___ _ ac. No Grading Permit required. P:\DOCI\CHKLl1\IP0001.fflll Page3 d4 REYOl/11/M r iJ • BUILDING PLANCHECK CHECKLIST MISCELLANEOUS PERMITS t;;~d"tt 9. A RIGHT-OF-WAY PERMIT is required to do work in City Right-of-Way and/or private work adjacent to the public Right-of-Way. Types of work include, but are not 'limited to: street improvements, trees, driveways, tieing into public storm drain, sewer and water utilities. Right-of-Way permit required for _______________ _ A separate Right-of-Way permit issued by the Engineering Department is required for the following: _____________________ _ . iii . ..it 0_ a-i-~ · D Ail:J f1/1 O. A SEWER PERMIT is required concurrent with the building permit issuance. The fee pr 7 is noted in the fees section on the following page. 0 0 11. INDUSTRIAL WASTE PERMIT is required. Applicant must complete Industrial Waste Permit Application Form and submit for City approval prior to issuance of a Permit. lndustriaJ waste permit accepted by: ______ _ Date: ___ _ P:\DOCS\CHKLS1\BP0001.flUI Page 4 of 4 R!YOS/11/N ' ,j. • ' ENGINEERING DEPARTMENT ENGINEERING REVIEW SECTION FEE CALCULATION WORKSHEET )g{ Estimate based on unconfirmed information from applicant. D Calculation based on building plancheck plan submittal. Address: v<-'Vt' ~ Bldg. Permit No. /J,6' -~ ,71/ Prepared by: ,;{It[/ _.,._,..-'---Checked by: _____ Date: _______ _ EDU CALCULATIONS: List types and square footages for all uses. {,(/ Types of UseSee S:1/eet th/~ ~!Jun~#/t.Pdl,(,/2 EDU's: __ ~"-=----- Total EDU's: _______ _ ADT CALCULATIONS: List types and square footages for all uses. . .¢¥1. Types of Use:llle~ ;2../JIP ,VlatJ,e_ Sq. Ft./Units:,3 2-f.5"" _/tqoo ADT's: ___ ~-~----- Total ADT's--'-/4...aa~----- FEES REQUIRED: PUBLIC FACILITIES FEE REQUIRED 'Jg{ YES O NO (See Building Department for amount) WITHIN CFD: DYES (no bridge & thoroughfare fee, 'w'1 NO reduced Traffic Impact Fee) I\ w/ 1.PARK-IN-LIEU FEE PARK AREA: ___ _ 7fr FEE/UNIT:_____ X NO. UNITS: __ _ ~2.TRAFFIC IMPACT FEE ADT's/UNITS: /3 X FEE/ADT: 3'/' .o 3: BRIDGE AND THOROUGHFARE FEE ADT's/UNITS: /.3 1-_ 4. FACILITIES MANAGEMENT FEE A SQ.FT.: /tt 5. SEWER FEE PERMIT No. __ _ EDU's: ___ _ BENEFIT AREA: __ _ X FEE/ADT: ~p( ZONE: ___ _ X FEE/SO.FT.: ___ _ X FEE/EDU:. __ _ DRAINAGE BASIN: __ _ EDU's: ____ X FEE/EDU: __ _ =$_..:;..~:.::;_ __ =$_~--'--'6 __ =$ _____ _ =$ =$ ;{)//fa.,RAINAGE FEES PLDA ____ ,,.: C1IGH ~fJtl ACRES:~~X ,~::~_G __ . ~ 7. SEWER LATERAL ($2,5£ DEPOSIT) . /LOW =$ . -L ~ =$ ;ilt] 8. WATER FEE _rzi EDU's: -----=$ L ., X FEE/EDU: __ _ TOTAL OF ABOVE FEES*: $ 7-4 ~ *NOTE: This calculation sheet Is NOT a complete list of all fees which may be due. Dedications and Improvements may also be required with Building Permits. P:\DOCS\MISFORMS\BP0002.FRM REV 01/04/95 ~ \~ ~ :::,-... ~ N ~ u • .. .. • • c::i Q ~,~ ~ ~ ; ~ .. .. ~ ~ u • &:. 4 <.I I.I i i --Cl, a. • .. • Q I .t ; .. ~ 4 I.I i -Cl, PLANNING CHECCUST Plan Check No. 95-7 (/ Address 2.. 77 V w/!-cll-Av'67 WM7 Planner VAN LYNCH Phone 438-1161 ext. 1'325 -------(Name) APN: 2cYf .... /Or::J-0) Type of Project and Use ( N ~tu 7f2./41 z;z:::. Zone P !'Vt Facilities Management Zone £- cro cinitrurll # --~ (If property in, complete SPECIAL TAX CALCULATION WORKSHEET provided by Building Department.) rrem Complete Ctem rncomplete -Needs your action 1, 2, 3 Number in circle indicates plancheclc number where deficiency was identified 0 0 0 ~tal R.mew Required: YES _ NO _ TYPE __ _ DATE OF COMPLETION: Compliance with conditions of approval? If not, state conditions which require action. Conditions of Approval------------------------- Discretiomuy Action Required;. YES X NO_ TYPE Pu P A"-'BvDJMe:w·T~/L.-~ 1 . · . . . · '/>t1b qz-o? /'2-bt Pu1 APPROVAI./RESO. NO. ___ DATE: . g;u;J>r~o&11T tN-/orJOO- PROJECT NO. ____ . . A;c? r /2.-e;Clw /£.,,&D / OTHER RELATED CASES: P.1? 86--2 er 92-{/6 V~;vd-._ ~ ; Compliance with conditions of approval? If not, state conditions which require action. Conditions of App~val _____________________ _ l]/t] 0 c.alifomia Coastal Comndnion Permit Required; YES _ NO .X,. DATE OF APPROVAL: ___________________ _ San Diego Coast District, 3111 Camino Del Rio North, Suite 200, San Diego, CA. 92108-1725 (619) S21-8036 Compliance with· conditions of approval? If not, state conditions which require action. Conditions of Appro~---------------------- . dYCJ. 0 ln(l~onaiy,·:Hci>~ :F~ -~: -~s _ NO ..K_ {Eff~tiye '.date of Cnclusionary Housing ·0rdiriane~ ~ May 21, 1993.) Site Plan: · . . . ·_aro o C94Jo Zoning: o:_o:,o OtJ :O· 1. .Provide a fully d)mefi!ion~ $ite plan drawn to sc~e. Show: N9rth. anow, pro~rty wies·, easements,· existmg and p~po~ ·structures, str~t$; -~~ting street ~provements, right.of-way Width, d.unetisioned setbac;ks and' ~ting topographic~ lines. · . . 2.. . .. P:rovide legal :description· of ·property, and assessor's p~i:~l nt4,ntber. L 2~. 3. Setbac~: Front: · Tnt .. Side: Street Sid~:. Rear; · Parking:. Req~ed Required R uired eq. - Reqµired Required Required : Spaces· Required Guesi Spaces_ Required --··Shown __ __ · Sb,oWTl ___ _ ____ -Shown_. _,,.,..;.- -------Shown __ ____ Shown __ -....-Shown __ J c:7~ Sh .. · . ·:s s--:~ . .c...... . . own .. ~_..Q.__ __ Shown.__:.~ --~ City of Carlsbad 95114 Fire Department e Bureau of Prevention Plan Review: Requirements Category: Building Plan Check Date of Report: Friday, June 9, 1995 Contact Name Address City, State Lisa Addesso Reviewed by: ~4---:: PO Box 23060 San Diego CA 92193 Bldg. Dept. No. _9_5-_7_1_1 ___ _ . Planning No. Job Name Syntron ___,a. _______________ _ Job Address 2774 Loker __.;..;....;...~..;..;._--------------Ste. or Bldg. No. ____ _ jg! Approved -The item you have submitted for review has been approved. The approval is based on plans; information and/or specifications provided in your submittal; therefore any changes to these items after this date, including field modifica- tions, must be reviewed by this office to insure continued conformance with applicable codes. Please review carefully all comments attached, as failure to comply with instructions in this repo~ can result in suspension of permit to construct or install improvements. D Disapproved -Please see the attached report of deficiencies. Please make corrections to plans or specifications necessary to indicate compliance with applicable codes and standards. Submit corrected plans and/or specifications to this office for review. For Fire Department Use Only Review 1st. __ _ 2nd. __ _ 3rd. __ _ Other Agency ID CFDJob#_~95~1~1_4 __ File# ___ _ 2560 Orion Way • Carlsbad, California 92008 • (619) 931-2121 95114 City of Carlsbad ~ Fire Department Bureau of Prevention \., Plan Review: Requirements Category: Building Plan Check Date of Report: Friday, June 9, f995 Contact Name Address City, State Lisa Addesso P O Box _23060 San Diego CA 92193 Bldg. Dept. No. _95_-_7_1_1 ___ _ Reviewed by: .~~ r D.&.1.B. JUN .2· o 1995 RECEIVED Planning No. Job Name Syntron ____,: _______________ _ Job Address 2774 Loker ------------------Ste. or Bldg. No. ____ _ ~ Approved -The item you have submitted for review has been approved. The approval is ,,..-based on plans; information and/or specifications provided in your submittal; therefore any changes to these items after this date, including field modifica- tions, must be reviewed by this office to insure continued conformance with applicable codes. Please review carefully all comments attached, as failure to comply with instructions in this report can result in suspension of permit to construct or install improvemen~s. · D Disapproved -Please see the attached report of deficiencies. Please make corrections to plans or specifications necessary to indicate compliance with applicable codes and standards. Submit corrected plans and/or specifications to this office for review. For Fire Department Use Only Review 1st __ _ 2nd __ _ 3rd __ _ ·C·CFD Job# 95114 Other Agency ID File# ___ _ 2560 Orion Way 0 Carlsbad, California 92008 0 (619) 931-2121 SYNTRON 8ioresaarch, Irie. i Attn: Ms. Daryl K. Jame~ ! Fire Prevention Officer : City of Carlsbad Fire Department , Fax: (619) 929-0256 ; Re: Building Plan Check 95114 : Dear Daryl, LI 1..; LoK.~r Av<:rriue vves1 "'' l...c.msoaa, l...A '7'L'.UUb ' ' Tel: 619-930-2200 ~ Fax: 6 l 91930-2212 JVlonday, Jude 5, 1995 I Syntron Biotesearch, I~c. 2774 Loker kvenue West Carlsbad, c,t.. 92008 ! I i \ ; ! I would like to provide you with some information regardi!ig our pro osed improvements at 2774 ; Loker Avenue·West, Cartsbad, California 92008. ) · Addressing Deficiency Item Pending 14 ~~ Provide Technici~ Report -f the proposed improvements are for, cpnstru.ction of humi~ity and temperature controlled roop1s, i.e., "lj>ry Rooms," for assembly of our prpducts, not for storage of any hazardous materials. W,e anticipa~e no increase of storage of hazardous materials and plan 1io new processes for these rooms. ( I Addressing Deficiency Item Pending 29 --High Piled ¢ombustibf:1 Storage --the proposed j:mprovements are for assembly space} not for storage; hence~ th~re will be o high piled stock storage of hazardous or flaJn.mable materials. All racks are t.o be moved to apother faci ity. · I hope that this description of our intentions addresses your c¢ncerns. Please let me kpow if you need : any additional information and I will do my best to provide it f~r you. T anks for your help with this :matter. rG'd 6ll"(:0£:£ 01 Sincerely, ; Syntron Biof.esearch I c. '£)/) l' ~~ i/ ~ ( Roland Strickland Quality Ass~rance Ma t,JCid.::J i~dl p, : m £66 i:-s0-·30 ·) \ t ' J' f. I-~ ,. -, # Cit of Carlsbad JU'N 2 1995 Fire Department Plan Review: Requirements Category: Building Plan Check Date of Report: Wednesday, May 31, 1995 Contact Name Address Lisa Addesso Reviewed by: ~~ PO Box 23060 , City, State San Diego CA 92193 Bldg. Dept. No. _95_-_1_1_1 ___ _ Planning No. Job Name Syntron ----'----------------- Job Address 2774 Loker -----------------Ste. or Bldg. No. ____ _ D Approved -The item you have submitted for review has been approved. The approval is based on plans; information and/or specifications provided in your submittal; therefore any changes to these items after this date, including field modifica- tions, must be reviewed by this office to insure continued conformance with applicable codes. Please review carefully all comments attached, as failure to comply with instructions in this report can result in suspension of permit to construct or install improvements. 1:81 Disapproved -Please see the attached report of deficiencies. Please make correcti~ms to plans or specifications necessary to indicate compliance with applicable codes and standards. Submit corrected plans and/or specifications to this office for review. For Fire Department Use Only Review 1st __ _ 2nd. __ _ 3rd __ _ Other Agency ID l_,,· CFO Job# _ _..;;..95-'--1'-'1-'-4 __ File# ---- 2560 Orion Way • Carlsbad, California 92008 • (619) 931-2121 ' Re__q.utrements Category: Building Plan Check 95114 .. Deficiency Item: Pend Ing 14 Provide Technical Report To determine the acceptability of technologies, processes, products, facilities, materials and uses attending the design, operation or use of a building or premises subject to the inspection of the department, the chief is authorized to require the owner or the person in possession or control of the building or premises to provide, without charge to the jurisdiction, a technical opinion and report. The opinion and report shall be prepared by a qualified engineer, specialist, laboratory or fire-safety specialty organization acceptable to the chief and the owner and shall analyze the fire-safety properties of the design, operation or use of the· building or premises and the facilities and appurtances situated thereon, to recommend necessary changes. PROVIDE AN ADDENDUM TO THE TECHNICAL OPINION AND REPORT TO REFLECT THE AGGREGATE QUANTITIES OF HAZARDOUS MATERIALS USE, STORED OR DISPENSED AND ANY NEW PROCESSES. . Deficiency Item: Pend Ing 29 High Piled Combustible Storage 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 piled stock piling is to be done, submit a complete storage plan and description of the commodities to be stored. Show compliance with Article 81 of the Uniform _Fire Code. Paga2 05/31/95 STRUCTURAL CALCULATIONS u--=-!, • .i) 1· LJL., - l ci 2.,-s, r o 4G:i 1 ../-&,:~(008) - ~-i-.~X,0$0) ( ,Z.1,. t5 ' )( , 0 ¼ ) + ( -i. 2 <s ) ( • o t5o ) 2,'2..f-8 !/, J,o -3\) .:: I,&·/ • (p '° =,. Vi , l, 2,5 /,2,53 [, 125 3 f A·. WD -(101 )( 04-<o ). + (z;J(oaB) -=-• G,:J-~ LJ~ ~ (1-0 J )(IO '$0 ) --~,;)\) I+'~-~ t /.,, I 3, l:. == 1,42 ( t, ·J -/u WtD£ . PASE: _______ _ PROJECT: _________________________ _ SUBJECT: _________________________ _ DATE: ________ _ BY: _______ _ ·------------------------------------------------------------------------ T I M B E R B E A M D E S I 6 N ------------------------------------------ Beam Mark >>> FLR JST C FLR JST JST C =================~=========:========f======== CENTER SPAN ft l 5,00 5.00 5,00 W-DL IHL 41/ftl 1/ftl Wp-DL I/ft! Wp-LL #/ft! X-Left ft X-Right 1t P-1 DL P-1 LL X-1 P-2 DL P-2 lL X-2 P-3 DL P-3 LL X-3 CANT. SPAN Wp-DL Wp-LL X-Left X-Right P-1 DL P-1 LL X-1 P-2 DL P-2 LL X-2 lbs lbs ft lbs I lbs I ft I lbs I lbs l -- ft l ft l i/ftl 1/ftl ft : ft I lbs lbs ft lbs lbs ft 63 67 0 0 0.00 0,00 0 0 0.0 0 0 o.o 0 0 o.o o.oo 0 0 0.00 0.00 (1 0 o.o 0 0 o.o 35 35 0 0 427 427 0 0 o.oo 1.25 2.50 3.75 0 0 0 0 o.o 0.0 0 0 0 ·o o.o o.o 0 0 0 0 o.o o.o 0.00 0.00 0 0 0 0 o.oo 0.00 o.oo o.oo 0 0 0 0 o.o o.o 0 0 0 0 o.o 0,0 --===============·==========:========:======= > Fb > Fv > E > L.D,F. psi f 1,150 1,150 1,150 psi I 95 95 95 psi I 1.6E+06 _1.6E+06 1,6E+06 1.00 . 1.00 1.00f > BEAM WIDTH in I 1.5 1.5 1.5 > BEAN DEPTH in I 7.25 7.25 7.25 =================:=========;========:======== POS. MON. in-kl NES, HOM. in·kl 4.9 10.2 13.3 o.o o.o o.o PL-Ai-J C-1-te-U< Coia../f_6C,7,,qJ1} l¼Y?N~€ ~ ...... w 0 ::: Q.~3 ')( ,0%) ~ .o~3, ~/l Wt..~ Q,1} )( 1 °~c} :: .,o&.7 l-~ 2~8 H / blC_ r PASE: PROJECT : SUBJECT: DATE : BY : REACTIONS Left: DL lbs l 158 888 621 LL lbs l 168 0 0 Right: DL lbs l 158 354 621 LL lbs l · 168 0 0 -----------------'----------·--------·----------------------------------1--------.------- STRESSES: --.. -- Cf-Depth -1.000 1.000 1. 000 Fb: Allow psi 1,150 1,150 1,150 Fb: Actual psi 371 778 1,014 Fv: Allow psi I 95.0 95.0 95.0 Fv: Actual psi 33.99 84.00 82.77 DEFLECTIONS ----------------:--------;------- CENTER SPAN: } X-Dist. ft I 2.5 2.5 2.5 DL Defl in I 0.012 0.047 0,060 L / Defl. 5,162 1,269 996 I I LL Defl in l 0.012 0,000 0.000 L / Defl. 4,854 0 0 L/Tot Defl. 2,501 1,269 996 CANT. SPAN : } X-Dist. ft 0.00 0.00 0.00 DL Defl. in 0.000 0.000 0.000 LL Defl. in 0.000 0.000 0.000 ====================================--======= PASE: PROJECT: SUBJECT: DATE : BY : ·------------------------------------------------------------------------------ TIMBER B E A H D E S I 6 N ------------------------------------------ Beam Mark ))} JOIST JOIST JOIST _________________ , _________ , ________ J ________ -----------------1---------1--------,-------- CENTER SPAN ft I 4.58 4.58 4.58 ------ W-DL ff/ft I 63 26 26 W-LL 1/f t l 80. 0 0 Wp-DL Uftl 0 320 320 Wp-LL ff/ftl 0 0 0 X-Left ft I 0.00 0.30 1.04 X-Right ft I 0.00 2,80 3.54 P-1 DL lbs 0 0 0 P-1 LL lbs 0 0 0 X-1 ft 0.0 0.0 0.0 P-2 DL lbs 0 0 0 P-2 LL-lbs ·o 0 0 X-2 ft o.o o.o 0.0 P-3 DL lbs 0 0 0 P-3 LL lbs 0 o~ 0 X-3 ft o.o 0.0 0.0 CANT, SPAN ft I o.oo o.oo 0.00 ------ Wp-DL #/ftl 0 0 0 Wp-ll 1/ftl 0 0 0 X-Left ft l 0.00 0.00 o.oo X-Right ft I 0,00 0.00 0.00 P-1 DL lbs l 0 0 0 P-1 LL lbs I 0 0 0 X-1 ft l 0.0 o.o o.o P-2 DL lbs I 0 0 0 P-2 LL lbs l 0 0 0 X-2 ft I 0.0 o.o o.o =================:==========:========I======= > Fb psi l 1,423 1,725 1,725 J Fv psi I 95 95 95 } E psi l 1, 6E+06 1.6E+06 1,6E+06 > L.D.F. 1.00 1.00 1.00 > BEAH WIDTH in l 3 3 3 > BEAM DEPTH in l 3.50 3.50 3.50 =================:=========:========I======== POS, 11011, in-kl 4.5 8.0 8.8 NEG. MON. in-kl o.o o.o 0.0 ' 'v .. PROJECT: SUBJECT: DATE: ________ _ REACTIONS Left: DL lbs l 144 589 460 LL lbs l 183 0 0 Right : DL lbs l 144 330 460 LL lbs l 183 0 0 =================:==========:========!======= STRESSES: Cf-Depth Fb: Allow psi Fb: Actual psi Fv: Allow psi Fv: Actual psi DEFLECTIONS CENTER SPAN: 1.000 1.000 1.000 1,423 1,725 1,725 735 1,299 1,438 95.0 95.0 95.0 40,82 83.03 64.57 ----------1--------1------- > X-Dist, ft 2,3 2,3 2.3 DL Defl in 0.036 0.141 0.147 L / Defl, 11511 391 373 LL Defl in l 0.046 0.000 0.000 L / Defl. 11190 0 0 l/Tot Defl. 666 391 373 CANT. SPAN . . > X-Dist. ft 0.00 0.00 0.00 DL Defl, in 0.000 0.000 0.000 LL Def!. in 0.000 0.000 0.000 ============================================= PASE: BY: PRE-CAST CONCRETE WALL PANEL DESIGN Considering P-Delta Effects DESCRIPTION :panel 19 w/ new opening ALLOWABLE STRESSES ------------------> f'c : Concrete = 2,000 psi ) Hin Vert Steel z : > Fy : Reinf. = 60,000 psi > Hin Horiz Steel % : > Phi: 0.88 Hax. Vert. Spacing= > Seismic Factor = 0.3 Max. Horiz.Spacing = > Wind Load = 18 psf Beta 1 = ·0,6 x Rhow-Balanced= CHOICE OF DESIGN METHOD 0.0025 0.0025 18.00 in 18.00 in 0.85 0.0086 Moment of Inertia: ------------------------>>> 2 SEAOC "Yellow Book 1 1 Using I-cracked Only SEAOC "Green Book", Using I-er & I-gross Enter -> 1 Enter -> 2 Enter ~> 3 ACI Eq, (9-7) Using I-effective Deflection Determination: --------------------))) 1 To Iterate P-Delta Effects To Convergence :. Enter -> 1 To Find Defl. At Moment Capacity of Section: Enter -> 2 Shall Uniform LL Be Us~,.!' Wtth Wind/Seismic loadings? Y=l N=O --> 0 DESIGN.DATA ( Enter All loads UN-FACTORED) -----------> Clear Wall Ht. = 23 ft > Eccentric Dead load= 150 plf > Total Wall Ht. = 26 ft > Eccentric live load = 240 plf Ht / Thk Ratio = 46.0 > Load Eccentricity = 6.5 in (default = t/2 + 31 ) } Wall Thickness = 6 in } Rebar Size'#' 5 ) Uniform Lateral Load= 7 plf > Rebar Spacing = 12 in > X-Dist. to Bottom = 0 ft ) X-Dist. to Top = 23 ft > Depth Tc Steel = 3 i!! > Seismic=!, Wind=2 --> 1 < -- (default= t/2) > Point Lateral Load = 0 I > Axial Uniform DL = 2'30 plf > X-Dist •. from Botto1 = 0 ft > Axial Uniform LL = 0 plf > Seismic.=!, Wind=2 --> 1 (-- :----------------------------------------------------------------------: l DESIGN SUMMARY SEISMIC WIND ------------------------------- M-n f Phi : MOMENT CAPACITY = 44,079 in-i 441079 inil M-u : APPLIED MOMENTS = 37,125 in-I 19,543 inil @ TOP OF WALL = 2,728 2,263 OVERSTRESS = 0.0 % o.o % I I HEIGHT/ SERVICE DEFLECTION = 154 0 ----------------------------------------------------------------------: ·-------------------------------------------------------------------------------LATERAL LOADINBS Wall Wt@ 150 pcf = 75.0 psf lateral Wall Wt = 22.S psf VERTICAL LOADINBS -----------------P-Axial : Seismic -or-Wind P_-Wal I : Seismic -or-Wind Pu-Axial: Seismic -or-Wind Pu-Wall : Seismic -or-Wind Pu-Total: Seismic -or-Wind ANALYSIS VALUES As{eff) = [ Pu:tot + <AstFy) J / Fy 'a' = (As1Fy t Pu) /(.85ff1cf12) 1 C 1 = 1 a 1 / , 85 Phi : Capacity Reduction Factor Mn= As(eff) f Fy f ( d -a/2) Mu= Mn f Phi E : 57,000 f (f'cA,5) n : 29,000 I Ee Fr: Mod. of Rupture: 51( f'cA,5) Section Modulus : (Bross) Moment Capacity@ Cracking= Sf Fr Moment of Inertia: (Gross) Moment of Inertia: (Cracked) Moment of Inertia: (Effective) ACTUAL MOMENTS W/ FACTORED LOADS --------------------------------( Per Design Method Speci tied ) Basic Moment w/o P -Delta Excess over Cracking Moment Maximum Hid-Height Deflection MAXIMUM APPLIED MOMENT Basic Deflection w/o P-Delta DEFLECTION CHECK -SERVICE LOADS Basic Service Load Moment Excess Over Cracking Moment Basic Load Deflection Total Moment@ Def!. Convergence SERVICE LOAD DEFL. @ CONVERGENCE Wind load* 1,275 = 23.0 psf lateral Wt* 1,403 = 31.6 psf = 440 plf = 1,088 u = 462 plf = 1,142 n = 1,61)4 plf SEISMIC --------- = 0,334 inA2/ft = O. 981 in = 1.154 in = 0.87772 = 50,220 in-I = 441079 in-I = 2.5E+06 psi = 11 .38 = 223,6 psi = 72.0 in"3 = 16,100 in-I : 216,0 inA4 = 19.1 in"4 NA inA4 SEISMIC = 331342 in-I = 17,242 in-I = 3.66 in = 37,125 in-I = 3.05 in SEISMIC = 23,896 in-I = 7,796 in-I = 1.504 in = 25,658 in-I = 1,792 in WIND -------- 0,334 inA2 0.981 in 1. 154 in 0.87772 50,220 in-I 44,079 in-I 2,5E+06-psi 11.38 223,6 psi 72.0 in"3 16,100 in-I 216,0 inA4 19,1 inA4 NA in"4 WIND 18,723 in-I 21623 in-l 0.79 in 19,543 in-I 0.66 in WIND 141 771 in-I 0 in-I 0.213 in 0 in-I 0.000 in -z:2.- 'l STRUCTURAL CALCULATIONS S','iJ1Ro,J i-N C, -T., I. .. L.L .2... LOADS DEAD lO~O .=:...2., PS~ LIU~ lor+O ____ =-_Y~ ___ PSF _ ~;_P~A-~ft~H~n~atv~-. -----~~:..:o~_--·-·-·::::.::::.-_ TOf4L ;. f::/6 PS P. TOT4l- ·····. -----~ ~ 2.. 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Q() ~O'M Ovt TOP Pa 13 15.6 13 114.075 129.675 I~ o' 2:.4-- i (:, 0~ l ¥/) en CII CII 1-1-... 111111111 111111111 :c ::c ::c CIICIICII 000 11)00 -N I I FOU/iJD!+T/0/1/ \JIJ-LL 2 G QAVt'tY LO!tD ~ 2087 !b/R+ I FooTl/l/6 1 i "'xfl.l!! 2._ tf s' J Q Ii/ {j(} iia.'wl 1, ~s·s ov TafJ SOil Prl€A-SJu(lt-D&e To Gfl/rf/lrY __ · __ ~ _ :;2.., 1 ::.. fL.J11 .,., J 1 ,..£1 -~ :. ,.oa _ . ~ /VJIF>< {3EIJDl/v6 1/J Fou1JOATt0/J .·Due. __ +o Late--<+/ F°"cf!>.r s.r-__,.. __ _ ,IL__ql--,./ j l 2, 2. ~ ,. I, ALL 0771 G 'l POrJAJ !Jit Tf ()tvJ -., Ml'tJ, " ., , .. ~ x '.t~ 1 /);, 5 £?\A 1 /Ju r-Olll Tor BoT!oM u = (t ·2-.-s ( r O 4eo) -1-&, ')(,008) ::: ,ti,'-~ Vi . j) LJL-~ ~'2-,iX,0$0) -,l,2.5 - /, 23-8 ( ~~-/ ( c., /-tu WtD€ f'o b"11 r-l c( 1-,rJe @ l..)):::, :::::. ( 'Z.1-,? I )( ,o4(p ) + (tl , }(, 0013 ) -l, 1"2. 3 lJL... -;:: ("2,s ) ( . ot50 ) -! , 12 5 2,2t8 l I b r+-i= 2 ''2..'r~ -1-,,,f; I t' :l,to-3a foo,,iJq L1tJe-"2,(_ fjei:tWe&rJ ls t A. WD :::.. ( /Q J ) ( I Q 4<o ) + Ce;'( oo B) -:::.. • G.·1.3·~ LJ !.-, -:.. (to 1 )( r O '5 0 ) -.~01) /,. I ??<P t b -,. {.,Ii I.:> ':: /, 4-i. li10 -, )'t> PASE: _______ _ PROJECT: _________________________ _ SUBJECT: --------------- DATE: ________ _ BY: _______ _ T I 11 B E R B E A M D E S I 6 N ------------------------------------------ Beam Nark ))} FLR JST C FLR JST JST C =================l=========l========I======== CENTER SPAN ft : 5.00 5.00 5.00 .. --... -- H-DL 1/ftl 63 35 35 IHL 1/ftl 67 0 0 Wp-Dl 1/ftl 0 427 427 Wp-LL I/ft: 0 0 0 X·left ft I o.oo o.oo 1,25 X·Right ft I o.oo 2.50 3.75 P-1 DL lbs 0 0 0 P-1 LL lbs 0 0 0 X-1 ft o.o 0.0 0.0 P-2 DL lbs 0 0 0 P-2 LL lbs 0 0 0 X-2 ft 0.0 0.0 0.0 P-3 DL lbs I 0 0 0 P-3 LL lbs I 0 0 0 X-3 ft I o.o o.o o.o CANT. SPAN ft I o.oo o.oo o.oo ------ Np-DL 1/ftl 0 0 0 Np-LL 1/ftl 0 0 0 X-Left ft I 0.00 0.00 0.00 X-Right ft 0.00 0.00 0.00 P-1 DL lbs 0 0 0 P-1 LL lbs 0 0 0 X-1 ft o.o o.o o.o P-2 DL lbs 0 0 0 P-2 LL lbs 0 0 0 X-2 ft o.o o.o o.o -================,==========f========I======= > Fb psi I 1,150 1,150 1,150 > Fv psi I 95 95 95 > E psi l 1.6E+06 1.6E+06 1,6E+06 > LD,F. 1.00 1.00 1.00 > BEAH WIDTH in : 1.5 1,5 1.5 > BEAN DEPTH in : 7.25 7.25 7.25 =================i=========I========:======== POS. 11011. in-k I 4,9 10.2 13.3 NEG. HOM. in·k I o.o o.o 0,0 Q. ~ 3 J )(, 0 % ) ::. . 0~? ~/, Q,J} )( , oGCl j ~ ,,OlP( I, f PASE: PROJECT: SUBJECT: DATE: BY: REACTIONS Left: DL lbs : 158 BBB 621 LL lbs : 168 0 0 Right : DL lbs l 158 354 621 LL lbs l 16B 0 0 =================:==========:========I======= STRESSES: ----- Cf-Depth 1.000 1.000 1.000 Fb: Allow psi : 1,150 1,150 1,150 Fb: Actual psi : 371 778 1,014 Fv: Allow psi l 95.0 95.0 95.0 Fv: Actual psi l 33.99 84.00 82.77 DEFLECTIONS ------:----------:--------:-------CENTER SPAN: > X-Dist. ft : 2.5 2.5 2.5 DL Defl in : 0.012 0.047 0,060 L / Defl, 5,162 1,269 996 LL Def! in l 0.012 0,000 0.000 L / Defl, 4,854 0 0 L/Tot Def!. 2,501 1,269 996 CANT. SPAN: > X-Dist. ft 0.00 0.00 0.00 DL Defl. in 0.000 0.000 0.000 LL Defl. • I, lR I 0,000 0.000 0.000 =============================---=-=========== PAGE: _______ _ PROJECT: _________________________ _ SUBJECT: ___________________ _ DATE : BY : TIMBER Beam Nark >» B E A M D E S I G N JOIST JOIST JOIST =================f=========I========~======== CENTER SPAN ft I 4.58 W-DL W-ll Wp-DL Wp-ll X-left X-Right P-1 DL P-1 LL X-1 P-2 DL P-2 LL X-2 P-3 DL P-3 LL X-3 CANT. SPAN Wp-DL Wp-LL X-Left X-Right P-1 DL P-1 LL X-1 P-2 DL P-2 LL X-2 1/ftl 1/ftl I/ft: 1/ftl ft l ft l lbs : lbs : ft : lbs I lbs: ft I lbs lbs ft ft t/ftl I/ft I ft : ft I lbs : lbs I ft I lbs : lbs I ft : 63 80 0 0 o.oo 0.00 0 0 0.0 0 0 o.o 0 0 o.o o.oo 0 0 o.oo 0,00 0 0 o.o 0 0 0.0 4.58 26 0 320 0 0,30 2.80 0 0 0.0 0 0 o.o 0 0 o.o 0.00 0 0 o.oo 0.00 0 0 o.o 0 0 o.o 4.58 26 0 320 0 1.04 3.54 0 0 o.o 0 0 o.o 0 0 o.o o.oo 0 0 o.oo 0.00 0 0 0.0 0 0 o.o =================f==========l========l======= > Fb J Fv } E > L.D.F. psi I 1,423 psi I 95 psi I 1.6E+06 1.00 > BEAH WIDTH in I 3 > BEAM DEPTH in : 3.50 1,725 95 1.6E+06 1.00 3 3.50 1,725 95 1.6E+06 1.00 3 3.50 =================f =========:========:======== POS. HOK. in-kl NEG. MOM. in-kl 4.5 o.o 8.0 o.o 8.8 o.o PASE: _______ _ PROJECT: _________________________ _ SUBJECT: ___________________ _ DATE : BY : REACTIONS Left: DL lbs 144 589 460 LL lbs 183 0 0 Right : DL lbs 144 330 460 LL lbs 183 0 0 ---------------------------·--------!------------------------1----------1 .-------,-------STRESSES: ----- Cf-Depth 1.000 1.000 1.000 Fb: Allow psi 1,423 1,725 1,725 Fb: Actual psi 735 1,299 1,438 Fv: Allow psi 95.0 95,0 95.0 Fv: Actual psi : 40.82 83.03 64.57 DEFLECTIONS ---... ------------:--------:------- CENTER SPAN: > X-Dist. ft 2.3 2.3 2.3 DL Defl in 0.036 0.141 0.147 L / Defl. 1,511 391 373 LL Defl in : 0,046 0.000 0.000 L / Def!. 1,190 0 0 L/Tot Defl. 666 391 373 CANT. SPAN . I > X-Dist. ft I o.oo o.oo 0.00 I DL Defl. in I 0.000 0,000 0.000 I LL Def!, in I 0.000 0.000 0.000 I ============================================= 'P ~ (/,Dt,:, )( 1.·4 )( 11..~ ·fsr) = /8.10· PsF M = ( 9, 7'1, ~ 1-z..rp) 1-o,en )( ~ ) :: i 4-,24 5~ = ( 1a,2.4 )( 1.,). = :+,{A_4-~ .,_ I~ ,'1 cl, t '\(o,o )( 1.3,) 1 ~ ~ ( q. 7 ~ )( I 2. $ ~ J -z. J{ .. 0 t 3 7 /2~ ) -';;,'7 , 'l 4-I =-4-1. e, (B )(1.1000)( 6. ~ ,8:/ j '1' ~....e --J~o i..ovv~P-.. ~1, :z 1. '5. f~t==" W -=--('-5.~}(1-z,sfoo:i~):: .u.,~ ?o1.-~ r\ ~ ~ 1vC€ AU:... 4 ~~s ·w1-=-10 .P1-r V ·l· :::_ I~ M r=::------, ---:::__t I ~ ·::: ( 0, (?, ~ ) ( I 2. ) p~ l -:::- _, ..... f.7) I'\ • 042, t, 'lh L ). -· 2-oc.. +- CS!_~~ f\. --=-·,, 5 ? ~ • / ~? ~.is L1 .H ':" ·2. -rs 3 )C 1, x:1/ii.:, "S-= /,7) ..L. :!-'2' ""° M ~t..--::::. 14.14- H~ .. ( 1.1 )( /4.~1} -= 2.4.2.1 ~ b :. J-2. ,u t., I~ Ac:;.=-(24.2,)(1'2) Ct<=t }{ 00 )( l & -i ) A~/.-.-:.. '2. ( ~OD?) I( _.fc2 \ I t:) 4 } z: .. 7 / G ".?I ){ (9 t)) (es)( 2,1:, ~(n-) I o/J V 3 r-1,N 12.ttw,oi: r,c.. x,"2..1 It r~ __:, /-i~ Ci< l\ L-1 ~LJP ?AJJEL. . A-o C> , -r, 1 o ,J A l-Ax , /r-L 1-oA{) if3,,rn') ~ .01SJ = J. 038 4 /, ( ,?,,t~1x . 0 ,z.z;) ::. . /73 {-;, 1_: 1.. 11 x;, . ( ; • p 01.., := t ~/4 ~__o ) ( I, 2. I l \ ::: Aoo',__ LA,(e:f<?AL '--oAP ~ (';t' j{ ,3oo )(. o;;'} = \ ,,~ ' \Y:]' ) -K-Cet-Jo .T!.{8€° 10 f'T, ·, Dl«;,7At.Jt& W -~ ---Top ~ tit>-(, c?:OCr&:.$, o f opc;;,-.;/iJt;. -r \I . 1i l,J 1TH '2-- ~e;o Helli DS IIJ 18 1..t .,,,ci,i>,J EA £r-J£> r --(,,4-a r :JI : )fl 14-H11ft (I) €'k 5 JP~ . ~· JOB DATE SHEET PRE-CAST CONCRETE WALL PANEL DESIGN Considering P-Delta Effects DESCRIPTION :TILT UP PANEL 21 ALLOWABLE STRESSES ------------------> f'c : Concrete = > Fy : Re inf. = 21000 psi 60,000 psi > Nin Vert Steel % : 0.0025 0.0025 > Nin Horiz Steel % : > Phi: > Seis1ic Factor = > Wind Load = CHOICE OF DESIGN NETHOD 0.87 0.3 18 psf Nax. Vert. Spacing= Nax. Horiz.Spacing = Beta 1 = 0.6 x Rhow-Balanced= 18.00 in 18.00 in 0.85 0.0086 No1ent of Inertia: ------------------------>>> 2 SEAOC "Yellow Book', Using I-cracked Only Enter -> 1 SEAOC 'Green Book' , Using I-er & I-gross : Enter -> 2 ACI Eq. (9-7) 1 Using I-effective : Enter -> 3 Deflection Deter1ination: -------------------->>> 1 To Iterate P-Delta Effects To Convergence Enter -> 1 To Find Defl. At Noaent Capacity of Section: Enter -> 2 Shall Unifor1 LL Be Used With Wind/Seis1ic Loadings? Y=t N=O --> 0 DESIGN DATA ( Enter All Loads UN-FACTORED) > Clear Wall Ht. > Total Wall Ht. = = 23.75 ft 26 ft 47.5 Ht/ Thk Ratio = > Hall Thickness = 6 in > Rebar Size 11' 5 > Rebar Spacing = 11 in 0.6xRhow-Bal Exceeded ! > Depth To Steel = 3 in (default= t/2) > Axial Uniform DL = 1060 plf > Axial Uniform LL= 0 plf > Eccentric Dead Load= > Eccentric live load = > load Eccentricity = (default = t/2 + 31) > Uniform Lateral Load= > X-Dist. to Bottoa = > X-Dist. to Top = > Seisaic=t, Wind=2 --> > Point Lateral Load = > X·Dist. from Botto;= > Seismic=!, Wind=2 --> 96 plf 160 plf 6.5 in 20 plf 0 ft 26 ft 1 <-- 0 I 0 ft 1 <-- ----------------------------------------------------------------------1 DESIGN SUNl'IARY SEISMIC WIND N-n f Phi : MOMENT CAPACITY = 47,650 in-I 47,650 inll OVERSTRESS ! ! N-u : APPLIED NONENTS = 641219 in-I 21,767 inll @ TOP OF WALL = 1,614 1,352 OVERSTRESS = 34.8 % 0.0 % : I HEIGHT / SERVICE DEFLECTION = 62 0 1-------------------------------------Deflection Limit Exceeded !! ---1 JOB DATE SHEET --------------------------------------------------------------------------------LATERAL LOADIN6S Wall Wt@ 150 pcf = 75.0 psf Lateral Wall Wt = . 22,5 psf VERTICAL LOADIN6S P-Axial : Seisaic -or-Wind P-Nall : Seismic -or-Nind Pu-Axial: Seismic -or-Wind Pu-Nall : Seismic -or· Wind Pu-Total: Seis1ic -or-Nind ANALYSIS VALUES As(eff) = [ Pu:tot + (As1Fy) l / Fy 'a' = <AstFy + Pu) /(,85ff'c•12) 'c'= 'a' I .85 Phi : Capacity Reduction Factor Nn = As(eff) f Fy 1 ( d -a/2) Nu= Nn f Phi E : 57,000 1 (f'cA,5) n : 291000 I Ee Fr: Nod. of Rupture: 51( f'cA.5) Section Nodulus : (6ross) No1ent Capacity@ Cracking= SI Fr Noment of Inertia : (6ross) Noment of Inertia: (Cracked) Noment of Inertia: (Effective) ACTUAL NONENTS W/ FACTORED LOADS --------------------------------( Per Design Nethod Specified) Basic l101ent w/o P -Delta Excess over Cracking l101ent Maximum Hid-Height Deflection NAXIHUN APPLIED HOHENT Basic Deflection w/o P-Delta DEFLECTION CHECK -SERVICE LOADS -------------------------------- Basic Service Load Hoaent Excess Over Cracking No1ent Basic Load Deflection Total Moment@ Def!, Convergence SERVICE LOAD DEFL. @ CONVERSENCE Wind Load f 1,275 = 23.0 psf Lateral Nt f 1.403 = 31.6 psf = 1,156 plf = 1,059 I = 1,214 plf = 1,112 I = 2,326 plf SEISNIC --------- = 0,373 inA2/ft = 1.098 in = 1.292 in = 0.86769 = 541916 in-I = 471650 in-I = 2.5E+06 psi = 11.38 = 223.6 psi : 72,0 inA3 = 16,100 in-I : 216,0 inA4 : 21.0 inA4 NA inA4 SEISl'IIC = 501334 in-I = 341234 in-I = 7.84 in = 64,219 in-I = 5.65 in SEISNIC = 351967 in-I = 19,868 in-I = 3,384 in = 431741 in-I = 4,612 in WIND -------- 0.373 inA2 1,098 in 1.292 in 0.86769 54,916 in-I 471650 in-I 2.5E+06 psi 11,38 223,6 psi 72.0 inA3 16,100 in-I 216.0 inA4 21.0 inA4 NA inA4 WIND 191745 in-I 3,646 in-I 1.14 in 21,767 in-I 0.82 in WIND 15,542 in-I 0 in-I 0.239 in O in-I 0,000 in -JOB DATE SHEET PRE-CAST CONCRETE NALL PANEL DESIGN Considering P-Delta Effects DESCRIPTION :TILT UP PANEL 21 ALLOWABLE STRESSES ------------------> f'c: Concrete = 2,000 psi > Nin Vert Steel % : > Fy : Reinf. = 60,000 psi > Nin Horiz Steel % : > Phi: 0.87 Nax. Vert. Spacing= > Seisaic Factor = 0.3 Nax. Horiz.Spacing = } Wind load = 18 psf Beta 1 = 0.6 x Rhow-Balanced= CHOICE OF DESIGN METHOD ----------------------- 0.0025 0,0025 18,00 in 18,00 in 0,85 0.0086 Noment of Inertia: ------------------------>>> 2 SEAOC 'Yellow Book', Using I-cracked Only Enter -> 1 SEAOC "Green Book' , Using I-er~ I-gross : Enter -> 2 ACI Eq, (9-7) , Using I -effective : Enter -> 3 Deflection Deter1ination: --------------------})} 1 To Iterate P-Delta Effects To Convergence Enter -> 1 To Find Defl. At No1ent Capacity of Section: Enter -> 2 Shall Unifor1 LL Be Used With Hind/Seismic Loadings? Y=l N=O --> 0 DESIGN DATA C Enter All Loads UN-FACTORED) > Clear Hall Ht. > Total Wall Ht. Ht / Thk Ratio = 23.75 ft = 26 ft = 47.5 > Nall Thickness = 6 in } Rebar Size 'I' 5 > Rebar Spacing = 11 in 0.6xRhow-Bal Exceeded ! > Depth To Steel = 3 in (default = t/2) > Eccentric Dead load= ) Eccentric Live Load = > Load Eccentricity = (default = t/2 + 3') > Uniform lateral Load= > X·Dist. to Botto• = > X-Dist. to Top = > Seisaic=l, Nind=2 --> 96 plf 160 plf 6,5 in 4.8 plf 0 ft 26 ft 1 <-- > Point Lateral Load = 0 I > Axial Unifor1 DL = 1060 plf > X-Dist. fro• Botto• = 0 ft > Axial Uniform LL = 0 plf > Seismic=!, Wind=2 --> 1 <-- :----------------------------------------------------------------------: : DESIGN SUNNARY SEISMIC WIND ------------------------------- N-n * Phi : MOMENT CAPACITY = 47,650 in-I 47,650 int: 11-u : APPLIED MOMENTS = 39,636 in-I 21,767 int: @ TOP OF WALL = 1,614 1,352 OVERSTRESS = o.o % o.o % I I HEIGHT/ SERVICE DEFLECTION = 150 0 :----------------------------------------------------------------------: 7 JOB DATE SHEET --------------------------------------------------------------------------------LATERAL LOADINGS Wall Wt@ 150 pcf = 75.0 psf lateral Hall Wt = 22.5 psf VERTICAL LOADINGS -----------------P-Axial : Seis1ic -or-Wind P-Wall : Seis1ic -or-!find Pu-Axial: Seismic -or-Wind Pu-Nall : Seisaic -or· Hind Pu-Total: Seisaic -or-Wind ANALYSIS VALUES As(eff) = [ Pu:tot + (AstFy) l / Fy 'a' = (As1Fy + Pu) /(,85ff 1cf12) 'c'= 'a' I .85 Phi : Capacity Reduction Factor Kn= As(eff) * Fy 1 ( d -a/2) Nu = Nn I Phi E : 57,000 1 (f'cA,5) n : 29,000 / Ee Fr : Hod. of Rupture : 51( f'cA,5) Section Hodulus : (Gross) Koment Capacity@ Cracking= Sf Fr Moment of Inertia: (Gross) Koment of Inertia: (Cracked) Noment of Inertia : (Effective) ACTUAL MOMENTS W/ FACTORED LOADS --------------------------------( Per Design Method Specified) Basic Moment v/o P -Delta Excess over Cracking Noaent Maximum Hid-Height Deflection MAXIKUH APPLIED MOl'IENT Basic Deflection w/o P-Delta DEFLECTION CHECK -SERVICE LOADS -------------------------------- Basic Service Load Moment Excess Over Cracking Moment Basic Load Deflection Total Noment@ Defl. Convergence SERVICE LOAD DEFL. @ CONVERGENCE Wind Load* 1.275 = 23,0 psf lateral Wt 11,403 = 31.6 psf = 1,156 plf = 1,059 I = 1,214 plf = 1,112 I = 2,326 plf SEISMIC --------- = 0,373 inA2/ft = 1.098 in = 1.292 in = 0.86769 = 54,916 in-I = 47,650 in-I = 2.5E+06 psi = 11.38 = 223,6 psi : 72,0 inA3 = 16,100 in-I : 216,0 inA4 : 21,0 inA4 NA inA4 SEISMIC = 321621 in-I = 16,521 in-I = 3,96 in = 39,636 in-I = 2.86 in SEISMIC = 23,337 in-I = 7,238 in-I = 1.390 in 261531 in-I = 1.894 in HIND -------- 0,373 inA2 1,098 in 1,292 in 0.86769 54,916 in-I 47,650 in-I 2.5E+06 psi 11.38 223.6 psi 72,0 in"3 16,100 in-I 216,0 inA4 21,0 inA4 NA in"4 WIND 19,745 in-I 31646 in-I 1.14 in 21,767 in-I 0.82 in WIND 15,542 in-I O in-I 0,239 in 0 in-I 0.000 in 8 jo1s15 \ tJ~v L . 'P<.Ji2-,v"t,}S, -z__ "Z.... r. r:; 0.1 0,3 I.~ I, o '3.o \. :p f'l, 2-ps;f , , PL-a.. f'ui1<-<.,1r-..ls -f ./, 2.. Pv~J 5PM -.::.. 2-o '-'3 t., -(.t/ PAtJe;1... ;3~4 L.E04€t:1.., 2'{ \,1 !1'2.--i;}f1 --z_l( k~A.5 I '1 I__ i Lf I l.up ,,_ (_ § 1 /( < 0 N 2-) z. ~ O"fo LvL-:= c~' r. 0 2,.:)) z '"{&r::, PASE: PROJECT: SUBJECT: DATE: BY: T I ti B E R B E A M D E S I 6 N Bean Nark >>> PURLIN REINF. NB:M1'c:€~ =================:=========:======== CENTER SPAN ft l 19.09 19,09 W-DL 1/ftl 90 4 N·LL 1/ftl 160 0 Wp·DL 1/ftl O 0 Wp·LL 1/ftl O 0 X·Left ft I 0.00 0,00 X-Right ft I 0,00 0.00 P-1 DL lbs I O 110 P-1 LL lbs l O 0 X-1 ft I 0.0 9.6 P-2 DL lbs I O 0 P-2 LL lbs I O 0 X-2 ft I 0.0 0.0 P-3 DL lbs I 0 0 P-3 LL lbs l 0 0 X-3 ft l 0.0 0.0 CANT. SPAN ft I 0,00 0,00 Np·DL I/ft I O 0 Np-LL 1/ftl O 0 X-Lef t ft I O. 00 O. 00 X-Right ft I 0,00 0,00 P-1 DL lbs O 0 P-1 LL lbs O 0 X-1 ft 0.0 0.0 P-2 DL lbs O 0 P-2 LL lbs O 0 X-2 ft 0.0 0.0 ================= ==========:======= > Fb ) Fv > E > L.D.F. psi psi psi > BEAN WIDTH in > BEAN DEPTH in 1,500 95 1. 7E+06 1,25 3.5 11.25 1,000 95 1.6E+06 1.25 1,5 5.50 =================~=========;:======= POS, HOH. in-kl 136.7 8,5 NEG. HOM. in-k I O. 0 0, 0 I( /'2-. PAGE: _______ _ PROJECT: _________________________ _ SUBJECT : _______ _ DATE : BY : REACTIONS Left: DL lbs I 859 93 LL lbs I 1,527 0 Right: DL lbs l 859 93 LL lbs I 1,527 0 ----------------->----------·------------------------1----------,-------STRESSES: I I ----- Cf-Depth 1.000 1.000 Fb: Allow psi I 1,875 1,250 Fb: Actual psi I 1,851 1,122 Fv: Allow psi 118.8 118.8 Fv: Actual psi 81.98 16.61 DEFLECTIONS ----------------:-------CENTER SPAN: > X ·Dist. ft I 9.5 9.5 DL Def l in I 0.381 1,187 L / Defl, 601 193 LL Defl in 0.677 0.000 L / Defl. 338 0 L/Tot Defl. 216 193 CANT. SPAN: > X ·Dist. ft I 0.00 o.oo DL Defl, in l 0.000 0.000 LL Def I. in I 0.000 0.000 -=================================== Lup ~ (S )(IO I 2., ) ~ '011..:, ~ = ci f 1 0 If.:> ) -: ' / 2-g = ( 0'2-c:> )( ?~-~3 ) .2 41.14 /3 f~ Tf<.w 1f2JSS . Vt..r,.11~--f -r1<t.J ss ~ '34-.,.1T 44-2-0 8 ~o .. 0, '-. \/~;e., 1-:::::-y w-r 01== \<f:?t..:u GA1 ,:;;.p UNt7, I Jc::;:1-u Li\ l"'\ 13~ 5 f ~ I E)o 1.s r~ ~y~ >-"2." '1-i- Z.-.,oo,: !::> ,t,~;-rv B2..~1~r~ sf'a>i27 7-foo 6;;;) l~S Fv W L-~ ( 2-c, •? )( , o I 2. } =-_ ___,. ___ '3_~_;_4_~_!. ...... , - , { 2..--o 14- t DESCRIPTION: PROJECT: SUBJECT: BY: CANTILEVERED BEAN ANALYSIS Considering Skip loaded Live Loads GLB'S LINE 2.1 PAGE: DATE: DESIGN VALUES : I-SINGLE CANT -SINP SPAN- > DIST. BTWN SUPPORTS ft ACTUAL SIMPLE SPAN ft > LEFT CANTILEVER ft > RIGHT CANTILEVER ft 42,50 8.83 42.50 33.67 ================================================ NAX. POSITIVE NON ft-k NEG. NON@ LEFT ft-k NEG. NON@ RIGHT ft-k 135.5 137.4 103.2 ------------------------------------------------------------------------------------------------> DEAD LOAD psf > LIVE LOAD psf > TRIBUTARY WIDTH ft > 11 POINT -DL I > 11 POINT -LL I > DIST FRON LEFT COL. ft > 12 POINT -DL I > 12 POINT -LL I > DIST FRON LEFT COL. ft LEFT END DL LEFT END LL RIGHT END DL RIGHT END LL I I I I 13.4 12 29.5 0 0 0 0 0 0 6,182 5,960 12.2 12 29.5 200 0 5 300 0 28.7 6,182 5,960 6,236 5,960 ------------------------------------------------------------------------------------------------NAX LEFT REACTION I NAX RIGHT REACTION I NAX LEFT SHEAR I NAX RI6HT SHEAR I 14,252 38,114 19,156 12,141 12,196 ================================================ Wood Design Section: (Cs not considered) > F-b psi 2,400 2,400 > F-v psi 165 165 > Elastic Modulus psi 1.8E+06 1.SE+06 > load Factor 1.25 1.25 > WIDTH USED in 5.125 5.125 DEPTH -NONENT in 26.4 22.7 DEPTH SHEAR@ LEFT in 15.3 DEPTH SHEAR@ RIGHT in 24,8 15.4 SECTION MODULUS in"3 597 442 MOMENT OF INERTIA in"4 7,899 5,023 BOARD FEET/ BEAN 579.7 327.0 TOTAL BOARD FOOTAGE --906.7 906.7 ==============================================-- /J PAGE: PROJECT: SUBJECT: BY: DATE: ------------------------------------------------------------------------------------------------The following applies when Steel is being used: SECTION NODULUS inA3 68.71 · 51.62 SHEAR AREA inA2 1.33 0.85 ================================================ DEFLECTIONS FOR WOOD MEMBER: (Default = Span/2 CENTER SPAN DIST. ft 21.25 16.84 DL : DEFLECTION in 1.07 1.19 LL : DEFLECTION in 0.92 1.13 LEFT CANT. DIST, ft DL: DEFLECTION in LL : DEFLECTION in RIGHT CANT. DIST. ft DL : DEFLECTION in LL: DEFLECTION in DEFL. MULTIPLIER in 8.83 -0.07 -0.01 1, 422Et10 9.041E+09 ================================================ /~ ( "' &>-6 f'--11\s feNC€ A~ouN'P TRASH l:;NCl-t)su~t:" C~ ::::. /,O(., c~ -= /, ~o B~ -12,4=, ? w ..,, l / ,O(a) ( 1•0 )( /,?;Q )( /'2 ,Co ) -: / 7 .+ P~r- r;L = (&,~1)(.~s,'>) ~(1.oo X,i:oo) z ,7S ~ 1, I I -I ,-o ic, 1s,;, .+--, s )o f'Oi;) .... :2.oo ' . M1v1No::::. {eoi74 )( c.. 1 ){ o-r-/;1,7) =-,41 > I r, I <. f1~ 2--o 41,oe I :i A-pe, QUA-C-c. . " -:I,-4 6-'2.4· Q s:, (tJ (2,8 l )( 1.A ) = ,DOZ"'! J -# 4-e.. 2-4-!.I O i;. (11 (7.-B,M )( .0~2."11 ) = ,DB33 [ ( ~ o B ~? ) '" + ( 2 \( , o ~ ? -; ) ] l/ '7.. -• o ~ '3 ~ J ,;:::-1 -• ~3,'} = . Bt>'i '? '2., -:: z. :: &,,-; ~ -(.8~'1 )(, -;1i) J~ ( 3T3 )( 12) ·c '-~?<o) c (i-z ( 2,Bl ) z.. ~( '-~---=/ ?.......:}~( _1 _-z.. _) --'z::' ~ Oi~ )(~ee, )( -i.,e,) I $, ~ 4--< '2. 4 • o ;,c I, 11 ~->? /'o k 5 t I .... ,c. .:_ • , l 11 _;.,.,-ii' I ..,,. c•*,;f~r2\~ ·. ~-r~~p . . . . . . . ;,' CFRTIFICATE OF COMPLIANCE l',nl 1 of l MECH-1 CERTIFICATE OF COMPLIANCE P.1111 of :i MECH-1 ·,~,JIM._ . , _. ..... _ _ __ _ . I . ,DAT!~ _, _ , -rR°":CT~ . ·... l""ff 1 '.l~A!-~~~~~-:=:c __ "r'j. '"'"'t:=:::::· ... ·-- 1,~~ ·-~,/ '1t=-=:"'":1 ~--· r1 i-!f~IS' J u-H~ II R.P-1.0 II"=" . A ..,.::;I.. 53,; -, ( ~ r .• .......... ,...Ult• , , , , ... , . ... . .•. , =====~ 11 ,.,.., I ~ --• ITIM!COMTftOL ' II -' ";::> . II ' . ,'5 I GE',ER,\L l';FOR':.C,TIO"J ri . tt ~ II f. ______ .,_ ---------------SET!ACICCOHTIIOL M ' . ~ . . ' ~ :::.z~An ~-. . . ~ .. ~~-. ... "' , 5 "?.!!'" . ,::, 7 ,l'NAII OI' CONlfllUOTION ..ntaoOI' MICIWIICAL COll1P\.WICI' fJMaF o, IMVl\.OPI COWUANC1! D l'RlVIOUIENVE\OPE muMT ' . ENVELOPlCOMl'UANCEATTACH!O Thll Clttlllclle of Comp1lwe IIICl lhl bullilng ftlbffl'ind perfonnlilct -~ needed to COff!PIYwllh ~ 24, Pllll 1 Ind e of the Cllfomla Code-of RIQUllllonS. Thll Clflltlcltt lpplltt only to~ mechlnfcll ~nll.-. . ' . ~. . . The Plfnclpll Medlanlcll Designer hereby c:ertmes lhl!I the proposed bulldlng destgn represented In this set or construclkfn .. documents Is conslStent wllh the olher compllance.rorms ~nd woitisheets, with the IP9Clfk:illons; and with any olhet pa1cu1a11ons submitted wllh this permft ~-The proposed bulldtng lias been d~ to meet-the·~~ requfrements contained In Ndlons 110 Uwough 115, .120 through 124. 140 lh(ough 142,.1.4-4·1nd 145. . : . I • • • • t'leue ~ one: \\1, \' < -~ .:;· • ••• ' • • ~ hereby afflnn that I am ellglble under the provls1ons of Division 3 of.the Business and'PRiresst~ Cod~to,stgn lhll- documenl u the person responsible ror 11s preparation; and 1h11 I am a clvlteng~, mechanical engineer, or ~n:hftecl O I affirm lhll I am tllglblt under,,_, exempllon to DMslon 3 or lhe 8uslnesS and Profealonl COde by Secllon,,5537.2·or the Business and Professions Code to sign this document u the person responslble ror Ks prepa~lon; and.that I am 1 · : IICenNd c:ontrac:tor~rtng documenls for work that t have cont,aded to pertonn;_ . . .. . · ·· : O I alllrm that I am ellglblt under the e,ctmptlon to Division 3 of the Butlntu and Proftplonl Code by e,ctton ___ _ i of the • , • Code to llgn.~~'!1 .. lh_e·PfflOl:I responalbl~-for na . preplftlllon; ancHor the followlng mson. . _ .../'_ , -- N<F ..•.. ·10A11! -2..'2.e> \ "$'·• - .'E<".H/\'m:/\t Ul\'JO/\ TORY r.tE/\SURE tncitcate tocatlon on plans of Note Block ror Mlndalory ~easures j · '""'H :_~ \ ail For dtlllltd lnstrudlont on tilt Ult of lhil Ind ell Energy enci-y Standards complllnc:e fomlt, pl,._, fifer lo the Nonrnldtnllll Mlffllll publltllld by tilt Clllfomll Energy Co11~ml11lon. · · . · . MECH-1: Requlrtd on ,itnt fof 111 submlttsls. Parts 2 & 3 may be lncorporlted In 1chedult1 on plans. MECH-2: Rtqlllrld for ,Ii tubmlttllt: c11o0111pprapria1t Yffllon dtpln\flllg on fflllhOlf or mechlnlcal comp111nca. MECH-3: Requlrtd ror 1!11 submlttllt, bu! ronn dotl·nol lliYI to be compll!td If 1oc1t1on or inll:h1nlcat.aqulpemtnt 1chtdula It lndlclttdon~fonn perStctlon4.3.3. · · · MECH-4: RtqVlrld ror II 'IUbmllllla un1t11 raqulrld outdoor Yllltlllllon rattt and elrllows 1r1 ihoWn on pl1n1 per Section 4:3:'4. . ~"""""~~ . i ELICTftlC H!An . , , j -FAN cotmlOL , . .__ . " .. VAVl,lti'MWPOIITIONCOtfTIIOL't N . . . ' __h . IIMUI.TAfflout HIATICO(M 11 N .__ ____ ...__ ........ _, '--·- HtATAM>COOLl\lffl.Hllffl-. -,, .. -------~ .:."' -h .. ..A .,,, vttm\ATION '---------...ii----------.....,_......,.,o;-_____ u---.==-------1 t--OUTDOOft OAMP£R cotmlOL't · D. ECOff0M1%£111YPE DESIGN AIR CFM(MECIM, COLUMN H) HEAlltlQEQUIP. 1"tn H!Gtt£FFIC; MAICEANOMOOE\.~ . · . ::, , • .:."':, ,. , .,: · ,. · .. , _ ; :, 0,· ! · ·.. . . l)L I ·-... ,---·-;;;~·-··' ·,-•. ,·--·m·,,, .. , ..... -m·· ._....--. ,IC()()LIMOEQUIP. T'in'!HiOl4£FFIC.1 '1:'i · .-::· lrl . '. ·," . . . , . .' N ,MAKEANOMOOEUI\JMl!EII" .. ';:· " ·IJ· · . , .. -···, . . . '----It I 'COlll!TAIIW:E*CIOdt .... lltllt-.lnloab!NlillM. w.U TIMHOfffllOL .i a!TUCICCIIL t a.oLATIONZOfl!a I FMCCfffllOL Hl!AT PUMP Tll!IIMOITATt •: ,, l:Pnt,h!ldl -'*'--" tllllllvw.i ' o:~ ... c:~ . ., 1111111191t11ML 'l":\'lttllllt,_ --,-1 ' I M:MIMll-nn.' . .... ' . : ',' .VFO 'VAY MNMl)M "°'l'l'ION COfffltOL? · v:·v.. _'. . , · .... -. , · . · o: 01,w e: ei-· IIM\ILTANIOUIHIATICOOL?' N:Ne ' I 'Yl!HIUTION,_.fOlffllOOIIDoQilfa( ll!CGNOMIDII I OACN I mcnao Hl!An I , lil:=M;:,::., f'~ ·(CFM.CMiiw'» I . . .· M:.O...~~. . .. . N: .... ...., ... ,,.. ........ . .__ _________ Jo-_....:.., D:o..dc..... . . ·. --~oan Hl!ATAND.COOLIUl'ft.YMlffl HIOftimci!Ncn Nlllnf, . ' MECH-4. '- :I .}:lt['.i.:;~{[EJJ~(djltiJJ!r' ,,~,~t':\\t·· •··.':rr; ... 1 --·~---~-------~--~-~ -- -~ii JI I I I ·I I I 1.1 I I I ·I I iii 111111111 la I~ ·-.... ii ~b 0000000 DOOOD-00000 ' .~ : . . . ·~i-1· · ... · ~ocioci. ·. ~ DODOO ~ • ·-' ',1 • • ' " 11 ~-·_'5 I ):· ~ l ...... i -. ' i( \~ '. : .. ' .. ' lJ ~ t .. ic ~ -' :.1 . . . . . . . . ' ' . . ,, .I· C) I, ~. ~ ~ ':;; -! ~ .. ·l i l ,{\ t ~ ~ l1 ..,J .':! l~ ~ J, I'--. ' _:. I I L ) ·-·-~-... ---~---·-----·--- -I ' I ----- ~ * A,L--J ) L 1-f'?bOO ~ L~ ;,00 _ wY~ ~Jrr Lts,ep_ 10-t-,{A.i_J-r~~4 W40 ~ ,Po)~ -\4'-IMAN-~ft,er 72.. 0 0.8 i L · '2.c.::>.,,o.lZlf--. •'. ~-~ ·,-, ... _-Aloo· 4c:..-..,..-. :, ,.~ at--' ,-' -... ., -... ~'. . ~:: . :.; ~:] .. ~·:, ' -. -,; '}' .. •' • )\ '< ;-.,: .;, CFRTIFICATE OF COMPLIANCE !'.111 2 or 1 MECH-1 CERTIFICATE OF COMPLIANCE f'.irt., "' J MECH- ·'. l 1~CTNAAI! IDAn: l. ro.lECT NAME· ~i;ili&llfii rn: I I ' ' . J I I ! .I j l i f \ . I • sv-;rr·1rr,irt1Hr'> ,' IIYlffll-ii H-P..ll MeCMANICALIYITJMI 11· -~~-l I l '.'~(boo-" 1-~td: .: t*1.l),,: TIME COMffloi. L 4 -s • ,; < RTIACICcotmlOI. ·0 g . t5 , . j ISOlATIONZOHEI I \ I .',}!hl:!J HEAT l'Ut,l'lHEl'IMOSTAl? 'Y" N N: -~ .. s4W' X-,:,;} ELECTRIC HEAT? J .... , ·N ~t¾'.~ '. FAN CONTftOL ---~; VAVlilNIMUM l'OSITIOH CONTROL? N .. M I" ?~t~?: SMILTAN£0US HEATl'COOL? ·' · ·rv • rJ fl .J~'#.~~1~ HEAT ANO COOL llJPIILYMIET? .rJ -.· ·rJ. ; ,v -~=;~;;~·:t". YENTII.ATIOH ·g :Q PJ l~}~:~?,$\1} OUTD00ft tw.1P£R COHTIIOl? 4 /4 6t ,·:~~~t;: i:COHOMIWi TVP! N ,J IJ DEIION Alft CFM (M!CH-4, COLIMf II) ?-'Lt: . /-,nD . 66 ,:}.11t.:::.: HIATINOl!CMP. TYPE I HIGHEFFIC.,; ~1~--,_, ~ -1,.i. >. 1(2.. lfl. r.LOhlWl'l'\J/A,11" I ,J ,('}-~.;-.···: ', : A-~S. ..... 1! MM<! ANO M0DEI. NUMllal .· 7-: i~0t1~ c:oautlGl!OUP. m>E' I HIOltffl'IC.? . 11$\1 \,J IYl, F:Z¾~~}. . ' ,._ANOMOO!LHUl_,19Eft LI \I.I ,,, 'I/ ~~i?{~\ ,I ·. .., I COlll!TAILD: E*codt hllllllllt bllaWlnla ccbnrlllllavt. I tl!AT PVMPTIUMOITATI' TIM!~ l!laACICCTRL IIOLATION ZONl!I FAN CONTROL 8: Prcg. 8wldl. H:Htl«lng EnllrlM!kd l:lnlllV... !UC1RIC tl!AT? 0: Occuplnc:y SIIIIOr C:Cocllng llcllllOnZoMI. P:Vllllitilel'llcta VAY MIIIMUM 1'0lffl0N CCNTROI.? M:MnllllTlmlr B:Bd!I V:VFO Y:Ya 0:011111' C:Cww IIMIILTANl!OUI M!ATICOCII.? N:No-venu.TION OUT1lOOR DAMPER ECONOMIZER O.A.CFM tl!AT MDCOOI. IIJIIIIILYR!AT? B: Nt Blllnce A:Awl A:Nt Ertlr~NI C: ~NI Cert. G:Grlllr W:W. CFM. HlalflmCIINCY? M:OILNt~ . N: NIii Rllplld Heir. Thia hllbt no D:Oem..sCalml ltwllW!CculwlGon N:Nlllnl MECH-t. \. -~,;: . . . " ~'. . .l:_:· '·._.:~ ... , .. ••• c L-~• ); }{f \~;i .. •" I ::,::::::: . .. . le:IWCAUYlfflll I .... ,IYI-T!M---_ -_~-----,r w~ .. 11 · · . 111-_ ~ TMECONTROL · 4 .. ·· ·, · I -~ · 11 j _/;~-~ ... SETBACK CONTROL (-<':-:-:: l~TION ZONES HEAT PIJMPTHEIIMOSTA1? l!Ll!CTRIC HEAT? FAN~ VAVMNIMUMP08ITIOHCOHTROL? SIMULTAN!OUIH!ATl'COOL? HEAT ANDCOOLBUPPI.YltEIEl? ,vamv.T10N OUTDOOR CAMPER toNTROL? . ECONOMIZER~ DES~ AIR CFM (MECH-4, COLUMN II) - N N- N s pt. , ho,. .,·,1.1· ::~}?~~~·:; ' .. ~·'·: •". ~ ~ ·. :>:-·.:.-:: ~ ·'.!,;\:·~ r~:- ,·-,0~-:~;, l----~ I . :;-., ;. ----:... .. ··; .· : { :~. :t· HEATING EQUIP, rtP! f HIGH EFFIC~ MAKE AND MODEL N\JMBEII 1 COOUNGEQUll'.~ I HICHEFFIC.? MAKE AND MODEL NUMBER . ~~~,1>~ · gJ, . 11 l !\l~ ·, : ~ ~ ~ .: . ~ ~ / CODl!!TAIUl:Enbireodthlntiiiit-bebfNiCIIMIIIIIIIM. tl!AT f'UMI' THl!RMOtTAff flMHONTIIOL-. I aTUCICc:nLI IICI.A'IIONZONa l!I.RflllCH!AT? VAV~POffllONeotmlOL?_ I Y:Y• IIMULTANl!OUI tl!ATICOCIL? N: No :=...;1~= . -r.~:: M:MlnultTlmlr I: ... .. vmmLATioN OUTIIOCil( DAMllld r ic:CIHOt,1IIZa tl!AT NI/JCOOLilM.YR!m? lk» 'A:Ado. IW:W. HIGH IFFICll!NCY? l:Ntllallra C:OIM!e~Cllt. M:011.A'IU.... .._ _____________ l0:Dlnwldeeniilll G:.OlwlJ It Nit "9qlnd \. N:Nlbll PMCOfffllOL ,t..,....,,... IP:Vllllt,lal'lcll 1V:VFO 0: ot. C: Curw O.A.CPM Enlli~Nt CFM. Ncll:Thlllflllbtno "" =Ccu!IIGon ~ii:.:~,li. J_, .. _., ~ ~ ·~ • . ~~t}j ~i . ~111 1111 I ILJU Ii 1~§tl . ~ ~ ,~\ l' \ \ §i~ ~-i~ . . ,ei . ·. o·· 111 · 1, n -. l'tt I'<" . .... . lZ {' SJ 1 . . . ·1,:; . . . I.. . . . a; I . . .· . . . a . : :~ . . i: . . . . . J .. · .. . . . . . ' . ,. . ... . . ,, .-. ... . . -. :··. ·_ .·. ·. i: · i'i i'.l · 1 · ' .. , ... ' .. t (ell~·. ·. ·. .· , . : · ~ a a.a: ·J.·· I !.l ... s···.· ,.:_·.·.;·. :·· .. ~:~. ·.·: . · ·. ·.·· ... ,., -Ill {J ,~n1JrH f ···~·. ~. 11'< ·••.· ··. r-}, , ·· .... ·EJ··_._<:·, , .. · ·_:.-· .. , .. :-.-;. \} ·_··1··~1··11·-1-11· 1 t,t1·:1·.-;·:, ._·" ·· · · · · ·. · ...... . · · I ~ 11 ·· · .. · · ,, . . ,-,. t ·i I ·., . · .i · !,; . _.. _i . . g if: . · . . ,· . .. • . & -~ i . . i s ... I . . . .. I . · ..... 9 ... , fi I fI z. i I i -2 . . f I · 1 ~ C ! J~H ! ~hdU H /H .·. · ... · .. lfil . . . : . . . .• . , \ . . ' ... ,,. .. (,' r MECHANICAL SIZING AND FAN POWER MECH-2 MECHANICAL SIZING AND FAN POWER MECH --~e-ft) :......... ; :__ if'-11 .. :--,--· , .... · '.r• tk ·.· r ··~ . ··INOTl:,,...._e.,eftNe ,_,.,_,._,,....9\'111111 whetliltlngthe ~Approacfl. I !Ncm:PWM•-. ..,.,.,_~"""'_,.,~_._.....-,.IW.,_ ...... ,,__,.,.~ ): ,. Oll1QN C'CIIIOffllltla, • OU'tDOOII, DIIY IUll ltf,ftllATUII! • OU1"DOOII, WIT IUUI' TIMl'lll'ATUIII • INOOOlt. DIIY IIULII TltiftllATUill 2.IIZiNG: IAl'l'!NOIX Cl CAl'l'IMDllC Cl W'f'INDIXCI DLJ·· ~ ·-~ • D!SIGN OUTOOOfl All I / t,£ I CFM.(MECH,t;COLUMN-1) . ___ .1.,0 ... i -~ ·ClaJ H i4. • IHVD.Of'I .LOAD •UOKTING •PEOPU • MISC. IGUl'M!NT • OTHlll •OTHEII ( l'IIOCIISLOAOS, DUCT ) LOSS. INFLTRA110M, ETC" &VETYNVAIIMUP FACTOR I ... VVATTIISl'(I.TG-2): : •'. • OF PEOPLE (Ml!CH4;COt.UMN E) WAffllll' ~ I·= 11 = I. ~) -rc,TAU_, ) L&2 II Ui ~ : IWINUMAOJIJSTEOlOAD (TOTAUFROM A90VE alAF£1YIWARMUPFACTOR) 'eii2:l·1 1;;:~ f IB&J· . t.llUC110H: l'!I'~ INSTALLlO EOUIPMENT CAPACITY IF INSTALLED CAl'ACJTY IXCUOS MAXIMUM ADJIISTEDlOAD.IXl'lAIN ~---ar:1 9.11.r..: 00 PAN Dl!IICMl"nc:lt .£:. -2~./Jfl !ID DDIGN .!!!!!.!! I 1 Ir~ l<Blu#Hr ~ @I (e) lil [f] Im . mic:l!NCY 11 MJMBl!II I PIAIC WAffl I CFM MOTOlt I· DftNI: OPFANI · 111!Ji7481 .1D)-(!91Yf'nl. .---------------11 II· I· . 1.~I 11 I -------·-1 tt 1 -11--.;.-.n .. 11 · , :.: 1. DUIGH ClaftDITIOtfl: ; OUTOOOII, DIIY 1UL1 tl,MPUA:,ulll · · • OUTOOOII, wtT IIULII TCMl'nATUb • IHOObll, OIIY liUU 'l'IMl'IIIA'NM 2. IIZIIIOI CAPf!MDIXQ CAl'MNDIXC:, .WMNOac·ct :~> tR 7 ,-:-· -. . I 70 · • DIIRIN OUTDOOII Alll • IHVti.OPI-LO~ r ;<J.,'7,1;' J :dM·-CH,t;~4 '2.,., > lE . ... . . ' "'l,'2. . 4.0 . •LIGM'mlG .. •f'EOIU ~-WAffl/S,ti,10Q; ~-, ·~fflf'Ll~I) ·'>, I .• me. 1alllPM!NT · • 01'H!ft ·OTH!II { PIIOCl!UlOADS. DUCT·_ ) l.OS$.'""-TRATICIN, ITC. WEl\'ftNARMUI' FACTOII I ;--r•"''" " --......... ~ -~- MAXIMUM~ lcMI> (l'OTAU FROM AilOft ail.vmtWAiaUJ,FACTOIQ . . . . . .... ·.. . t..i!U!CTION:. • INSTALLED. IOIJIIIMENT CAl'ACITY IF INSTAWO CAPACl1Y IXCdl:IS lotAICIMUM · ADJUSTED LOAD, IXPLAIN ~ J: . . 00 (ID .. '' (g)' ...... [§) . ~ ,-. -~--- - c:,,,._ .-. ___ J~ 1or ... .l J:j.6 I Uz z Im : ~ ~ ·. OM]r--:"--:"1~ I Ht, 011 tho tcllt#Hr la!'"' 00 . Im I . ..,_ __ _, ({ C II . '·:·.: q~·:~·~--~-.. 1.,,.-:_ :-:,::_p------11 . ,.,___ ' . ,, ~ ,.:. . ,4, .• , '• -•"--~LL, !•. '1: • ~ ........ flln.,..........,.2SHl'(IM 1144'), , T1111,.,..,._,___,_, .... o.1w.a.wufllr· I ._.,......1.aWIIIICPM_WVAV_.. _ ~ . . ' I ,,.,,._...,~,..,,., i l '; TOTALS I I.I ; . m::::=:-1 -I · · WAffllOJM Cel.FICd.G . ,,•':_,· .. ' ., :IIO*lllltMl..,,..._..,.....21 .. C. t,44). . ·" ,Talll Pi!I IY*ftl'IIIIWDIIMMlftllr-_ acNdu~,-J '.··.· Mlllle .... •t.aWlttlCIIM•VAV...,._ · ' ' . ·:,,.,. • ~ • • . • I " _, _ • '·" _'' t ~; :._.,..'.::·.,. <_'. . •'.Jii« ~ fffll -:· !NMrtddlnltl ~ F1imi - ~ALI ·1 II . . . . 10l'M.FANIYl1111 _::I== ... '· .-..-~--..,...,. .. . :: . , . WATTIICFM C&FICII.• . .,...,, ...... _ ,, .... ,..,; . ,. ''· '**"~ai ~,f'q,"""1.f.> -*' ·L.~~(90 . . ~ L).ftpo ·~ MECHANICAL EQUIPMENT SUMMARY MECH-3 MFCH/\Nl<-:/\1 VFNTII /\TION IVlFCH l~iJHWii . IQfi I: .,l'ROJECT NA.Me . 1-S...;YS_TE_M_N_A_M!---------....... - IDATI' .OOLIIJG EOlJIP":f 'JT --· .,.-... ·1NO'Tl:ffflld• •ccpyof t>,19 fom,for -11maohllicll ~ l\'ITIM IUICRNIO ~~ .TOTAL IIATaVl'ICl!IIGY ICOll0MIZ!JI -MCIUl!I.NO. /MR) , ____ , UNITa AI.LOWII> PftOl'Olm . l.!:..l.J!J ttf---t, ~~ g8'fr "ld";,6 ~.'t, IJ(}O ·l~f<--. ]l).;O JJ)~.v .. o:i::r . lffl-~ ';{/-r'i,.;,,c ,..11. 1,9, 7 7()i7. I . I O©--' J.U>-'rO ?~ '{u,,.ou? J,~.c:, t,,(J'i> 0(:q-'. . '/J-f-1/ ">:, ff'fi" rMi:,j -:JA. 1· fN)i) : '. , J /I . \,I/' ·Old"'· .-, 1 .on··· DO 0.0 -DO OD : OD : OD. 0.0: MECH/\NIC:/\1 VF NTII I\ TION (ru [ii mi ml_· oo · :rfi :·;, · .. oo -. ·::·.:rm · · m @ ·oo ~ ' . ~. -. -All!AIAIIS OCCU,ANC'I-. . . IIIQ'D. VAVMIIIIIUMa:M com,. ·. CFM: MIN. .. NO, MN,· . O.A. . ' 0111011 LAIIOUT DIIIGN TIWII-a,ACI . . ,~ CPM -,:. .. CB9" 'IMA]C.O, IIUPfL\' . MN. MN. m· HO, ms, IIXC ·aXlm . D.OII l'J : CfM' CAI CFM All Pl . ·Hf-~ q,b·. ,I$ 13.7: 20 --~a· 7~/) }'I-pt?_ ·u.d.. !IA -J!t m fl.q. iLt?J97 Cf?'. ·'2-, .~(b_,. a3 · 7(!)0 "'(/7/7 . t[0 -~ --i~ l../f) ·'1.. 1lV. j',,..pO b74 -iv; ·~ --. ~H tf) .( J..::: ·7:V5" IJ\6-J 2~ 'J bi9o ~QO --/'if)1, 0 ~ c.p:z__~ ; --~-. •£1.oo . J,,f.)· .,4· .• ,I. i!) ,' b,o ~ ~ iLMo 1~ ·tr,. ~ ... •' (p()' ' _f;?)t::7_ . . WO ,' ,, 'I . ' ,' .. . . .. . OD : .. ~ DD. · O·O .. ~' : .. I Hf fl Tl"Jr, FOllll"'.'f 'JT .. aYSTPI MAICENfO lll!IIGN.OVTM IIATID!l'flCll!NC'I .. . . -MOiie.NO. (BTU/HR) UNITS Al.LOWED l'IIDPOSm ------IJ1)-JJ i>l'ek ~~ z..£... . -z#J, z, IBPP . t.:.~ . . :-,,, -z... flP-Ci '?,'h"("CAQ7d /'7..0 :. I .. .. ' 1-ff-f{) ?,gf(.,fad)la l~-1 .I - i-1-P-' 11 . ~ "t""L.-14.:0 2.4.. . I ':7,1_ 0 VI . \ J' \: . . . 'i : . . ..... ... -·,· •' " .. I .. -1 , . I , . ~~-IFOIIM!CK-2), ~ I ·1-11--: I t I I I .. _..;.,_ , . , ,---.. ,-...... -,... . 1 . Bntd on l!xptCttd Numbtt of OoCllpllri!ti or et tanho'A of Cl,ept• H UIIC Oaoup111t Danehy, · · , . . . . Must b• or..,,., than or equal to G, or llti T,_,., IJt, . · · 11 roni reheet·or !80ocl ta 111..i, t 1111111i ~ tna than er.,tqllll ~ o,., leH tMn or equal to Toni o..ra,,CFM x o.a, ., .... .,_., _., · . to II X 0.4, or'"• thlrl or equal to :aoo CFM, wNcllner le fl!rver, · . .I J Mutt be·~ tMII or equal to i Of~.,. but no ~)hln o. unlffl Tnnder Alf no .. _.,, • . . '\..m ~lbtGttltttlhlllorequtltolO•tG:enc1,forVAY,_ortlllf.t!Nliorequtlt.lO•JI, . , . ,,,,,,.,,.,,,,~,,_ · • ."""1111 ,,,a NoMnlhnrhl ComplMtn FMm . -. .. -.-~ ~ -:.__ ~ . - CERTIFICATE OF COMPLIANCE Part 1 of 2 ENV-1 DATE ,G'°-{ -Cf:' I e: , '::x --... ,,_,c.,, rs:::,-c,:e-:::....... '=r':f::: ...,., ~.... ---· ' --:--' 1·~ ..... ~. · · .. ~ALDEIJG¥Ell•ENVEl.0Pl ~ I I ·. ~ . I -c.: I~ ,,... .,, ---,:-. ~-.,, :;· , ... ·. ChtcbdtJJll)llt ~.,.;!IN ,_. 'I D HOmJMOTILG\JUTftOOM -1~1'°'~ l MnHOOOI' !MLOl'I! 1~ '"cOWOH£HT D UNCONDITIONl!D (FIIIAl!ldlil) . D -PERFOIIMANC! . . • ;TIiis ~· ot CClmplani:t 11sts lhl billldlriO r~ and pertonna~ lplicfflcatlO_n nlldtd to COfflJIIYwllh Tllld4, p1119·1 lilci e oflhl Cilfomla Code or Regulltlons. i'blsceitltlcltu~· ontyto1Julfdlng enve1ope·requ1rements. . . : . : . . , The Prlnclpll Envelope Designer hereby certlftes um the proposed tJultd1ng design represen\ed In this sel of conslnlc:Uon , j' documenls Is conslslent Wfth uit other campllance fOfms and ~eets,·wllh the-spectllcltlons, Ind Wllh any other calc\lllttons lllbmltted wlttl this Jllffllll IJ)Pllcltlon. 'Thi propostd building .his been designed to meet the 1nvetope { reqvlremenls c=ontained In NCtJon, 110, 118 IIIJOuQh 111, and ·140, 142, '143 or'~49of TIiie 24, Part e, Chapter 1. I . . . ,-lllli chtck_ one: 0 . I htNby lfflnn that I 1m ellglble under the provisions or Division 3 ·or the Business Ind Proiesstons Code to Ilg~ this · ~ as thl person re~e for 11s prePJl'ltlon: Ind that I am I c:lvll engineer C!I' 1rd!Hect. _ · · . . ~ that I 1n1.ellQlble under the ~ptlon to Division; .orthe·e~ess-1nd P~r~ons ~.-by Sedfon ~si1.2 or· Ille Business and Professions Code to sign this document as the person f9Sl)OIISlbte for 111:preparatlon; ind _that tam 1 llctnsed CDl!lrador prepallng documenll for work lhll I hlveconlrlded to perfonn. ·. · . i I O I 1fflnn .that I am 111glb11 under thl 1xemp11on to DlvlSlon 3 or the Business and Profess!~,;. Code by Sedlon l of the · . ~ to l;lgn this document u the.person re~nslble for Its : l PflPffl\lon: Ind for the followlng reuon: -· ., :-\1,R..T'ajM~ l'k3NATURE .. -~1&'6~~-1~~9~ ;·lr·M---#iU@ . . II • . . 1. ·. ,_,......., .. _., __ .,. __ "_ I ::f?4: I 1 :.: For dtlllltd lntlnldlont on lht UM of tttlt tnd .i Enlf1Y Efflcltncy Sl1ntflfd1 compllince formt, pl~~ •. ,.,., to th1·~~itf111t11I Mllllltl ,ublllhtd lly lhtClllfomlll Energy Commission. · . ·, . · . ENV•1: Rlqlllfed on lllet far an 1ubmllt11t. Pait 2 may bt klcofllOrtltd In •~ultt on·plana. ENV-2: Uatd for Ill 1ubmllt11t; choolt •PPfOPllat• wnlon dtptncllng on rntthDd of tnYtlope corripffanet. . ENV-3: 0pllonll. Ult if tltflull U-Yllun art riot ultd. Choolt 1ppropilat1 vt11lon for 11nmbly U-valut to bt calculaltd.,:. -· IHMrllldllltllll~~ I . . , ...... : ...... " I I .... , ... -· - r (' ..... CERTIFICATE OF COMPLIANCE P.ut 2 °r 2 ENV- rROJECTHAME __ 10.~ ...-~ AIRMILYNAMII m='? ~--t- • .:::...~::::=.,..,. · . fud--~1 I'/ L MJnTO I l'l!LO I . : ~-1 ,, -------,....,....-t. ' ---------··_:::,_. -~-JO~ .. ..;-i,..<, "~·,,-:: '< ---------------··--1t' ,. ,· ···.J ~ :.~-~, -------1.1-,--------------t 1-------------------1 i--- ,i.: ~ NO.Cl!' U.VMIIIJ!' CMli'AL.WOCIO,ICl',1, lflMIU . CM!NfMCI. ~ I ~NA-1:,~------1· II II 11-· 'FMMl'ffll Ir lffll90lt · !!!!!!!! OWINO fflle I INCm!TO (It. Cllllr, !""!> . Fll!I.D -.~ .... -,,~-NO.Cl!' iu.v~;-r ... 'mi-~-,~,, 1, ~ IIMJQM\'MATIIUL "." -11 OWIIO,,..-ii~!O .(ag.82:1) :· -·~.NIEi. . , . ... . • ; __ ·_ · ........... ....,, .... c.,-,1..!!!:! fvAr . . . . . . . . .. ·-' •' ·1; _\ -~ ' - ,:(.<'~. , , :t: i: .. .. -~-t ·:· ··::· , ,41(· ~',;,j.,, 1 .. ,. ,i;r,.-·t-t··~t-~· .,·"., u."· .-.u: . ·· __ ,.. . .,.¥ ... ., ,,... . .. -, .... -.. . . • , , .. ';.!, '-'v: ! :(;:,1::,.~'!!~, ,, 1f*rt-,it~•1\:h';;"·:,?·r1/~f.1,%r~.~ft/f}<';"<;f~~;. -~.;~\:-'tr: -'..,'.''-'· -:·.+.' ,,,,;. ·, r.,:. ·. ---., ·\:'.~,::.-;:t;\~_::.:.-;::~:r:'./, ~ · ·-/_. ·:~·; _:'.·;p··.;~-:~\;;:'.,~~;t;/;-.;q:;~>~:·;_·: :-_?--:~_i'-~::-'~:----~:: --~~'.tl~ -; --;.:: ··:·'"i, , .. _ ~- Nontl_lldtnftl Cornt.lllnc9 f,,lm I I • ~:. '! ,,: .. .·.· . ···:.:t '! ,NV,1 npr C:OMPON,NT Mr fl ion LNV-2 ENVELOPE COMPONENT METHOD ENV-2 ' ll'IIO,IICTW IIMTI! ) rOJ!Cl'~ rff . ·.,('< \1:J flf-" t\ t :.i r tit ii. T If J"J ~,H."I 1 I~ ;1n /\HE./\ C.J\I Ctll f\ f[C)"J . -. ' -. ' ~ ' ~ . ,. If!' 1'3~,;t I y I --~ ~" .· · .. •· •. . . . : , r ~ ... ~t~. >.91 . . . . . .' . OMA'ml OI' . . · ~OW!O,. • OI ' . AU,CIWm,. • ,1 r111l'lta,osm -Gt£] · -I . . I· WINDOWAREAII . . ,& ' · ·. • . =:"' q1 · . ~u · · I ·1x1 1·-1 .. 1 AU.OWAll! l . WIMOCIWAREA., . AU.OW!I>,. Qll.f!OOl'Alt~ .AU.9\¥,IKV,AIIEA WINDOWMEA, .----.----. . ¢ ........... I q t4 I l'ltOl'OS!D lllltACTUALSK'tl.lGffTAIIEAIIIII* ., I 11111"4 . .___._._ _ _, WINOOWAREA "*'h_AU.QWEDIIMIGlffAftEA,l*I ~,...,. __ ...,. . flll...,_llllhd. · ACTUAL IKY,AIIEA ()PJ\fJ\lf ... ,IIRF lH~f ... , '' . .. " . AIIIMIL y, U.VALUI!:" TABLE ASS!MILYIMMI! 1YPI! HEAT INSULATION R.YAUIE" VALUES? r ... Wll-t, ,._,, (tf. ltoel, Wal,,_, CAPACITY PROPOS!O ,..,.,AU.OWED PROPOSED YIN MAX. AU.OWED lvA4 L.-I WAU--~;.:;,, · fL~ ......... D·o -- 12.it,t) ,:::._ ( r4--uuL ---' 'JJ.-rq 14::e-fl. ·-D·o -· D-0 . ' DD oo· • For eNh nnnflly type, meet the mlfllrnunl "*-!lillotiR.,,._ ~Uhe ITIIXlmuin_itHmblytJ.wlut. \"Jl',00\'IS I .. ·.···.· ·.· .. --· WINDOW-ORIEHl'ATION. U.VM.UI! .. IOI' . OVPHANO, . PROP, ~ ,.._ 'Mndllllo-1, ~ . I N I • ! I J W ' ""°"· AU.wt. l'ANU IC _ · H · v. , tW OHP,· OHO . IIIIIO . .1 Nt.!,,_.. DO.DO · . ·. · DODO. DODD '., ,. ODDO m: :l[t1.2~ . Gft~TEIIOI' ' · 1· -., ' " ~\'.~ZSc.:.., ·: -~~_::· ,·, ,'. ~,.·.~--' ' ·. . AU.~"-·' lltllePROPOSEO ·c±J WINl>OW AREA II· · IIINltr "*' itie . . . . ·. MAXIMUM . · MAXIMUM · AU.OWAILE · .'" ·:. AU.OWAU ·1· · WINQCIWAllq.· -~ -1. · ·-1~1·· 1~1 1 AWIWtD ,., Git. flOOII MlfA ALLOW, IICY, AMA WINOGW AREA, · . . . • ··"""111"""'* I 1-·PltOl'Olm· ' ' .. ' i llltMmMl.~M!AII...., ...... AU.OWEO l1M.IQHf AIIEA. ... lllllhad.. . · WINl>OW AREA. fl~l!_~~ •s ACTUAi, IICY, MIA mllD. All!MIILYNAM! (eg. Wll-t, Flocr•t) ---.,1MrM.Ur -~ ~----~-TAl!l,l . TYl't! I ~r · 1 INIVLA110NRJIALU!"~_ : . ViUUES1 (eg.Roof,Wllll,flaal). CAl'ACRY .1 ~·,~AU.OWB[· PIIQP0SB) YIN llfMX.AU.OWEO . . . . . DOI I . -:,, ' .. ·, .-, ,£? 0·1 . -~<····:., ' DOI I i--------,1~ -. . . _ _ __ _ 0 0 DO • ~-~~MNtdii~ ................. ~_....,.,._._ M~-. ''._: 1-i-~t;:o, 1 l'IIOI', I AU.OW, . PANIS ....-..m....-I OVEJIHAl«a. l""°'·I I~-~ HIV )tWjotl' MHO ~ I I I I I I ' IIMJOHTNAMI _,.) ~-;;._,, I GLAZING . . IOF. . 'U.VAW! . -. IHADINGCOl!FPICIIN1' ' I IKYUGHfNAMI-: ot:AZlNG -, '.. : IOI' -~-. --11,VAWI! 'JRANSt.UCEHTI TRANSPARENT . PANES PROPOSED . AU.OWED . PROP.OIIED _ AU.OWED . (IO-iu...1, ~ '.· . TRANIILUCENTI TIIANIIPARENT. PANES .. PROPOSEO : AU.OWED D O · · · -. · --· i---------1 D· · '' ·-o ·., i--------1 .":. · : · · 0 0 · · · . . D. ··o'.·. __ . · .... ·o · · D .· --': · · · 1 --o·----··o-'··· ·-_-.·:------II IKAIIIIOCOEfflCllht l'ROPOSEO . I AU.OWED .. . . \ . . . . 1 D D . · . .. . . . · . ,.~ · . . 0 D ,I . , " , , ,Nwittf#t,""~'-_ _.___,, .· ' .. 0 '•c J~;,,,. fll/l,,NomtJ/dlttlll~,aFo,m "> -------~ • •• 1 AIR SYSTEM SIZING SUMMARY ~L,O t .J t..Jf~ Air System. : SYNTRON 2 R & D ASSEMBLY 1 f'f f"-) 04-29-9-5 Weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 -Of 1 ********************************************~****************************· AIR SYSTEM INFORMATION -------------------------------------------------------------------------System Type ••••••••••••• : (MZ) Number of Zones ••••••••• : 2 Floor Area •••••••••••••• : 916 sqft ---------~---------------------------------------------------------------, COOLI;NG·_.COIL SIZING DATA · -------:-r-~~---------------------------------------r---------------------------. ' -~~ . : Total coil load (Tons) ••• : 2 .• 4 Load occurs at ••• : Jun 1700 -· ·. · · '",: Sensible coil load (Tons): 1.9 OA DB/RH ·(F/%) ••• : 85.0/ 41.0 _.;·)~~J: Coil CFM at. Jun 1700 ••••• : 843 Entering Db/Wb ••• : 80.5/ 65.4 F .-·,,,~-i-1 Max coil airflow (CFM) ••• : 956 Leaving Db/Wb •••• : 55.0/ 53. 7 F ::.?:! Design supply temp (F) ••• : 55. 0 Coil ADP ••••..•.• : 52. 2 F .--: :· t! sqft/Tons •••••••••••••••• : 3 79. 8 Bypass factor •••• : _ 0. 100. . ·,:;.fi--: BTU/hr/sqft .••••••••••••• : 31.6 Resulting RH ••••• : 48 %. ::,J.' •. -: Water gpm@ l0F rise ••••• : 5.79 CENTRAL HEATING COIL SIZING DATA ----~--------------------------------------------------------------------Max coil load (BTU/hr) ••• : Coil airflow (CFM) ••••••• : Design supply temp (F) ••. : 22530 662- 90.0 BTU/hr/sqft ••••••••. : Water gpm@ 20F drop: 24.6 2.25 -------------------------------------------------------------------------SUPPLY FAN SIZING DATA -------------------------------------------------------------------------Actual airflow (CFM) ••••. : 956 Standard airflow (CFM) ••• : 954 -------------------------------------------------------------------------VENTILATION AIR DATA -------------------------------------------------------------------------A,irflow (CFM) •••••••••••• : CFM/sqft •.•••..•••.••.••• : 300 0.33 CFM/person ...•••••.•. : 15.00 ---------------------------------------------------------~--------------- . ,I 1 ZONE SIZING SUMMARY . \A-'f-l j ~-~ Air System .• : SYNTRON 2 R & D ASSEMBLY 1 -• 04-29-95 Weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 ************************************************************************* TABLE 1: ZONE SIZING DATA -+-------------------------+---------------------------+-----------------+ Cooling· · · Air Heating Water Sensible Flow Design Load Rate Zone Name (MBH), (CFM) Mon Hour (MBH) {gpm) +-------------------------+--~------------------~-----+-----------------+ I Zone .. 1 .•. ~ ••• _.~ •••• _.~.-•••• , 10.3··· 476 Jul 1900 j 3.7 0.37 I Zone 2.................. 10.3.. 480 Jun 1900 · 4.8 0.48 ' . +-------------------------+---------------------------+-----------------+ Note~ Zone loads calculated at occupied thermostat setpoint • ... TABLE 2: SPACE AIRFLOWS (Based On Zone CFM/sqft) +-----------------------------------------------------------------------+ · _;;:,. -. /· '·. -": .,-· Zone · -Space Airflow Airflow Zone Name (CFM/sqft) Space Name (CFM) +---------------------------------~-------------------------------------+ I Zone 1.................. 1.48 SYNTRON 2 R & D.......... 476 I +-----------------------------------------------------------------------+ I Zone 2.................. 0.81 SYNTRON 2 ASSEMBLY 1..... 480 I +----------7------------------------------------------------------------+ -------·--~ -• #'--~-~--------·· ~---·--- I AIR SYSTEM DESIGN LOAD SUMMARY - Air System.: SYNTRON 2 R & D ASSEMBLY 1 · 04-29-95 Weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 of 1 **~********************************************************************** , +-------------------------------------------------------------------~---+ I COOLING AT •••••••• : Jun @ 1700 · . . HEATING AT •••••• : Winter Design I COOLING OA DB/RH ••. : 85.0 F / 41 % , HEATING OA DB ••• : '. 34.0 F . +------------------------+--------------+--------------------+----------+ l . . · ·. · ·-." ... : . . C O O L I N G · . · l HEATING · . .· · · . ._ · · · -, ~-.'; ·. Sensible Latent' Sensible _:~!~-~~~!-~~----------+---~=:~~=~~~J~+-i~=~~~=l~-i~~~~=l~: ~i~=~~~=l-+ Solar Loads' 0 ·$"qf:t:::, < • 0 I Wall Transmission 1753 sgft. 3115 5680 Roof Transmission O sqft,. 0 0 '· Glass Transmission . O sgft -· O O Skylight Transmission ·o. · sqf~_:-:. o o . Doo_r Transmis·sion . 0 ~ sgf·e:-, · · ·-·'. 0 --~ 0 Floor Transmission o sqft · o o Partitions O sqft · 0 . O Ceiling O sqft O O Lighting 2.00 W/sqft 5640 Equipment o.oo W/sqft o People 20 people 4322 4100 Infiltration 790 328 2845 Miscellaneous 6128 0 Safety Factor . 0/ 0/ O % o O O +------------------------+--------------+---~----------------+----------+ I >>Total Zone Loads (1) I I 19996 4428 I 8524 I +------------------------+--------------+--------------------+----------+ Zone Conditioning ( 2) 18803 4428 10955 Plenum Wall Load O % O Plenum Roof Load o % o Plenum Lighting Load O % O Return Fan Load o O Ventilation Load 300 CFM 2465 1325 11197 Supply Fan Load 956 CFM 708 -708 Space Fan Coil Fans O O Duct Heat Gain/Loss o % o O +------------------------+--------------+--------------------+----------+ I >>Total System Loads I · . · ·. . I 21·976 5752,., 21443 I +------------------------+--------------+--------------------+----------+ Central Cooling Coil 23136 5805 -1087 Central Heating Coil -1160 22530 Precool Coil O O 0 Preheat Coil O O Central Reheat Coil 0 Humidification Load 0 0 Terminal Reheat Coils o· o Space/Skin Heat Coils 0 0 +------------------------+--------------+--------------------+----------+ I >>Total Conditioning I I 21976 5805 I 21443 I +------------------------+--------------+--------------------+----------+ Notes: (1) (2) (3) (4) Zone loads calculated at occupied thermostat setpoint. Zone conditioning based on heat extraction analysis. In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. --·--------------,----___ ., .. _._,....., ________ ... ..,._ " -,------------"-·· -· ..,_i-, ~ I AIR SYSTEM SIZING SUMMARY kt-p.., ~ I J.\,f -q Air System.: SYNTRON 2 FIBERGLASS PRO STORAGE -. 04-29-95 Weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A • .L.M. ENGINEERING Page· 1 of 1 **~********************************************************************** AIR SYSTEM INFORMATION -------------------------------------------------------------------------System Type.·.· ••••••••••• : (MZ )·· : / Nwnber of Zones ••••••••• : . 2 Floor Area .•••••••••••••• : 618 sqft ... ·;=. ~ : . _;. ,,~ ':..-' . ~ . -------------------------------------------------------------------------COOLING. COIL-SIZING DATA . ,;· . . -. ?:: ______ ...: _________________________ .,; ________________________________ :.,.: ___ _;.,:____ '" ... ,'1•' • f • • • _ ' ',' ' • ~ • >c Total _·coil load (Tons) ••• : -. : ' 1. 4 Load occurs at.· •• : :-.Jun 1600 Sensible coil load (Tons): · --1~3-OA DB{~ (F/%). ~.-: 85f;f / 40.1 -Coil CFM at Jun 16'00 ••••• : 576 Entering Db/Wb •• -. : 79.3/ 63. 7 F Max coil airflow ( CFM) ••• : 647 Leaving Db/Wb •••• : 55-~ '0/ 53. 6 F .- Design supply temp (F) ••• : 55. o Coil ADP ••••••••• :·:.-·,_ ·, 52. 3 F . sqft/Tons •••••••••••••••• : 442.4 Bypass factor •• t'.: -~·-· '1· 0.10'0··. ··.· ··- BTU/hr/sqft •••••••••••••• : 27. 1 Resulting RH ••••• : · · 44 % Water gpm@ l0F rise ••••• : 3.35 CENTRAL HEATING COIL SIZING DATA . Max coil l_oad (BTU/hr) ••• : Coil airflow (CFM) ••••••• : Design supply temp (F) ••• : 12018 434 90.0 BTU/hr/sqft ••••••••• : 19.4 Water gpm@ 20F drop: · 1.20 -------------------------------------------------------------------------SUPPLY FAN SIZING DATA -------------------------------------------------------------------------Actual airflow (CFM) ••••• : 647 Standard airflow (CFM) ••• : 646 -------------------------------------------------------------------------VENTlLATION AIR DATA -------------------------------------------------------------------------Airflow (CFM) •••••••••••• : CFM/sqft •...•••••..••••••. : 95 0.15 CFM/person ••••••••••• : · 47. 50 -· · ·\ ------------------------------------------------------------------------- . -"; -----~ .. . ZONE SIZING SUMMARY Air System.: SYNTRON 2 FIBERGLASS PRO STORAGE 04-29-95 weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 ***************************************************************'********** TABLE 1: ZONE SIZING DATA · +------------~------------+---------------------------+-----------------+ '' Zone Name Cooling Sensible (MBH) Air Flow (CFM) Design Mon Hour Heating. Load (MBH) Water Rate (gpm) +-------------------------+---------------------------+-----------------+ I Zone 1 •... · .• ~ ... ~.~-~···I · 11.2 519 Jul 1500 I 3.1 · 0.3t I Zone i. . . . . . . . . •.. . . . . . . . 2. 8 129 Jul 1900 2;. 3 . O. 23 +-------------------------+---------------------------+----~~-~-~-------+ Note: Zone l~ads calculated at occupied thermostat setpoi~t.. TABLE 2: SPACE AIRFLOWS (Based On Zone CFM/sqft} . +-----------------------------------------------------------------------+ Zone Space Airflow Airflow Zone Name (CFM/sqft) Space Name (CFM} +-----------------------------------------------------------------------+ I zone 1.................. 1.55. SYNTRON 2 FIBERGLASS..... 519 I +-----------------------------------------------------------------------+ I Zone 2.................. 0.45 SYNTRON 2 PRO STORAGE.... 129 I +--------------------------------------------------~--------------------+ ,,, (t ·- AIR SYSTEM DESIGN LOAD SUMMARY 0f~1.,, / jt!--f-1 Air System.: SYNTRON 2 FIBERGLASS PRO STORAGE 04-29-95 Weather •••• : CARLSBAD, California HAP v3 •. 02 Prepared By: A.L.M. ENGINEERING Page 1 of 1 ************************************************************************* +-----------------------------------------------------------------------+ I COOLING AT •••••••• : Jun @ .1600 . HEATING AT •••••• : Winter Design I COOLING OA DB/RH •• : 85.7 F / 40 % HEATING OA DB ••• : 34.0 F +------------------------+--------------+--------------------+----------+ · · . :: . · · · Sensible Latent Sensible -. ' . l , . . l · C O O L I N G l HEATING +-:~!~-~~~~:-~~~-~-:-~--~--~=~:~~~-----~~=~~~=~--i~=~~~=l~ -~~=~~~=~-+ Solar Loads · . . .· 0 sqft 0 Wall Transmission·:.:"_ .. 842 sqft 4 • 1317 Roof Transmission ·<·· · 334 sqft· 1419 Glass Transmission . O sqft O Skylight Transmis~ion.;. · . O sqft, O Door Transmission· · ' 0 sqft O Floor Transmission O sqft 0 Partitions O sqft O Ceiling O sqft O Lighting 2.00 W/sqft 3749 Equipment o.oo W/sqft O People 2 people 424 410 Infiltration · 570 426 Miscellaneous 6274 O 2728 721 0 0 0 0 0 0 1919 Safety Factor 0/ 0/ o % O O O +------------------------+--------------+--------------------+----------+ I >>Total Zone Loads (1) I I 13754 836 I 5369 I +------------------------+--------------+--------------------+----------+ Zone Conditioning (2) 12958 836 6794 Plenum Wall Load O % O Plenum Roof Load O % O Plenum Lighting Load O % O Return Fan Load o o Ventilation Load .95 CFM 848 818 3558 Supply Fan Load 647 CFM 480 -480 Space Fan· Coil Fans O o Duct Heat Gain/Loss ·o % o o +------------------------+--------------+---------------~----+----------+ I >>Total System Loads ·· · I I 14286 1654 · I 9872 I +------------------------+--------------+--------------------+----------+ Central Cooling Coil 15108 1656 -2145 Central Heating Coil· -822 12018 Precool Coil O O O Preheat Coil O 0-· Central Reheat Coil O Humidification Load o O Terminal Reheat Coils O O Space/Skin Heat Coils O o +------------------------+--------------+--------------------+----------+ I >>Total Conditioning I I 14286 1656 I 9872 I +------------------------+--------------+--------------------+----------+ Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. ( 3) In the COOLING co·l umn, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. ~...,.:;~-......... --... -~...;....:._ .. _~------'------.. ~.--· ------------.,.. ___ --· -~-----... ~. --··· , --...... .. t! ... ~ . ~: AIR SYSTEM SIZING SUMMARY · / 1 in Air System.: SYNTRO_N 2 MEM. CK M~M CT MEM BLCK ''Af'-<3 (.If-04-29-95 Weather •••• : CARLSBAD, California HAP v3.02. Prepared By: A.L.M. ENGINEERING Page 1 of 1 ***********************************************~**************~********** AIR SYSTEM INFORMATION ·-------------------System Type ••••••••••••• : (MZ) Number of zones ••••••••• : 3 Floor Area •••••••••••••• : 737 sqft COOLING COIL SIZING DATA _______________________ , . Total coil load (Tons) ••• : Sensible coil load (Tons): Coil CFM at Jun 1500 ••••• : Max coil airflow (CFM) ••• : Design supply temp· (F) ••• : sqft/Tons ••••••• ~ • ~ ; · ••••• : BTU/hr/sqft •••••••••••••• : Water gpm@ l0F rise ••••• : ·---------------------------CENTRAL HEATING COIL-SIZING DATA Max coil load (BTU/hr) ••• : Coil airflow (CFM) ••••••• : Design supply temp (F) ••• : 1.2 1. 0 .. 460 527 55.0 600.9 20.0 2.95 12727 412 90.0 Load occurs at ••• : OA DB/RH (F/%) ... : Entering Db/Wb ••• : Leaving Db/Wb •••• : Coil ADP ....•.... : Bypass factor •••• : Resulting RH ••••• : Jun 1500 86.0/ 39.7 79.9/ 64.6 F 55.0/ 53.6 F 52.2 F 0.100 46 % BTU/hr/sqft ••••••••• : 17.3 1.27 Water gpm@ 20F drop: --------------~----------------------------------------------------------SUPPLY FAN SIZING DATA -------------------------------------------------------------------------Actual airflow (CFM) ••••• : 527 Standard airflow (CFM) ••• : 526 -------------------------------------~-----------------------------------VENTILATION AIR DATA ----------------~--------------------------------------------------------Airflow (CFM) •••••••••••• : CFM/sqft ..........•....•. : 115 0.16 CFM/person ••••••••••• : 16.43 ------------------------------------------------------------------------- -... ~ ~ ·..: :_. ·}·· .•. .... . -1'-,' ', i } ZONE SIZING SUMMARY \~:O "Jj 1· If) /, 0 . Air System.: SYNTRON 2 MEM CK MEM CT MEM BLCK f'-\ ,. -f"f -&4-29-95 Weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 . **~********************************************************************** TABLE 1: ZONE SIZING DATA +-------------------------+---------------------------+-----------------+ Cooling Air Heating Water Sensible Flow Design Load Rate Zone Name (MBH) (CFM) Mon Hour (MBH) (gpm) +-----~-------------------+---------------------------+-----------------+ + -. . . Zone_ .1; ·• -· ••••• ~ •••••••••• Zorie 2. '~'. • •.••••••••••••• Zone 3 ••••.••••••••••••.• · 6.4 2.3 2.7 295 107 124 Jul 1500 Jul 1500 Jul 1500 3.4 1.4 1.9 0.34 0.14 0.19 +--~----------------------+----------~----------------+-----------------+ Note: Zone load~ calculated at occupied thermostat setpoint. TABLE 2: SPACE AIRFLOWS (Based On Zone CFM/sqft) +-------~------------~--------------------------------------------------+ Zone Space Airflow Airflow Zone Name (CFM/sqft) Space Name (CFM) +--------------------------------~--------------------------------------+ I Zone 1. ••••••••• ·• • • • • • .• • O. 7 3 SYNTRON 2 MEMBRANE BLOCK. 2 9 5 I +-----------------------------------------------------------------------+ I Zone 2 •••••.•.••••••••.• · 0.68 SYNTRON 2 MEMBRANE CHK... 107 I +-----------------------------------------------------------------------+ I Zone 3.................. 0.71 SYNTRON"2 MEMBRANE COAT.. 124, I +-----------------------------------------------------------------------+ , . ~ .. -,:,,._, ii' . ' .. ' .• j ,, -: ,i , "·-., ~ · .. ,, AIR SYSTEM DESIGN LOAD SUMMARY A ID f 14-P-JO Air System.: SYNTRON 2 MEM CK MEM CT MEM BLCK ~r -3 04-29-95 J weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 of 1 ************************************************************************* +-------------------------------------~---------------------------------+ I COOLING. AT •••••••• : Jun @ 1500. HEATING AT •••••• : Winter Design I COOLING OA DB/RH •• : 86.0 F / 40 %· HEATING OA DB ••• : 34.0 F +------------------------+--------------+--------------------+----------+ : -.· . .· : · ··· Sensible Latent Sensible . . l · l C O O L I N G HEATING +-:~!~~~~~~~~~~------------~=:=~=~~--~ _i~:~~~:l __ i~~~~=l-+_i~:~~~=l-+ Solar Loads 36 sqft 123 Wall Transmission 832 sqft 1226 Roof Transmission 737 sqft 3432· Glass Transmission 36 sqft 375 Skylight Transmission O sqft O Door Transmission· · O sqft O Floor Transmission O sqft 0 Partitions O sqft o Ceiling· o sqft O Lighting 2.00 W/sqft 4395 Equipment o.oo W/sqft O People 7 people 1454 1435 Infiltration 316 169 Miscellaneous O O 2696 1592 1426 0 0 0 0 0 1034 Safety Factor 0/ 0/ O % O O O +------------------------+--------------+--------------------+----------+ I >>Total Zone Loads (1) I I 11321 1604 I 6747 I +------------------------+---------~----+--------------------+----------+ Zone Conditioning (2) 10162 1604 8097 Plenum Wall Load O % O Plenum Roof Load o % O Plenum Lighting Load o % o Return Fan Load · . O O Ventilation Load 115 CFM 1075 718 4234 Supply Fan Load 527 CFM 390 -390 Space Fan Coil Fans O O Duct Heat Gain/Loss O % O O +------~-----------------+--------------+--------------------+----------+· I >>Total System Loads I · · · I 11627 · 2321 I 11940 I +------------------------+--------------+--------------------+----------+ Central Cooling Coil 12354 2365 -786 Central Heating Coil -727 12727 Precool Coil O O O Preheat Coil O -o. Central Reheat Coil O .Humidification Load O O Terminal Reheat Coils O O Space/Skin Heat Coils O O +------------------------+--------------+--------------------+----------+ I >>Total Conditioning I I 11627 2365 I 11940 I +------------------------+-------------~+--------------------+----------+ Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the -COOLING column, positive loads indicate heat ga·ins, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. , ~ '-:~:·::~ ' '-~. . ,, ·., \ L iO -1t ·1 1 L(> ~l;f AIR SYSTEM SIZING SUMMARY t,\ 7 ~ Air System.: SYNTRON 2 SECOND FLR PRO ASSEMBL -04-29-95 Weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 of 1 ************************************************************************* AIR SYSTEM INFORMATION -------------------------------------------------------------------------· System Type •••••• · •••.•••• : ( MZ ) Number of Zones ••••.••••• : '1 ':' • :.:, ·:·:-, ._,:·~-.{'~,:_>·!_ ··-.. - Floor Area •••••••••••••• : 674 sqft --------------------------------------------------------------------------,I, • - COOLING COIL SIZING DATA ·_· · :.--. ~ .. ---:, .... -. .;-,,:, .· -----~---------------------------------~~---------7------~-----~----------Total coil load (Tons) ••• : 1. 5. r Load occurs a:t •.•• : Jul 1500 Sensible coil load (Tons): l.'2: OA DB/RH ·(F/%) ••• : 87.0/ 37.7 Coil CFM at Jul 1500 ••••• : 489_ · Entering Db/Wb ••• : 82.0/ 66.0 :E< .. ·.;" Max coil airflow (CFM) ••• : -555 Leaving Db/Wb; •••. : 55. 0/ 53. 6 F . < Design supply temp ( F) ••• : 55 •. o· Coil ADP ••••••••• : 52. o ,r : · sqft/Tons •••• ~ ••••••••••• : _ 44·9 :1 ,;,;. ·· ·, Bypass factor •.••• : ~ · · o .100 .. ,: ·: BTU/hr/sqft ••••••••••••••. : 26.7 Resulting RH ••••• : 49 % Wate~ gpm@ lOF rise ••••• : 3.60 -------------------------------------------------------------------------CENTRAL HEATING COIL SIZING DATA Max coil load (BTU/hr) ••• : Coil airflow (CFM) ••••••• : Design supply temp (F) ••• : 15314 407 90.0 BTU/hr/sqft ••••••••• : water gpm@ 20F drop: 22.7 1.53 . . -------------------------------------------------------------------------. . SUPPLY FAN SIZING DATA Actual airflow (CFM) •.••• : 555 Standard airflow (CFM) ••• : 554 -------------------------------------------------------------------------VENTILATION AIR DATA Airflow (CFM) •••••••••••• : CFM/sqft ..•...•••.•....•• : 225 0.33 CFM/person ••••••••••• : 15.00 -·;-:~ --·----~----... -.... ~ ZONE SIZING SUMMARY \-tf~q ~{)-\( Air System.: SYNTRON 2 SECOND FLR PRO ASSEMBL · 04-29-95 Weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 ********************************fa**************************************** TABLE 1: ZONE SIZING DATA +-------------------------+---------------------------+-----------------+ Cooling Air Heating·· Water Sensible Flow Design Load· Rate Zone Name (MBH) (CFM) Mon Hour (MBH) . (gpm) +-~-----------------------+---------------------------+----~------------+ I zone _1 •••••••• · ••••••••• -1 12.0 555 Jul 1500 I · _5.8 · . 0.5,0 I +-------------------------+------~--------------------+-----------~--~--+ Note: Zone loads ca·lculated ~t ·occupied thermostat setpoint. . . : . . . . TABLE' 2: .. SPACE AIRFLOWS ( Based On Zone CFM/ sqft) +----~------------------------------------------------------------------+ Zone Space · · ·:-~: · Airflow .Airflow ., Zone Name (CFM/sqft) Space Name (CFM) +-----------------------------------------------------------------------+ I Zone 1.................. 0.82 SYNTRON 2 ASSEMBLY 2..... 555 I +-----------------------------------------------------------------------+ AIR SYSTEM DESIGN LOAD SUMMARY t+e-'\ ) !tP-u Air System.: ·sYNTRON 2 SECOND FLR PRO ASSEMBL _ 04-29-95 Weather •••• : CARLSBAD, California HAP v3.02 Prepared By: A.L.M. ENGINEERING Page 1 of 1 ************************************************************************* +-----------------------------------------------------------------------+ I COOLING AT •••••••• : Jul @ 1500 HEATING AT •••••• : Winter Design I COOLING OA DB/RH .. : 87.0 F / 38 % HEATING OA DB ... : 34.0 F +------------------------+--------------+-----------------~--+----------+ COOLING HEATING Sensible Latent Sensible . ZONE LOADS .. ,\ ' Details (BTU/hr) (BTU/hr) (BTU /hr) . +------------------------+--------------+--------------------+----------+ ' . . ' -~ . Solar Loads o sqft · -0 ' Wall Transmission 690 ·sqft 1002 Roof Transmission 67~ sqft· 3135 Glass Transmission O sqft 0 Skylight Transmission o sqft o Door Transmission· -0 sq£t-0 Floor Transmission o sqft o Partitions O sqft 0 Ceiling O sqft o Lighting 2.00 W/sqft 4019 Equipment o.oo W/sqft o People 15 people 3116 3075 Infiltration 698 125 Miscellaneous O O 2236 1456 0 0 0 0 0 0 2093 Safety Factor 0/ 0/ o % o O O +--~---------------------+--------------+--------------------+----------+ I >>Total Zone Loads ( 1) I I 11970 3200 I 5785 I +------------------------+--------------+--------------------+----------+ Zone Conditioning (2) 10916 3200 7359 Plenum Wall Load O % O Plenum Roof Load o % 0 ·Plenum Lighting Load 0 % 0 Return Fan Load o 0 Ventilation Load 225 CFM 2334 497 8345 Supply Fan Load 555 CFM 411 ~411 Space Fan Coil Fans . 0 0 Duct Heat Gain/Loss o % o . 0 +------------------------+--------------+-----------------~--+----------+ I >>Total System Loads .. I . . I 13662 ·3697 .-1 15292 I +------------------------+--------------+--------------------+----------+ Central Cooling Coil 14231 3755 -22 Central Heating Coil -569 15314 Precool Coil o 0 0 Preheat Coil 0 0 Central Reheat Coil o Humidification Load 0 0 Terminal Reheat Coils 0 0 Space/Skin Heat Coils 0 0 +------------------------+--------------+--------------------+----------+ I >>Total Conditioning I I 13662 3755 I 15292 I +------------------------+--------------+--------------------+----------+ Notes: (1) Zone loads calculated at occupied thermostat setpoint. (2) Zone conditioning based on heat extraction analysis. (3) In the COOLING column, positive loads indicate heat gains, while positive coil loads indicate system heat removal. (4) In the HEATING column, positive loads indicate heat loss, while positive coil loads indicate system heat addition. ,} .. . AIR SYSTEM INPUT DATA Name: SYNTRON 2 MEM CK MEM CT MEM BLCK . 04-29-95 Type: CONSTANT VOLUME -Multizone HAP v3.02 Prepared by: A.L.M. ENGINEERING Page 1 ***********************************************************************·** 1. SYSTEM NAME AND TYPE -------------------------------------------------------------------------Name .•.•.......• : SYNTRON 2 MEM CK MEM CT MEM BLCK.,. Type •••••••••••• : CONSTANT VOLUME -Multizone . '·.· : .. Number of Zones.: 3 ---=== 2. SYSTEM DESCRIPTION ~---------------------------------~--------------------------------------COOLING SYSTEM DATA -. " Cold Deck Temperature •• ~ .:"~ ~ ••• : Coil Bypass Factor •••••• '. ; · •••• : Cold Deck Reset •••••••••••• ~ •• : HEATING SYSTEM DATA .... ;· ·~ Hot Deck Temperature •••••••••• : Hot Deck Reset •••••••••••••••• : OUTDOOR VENTILATION DATA Type of Control ••••••••••••••• : Design Ventilation Airflow •••• : Dampers Open During Unocc Per.: Damper Leak.Rate •••••••••••••• : SUPPLY DUCT DATA· Duct Heat Gain •••••••••••••••• : Duct Leakage Rate •••••••••••.• : RETURN PLENUM DATA Is a Return Plenum Used ••••••• ? SUPPLY FAN DATA Fan Type ..•............•...... : Fan Total Static •••••••••••••• : Fan Efficiency •••••.•••••••••• : RETURN FAN DATA Fan Type •••••••••••••••••••••• : OUTDOOR AIR ECONOMI Z·ER Outdoor Economizer Type ••••••• : PREHEAT COIL Preheat Coil Used ••••••••••••• ? PRECOOL COIL Precool Coil Used ••••• ; ••• · •••• ? VENTILATION HEAT RECLAIM Reclaim Unit Type ••••••••••••• : SAFETY FACTORS . Sensible Cooling Factor ••••••• : Latent Cooling Factor ••••••••• : 55.0 F 0.100 Not Used 90.0 F Not Used Constant Airflow Rate 115.0 CFM N 0 % 0 % . 0 % N Forward Curved 1.00 in.wg. 54 % None None N N None 0 % 0 % 0 % Heating Factor •••••••••••••••• : ========== AIR SYSTEM INPUT DATA · Name: SYNTRON 2 MEM CK MEM CT MEM BLCK 04-29-95 Type: CONSTANT VOLUME -Multizone HAP v3.02 Prepared by: A.L.M. ENGINEERING Page 2 ************************************************************************* 3. ZONE DATA -------------------------------------------------------------------------ZONE T-Stat Occupied Cooling~ • · •• ( F) : · Unoccupied Cooling •• (F): Occupied Heating •••• (F): Unoccupied Heating •• (F): Throttling Range ..... (F): Zone Heating Unit Type.: •••••• : Trip Temperature •.••••••• (F): Design Supply Temperature(F): Fan Total Static .••• (in.wg.): Fan Efficiency ••.•••••••• (%): Zone Terminal Type •••••••••••• : Reheat Coil ..••••••••••••••• ? Diversity Factor ••••••••••• (%): Direct Exhaust Airflow •.• (CFM): Direct Exhaust Fan kW •.••• (kW): 4. SCHEDULE DATA HOURLY TSTAT SCHEDULES 1 75.0 85.0 70.0 60.0 3.0 None CAV MBox N 100 o.o 0.0 (All Zones the Same) Design Day .•......••.•• Weekday ............... . Saturday ..............• Sunday .. _. ............. . xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx Cooling Available During Unoccupied Period? Y MONTHLY SCHEDULES jJANjFEBjMARjAPRjMAYjJUN!JUL!AUGjSEP!OCT!NOVjDECj ------------------------------------------------------------------------- J _. AIR SYSTEM INPUT DATA Name: SYNTRON 2 FIBERGLASS PRO STORAGE 04-29-95 Type:.CONSTANT VOLUME -Multizone HAP v3.02 Prepared by: A.L.M. ENGINEERING . Page 1 ************************************************************************* 1. SYSTEM NAME AND TYPE -------------------------------------------------------------------------Name .••• ; ••. ~ .•. : SYNTRON 2 FIBERGLASS PRO STORAGE 'fype •• :.~ ••• ~ ••. : CONSTANT VOLUME -Multizone Number of Zones.: 2 ====-= ---==== . ~~ ! ·~.i.\.~ .~~ _,-j - 2. SYSTEM DESCRIPTION ·· · · · --------------------------------------------------------------------------' COOLING SYSTEM DATA Cold Deck Temperature ••• ~-••• · •• :. Coil Bypass Factor ••••••• ; •••• : Cold Deck Reset ••••••••••••••• : HEATING SYSTEM DATA · · . Hot Deck Temperature •••••••••• : Hot Deck Reset •••••••••••••••• : OUTDOOR VENTILATION DATA Type of Control •••.•••••••••••• : Design Ventilation Airflow •••• : Dampers Open During Unocc Per.: Damper Leak Rate •••••••••••••• : SUPPLY DUCT DATA Duct Heat Gain •••••••••••••••• : Duct Leakage Rate ••••••••••••• : RETURN PLENUM DATA Is a Return Plenum Used ••••••• ? SUPPLY FAN DATA Fan Type •••••••••••••••••••••• : Fan Total Static •••••••••••••• : Fan Efficiency •••••••••••••••• : RETURN FAN DATA Fan Type .•••••••••••••••••••••• : OUTDOOR AIR ECONOMIZER outdoor Economizer Type ••••••• : PREHEAT COIL Preheat Coil Used ••••••••••••• ? PRECOOL COIL Precool Coil Used ••••••••••••• ? VENTILATION HEAT RECLAIM Reclaim Unit Type ••••••••••••• : SAFETY FACTORS Sensible Cooling Factor ••••••• : Latent Cooling Factor ••••••••• : Heating Factor •••••••••••••••• : 55.0 F 0.100 Not Used 90.0 F Not Used Constant Airflow Rate 95.0 CFM N 0 % 0 % 0 % N Forward Curved 1.00.in.wg. 54 % None None None N N 0 % 0 % 0 % --i -~~---...... ----" • " ----~---~,~ AIR SYSTEM INPUT DATA Naine: SYNTRON 2 FIBERGLASS PRO STORAGE 04-29-95 Type: CONSTANT VOLUME -Multizone HAP V3. 02 Prepared by: A.L.M. ENGINEERING . . Page 2 ************************************************************************* 3. ZONE DATA -------------------------------------------------------------------------.-i 4• t '" ZONE , :: > , · ·. ·; -.: . : · · .. T-Stat Occupied Coolin9 •••• (F): unoccupied Cooling •• (F): · Occupie9 H~.atin9 •••• ( F) : Unoccupied Heating •• (F): Throttling -Range •••• ( F) :· Zone Heating Unit·Type •••••••• : Trip Temperatui'Eh'~ ••••••• ( F) : Design Supply Temperature(F): Fan Total Static •••• (in.wg.): Fan Efficiency/ .•. .: •. ·~ •••••• ( % ) : Zone Terminal Typ'e :· ."--~ •.• ;·.; ••••• : Reheat Coil ••• ; .•••• ; •••••••• ? Diversity Factor.~ •• ~ •••••• (%): Direct Exhaust Airflow ••• (CFM): Direct Exhaust Fan kW ••••• (kW): 4. SCHEDULE DATA HOURLY TSTAT SCHEDULES l · ( All Zones the Same) 75.0 ss.·o 70.0.: 60.0 ' 3.·0 ·:. None. CAV MBox . N 100 o.o o.o Design Day ••••••••••••• Weekday •••••••••••••••• Saturday ••••••••••••••• Sunday ................ . xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxx.xxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx ========================--- Cooling Available During Unoccupied Period? Y MONTHLY SCHEDULES IJANjFEBIMARIAPRIMAYIJUNjJULIAUGISEPIOCTINOVIDECI ------------------------------------------------------------------------- Central Heating ••• ~ •••• 1xxxxxxlxxxxxxlxxxxxxlxxxxxxlxxxxxxlxxxxxxlxxxxxxlxxxxxxlxxxxxxlxxxxxx_ lxxxxxxlxxxxxxl Central Cooling •••.•• ~ r • ===:=========== ·.': "11. ''· l AIR SYSTEM INPUT DATA Name: SYNTRON 2· R & D ASSEMBLY 1 04-29-95 Type: CONSTANT VOLUME -Multizone HAP v3.02 Prepared by: A.L.M. ENGINEERING Page 1 ************************************************************************* 1. SYSTEM NAME AND TYP~ -------------------------------~-----------------------------------------Name ..•..•...•.. : 'SYNTRON 2 R & D ASSEMBLY 1 ,.· , Type •••••••••••• : CONSTANT VOLUME -Multizone' Number of zones.: 2 2. SYSTEM DESCRI~TION -------------------------------------------------------------------------COOLING SYSTEM DATA ·cold Deck Temperature ••••••••• : Coil Bypass Factor •••••••••••• : Cold Deck Reset ••••••••••••••• : HEATING SYSTEM DATA Hot Deck Temperature •••••••••• : Hot Deck Reset •••••••••••••••• : OUTDOOR VENTILATION DATA Type of Control ••••••••••••••• : Design Ventilation Airflow •••• : Dampers Open During Unocc Per.: Damper Leak Rate •••••••••••••• : SUPPLY DUCT DATA Duct Heat Gain •••••••••••••••• : Duct Leakage Rate~ •••••••••••• : RETURN PLENUM DATA Is a Return Plenum Used ••••••• ? SUPPLY FAN DATA Fan Type •••••••••••••••••••••• : Fan Total Static •••••••••••••• : Fan Efficiency .•.•••••••••••.• : RETURN FAN DATA Fan Type •••••••••••••••••••••• : OUTDOOR AIR ECONOMIZER outdoor Economizer Type ••••••• : PREHEAT COIL Preheat Coil Used ••••••••••••• ? PRECOOL COIL Precool Coil Used ••••••••••••• ? VENTILATION HEAT RECLAIM Reclaim Unit Type ••••••••••••• : SAFETY. FACTORS .sensible Cooling Factor ••••••• : · Latent Cooling Factor ••••••••• : , Heating Factor •••••••••••••••• : 55.0F 0.100 Not Used· 90.0 F Not Used Constant Airflow Rate 300.0 CFM N 0 % 0 % 0 % N Forward Curved 1.00 in.wg. 54 % None None None N N 0 % 0 % 0 % .. ---' ' -. , "" , -~ ._, AIR SYSTEM INPUT DATA Name: SYNTRON 2 R & D ASSEMBLY 1 04-29-95 Type·: CONSTANT VOLUME -Multizone HAP v3. 02 Prepared by: A.L.M. ENGINEERING Page 2 ******************************************~****************************** 3. ZONE DATA -------------------------------------------------------------------------ZONE· T-Stat Occupied Cooling •••• (F): Unoccupied Cooling •• (F): Occupied Heating •••• (F): Unoccupied Heating •• (F): . Throttling Range •••• ( F) : Zone Heating Unit Type •••••••• : Trip Temperature ••••••••• (F): Design Supply-Temperature(F): Fan Total Static •••• (in.wg.): Fan Efficiency ••••.•••••• (%): Zone Terminal Type •••••••••••• : Reheat Coil ••••••••••••••••• ? Diversity Factor ••••••••••• (%): Direct Exhaust Airflow ••• (CFM): Direct Exhaust Fan kW ••••• (kW): 4. SCHEDULE DATA HOURLY TSTAT SCHEDULES 1 (All Zones the Same) ·1s.o 85.0 70.0 60.0 3.0 None CAV MBox N 100 o.o o.o Design Day ....••..••.•• Weekday •••••••••••••••• Saturday .............. . Sunday ••••••••••••••••• xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx Cooling Available During Unoccupied Period? Y MONTHLY SCHEDULES IJANIFEBIMARIAPRIMAYIJUNIJULIAUGISEPIOCTINOVjDECI -------------------------------------------------------------------------g:~~~!i ~~~It~i:::::::: liiiliiiliiiliiiliiiliiiliiiliiiliiiliiiliiil~I · .. ~ ., ,~, ·,"': :::, ~·-~ p' :·f' --~ ---:=-:---... ,, , AIR SYSTEM INPUT DATA Name: SYNTRON 2 SECOND FLR PRO ASSEMBL 04-29-95 Type: ·coNSTANT VOLUME -Multizone HAP v3.02 Prepared by: A.L.M. ENGINEERING _ Page 1 ************************************************************************* 1. SYSTEM NAME AND TYPE Name~~ ••• ; •••••• : SYNTRON 2 SECOND FLR PRO ASSEMBL Type • .; • · ••••••••• : CONSTANT VOLUME -Multi zone Number of Zones.: 1 ---- 2. SYSTEM DESCRIPTION· -------------------------------------------------------------------------COOLING SYSTEM DATA . Cold Deck Temperature. ~ ·~ •••••• : Coil Bypass Factor •••••••••••• : Cold Deck Reset ••.••••• ,, •••••••• : HEATING SYSTEM DATA Hot Deck Temperature •••••••••• : Hot Deck Reset •••••••••••••••• : OUTDOOR VENTILATION DATA Type of Control ••••••••••••••• : Design Ventilation Airflow •••• : Dampers Open During Unocc Per.: Damper Leak Rate •••••••••••••• : SUPPLY DUCT DATA Duct Heat Gain •••••••••••••••• : Duct Leakage Rate ••••••••••••• : RETURN PLENUM DATA Is a Return Plenum Used •••••.• ? SUPPLY FAN DATA · Fan Type •••••••••••••••••••••• : Fan Total Static •••••••••••••• : Fan Efficiency ................ : RETURN FU DATA . Fan Type •••••••••••••••••••••• : OUTDOOR AIR ECONOMIZER outdoor Economizer Type ••••••• : PREHEAT COIL Preheat .. Coil Used ••••••••••••• ? PRECOOL ... COIL Precool Coil Used ••••••••••••• ? VENTILATION HEAT RECLAIM Reclaim .Unit Type ••••••••••••• : SAFETY FACTORS Sensible Cooling Factor ••••••• : Latent Cooling Factor ••••••••• : Heating Factor •••••••••••••••• : 55~·0 F 0.106 Not Used 90.0 F Not Used Constant Airflow Rate 225.0 CFM N 0 % 0 % 0 % N Forward Curved 1.00 in.wg. 54 % None None .. None N N 0 % 0 % 0 % . '! AIR SYSTEM INPUT DATA Name: SYNTRON 2 SECOND FLR PRO ASSEMBL 04-29-95 Type: CONSTANT VOLUME -Multizone HAP v3.02 Prepared by: A.L.M. ENGINEERING Page 2 ************************************************************************* 3. ZONE DATA -------------------------------------------------------------------------ZONE - T-Stat Occupied Cooling •••• (F): Unoccupied Cooling •• (F): Occupied Heating •••• (F): Unoccupied Heating •• (F):. : Throttling Range •••• ( F) : Zone Heating Unit Type •••••••• : Trip Temperature ••••••••• (F): Design Supply Temperature(F): Fan Total Static •••• (in.wg.): Fan Efficiency ••••••••••• (%): Zone Terminal Type •••••••••••• : Reheat Coil ••••••••••••••••• ? Diversity Factor ••••••••••• (%): Direct Exhaust Airflow ••• (CFM): Direct_ Exhaust Fan kW ••••• (kW): 4. SCHEDULE DATA HOURLY TSTAT SCHEDULES 1 (All Zones the Same) 75.0 85.0 70.0 60.0 3.0 None CAV MBox N 100 0.0 0.0 Design Day ........•.... Weekday •••••••••••••••• Saturday .............. . Sunday ................ . xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxx~xxxxxxxxxxxxxx Cooling Available During Unoccupied Period? ·y MONTHLY SCHEDULES jJANjFEBjMARjAPRjMAYjJUNjJULjAUGjSEPIOCTjNOVIDECI central Heating •••••••• 1xxx1xxx1xxx1xxx1xxx1xxx1xxx1xxx1xxx1xxx1xxx1xxx1 Central Cooling •••••••• XXX XXX XXX XXX XXX XXX XXX XXX XXX XXX XXX XXX 'I' 14: .,. ! SPACE DESCRIPTION Prepared by: A.L.M. ENGINEERING 04-29-95 HAP v3. 02 Page 1 ***************************************************************************** GENERAL Name~.~: .. : SYNTRON Floor Area •••••• : 2 DRYROOM 1 1502.0 sqft 30.0 lb/sqft N Building weight.: Windows Shaded .• ? Partitions Used.? LIGHTING overhead Fixture: Lamp. wattage •.••• : Ballast Mult •••• : Task Lighting ••• : PEOP:J:,E .. Occupancy~ ...... : Activity Level •• : Sensible •••••.••• : Latent ••••• : ••.• : OTHER LOADS . Equipment ••••••. : Misc. Sensible .• : Misc. Latent •••• : N Recessed 2.00 W/sqft· 1 •. 00 0.00 W/sqft 40 People Office Work 245.0 BTU/hr 205.0 BTU/hr 0.00 W/sqft 36400.0 BTU/hr 0.0 BTU/hr SCHEDULES Lighting •••• : OFFICE Task Lights.: OFFICE People •••••• : OFFICE E9uipment ••• : OFFICE : Misc. Sens •• : OFFICE Misc. Latent: OFFICE INFILTRATION !;i- ' 1, ,', Cooling ••••• : · ; Heating ••••• : Typical ••••• : -When Fan on.? 0.00 C;F~/sqft 0.00 CFM/sqft · 0.00 CFM/sqft . FLOOR Type ........ :Above N .. ·: · ... ): ... '-~ :· 7 .~·: -. Conditioned Space WALL Gross Area WALL WINDOW I WINDOW I Any Exp (sqft) Type ·Type Qty Shade Type Qty Shade Doors? -----------------------------------------------------------------------------N 1932.0 1 19 36 1 ' 0 N No roof or door data for this space. No partition data for this space. t·i · .. I SPACE DESCRIPTION Prepared by: A.L.M. ENGINEERING 04-29-95 HAP v3.02 · Page 1 ***************************************************************************** GENERAL SCHEDULES - Na.me.~ ••.• : SYNTRON 2 MEMBRANE BLOCK -Lighting •••• : Floor Area •••••• : 404.0 sqft · Task Lights.: Building Weight.:_ 30.0 lb/sqft People •••••. : Windows Shaded •• ? : . N.· · · Equipment ••• : Partitions Used.? N Misc. Sens .. : LIGHTING Misc. Latent: overhead Fixture: Recessed INFILTRATION La.mp.Wattage •••• : 2.00 W/sqft Cooling ••••• : Ballast Mult •••• : 1.00 Heating ••••• : Task Lighting ••• :. o.oo W/sqft Typical ••••• : PEOPLE --When Fan On.? OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE 0.00 CFM/sqft 0.00 CFM/~qft 0.00 CFM/sqft N Occupancy ••••••• : . 5 People FLOOR Activity Level .• : Office Work Type •••••••• :Above Conditioned Space Sensible •••••••• : 245.0 BTU/hr Latent.· •••• ~-.••• : -205. 0 BTU/hr. OTHER LOADS E~uipment·:·····= Misc. Sensible •• : Misc. Latent •••• : 0.00 W/sqft 0.0 BTU/hr 0.0 BTU/hr WALL Exp Gross Area (sqft) WALL Type WINDOW Type Qty I WINDOW I Shade Type Qty Shade N 384.0 1 19 36 1 0 ROOF Slope Gross Area I ROOF I SKYLIGHT Exp {deg) ( sqft) Type Type Qty ---------~---------------------------------·--- HOR 404.0 1 1 0 No partition data for this space. Any Doors? N SPACE DESCRIPTION Prepared by: A.L.M. ENGINEERING 04-29-95 HAP v3.02 Page 1 ***************************************************************************** GENERAL SCHEDULES Name •••••• : SYNTRON 2 ASSEMBLY 2 Lighting ••.• : OFFICE. Floor Area •••••• : 674.0 sqft Task Lights.: OFFICE.- Building Weight.: 30.0 lb/sqft Peo~le •••••• : OFFICE Windows Shaded •• ?' N · E9u1pment ••• : OFFICE · .', Partitions Used.? N Misc. Sens .• : OFFICE LIGHTING Misc. Latent: OFFICE Overhead Fixture: Recessed INFILTRATION , ·., · , Lamp Wattage •••• : 2.00 W/sqft · _ Cooling_~ •••• : · Ballast Mul t •.•• : 1. O O Heating •.• ~-• : Task Lighting .•• : O. 00 W/sqft Typical • .-••• :_ PEOPLE . ' When Fan On.? 0.0.8 0.0·9 0.08 y CFM/sqft CFM/sqft CFM/sqft Occupancy .•••••• : 15 People FLOOR Activity Level •. : Office Work . Type •••••••• :Above Conditioned Space Sensible ••••..•• : 245.0 BTU/b.-r~._ Latent ••.•.•..•• : 205.0 BTU/hr OTHER LOADS Equipment ••••••• : Misc. Sensible •• : Misc. Latent •••• : 0.00 W/sqft 0.0 BTU/hr 0.0 BTU/hr WALL Exp Gross Area (sqft) WALL Type WINDOW Type Qty I WINDOW I Any Shade Type Qty Shade Doors? N· ROOF Slope Exp (deg) 690.0 1 Gross Area (sqft) 19 0 I ROOF I SKYLIGHT Type Type Qty · ----------------------------------------------HOR 674.0 1 1 0 No partition data for this space.· 1 0 -·--...... ~. ~ .. -.. ------'-.. ·-· ~---r-....----------~ _ ____,.._.., __________ ,......__ N ----- SPACE DESCRIPTION Prepared by: A.L.M. ENGINEERING 04-29-95 HAP v3.02 . Page 1 ***************************************************************************** GENERAL SCHEDULES Name.~ •••• : SYNTRON 2 MEMBRANE CHK Lighting •••• : Floor Area •••••• : 158.0 sqft Task Lights.: Building Weight.: 30.0 lb/sqft People •••••• : Windows Shaded •• ? N Equipment ••• : Partitions Used.? N Misc. Sens •• : LIGHTING Misc. Latent: Overhead Fixture: Recessed INFILTRATION Lamp Wattage .•.. : 2. 00 W/sqft Cooling ••••• :. Ballast Mul t .••. : 1. 00 , Heating •.••• : Task Lighting .•• : 0.00 W/sqft Typical ••••• : PEOPLE When Fan On.? OFFICE OFFICE OFFICE OFFICE.· OFFICE.· OFFICE 0.08 CFM/sqft 0.08 CFM/sqft 0.08 CFM/sqft Y. ·occupancy •••.••• : 1 People FLOOR Activity Level .• : Office Work Type ••••••.• :Above Conditioned Space Sensible ••••.••• : 245.0 BTU/hr Latent ••••••.••• : 205.0 BTU/nr OTHER LOADS Equipment .••••.• : Misc. Sensible .• : Misc. Latent •..• : 0.00 W/sqft 0.0 BTU/hr 0.0 B~U/hr WALL Gross Area Exp . (sqft) WALL Type I WINDOW I WINDOW I Any Type Qty Shade Type Qty Shade Doors? N 184.0 1 ROOF Slope Exp (deg). HOR Gross Area (sqft) · 158. 0 19 0 I ROOF I SKYLIGHT Type Type Qty 1 1 0 No partition data for this space. 1 0 N !41' . .. } SPACE DESCRIPTION Prepared by: A.L.M. ENGINEERING . 04-29-95 HAP v3.02 Page 1 **********~*****************~************************************************ GENERAL _ Name •••••• : SYNTRON 2 MEMBRANE COAT Floor Area •••••• : 175.0 sqft Building Weight.: . 30.0 lb/sqft Windows Shaded •• ? · . ·' · N Partitions Used.? N LIGHTING Overhead Fixture: ·Recessed Lamp Wattage •••• : 2.00 W/sqft Ballast Mul t •••• : 1. oo Task Lighting ••• : 0.00 W/sqft PEOPLE· . Occupancy ••••••• : SCHEDULES Lighting •••• : Task Lights. : People •••••• : Equipment ••• : Misc. Sens •• : Misc. Latent: INFILTRATION Cooling ••••• : Heating ••••• : Typical ••••• : When Fan On.? FLOOR OFFICE OFFICE OFFICE OFFICE. OFFICE OFFICE 0. 0.8 CFM/sqft 0 .;08 CFM/sqft 0.08 CFM/sqft y· Activity Level •• : Sensible ••• _ ••••• : 1 Peqple Office Work 245.0 BTU/hr 205.0 BTU/hr Type •••••••• :Above Conditioned Space Latent .......... : OTHER LOADS Equipment ••••••• : Misc. Sensible •• : Misc. Latent •••• : 0.00 W/sqft 0.0 BTU/hr 0.0 BTU/hr WALL Exp Gross Area (sqft) WALL Type WINDOW Type -Qty I WINDOW Shade Type Qty Shade N ROOF Slope Exp (deg) 300.0 1 Gross Area (sqft) 19 0 I ROOF I SKYLIGHT Type Type Qty ----------------------------------------------HOR 175.0 1 1 0 No partition data for this space. 1 0 Any Doors? N SPACE DESCRIPTION Prepared by: A.L.M. ENGINEERING 04-29-95 HAP v3. 02 Page 1 **********************~****************************************************** GENERAL SCHEDULES Name •••••• : SYNTRON 2 FIBERGLASS Lighting •••• Floor Area •••••• : 334.0 sqft Task Lights. Building Weight.: 30.0 lb/sqft People •••••• Windows Shaded •• ? N Equipment~ •• Partitions Used.? N Misc. Sens •• LIGHTING Misc. 'Latent Overhead Fixture: Recessed INFILTRATION Lamp Wattage •••• : · 2.00 W/sqft · Cooling ••••• :- Ballast Mul t •••• : · _·, 1. 00 Heating ••••• : Task Lighting ••• : · o.oo W/sqft Typical ••••• : PEOPLE When Fan on.? OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE 0.08 CFM/sqft 0.08 CFM/sqft 0.08 CFM/sqft y_ Occupancy ••••••• : ·' ·-, 2 People FLOOR Activity Level •• : Office Work Type •••••••• :Above Conditioned Space Sensible •••••••• : · .. _ 245 ~ o BTU /hr~: .. Latent .•••••••.• : 205.0 BTU/hr OTHER LOADS Equipment ••••••• : 0.00 W/sqft Misc. Sensible •• : 6274.0 BTU/hr Misc. Latent •••. : 0.0 BTU/hr 'WALL Exp Gross Area (sqft) WALL Type WINDOW Type Qty I WINDOW I Any Shade Type Qty Shade Doors? N ROOF Slope Exp (deg) HOR 416.0 1 Gross Area (sqft) 334.0 19 0 I ROOF I SKYLIGHT Type Type Qty 1 1 0 No partition data for this spa~e. 1 0 N . SPACE DESCRIPTION Prepared by: A.L.M. ENGINEERING.. 04-29-95 HAP v3.02. . Page 1 ***************************************************************************** GENERAL SCHEDULES Name •••••• : SYNTRON 2 PRO STORAGE Lighting •••• : OFFICE Floor Area •••••• : 284.0 sqft Task Lights.:_ OFFICE Building Weight.: 30.0 lb/sqft PeOJ?le •••• :~= OFFICE Windows Shaded •• ?· N Equipment .••• : OFFICE ' . ~ . ;. , ·~ .~ .. Partitions Used.? N Misc. Sens •• : OFFICE LIGHTING Misc. Latent: OFFICE. overhead Fixture: Recessed INFILTRATION -· -· ·' ,. _ Lamp Wattage ••.• : , 2.00 W/sqft Cooling •••• i.:·:·-,···~.-0.08 Ballast Mult .... : i 1. 00 Heating-.. •• .. ;·\_ -_ · ~ O. 08 Task Lighting ••• : o.oo W/sqft Typical ••• -.:_.:<-· 0.08 ' . -' CFM/sqft',.' CFM/sqft · CFM/sgft PEOPLE When Fan on .. '? '-. y ' ,· . ;'• Occupancy ••••••. : 0 People FLOOR _ · .. ·. . · · .. Activity Level •• : Office Work Type •••••••• :Above Conditioned Space Sensible .••••••• : 245 .• 0 BTU/hr _ ,_;, ... ~---,~r·"' Latent •••••••••• : 205.0 BTU/hr OTHER LOADS Equipment ••••••• : Misc. Sensible •• : Misc. Latent •••• : WALL Exp Gross Area (sqft) 0.00 W/sqft 0.0 BTU/hr 0.0 BTU/hr WALL Type WINDOW Type Qty I WINDOW I Shade Type Qty Shade Any Doors? -----------------------------------------------------------------------------N 426.0 1 19 No roof or door data for this space. No partition data for this space. . . 0 1 0 N -·-·· -~-'-~_,, .. ____ _ ,., tJ.t;; -..:. -· . -, . " .. : -~·(/ A '7t-, ~ : f-:~/~{~J ' . .' ' ..... ·, ···) ., SPACE_ DESCRIPTION Prepared by: A.L.M. ENGINEERING 04-29-95 HAP v3.02 __ Page 1 ***************************************************************************** GENERAL _ Name .•.... : SYNTRON 2 Floor Area •••••• : R & D 322.0 30.0 N N sqft lb/sqft Building Weight.: Windows Shaded •• ? Partitions Used.? LIGHTING-. overhead Fixture: Lamp Wattage •••• : Ballast Mult •••• : Task Lighting ••• : PEOPLE · ,. Recessed 2.00 W/sqft 1.00 0.00 W/sqft Occupancy •..•.•• : , 5 People Activity Level •• : Office Work · Sensible •••.••••• : 245.0 BTU/hr Latent •.•••••... : 205.0 BTU/hr OTHER LOADS Equipment ••.••••• : Misc. Sensible •• : Misc. Latent •••• : 0.00 W/sqft 5000.0 BTU/hr 0.0 BTU/hr SCHEDULE'S Lighting •••• : Task Lights. : People •••••• : E9uipment ••• : Ml.SC. Sens .. : Misc. Latent: INFILTRATION Cooling. ~-•.• : Heating.: ••• : Typical ••••. : When Fan On.? FLOOR OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE 0.08 CFM/sqft 0.08 CFM/sqft 0.08 CFM/sqft y Type .••.•.•• :Above Conditioned Space WALL Gross Area I Exp (sqft} WALL ,. WINDOW Type Type Qty I WINDOW I Any Shade Type Qty Shade Doors? -----------------------------------------------------------------------------w N 190.0 I 638.0 1 1 19 19 No roof or door data for this space. No partition data for this space. 0 0 1 1 0 0 N N Ii" -~·--.. '' . SPACE DESCRIPTION Prepared by: A.L.M. ENGINEERING 04-29-95 HAP v3. 02 Page 1 ***************************************************************************** GENERAL Name •••••• : SYNTRON Floor Area •.••••• : 2 ASSEMBLY 1 594.0 sqft 30.0 lb/sqft N Building Weight.: Windows Shaded •• ? Partitions Used.? LIGHTING overhead Fixture: Lamp Wattage •••• : -Ballast Mult •••• : Task Lighting ••• : PEOPLE Occupancy~·~ ••••• : Activity Level •• : Sensible •.• · ........ : Latent ..•.• : .•. -.: OTHER LOADS Equipment ••••••• : Misc. Sensible •• : Misc. Latent ••••. : N Recessed 2.00 W/sqft 1.00 · . 0.00 W/sqft 15 People Office Work 245.0 BTU/hr 205.0 BTU/hr 0.00 W/sqft 1128.0 BTU/hr 0.0 BTU/hr SCHEDULES Lighting.-••• : Task Lights. : Peo~le •••••• : Equipment ••• : Misc. Sens •• : Misc. Latent: INFILTRATION Cooling ••••• : Heating ••••• : Typical ••••• : When Fan.On.? FLOOR ,, OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE 0.08 CFM/sqft 0.08 CFM/sqft 0.08 CFM/sqft y Type ••••• ~ •• :Above Conditioned Space WALL Exp Gross Area (sqft) WALL Type WINDOW Type Qty I WINDOW I Shade Type Qty Shade Any Doors? N 925.0 1 19 No roof or door data for this space. No partition data for this space. 0 1 0 N •• • I~ ~-..-... --.--,_.. HEATING & COOLING -; .· .. · ,· Copyright 1994 Carrier Corporation Proquct -·oata . ;. .... 38YCA (60 Hz) 38VCN . Heat Pump ·38YCA Siz-es 018 thru 060 38YCN Sizes 024 thru 048 · The 38YCA.and 38YCN Outdoor Sections of Split-System Heat Pumps ,, . are designed for quiet, relia~le heating during the winter and cooling during the summer. With a SEER up to 10.5 and HSPF up to 7 .5, these heat pump systems provjrle economy of operation through energy conservation when used with components.designated by manufacturer. They recover heat for indoor comfort from outdoor air ~g the. heating season and, by automatically reversin.9 the refrigerant system, remove . indoor heat anc;I excess hwnidity during the cooling season. All models are listed with UL, c-~ CEC, and ARI. . FEATURES/BENEFITS · Electrical Range -All wlits are offered in single phase 208-230v. The 38YCA 030 through 060 models are · offered in 208/230v 3 phase and 38YCA 036 through 060 are offered in 460v 3 phase. Size Range:..... The 38YCA is available in 7 nominal sizes from 018 through ·· ·.060 to meet the needs for residential and light commercial applications. The 38YCN is available in· 5 nominal sizes from 024 through 048 to meet the needs of the manufactured hous.ing · market. · · ··, · Compressor -Designed specifically for heat pump duty, with energy efficiency during heating and cooling operation. -Each compressor is ·. · hermetically sealed against . contamination to assure long life and dependable performance, internally sprung (units with reciprocating compressor) and externally mounted on rubber isolators for quiet operation. Continuous compressor operation is approved down to -300F (-34.4°Q in the heating mode, and down to 55°F (12.8°Q in the cooling mode. (See heating and cooling performance tables.) For compressor usage, see Compressor data table. · f -• • ....... --------• •• • --·---.. -- ___ Form 38YCA-4f:>D . . . -. . Built-in-Reliabillty Components _;: Includes a suction-tube accwnulator that reduces the amount of liquid refrigerant that reaches the compressor; a low-pressure switch to . stop the compressor If refrigerant charge · is lost; a crankcase heater on units With reciprocating compressor. and all 3-phase units to keep compressor oil . warm and free of refrigerant for -maximum lubricity; an internal . compressor relief valve for high-pressure protection.. . . · · initlation/tennination control which includes 3 field-selectable time periods of 30, 50, and 90 minutes. The control includes built-in 5-minute compressor delay for units equipped with scroll. · compressors (see Compressor data table). Weather-Protective Cabinet-Steel is protected with a heavy coating commonly called "galvanizing," and coated with a layer of zinc phosphate. A coat of modified polyester powder ·coating is then applied and baked-on, · providing each unit. with a hard, smooth . · finish ~at will last for .many years. -Discharge Muffler -Minimizes : low frequency sound and pressure . pulsation generated by compressor . All screws on ca~lqet'exterior are coated discharge gas: .· . · . · · · · for a long-lasting rust-resistant, quality . Defrost Control Board~ Incorporates . appearance. .• . ·. a defrost re!ay, defrost timer, and Unit Design -All units are equipped low-voltage terminations. The defrost with totally enclosed fan motors for control is a time and temperature greater reliability ~~r rain and snow Model number nomenclature 38YCA _E_lec_tr_lc_H_e_~_·p_u_m_p ______ J_. . ·· Nominal Capacity 018-18,000.Btuh 042-42,000 Btuh 024-24,000 Btuh -048-48,000 Btuh 030-30,000 Btuh 060-60,000 Btuh 036-36,000 Btuh 018 . ' 3 5 Serles . Electrical 3-208/230-1 5-208/230-3 6-460-3 .. < '•;; • conditions. The large, wraparound coil uses copper tube and enhanced . aluminum fin and is designed for optimum h~t transfer during heating and cooling. The vertical air discharge carries the sound and air up and away · from.adjacent patio are<]lS and foliage. Coils can be cleaned with a common garden ho~. . External Service Valves-Both service . valves are brass, front seating type •. ·valves are externally located s.o · · · . refrigerant tube connections can be made quickly and easily. Each valve has a service port for ease of checking ·.· · .. · opera.ting refrigerant pressures. The 38YCA has sweat field connections. . The 38YCN has mechanical field _connections. Warranty -Standard 1 year on· parts. Additional 4 years on , .. compressor. · "":. · · · ! . ,i ·-. ·---........ --~----------~ -. ..:~. .• --.....----,.--·" • ~ ' I I .. ,. •. 3 ·: • . : : ·: . . ·~·: ..., . : .. · '· ! . ;. '. . . . CERTIFICATION APPLIES ONt:Y WHEN THE COMPLETE SYSTEM IS LISTED WITH ARI • Physical data t,'c,. UNITSIZE 018 · 024 . SERIES -33134 35/36 OPERATING WT (lb) 127 143 REFRIGERANT Control Charge (lb) 0 15 ft 4.69 I 4.75/4.88 030 36137.57 157,153 -·-·-... I 5.38/5.63 036 042 048 060 '36,56, 66/ 32/33,53,63 32, 52, 6'l/ 32, 52,62/ 37,57,67 33,53,63 33,53,63 176 ·201 219 237 22 Piston I 6.3817.13 I 7.63/7.38 I 9.2517.78 I 10.00/10.25 CONDENSER FAN : Propeller Tre:e· Direct Drive Air Discharge · ertical Air Qty (CfM) 1900 I 1900 I 2300 . I Motor RPM (60 Hz) :1110 1125 1125 CONDENSER COIL : Face Area (sq ft). 19:10 I 9.11 1 14.07112.42 I 14.93 CONNECTION (In. ID) : Sweat Vapor 5/8 I 3/4 Liquid 3/8 REFRIGERANT TUBES* (In.OD) : Vapor. 5/8 ! I 3/4 · Liquid· I 3/8 ; •: Tube sizes are for lengths up to 50 ft. For lengths over 50 ft, consult Long-Une Application Guideline. NOTE: See unit Installation Instructions for proper Installation. 3300 1100 \ I 18.61111.42 1 22.40/17.42 1 22.40 I 718 : ' I 7/8 ! I 1-1/8. i 3 COMPRESSOR DATA ' COMPRESSOR MANUFACTURER & TYPE .. UNITSIZE UNIT SERIES BRISTOL RECIP : 030 36 COPELAND RECIP i 018 33 024 35 •' 030 37,57 TECUMSEH RECIP 018 34 . 024 36 036 37,57,67 MILLENNIUM SCROLL 036 36,56,66 .. 042,048;060 32,52,62 COPELAND SCROLL 042,048,060 33,53,63 ·-·, .. METERING DEVICE UNIT OUTDOOR INDOOR SIZE SERIES PISTON PISTON* 018 33 40 ?2 018 34 40 \ 55 024 35,36 49 63 030 36 55 70 030 37,57 52 70 036 36,56,66 ' 61 76 036 37,57,67 . 59 73 ' i JI -. I 042 32,52 !• 67 84 : 042 33,53,,63 · 65 ' 84 048 32, 52, 62, ~. 53, 63 73 88 060 32, 52, 62, 33, 53, 63 -... 76 96 ' "Piston listed is for any approved coil combination. 4 --'--~--.... --"~-----· -••AH-• • -·#•-• ! : p Accessories ORDERING NUMBER KAAWS0101AAA KAATD0101TDR KAAFT0101 AAA KHAIR0101AAA Standard KSACY0101AAA KAAHS0601AAA KAAHS0701AAA ., NIA KAACS0201P'fC · ~tandard · N/_A Standanl KAACH1201AAA KSASH1101COP Standard KSASH1301TEC KSASH1901CYL KSASH2001CYL KSASH1201COP KSASH0801TEC KSASH1701COP KHAOT0301FST KHAOT0201SEC KHAIC0101AAA KHAIC0201AAA KHATX0901HSO** KHATX1001HSO** KHATX1101HSO** ; KHATX1201HSO .. i KHATX1301HSO ' KHA1X1401HSO KHATX0201RPB KHATX0301RPB KHATX0401RPB KHATX0501RPB KHATX0601RPB. KHATX0701RPB Standard KSAHI0201HPS KHALS0101LLS Not Available Not Available P251-0083 P504-8083S P504-8163S NIA -Not applicable In this application. • Isolation relay required. · t Use with low-ambient controller. · :j: See Compressor data table. ' ' DESCRIPTION Winter Start Control Time-Delay Relay Evaporator Freeze Thermostatt lsolallon Aelayt Cycle Protector-Units wilh·scroll compressori · Cycle Protect9r-Units with recip compressori Compressor Start Assist (Capacitor/i=telay) Sizes 018 (331, 341 ), 024 (351, 361), 030 (~1, ~1) Compre~r Start Assist (Capacitor/Relay) Sl.ze 036 (371) 1 Phase Compressor Start Assist (Capacitor/Aelay)-3 Pl)ase and Scroll l,lnils:j:. · Start Assist (PTC)-Sizes 036-060 1 Ph~ Scroll Unjts:j: Start Assist (PTC)-Si?!eS 018-0361 Phase Recip t,Jnlt~:j: - Start Assist (PTC)-3 Phase ,. Crankcase Heater-Sizes 018.(~1. 341), 024 (351, ~61), 030 (361,371), 036 (371), All 3 Phase Crankcase Healer-Sizes 036 (361 ), 042-060 1 'Phase Sound Bl~nket:-Sizes 018 (331), 024 (351), 030 (371,571) Sound· Blanket-Size 030 (361 ), 036 (371, 571, 671) Sound Blanket-Sizes 018 (341), 024 (361) Sound Blanket-Size 036 (361,561,661) Sound Blanket-Sizes 042-060 (321, 521, 621) Sound Blanket-Size 036 (511,531) Sound Blanket-size 036 (521) Sound Blanket-sizes 042-060 (331, 531, 631) Outdoor Thermostat Secondary Outdoor Thermostat . I Interface Control (Optimizer II) .. Interface Control (Outdoor Thermostat and LQCkout Relay) TXV (Hard Shut-off)-5ize 018 TXV (Hard Shut-off)-Slze 024 . · TXV (Hard Shut-off)-Slze 030 TXV (Hard Shut-off)-Slzes 036, 042 : TXV (Hard Shut-off)-Slze 048 I TXV (Hard Shut-off)-Size 060 0TXV (RPB)-Slze 018 TXV-(RPB)-Slze 024 TXV (RPB)-Slze 030 TXV (RPB)-Sizes 036, 042 TXV (RPB)-Size 048 TXV (RPB)-Size 060 . 4>W·Pre~ure Switch ". High-Pressure Switch Liquid Solenoid Valve (LSV) Sµpport Feet •. Snow Rack Low-Ambient Controlle ... (RCD) Filler Drier-Si-flow Sizes 018-036 Filter Drier-Bi-now Sizes 042-060 •• Hard shut-off TXV requires compressor start assist on reclp compressors. See Compressor Data table. THERMOSTAT/SUBBASE PKG -HH-o7AT-175 -HH-93AZ-115 -HH-o7AE-001 .. __ • ... DESCRIPTION Thermostat, 2-Sta_ge Heat, 1-Stage Cool, Auto/Manual Changeover-°F Subbase for Manual Changeover Thermostat Subbase for Auto Changeover Thermostat Thermostat (1 Piece) Night Setback, 2-Stage Heat, 1-Stage Cool-°Fl°C Option, 5-2 Day Programmable 5 _J Accessory Description and Usage 1. Time-Delay Relay · · ' A SPST delay relay which brleflv continues operation of the indoor blower motor to provide additional cooling after the compressor cycles off. SUGGESTED USE: For lmprow:d efficiency ratings for certain combinntlons of indoor and outdoor units. (Refer to ARI Unitaiy Dlrectoiy.) 2. Evaporator FrNze Thermostat · A SPST tempernture actunted switch which stops unit Opeliltlon when ewpoliltor renches freeze.up conditions. SUGGESTED USE: All units where low-ambient controller has been lidded. · 3. Isolation Relay . . . · · . A SPOT relay which switches the low-ambient controller out of the outdoor fan motor circuit when the heat pump switches to heating mode. . SUGGESTED USE: All heat pumps where low-ambient controller ·has been added. · 4. Compressor Start Assist-Capacitor/Relay Type . · Start capacitor and start relay giws ·hnrd" boost to compressor motor nt each start-up. SUGGESTED USE: lnstnllatlons where lnterconneclfng tube length exceeds 50 ft. · Installations where outdoor design temperature exceeds 105°F (40.6°C). · Replacement installations with hard shut-off expnnslon wive or liquid line solenoid on indoor coU .. . .. . Units Ins~ with low-ambient conti:oller. . · · s. Sound.Blanket -. · . · . . . . · . Wraparound sound attenunHon cover for the compressor. Reduces the sound level by about 0.2 bels •. SUGGESTED USE: Ujut Installed closer than 15 ft to quiet areas-bedrooms, etc. . · · . r Unit Instilled between 2 houses less t1uin 10 ft apart. · 6. ·outdoor Thermostat . A SPOT temperature actunted switch which turns on supplemental electric heaters when outdoor air temperature ~ps below set point. · SUGGESTED USE: Heat pump lnstallatlons with multiple-stage supplemental heaters . . · 7. Secondary Outdoor T11ermostat · · . · . · · .A SPOT temperature actuated switch which turns on n third stage of supplemental electric heaters when outdoor air temperature drops below the second-stage . ~~ . . . . SUGGESTED USE: Heat pump lnstaUatlons w~ere ~ operation of supplemental heaters Is desired. . 8. Interface Control (Optimizer II) · · · · An electric control for controlling a heat pump and gas or oU furnace system for maximum energy savings. ft allows heat pump to operate down to a prede- termined economic bnlance point temperature, then switches to allow furnace operation only below that temperature. Requires outdoor thenn95tat (Item 6) to be adjusted for economic balance point temperature. · . SUGGESTED USE: All heat pump and gas-or oil-fired furnace combination systems. 9. Thermostatic Expansion Valve (TXV) . A modulnting flow.control valve which. meters refrigerant liquJd flow rate Into the evaporator In response to the superheat of the refriget"lUlt gas leaving the evaporator. Kit includes valve, adnpter tubes, and external equalizer tube. Both hnrd shut-off.and RPB valves are available. SUGGESTED USE: For improwd system perfonnance In cooling mode. ; . . 10. High-Pressure Switch ' · · ·. : Alll9 reset SPST switch activated by refrigerant pressure on high side of refrigerant circuit. Cycles compressor.off if refrigerant pressure rises to about 425 pslg. Provides additional protection against compressor dnmage due to loss of outdoor airflow. · SUGGESTED USE: Installations exposed to very •dirty" outdoor air. · . · Installations where condenser inlet air temperature exceeds 125°F (51. 7°C). 11. FIiter Drier-Bl-flow . A device for removing contaminants from refrigerant cin:ulaHng In an air conditioner or heat pump system; bl-flow for heat pumps. SUGGEStED USE: All field-connected split-system units. . . · , •. 12. Uquld Solenoid Valve (LSV) · · ! .. . . · An electrically operated shut-off valve to be Installed at the outdoor unit and which stops and starts refrigerant liquid flow In response to compressor operation. Maintains a column of r¢riserant liquJd ready for action at next compressor operation cycli. Note: Compressor start asslst~padtor/relay type (lten:i 4) must ·be used on single-phase·rec1procat1ng compressors. · · . SUGGESTED USE: ~ certain long-line applicalfons. (Refer to Long-~ Application Guideline.) · · ... :·_. '· .. •,. · . . •.,··.-~-·. ·: .. .,. :". · .. ! El.ectrical: data i MAX IIAXFUSEt OPERVOLTS• COMPR -• MINWIRE LENGTH ORHACA OUTDOOR-V/PH FAN SIZE" (Ft)* TYPECKT UNIT 60Hz Max Min LRA RLA FLA MCA c;oocns0c 500Cl7S"C BKRAMPS 018-33,34 49.0 9.8 0:5 12.8 14/14 70/70 20 024-35 '' 61.0. 1M 0.5 14.8 14/14 50/45 20 ,, 024-39 .. .. 81.0 1p 0.5 15.1 14/14 50/45 20 -.. ' 03o-38 .. 73.0 · 14.7 1.4 19.8 14/14 35135 30 030-37 ... 75.0 13.7 1.4 18.5 14/14 40l40 30 038-38 105.0 ·1a.o '1.4 23.9 12/12 50/50 35 ~ 208-;!30/1 . . ·253• 197 92.0 17.5 1.4 23.3 12/12 -~ 35 ~ '· 1 . ~· . •:' 124.0 27.8 ,. 1.4 36.2. 818 80/80 . 50 QG-33 ·-· 129:0 28.0 1.4 36.4 8/8 80/80 .so '. ,, 04'"32 ---· 140.0 24.4 1.4 31.9 818 90/90 ,50 ., ., -.. 048-33 .. 129:0 23.7 1.4 ·31.0 8/8 95/90 50 060-32 165.0 ~0.8 1.4 39.~ sis 75/70 60 .. ~· . ' 060-33 ---, 169.0 30.8 1.4 39.9 8/8 75/70 60 030-57 68.0 9.0 1.4 12.7. 14/14 70/65 15 038-58 90.0 11.4 1.4 15.7 14/14 50/50 20 038-57 75.0 11.0 1.4 15.2 1_4/1.4 50150 20 042-52 92.0 16.4 1.4 21.9 12/12 60/60 .30 042-53 208/230/3 253 : 187 99.0 15.9 1.4 21.3 12/12 60/60 30 048-52 105.0 14.1 1.4 19.0 14/14 40(40 25 048-53 99.0 13.5~-· ·-· -1.4 18.3· 14/14 · 45140 -25 oep-52 .123.0 17.0 1.4 22.9 12/12: 55/55 35 ; 080-53 123.0 18.5 1.4 24.5 12/12 55/55 35 036-66 . 45.0 6.2 0.8 8.6 14/14 9SJ95 15 038-67 37.5 5.6 -0.8 7.8 14/14 95/95 15 042-83 49.5 8.7 ,0.8 11.7 14/14 140/140 15 048-62 460/3 i 506 414 52.5. 7.1 ;0.8 9.7 14/14 · 145/145 15 ! 048-63 I 49.5 7.4 10.8 10.1 14/14 145/145 15 . 050-82 ~ 66.5 8.5 · 0.8 11.4 14/14 130(130 15 060-63 62.0 9.6 0.8 12.8 14/14 130(130 . 20 • Permissible limits of 1he voltage range at which unit will operate satisfactorily. Operation outside these limits may result in unit failure. · t Time-delay ruse. · . · · . . * Length shown Is as measured 1 way along the wire path between the unit and the service panel for voltage drop not to eicceed 2%. .. If wire Is applied at ambient greater than 30°C (86°F), consult Table 310-16 of the NEC (ANSI/NFPA 70). The ampacity of nonmetallic·sheathed cable (NM), trade n~e ROMEX, shall be that of 60°C (1.40"F) condu~ors, per 1he NEC (ANSI/NFPA 70) Article 336-36. · · ·If other than uncoated (non-plated), 60" or 75°C (140° or 167°F) insulation, copper wire (solid wire for 10 AWG and smaller, stranded wire for larger than - 10 AWG) is used, consult applicable tables of the NEC (ANSI/NFPA 70). · NOTE: Control circuit is 24v on all units and requires external power source. Copper wire inust be used from disconnect to unit. All motors/compressors contain Internal overload ·protection. Model Size 042 MCA value greater than 048 due to UL testing. FLA . -Full Load Amps · · HACR -Heating, Air Conditi~ning, Refrigeration . LRA -Locked Rotor Amps - MCA -Minimum Circuit Amps RLA -Rated Load Amps 7 -----------~-. '~-.- .,.·: . : ,,, . Combination ratings : ARI STANDARD RATINGS• UNIT j Coollng Heating SIZE· Seasonal Efficiency SEER SERIES .. AND Factory• Fleld-Supplled High-Temp . Low-Temp SOUND ·. Supplied .. -.. Accessory .. Seasons! RATING INDOOR Enhance-Standard Efficiency . (Bels)t UNIT TC ment Rating TDR TXV TC COP TC COP HSPF . F(A,B)4ANF018t 17,000 IDA 10.00 -10.00 17,500 3.00 11,000 2:22. 7.00 FA1ANA018 17,000 TOR 10.00 -,~ 10.00 17,500 3;04. 10,900 2.24 · ; 7.00 FA1ANA024 17,800 TOR 10.10 .. -10.10 17,800 3.14 11,400 2.28 7.20 FBf 5,4rNl A,F)018 17,000 TOR .10.00 -.10.00 17,500 3.00 · 11,000 . ·2.22 7.00 .. FB 5,4 AN A,F)024 18,000. . TOR 10;10 -10.10 18,000 3.12 11,400 ' 2.26 7.20 · F(A,B)4ANF024 . 18,000 ·TOR 10.10 -10.10 18,000 ' 3,1·2 11,400 . 2.26 ·1.20 018-33,34 F03ANA024 ·. 17,500 NONE -10.00· 10.00 17,500. 3.12 . ,1.200 2.28 1.00·. ' FF1ANA018 17,000 TOR, · 10.00 -· .10.00 . 17,500 ·. 3.02 11,000 2.22. ·-7.00 . FF1ANA024 . 17,800 TOR . 10.20 -10.20·. 17,600. 3.16 11,300 2.28 . ,7.20 ; 7.8/7.6 FG3AAA024 · 17,500. NONE --10.00 ·.10.00 ·16,800 · 3.06 11,200 . ·2.26. 6.80 CCSA/C05A/C05BA018 17,500 NONE -10.00 · 10.00 17,000 2.94 11,000 2.18 6.80 C03(A,B)A018 17,500 NONE -10.00·. 10.00 17,000 2.94 11,000 2.18 6.80 CCSA/COSA/COSBA024 17,800 ·• NONE -. 10.10· . 10.10 17,500 3.08 -11,200 2.24 7.00 CD3(A,B)A024 17.800 NONE -· 10.10 10.10 17,500 3.08 11,200 2.24 7.00 CE3AA024 17,800 NONE -·10.10 10.10 17,500 3.08 11,200 . 2.26 7.00 CF5AA024 17,800 NONE -10.10 10.10 17,500 3.10 11,300 2.?6 7~ ~A,B)4ANF024t 22.600 TOR 10.00 . -10.00 · 22,800 3.20 13,900 2.24 7.00 (A,B)4ANF030 22,800 IDA 10.00 · .-: ·10.00 22,800 3.22 13,900 ·2.26 7.00 FD3ANA024 22,000 NONE -10.00 10.00 22,800 3.16 13,600 2.24 6.90 FD3ANA030 23,000 NONE -10.00 10.00 -22,800. 3.24 14,000 · 2.26 7.00 FF1 (A,B)NA024 22,000 TOR 10.00 -10.00. 22,800 3.18 14,000 2.24 7.00 024-35,36 FF1t,B)NA030 23,000 IDA -10.00 -10.00 22,800 . 3.24 14,100 . 2.26 7.00 CCSA/C 5A/C05BA024 22,400 NONE -10.00 10.00 ·22,800 3.10 13,700 2.20 6.90 C03(A.Bt024 22,400 NONE -10.00 10.00 22,800 3.10 13,700 2.20 6.90 7.8/1.6 CC5A/CD5A/ D5BA030 22,800 NONE -10.00 10 •. 00 22,800 3.10 13,SOQ 2.22 6.90 CC5A/CD5A/CD5BW030 22,800 NONE -10.00 10.00 22,800 3.10 13,800 2.22 6.90 C03(A,B)A030 22,800 NONE -10.00 10.00 22,800 3.10 13,800 2.22 6.90 CE3AA024 22,600 NONE -. 10;00 10.00; 22,800 3.14 13,900 .2.22 6.90' CE3AA030 23.000 NONE -10.00 10.00, 22,800 3.22 14,000 · 2.24 7.00 CF5AA024 22,l300 NONE -10.00 I. ··10,00 l 22,800 3.14 13,800 2.22 6.90 .. ~A.B)4ANF03ot 28,200 TOR 10.00 -10.00 29,000 3.08 17,100 2.20 7.20 (A,B)4ANF036 28,400 TOA 10.00 .. -10.00 29,200 3.08 17,500 2.18 7.20 F03ANA030 28,000 NONE -10.00 10.00 29,000 3.08 17,300 2.18. . 7.20 FF1 (A,B)NA030 28,200 TOR 10.00 -10.00 29,000 3.10 17,400 2.18 · 7.20 030-36,37, . FG3AAA036 28,200 NONE -· 10.00 10.00 29,000 3.08 17,200 2.20 7.20 . 57 CC5A/CD5A/C05BA030 27,800 NONE. -10.00 10.00 28,600 3.00 17,000 2.16 · 7.00 CC5A/C05A/CP5BW030 27,800 NONE -10.00 10.00 28,600 3.00 . 17,000 2.16 7.00 · C03(A,B)A030 • 27,800 -NONE -10.00 10.00 28,600 3.00 17,000 2.16 7.00 s.on.&tt CC5A/CD5A/C05BA036 28,600 NONE -10.20 10.20 • 29,200 3.14 17,300 2.20 7.20 : cii1~~:>=36 28,600 NONE -10.20· 10.20 29,200 3.14 17,300 2.20 7.20 28,600 NONE -, 10.20 10.20 29,200 3.14 · 17,300 2.20 7.20 CE3AA030 28,000 NONE -10.00 .10.00 29,000 3.08 17,200 2.18 1.00 CE3AA036 28,200 NONE -10.00 10.00 29,000 ·3.oa 17,200 2.20 7.20 , CFSAA036 28,200 NONE -10.00 10.00 29,000 3.10 17,300 2.20 7.20 F(A,B)4ANF036t 34,200 TOR 10.00 -10.00 36,000 3.04 21,000 2.24 7.20 ! F(A,~4AN(F,B)042 34,800 TOA 10.20 -. 10.20 36,000 3.12 21,000 2.28 . 7.50 F 3AAA036 34,000 NONE -10.00 -10.00 36,000 3.02· 20,600 2.26 . 7.20 CC5A/CD5A/CD58A036 34,200 NONE -10.00 10.00 36,000 3.10 20,800 2.28 7.20 036-36, C05A/C05BW036 34,200 · NONE -10.00 . · 10 .• 00 36,000 ' 3.10 20,800 2.28 ·. 7.20 56,66, C03(A,B~036 34;200 NONE -10.00 10.00 36,000 3:10 20,800 2.28. . 7.20 37,57,67 CCSA/CDSA/ 5BA042 34,800 NONE -10.20 10.20 36,000 3.10 20,800 . 2.28 7.20 C03(A,Bt042 34,800 NONE -10.20 -io:20 36,000 3.10 20,800 2.28 7.20 CCSA/CDSA/ 05BA043 34,400 NONE -,. 10.20 . 10.20 36,000 3.10 .20,800 2.28 7.20 e.on.stt CC5A/,C05A/CD5BW042 34,400 NO~E 10.20. ·. 10.20 .36,000 3.06 20,600 2.26 7.20 CC5A/CD5A/CD5.BW043 34,400 NONE -10.20 10.20 36,000 3.08 20,8"00 2.26 7.20 CE3AA036 34,200 NONE -10.00 10.00 36,000 3.04 20,600 2.26 . ·7.20 g~~~ 34;600 NONE -10.20 10.20 . 36,000 .3.14 20,800 2.30 · 7.20 34,200 NONE -10.00 10.00 36,000 3.06 20,800 2.26 7.20 ~A,B)4AN{F,~042t 40,500 TOR 10.00 -10.00 42,000 3.00 28,600 2.24 7.20 (A,,4AN(F, )048 41,000 TOR 10.00 -10.00 42,000 3.12 . 28,800 2.30 7.20. F 3AAA048 41,000 NONE -10.00 .10.00 42,000 3.06 28,600 ·2.28 7.20 CCSA/CD5A/CD5BA042 40,500 NONE -10.00 10.00 42.000 2.98 28,400 2.24 7.20 042-32, C03(A,B6A042 40.SOO NONE -10.00 10.00 42,000 2.98 · 28,400 2.24 7.20 52,33, CCSA/CDSA/ D5BA043 40,500 NONE -;t0.00 10.00 42,000 2.98 28,400 2.24 7.20 53,63 CC5A/CD5A/CD5BW042 40,500 NONE -10.00 10.00 42,000 2.94 28,400 · 2.22 7.10 CC5A/CD5A/COSBW043 40,500 NONE -10.00 10;00 42,000 2.96 28,400 2.22 7.20 C05A/CDSBA048 41,000 NONE -10.00 10.00 42,000 3.02 28,400 2.26 7.20 8,018.0 CD3(A,Bt048 41,000 NONE -10.00 . 10.00 42,000 3.02 28,400 2.26 7.20 CCSA/CDSA/ 05BC048 40,500 NONE -10.00 . 10.00 42,000 2.88 28,400 2.20 7.00 CC5A/CDSA/CDSBW048 41,000 NONE -10.00 10.00 42,000 3.02 · 28,400 2.24 7.20 CE3AA042 41,000 NONE 10.00 10.00 42,000 3.!)4 28,400 2.26 7.20 CE3AA048 41,000 NONE -10.00 10.00 42,000 3.06 28,800 2.28 7.00 -CF~ 41,000 NONE -10.00 10.00 42,000 3.00 28,400 2.24 7.20 See notes on pg. 9. 8 Combination ratings ·continued ARI STANDARD RATINGS• -Cooling Heating UNIT Seasonal Efficiency SEER SIZE· SERIES AND Factory• . Fleld•Supplled High-Temp Low-Temp SOUND Supplied .. Accessory .. Seasonal RATING INDOOR Enhance-Standard Efficiency (Bels)* UNIT TC ment Rat1n1,1 TOR TXV TC COP TC COP HSPF F(A,8)4AN(F,8)048t 46,000 .. TOR 10.00 -10.00 47,000 3.20 29,600·. 2.24 1.20· .. F(A,8)4AN~B)060 46,500 TOR 10.30 -10.30 47,000 .3.26 29,800 2.26 ·7.50 . . FB4AN. 70 47,000 TOR 10.50 -10.50 47,000 3.38 29.600 2.32· 7.50 FG3AAA048 .. 45,000 NONE -_. 10.00 10.00 47,000 3.16 29,200 · 2.24 · 7.20 · 048-32, 52, FG3AAA060 46,000 NONE -10.50 10.50 47,000 3.20 29,200 '2.26 7.40 CDSA/CD.5BA048 45,000 NONE -10.00 10.00 46,500 3.12 29.200 .·2.22 . 7.20 · 62,33, CD3(A;Bt04a 45,000 NONE -' . 10.00 ·10.00 46,500 3.12 29.200 ·2.22 . 7.20 53,63 CC5A/C05A/ DSBC048 44,000 NONE 10.00 10.00 46,000 2.98 28,800 2.16 7.00 CC5A/COSA/CDSBW048 45,000 NONE -10.00. 10.00 46,50() .3.12 29,200 .. 2.22 ·1.20 CC5A/C05A/C05BA060 45,000 NONE --10.00 ·10.00 46,500 3.10 29,000 . ··-2.20 7.20 s.oni:O · 'CD3(A,~A060 45,000 NONE -10.00 10.00 46,500 3.10 29,000 2:20 .. 7.20 .. CCSA/COSA/ D5BW060 46,000 NONE -10.00 10.00 47,000 3.22 29,200 .2.26 ·. ·1.20 CE3AA048 45,000 NONE 10.00 10.00 47;000 3.18 29,200 2.24 7.20 CE3AA060 46,000 NONE -1Q.50 10.50 47,000 3.24 29.200· 2.28 7.50. CF5AA048 45,000 NONE -10.50 10.50 46,500 3.08 29.000 -2.20 7.20 060-32, F(A,B)4AN(F, 8)060t .56,000 TOR 10.20 -10.20 58,000 3.18 39,500 2.40 7.50 52, 62, · FB4ANB070 56,500 TOR 10.50 -10.50 57,000 3.34 39,500 2.48 ·7.50 FG3AAA060 54,500 NONE -10.50 10.50 56,500 3.10 39,000 2.40 7.20 33,53,63 CC5A/CD5A/C05BW060 53,500 NONE -10.20 10.20 56,000 2.92 38,500 2.32 7.00 CD3(A,B)A060 53.SOO NONE -10.20 10.20 .56,000 2.92 38.SOO . 2.32 7.00 8.0IB.O CC5A/CDSA/CD5BW060 55,500 NONE -10.50 10.50 56,500 3.14 39,000 2.40 · 7.50 CE3AA060 56,000 NONE -10:20 10.20 56,500 3.16 39,000 2.42 7.50 COP -CoefflClent of Performance TC -Total Capacity (Btuh) HSPF -Heating Seasonal Performance Factor . TOR -Time-Delay Relay SEER -Seasonal Energy Efficiency Ratio TXV -Th,errnostatic Expansion Valve • Ratings are net values ~fleeting the effects of circulating fan heal Supplemental electric heat is not included. Ratings are based on: Cooling Standard: 80°f (27°C) db 67°F (1 goc) wb Indoor entering air temperatqre and 95°F (35°C) db air entering outdoor unil : · High-Temperature Heating Standard: 70°F (21°C) db indoor entering air temperature and 47°F (8°C) db 43°F (6°C) wb air entering outdoor unit. Low-Temperature Heating Standard: 70°F (21 °C) db indoor entering air temperature and 17°F (-8°C) db 15°F (11 °C) wb air entering outdoor unit t · Outdoor section/indoor section combination tested in accordance with DOE lest procedures for heat pumps. Ratings for other combinations are detennined under DOE computer simulation proceclures. * Without/with accessory sound blanket •• ·see TOR.90 table. TXV must be hard shut-off type. ... : tt .7.s rating for 030 (371,571) and 036_ (361) units only. ;r · .. IDR.90 TABLE METHOD PART/MODEL NO. Time-Delay Relay KAATD0101TOR Furnaces with TOR 58DHC, 58DX, 580XA, 58DXC, 58EJA, 58EJB, ·SBMCA, 58MVP, 58MXA, 58PAP, 58PAV, 58AAP, 58RAV, 58SSC, sasx. 58SXA, 58SXB, 58TMA, 58TUA, 58VCA, 58VUA, 58WAV, 58ZAV NOTE: In most cases, only 1 of the above should be used to achieve TOR function. More than 1 of file methods listed above In a system may· cause degradaJlon in perfonnance. · .. 9 Detaile~ cooling capacities* EVAPORATOR CONDENSER ENTERING AIR TEMPERATURES "F AIR 95 105 115 125 'i:=t c:::~, . Ca=lty · M ·ht Ca= M tuht 19.8 9.98 1.87 18.6 9.56 '1,99 17.5 9.14 2.11 16.3 8.74 2.23 14.8 8.21 2.30 17.9 12.7 · 1.80 16.8 12.2 ·1.92 15.8 11.8 2.03 · 14.7 11.4 2.14 13.2 10.8 2.21 600 16.5 .12.2. 1,76. 15.5 11.8 1.87 1:4,5. 11.4 1.98 .13.4 10.9 2.08 12.0 ·10.3 2.14 16.2 15.2 1.75 15.3 14;7 1.86 14.3 14.2 1.97 13.4 13.4 2.08 12.3 12.3 2.15 15.8. 15.8 1.73 15.0 15.0 1.85 14.2-14.2 1.96 13.4 13.4 2.08 12.3 ·12.3 2.15 72 20.0 10.2 1.90 18.8 ·. 9.82 ·. 2.01 17.6 9.40' 2.13 16.4 8.99 2.25 14.9 8.46 2.33 67 18.1 13.1 1.83 17.0 · 12.7 · 1.94 15.9 12.3 2.06 14.7 11.8 2.17 13.3 11.2 2.24 '650 63tt 16.7 12.7 1.78. 15.7. 12.·2 1.89 14.6 11..8 2.00 13.5 11.3 2.11 12.1 10.7 · 2.16· 62 16.4. 15.8 1.77 15.5 15.2 .1.88 .. .:t4.6 14.6' 2.00 13.7 · 13.7 2.12 12.5 12.5 2.19 · 57. 16.2 16.2 . 1_.76 15.4 .. 15,4 1.88 14.5 14.5 2.00 13.7 13.7 2.12 1;!.6 -~~6. 2.19 . 72 . 20.2 -10.5 1.92 . 19.0 · 10.1 2.04 ' 17.8 9.65' '2.16 16.5 9.24 2.28 15.0 8.69 2.36 67 18.2 13.5 1.115 17.1 . 13.1 · 1.97 · 16.0 12.7 2.08 14.9 12.2 2.20 13.4 11.6 2.26 700 63tt 16.8 13.1 1.81 : 15.8 . 12.6 1.92. 14.7 12.1 2.02. 13.6. 11.7 -2.13 12.2 ·.11.0: 2.19 62. 16.7 16.3 1.80 15.7 15;7 1.91 14.8 14.8 2.03 13.9 13.9 2.15 12.8 12.8 .,2.22 57 16.5 16.5 1.79 · 15.7 15._7 1.91 '14.8 14.8 2.03 13.9 13.9 2 .. 15 12.8 12.8 2.22 Multipliers for Determining the Performance With Other Indoor Sections .. Indoor .. Cooling. Indoor Cooling Section Size. Capacity Power Section Size -Capacity Power CC5A/CD5A/ 018 1.03 1.02 FA1ANA 018 1.00 0.99 COSSA 024 1.05 1.03 024 1.05 1.04 CD3(A,B)A 018 1.03 1.02 FC4ANF 018 1.04 1;03 024 1.05 1.03 FD3ANA 024 1.03 1.01 ClµAA 024 1.05 1.03 FF1ANA 018 1.00 1.00 CFSAA 024 1.05 1.03 024 1.05 1.03 FB(4,5)AN(A,F) 01$ 1.00 1.00 F(A,B)4ANF 018 1.00 1.00 024 1.06 1.04 024 \ 1.06 1.04 -. --FG3AAA 024 1.03 ; 1.03 38YCA/YCN024-35, 36 Outdoor Section With F(A,8)4ANF024 Indoor Section 72. 25.9 12.8 2.43 24.5 12.3 2.58· 22.9 11.7 2.72 21.2 l1.2 2.86 19.5 10.6 2.98 67 23.6 16.2 2.35 22.2 '15.6 2.49 ·20.6 15.0 2.62 19.0 14.4 2.74 17;5 13.8 2.85 700 63tt 21.8 15.7 2.29 20.4 .15.1 2.42 19.0 14,4 2.54 17.5 l3,8 2.65 16.0 13.2-2.75 52· . 21.4 19.4 2.27 20.0 ;18.7 2.40 18.7 18.0 2.52 17.3 17.3 2.64 16.1 16.1 2.76 57 20.6 20.6 2.25 19.5 ;19.5 2.38 18.4 18.4 2.51 · 17.3 -17.3 2.64 16.1 '16.1 . 2.76 72 26.4 13.4 2.48 24.9 !12.9 2.63 23.3 12.3 2.78 21.6 .11.8 2.91 19.8: 11.2 3.04 '67 24.1 · 17.2 2.40 22.6 16.6 2.54 21.0 16.0 2.68 1~.3 15.4 2.80 17.7. 14.7 2.91 800 .63tt 22.3 16,7 2.34 20.8 16.0 2.47 19.3 15.4 2.59 17.8 14.7 2.71 16.2 14.1 2.80 52· 22.9 20.8 2.33 20,5· 20.0 2.46 19.2 19.2 2.59 18.o· 18.0 2.72 16.7 16.7 2.84 57 21.4 . 21.4 2.32 20.3 20.3 2.45 19.2 19.2 2.59 18.0 18.0 2.72 16.7 ·16.1 ; 2.84 72 26.7. ·13,9· 2.53 25.2 13.4 2,68-~23.5 12:9 2.83 21.8 12.~ 2.97 20.0 11.7 3.09 fI1 24.4 18.1 2.45 22.9 1°7.6 2.59 21.3 17.0 2.73 19.6 16.3 2.85 18.0 15.7 , 2.96 900 .. ~ 22.7 17.6 2.39 21.1 16.9 ·2,52 19.6 16.3 2.65 18.0 15.6 2.76 16.4 14;9 2.86 22.4 22.0. 2.39 21.0 21.0 2.52 19.8 19.8 . 2.66 18.5 18.5 2.79 17.2 17.2 2.91 57 22.2 22.2 2.38 21.0 21.0 2.52 19.8 19.8 2.66 18.5 18.5 2.79 17.2 .. 17.2 2.91 , . Multipliers for Determining the Performance With Other Indoor Sections · . Indoor Cooling Indoor Cooling Section Size Capacity Pow11r SectlO!I Size Capacity Power · . F(A,B)4ANF 024 1.00 1.00 .CD3(A,B)A 024 0.99 1.00 Q30 1.01 1.00 030 1.01 1.00 FD3ANA 024 0.97 0.97 CC5AICD5AICD5BW C30 1.01 1.00 030 1.02 .. 1.01 CE3AA 024 1.00 1.00 FF1{A,B)NA 024 0.97 1.00 030 1.02 1.01 030 1.02 1.01 CF5AA 024 1.00 1.00 CC5A/CDSA/ 024 0.99 1.00 --- CDSBA 030 1.01 1.00 See notes on pg. 13. 10 ·-~-... --_..., ... ,~-· . ~--·-_J 1 ! • -I l -Detailed cooling capacities* continued EVAPORATOR CONDENSER ENTERING AIR TEMPERATURES °F AIR 15 95 105 115 Ca&aclty M tuhf cagaclty M tuhf cagaclty M tuht 72 32;6 16.3 2;90 30.8 15.7 3.09 28.9 15.0 3.27 28.9 14.3 3.44 24.8. 13.6 3.60 67 29.7 20.8 2.83 27.8 20.0 2.99. 26.0 19.3 3.16 24.1 18.6 3.31 22.2 17.8 3.46 950· 63tt -27.4 20.1 2.76 25.7 19.3 2.92 23.9 18.6 3.07 · 22.1 17.8 3.22 20.2 17.0 3.35 62 26.9 25.0 2.74 25.2 24.1 2.90 23.6 23.2 3.06 22.0 22.0 3.21 20.6 20.6 . 3.36 57 26.1 26.1 2.72 24.8 24.8 2.89 ·23.4 23,4 3.05 -22.0 ·22.0. 3.21 20.6 · 20.6 3.36 72 32.9 16.7. 2.94 31.1 16.2 ·3,13 29.3 15.5 3.32 27.1. 14.8 3.49 · 25.0. 14.1 . 3.65 67 30.2 -21.7. 2.87 28.2 20.9 3.04 26.3 20.2 · 3.2-1 24.4 19.5. 3.36 22.4 18.7 3.51 .. 1050. 63tt 27.8 20.9 2.81 26.0 20.2 2;97 24.2 19.4·. 3.12 22.4 18.6 3.27 20.4. 17.8 3.40 62 27.3" 26.1 2'.79 · 25.6 25.2' 2.96 24.1 24.0 . 3.12 22.6 22.6 3.28 21.1 21.t 3.43 57 26.8 26.8 2.78 .25.4 25.4· 2.95 24.0 24.0 3.12 22.6 22.lr 3.2.8 21.1 21.1 3.43 72 33.1 17.1 2.99 31.4 1s.6· 3.18 29.5 16.0 3.36 27.3 15.3 3.54 25.2 14.6· 3.70 67 30.4 22.5 2.91 · 28.5 21.8· 3.09 26.5 21.0 3.26· 24;5 20.3 3.41 · 22.6 · 19.5 3.56 1150 63tt 28.0 21.7 2.85 26:2 21.0 • 3.02 24.4 20.2· 3:17 22.5 19.4 3.32 ,20.6 18.6 3.45 62 27.7 21.1 · 2.84 26.1 26.0 3.01 24.6 24.6 3.18 23.1 23.1 3.34 21.5 21.5 3.50 57 27.5 27.5 2.84 26.0 26.0 3.01 24.6 24.6 3.18. 23.1 23.1 3.34 21.5 21.5 3.50 Multipliers forDetennining the Performance With Other Indoor Sections Indoor Cooling· Indoor Cooling Section Size Capacity Power Section Size Capacity ·Power F(A,B)4ANF. 030 1.00 1.00 CC5Ai'Cq5AICDSBW 030 0.99 1.00 036 1.01 1.03 CD3(A,B)A 030 0.99 1.00 FD3ANA 030 0.99 ·1.02 036 · 1.01 1.02 FF1(A,B)NA 030 1.00 1.02 CDSA/CDS~W 036 1.01 1;02 FG3AAA 036 1.00 1.01 CE3AA 030 0.99 1.01 CCSA/CD5A/ 030 0.99 1.00 036 1.00 1.01 CD5BA :036 1,01 I 1.02 CFSAA 036 I •. 1.00-1.01 38YCA/YCN036-3E, 56, 66, 37, 57, 67 Outdoor Section With F(A,8)4ANF036 Indoor Section 72 38.6" 19.2 . 3.37'. 37.2 18.7 3.68 35,5· 18.1 4.02 33.7 17.4 4.38 31.8 16.8 4.78 67 35.4 24.5 3.32 33.8 23.9 3.62 32.3 23.2 3.95 30.5 22.5 4.31 28.7 21.8 4.70 1100 63tt 32.9 23.8 3.28 ·31.4 23.1 3.58 29.8 22.5 3.91 26.2. 21.8 4.26 26.5 21.0 4.65 62 32.3 29.5 3.27 30.9 28.8 3.57 29.4 28.1 3.90 27.9 27.2 4.26 26.3 28.3 4.64 ·57 31;3 31.3' 3.26 •30.1 30.1 3.56 28.9 28.9 3.89 27.6 27.6 4.25 26.3 26.3 4.64 1 72 39.0 19.8 3.42 ;37,5 19.3 3.73 35.8. -18]3 4.07 34.0 18.0 4.43 · 32.0 17.3 4;83 67 35.8 25.5 3.37 ;34.2 24.8 3.67 32.5 24.2 4.00 30.8 23.5 4.36 29.0 22.8 4.~ 1200 63tt 33.3 24.7 3.33 ·-31.7 24.0 3.63 30:2 23.4 . 3.95 · 28.5 22.7 4.31' 26.8 21.9 4.69 62 32.7 30.8 3.32 31.3 30.1 3.62 29.8 29.2 3;95 28.3 28.2 4.31 26.9 26.9 4.70 57 32.0 32.0 3.31 30.8 30.8 3.61 29.6 29.6 3.94 28.3 · 28.3 4.31 26.9 26.9 4.70 72 · 39.3-20.3 3.46 37.9 19.8 3.78 36.2; 19.2 4.11 34.2 18.5 4.48 32.3 17.9 4.87 67 36.1. 26.4 3.42 34.5 25.8 3.71 32.9 25.2 ·4.04 31.0 24.4· ·4;40 29.2 23.7 4.79 1300 63tt 33.5 25.6 '3.38 32.0 24.9 3.67 30.4 24.2 4.00. 28.7 23.5 4.36 26.9 22.8 4.74 62 33.1, 32.0 3.37 31.7. ·31.2 3.67 30.3: 30.2 3.99 28.9 28.9 4.36 27.4 27.4 4.75 57 32.7 32.7 3.36 31.5 31:5 3.66 30.2 30.2 . 3.99 28.8 28.8 4.36 27.4 27.4 4.75 Multipliers for Detennining the Perfonnance With Other Indoor Sections Indoor Cooling Indoor Cooling ~on Size Capacity Power Section ~lze Capacity Power F(A,B)4ANF .036 1.00 1.00 CD:t(A,B)A 036 MO ·0.99 F(A,B)4AN(F,B) 042 1.02 1.00 042 1.02 0.99 FG3AAA 036 0.99 0.98 CCSA/CDSA/ . 042 1~01 0.99 CCSA/CDSA/ 036 1.00 0.99 CDSBW 043 1.01 0.99 CDSBA 042 1.02 0.99 CE3AA 036 1.00 0.98 043 1.01 0.99 042 1.01 . 0.99 CDSA/CDSBW 036 1.00 0.99 CFSAA 036 1.00 0.99 See notes on pg. 13. 11 r ---· ~ ~---·· Detailecl cooling capacities•· continued EVAPORATOR-CONDENSER ENTERING AIR Tl:MPERATURES °F AIR ·85 95 115 125 cag:clty M tuht eag:iclty M tuht cacaclty M luht cag::clty M luht 72 22.8 4.18' 44.1 42.0 21.4 4.98 5.43 37.6' 19.8 5.91 67 29.0 ·4.11 40.1 38.2 27.5 4.88 5.33 34.0 25.9 ·5.ao 1300 . 63tt 28.2 4.06 37.2 35.4 26.6 4.82 5.26 31.4 24.9 5.72 62 35.0 4.04 38:6 34.9. 33.3 4.81 5.25 31.2 31.1 5.72 57 · 37.1 4.02 35.8 34.3 34.3 4.79 5.24 31.1 31.1 5.72 72 46.2 23.3 4.23 44.5 22.7 4.62 -.. 42.4 22.0 5.03 40.2 · 21.2 ·5.45 37.8 20.4 5.96 . 67 42.4 30.1 4.16 · 40.5 29.3 4.53 38.5 28.5 4.94 36.4 · 27.7 ·5.38 34.2 26.8 5.86 -1400 63tt 39.4 29.1 4.11 37.6 28.3 4.47 35.7 27.5 4.87 33.7 26.7 5.31 31.6 ,25.8 5.18: 62. 38.B 36.3 4.09 .37.0 '35,4, 4.48 35.3 34.5 4.86 33.5 · 33.3 5.30 31.7 31.7 5.78 57 37.9 37.9. 4.08 '38:5 · 36.5 4.45 35.0 35.0 4.85 33.4 ' 33.4 . 5.30 31.7 . 31.7 5.78 72 46.5 23.B . 4.28 44.8 23.3 ·4.67 42.7 22.5 5.08 40.4 21.7 5.53 38.0 20.9 6.02 1500 67 42.8 31.0 4.21 40.9 30.2, 4.58 38.B 29.4 4.99 38.7 28;6 5.43 34:5 27.7 5.91 . · 63tt 39.7 30.0 4.16 37.9 29.2 4.52 38.0 28.4 4.92 34.0 · ,27.6. 5;3t3 '31.8 26.6 ' 5.83 62 39.1 37.5 4.14. 37.4 36.5 4.51 35.7 35.5 4.91 34.0. 34.0 5.36 '32.3 32.3 5.84 57 38.6 38.6 4.13 37.1 · 37.1 · 4.50 35.6 35.6 4.91 · 34.0 34.0 5.36 32.3 32.3 5.84 Multipl"iers for Determining the Performance With Other Indoor Sections · Indoor Cooling Indoor Cooling Section Size Capacity Power Section Size Capacity Power F(A,B)4AN(F,B) 042 1.00 .. 1.00 CCSA/CD5A/ 042 1.00 ·o.99 048 1.01 1.00 CDSBW 043 1.00 0.99 FG3AAA 048 1.01 0.99 048 " 1.01 0.99 CCSA/CDSA/ -042 1.00 0.99 CDSA/CDSBA 048 1.01 0.99 CDSBA 043 1.00 . 0.99 . CC5AICD5AICD5BC 048 1.00 0.99 CD3(~B)A 042 1.00 0.99 CE3AA 042 , 1.01 0.99 048 1.01 ' 0,99 048 1.01 0.99 --I. CFSAA 048 1.01 0.99 38YCANCN048-32, 52, 62, 33, 53, 63 Outdoor Section With F(A,8)4AN(F,8)048 Indoor Section 72 51.8 26.1 4.49 49.9 25.4 4.90 47.6 24.6 5.35 45.1 23.7 5.83 42.5 22.8 6.35 67 47.7 33.7 4.43 45.5 32.8 4.82 43.3 31.9 5.25 41.0 31.0 5.73 38.5 30.1. 6.24 1450 63tt 44.3 32.7. '4.37 42.3 31.8 4.76 40.2 30.9 5.19 37.9 29.9 5.65 35.6 : 28.9 6.16 62 43.5 40.7 · 4.35 41.6 39.8. 4.75 39.7 38.7 5.18 37.7 37.5 5.65 35.6 35;6, 6.16 57 42.6, 42.6 4.34 41.0 41.0 4.73 39.4 39.4 5.17 37.6 37.6 5.65 35.7 35.7! 6.16 72 52.2 26.8 . 4.57 50.4 26.3 ·4.98 48.0 25.5 5.42 45.5 24.6 5.91 42.8 23,7: 6.43 67 48.2 35.2 ' 4.51 . 48.0 . 34.3 4.90 43.7 33.4 5.33 41.3 32,5· 5.80 38.8 . 31.5 · 6.32 1600 63tt 44.8 34.1 iJ.44' 42.7 33.2 4.83 40.6 32.3 5.26 38.3 31.3 . 5.73 35.8 30.3. 6.23 62 44.3 42.8 4.43 . 42.3 41.7 4.83 40.4 40.3 5.26 38.5 38.5 5.74 36.5 36.5 6.25 57 43.7 43.7 4.42 42.1 42.1 4.82 40.3 40.3 5.26 38.5 38.5 5.74 36.5 36.5 6.25 72 52.5 27.6 4.64 50.7 27.1 . 5.05 48.4 26.4 5.50 45.8 25.5· 5'.98 43.1 24.6 6.50 67 48.7 36.8 . 4.58 46.4 35.9 4.97 44.1 35.0 5.41 41.6 34.0 5.88 39.1 33.0 -6.39 1750 63tt 45.2 35.5' 4.52 . 43.1 34.6 4.91 40.9 sa.1 5.34 38.6 32.7 5.81 36.2 31.7 s:31 62 44.9' 44.5 -4.51 43.0 43.0 4.91 41.2· 41.2 5.34 39._3. 39.3 5.82 37.3 37.3 6.34 57 44.7 44:7 4.51 43.0 43.0 4,91 41.2 41.2 5.34 39.3 39.3 5.82 37.3 37.3 6.34 Multipliers for Determining the Performance With Other Indoor Sections Indoor Cooling Indoor Cooling Section Size . Capacity Power Section Size Capacity Power F{A,B)4AN{F,B) 048 1.00 t.00 ~BC 048 0.96 0.97. 060 1.01 1.02 CCSA/CDSA/ 048 0.98 0.98 FB4ANB 070 1.02 1.01 CDSBW 060 1.00 0.99 FG3AAA 048 0.98 0.98 CCSAICD5NCD5BA 060 0.98 0.98 060 1.00 0.98 CE3AA ... 048 0.98 0.98 CDSA/CDSBA 048 0.98 0.98 060 1.00 0.99 CD3(A,B)A 048 0.98 0.98 CFSAA 048 0.98 0.97 060 0.98 0.98 ---- See notes on pg. 13. 12 ,' I· , Detailed cooling capacities* continued EVAPORATORi--------------c_oN_D_E_N_S..,ER,__ENTE __ R_IN_G_A_IR_TE_M_P_E..,Rl'""A_TU_R_E_s_·_F ___ __,. _______ _ AIR 85 95 105 115 125 •. CMaptuachltyt Total Capacity. Total Capacity·· Total Capacity Total Capacity Total B System MBtqht Syatemi--_M_B.,.htu_h_t_-tSystem MBtuht System.,__·_M_B,..tt1u_h_t_-1SJ•tem CFM EWB Total ~·* KW•• Total Sa~•* KW•• T KW•• Total Sen•* Kw•• Total c:, KW- •·•• •II u-~ en iliuu ·~••, EJt1a 1:z•••:1 ,,,,n,,•: :u11.11 1111• h""l:.f•Ul1h 72 63.8 31.9 5.67 . 60.9 30.9 6.17 57.9 29.9 6.70 54.8 28.8 7.29 51.6 27.7 7.93 67 58.2·. 41.1 5.55 55.5 40.o s.o3 52.6 38.8 6.57 4.9.8 31,1 1.15 48.8 36.6 1.18 1800 63ft 54.1 39.8 5.46 ; 51.5 38.7 5.94 48.9 37.6 . 6.47 46.1 36.4 7.04 43.2 35.2 7.66 · .. · 62 53.2 49.8 5.44 50.7 48.6 S.93 48.3 47.3 6.45 45.8 45.7 7.03 43.4 43.4 7.67 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 2000 2200 · 72 . . 57'. · 63tt 62 57 72, 67 · .. 63tt 62 57 Indoor Section F(A,B)4AN(F,B) FB4ANB FG3AAA CCSAICDSAICD5BA 64-4 58.8,. 54.7 54,0 53.5 64.9 59.3. 55.1 54.8 54.7 .. 33.1 43.1 41:7 52.4 53.5. 34.2 45.0 43.5 54.5 54.7 Size 060 070 060 060 5.'?9 61.5 32;1 6.29 58.4 31.0 6.82 55.3 29.9 7.41 51.9 28.8 8.05 5.67 56.0 42.0 -6.15 53.2 40.9 · 6.68 50.2 39.7 7.26 47.1 38.5 7.89 5.58 . 52.1 40;5 . 6.06 49.3 39.4 6.58 : 46.6 38.3 7.16 43.6 37.0 7.78 5.56 51.6 51.0 6.04 . 49.2 49.2 6.58 48.9 46.9 7.17 44;5 44.5 ?.81 S.55 51.4 51.4 6.04 49.2 49.2 6.58 46.9 46.9 7.17 M.5 44.5 7.81 5.90 62.0 33:2 6.40 58.9 "32.1 6.94 55.6 31.0 7.53 5,2.2 29.9 8.17 . 5.78 · 56.5 43.9 6.26 53.6 42.8 6.79 50.6 41.6 7.38 '47.4 40.4 8.01 .. '5.69 52.4· 42.4-6.17 . 49.7 41.2 6.70 46.9 40.0 . 7.27 43.9 38.7 7.89 5:68 52.6 52.6 6.17 50.3 50.3 6.71. 47.9 47.9 7.30 . 45.4 45.4 7.94 5.68 52.5 52.5 6.17 50.3 50.3 6.71 47.9 47.9 7.30 45.4 45.4 7.94 Multipliers for Oetennining th1;1 Performance With Other Indoor Sections Cooling Indoor Cooling Capacity Power Section Size Capacity Power 1.00 1.00 · CD3(A,B)A 060 0.96 0.94 1.01 0.98 CCSA/CD5A/ 0.97 0.96 CD5BW . 060 0.99 0.96 0.96 0.94 CE3AA 060 1.00 0.97 • Detailed cooling-capacities are based on Indoor. and outdoor unit at the same elevation and connected by 25 ft of tubing. If other than 25 ft of . tubing is used and/or indoor unit is located above outdoor unit, a slight variation In capacity may occur. · .. · t. · Total and sensible capacities are net capacities~ Blower motor heat has been subtracted. . · _ " · :f:' Sensible capacities shown are based on 80°F (27°C) entering air at the Indoor coil. For sensible capacities at other than 80°F (27°C), deduct 835 . Btuh (245 kw) per 1000 CFM (480 US) of indoor coil air for each degree below 80°F (27°C), or add 835 Btuh (245 kw) per 1000 CFM (480 US) of Indoor coil air per degree above 80°F (27°C). . ** System kw is total of indoor and outdoor unit kilowalfs. tt At TVA ratlng·indoor condition (75° edb/63° ewb): All other indoor air temperatures are at 80° edb. EWB-Er!tering Wet Bulb ; 13 : ··. .· ...... ...... .. .. -.-~ ... • -:., ' ... . .·. ~ I __I Heat pump heating performance • • -I 600 7.22 6.65 1.27 8.97 G5 650 7.31 6.73 1.29 9.07 700 7.40 6.81 1.31 9.16 600 6.96 6.40 1.29 8.69 70 650· 7.05 8.48 1.31 8.79 700 7.13 8.56 1.32 8.88 600 6.61· 6.14 1.30 8.41 75 650 8.76 8.22. 1.3l! £.51 700 6.85 6~ 1.34 8.61 Indoor .. Sec:tloli Size ~D5A/ 018 CD5BA 024 . CD3(A,BJA 018 .Q24- CE3AA 024 CFSAA 024 F8(4,5)AN(A,f) 018 024 - ;~-, --~, 700 9.37 8.62 1.58 11.7 65 800 9.59 ·8.82 .1.59 11.9 900 9.79 9.00 1.63 12.2 700 8.87 8.16 1.57 11.3 . 70 800 9.11 8.38 1.60 11.S ·900 9.31 8.58 1.64 ·11.7 700 8.34 7.67 1.57 10.8 75 800 8.58 7.B9 1.61 11.1 900 &78 8.p7 1.64 11.3 .• Indoor 8.24 1.35 10.9 9;92 1.43 12.9 11.5 1.50 15.2 13.9 1.59 17.7 17.7 1.69 8.33 1.37 11.0 10.0 1.44 13.1 11.6 1.51 15.4 f4.0 1.80 17.9 17.9 1.70 8.42 1.38 11.1 10.1 t.45 13.2 11.'T 1.53 15.5 14.1 1.61 18.0 18.0 1.71 7.99 1.37 10.6 9.65 1.45 12.8 11.2 1.53 14.9 13.5 1.62 17.3 17.3 1.72 8.08 1.39 10.7 9.78, 1.46 12.7 11,3 1.54 15.0 13.7 1.63 17.5 17.5 1.73 8.16 1.40 10.8 9.85 1.48 12.9 11,4 1.58 15.2 13.8 1.64 17.6 17.6 1.74 7.73 1.39 10.3 9.38 1.48 12.3 10.9 -1.58 14.5 · 13.2 1.66. 16.9 16.9' 1.76 7.82 1.41 10.4 9.48 1.49 12.4 11.0 1.57 14.7 13.4 1.67 17.1 17.1 1.77 7.91 1.42 10.5 9.58 1.50 12.5 11.1 1.59 14.8_ 13.5 1.68 17.3 17.3 1.78 Multipliers for Determining tl'le· Performance With Other Indoor Sections HuUng Indoor Capacity P.-r_ ~on Size' 0.97 0~ FA1ANA 018 1.00 0.97' 024 0.97 0.99 FC4ANF 018 1.00 0.97 FD3ANA 024 1.00 0.97 . FFIAHA. -018 1.00 om 024 1.00 1.00 FG3AAA 024 1.()3 0.99 F(A,8)4ANF 018 --024 ,._,,I"'-"!!:. • ... ., Elli ·--,r.. ·-Ii 10.8 1.66 14.2 12.9 1.75 16.8 14.9 1.84' 19.8 17.8 1.92 22.7 22.7' 2.02 11.0 1.69 14.5 13.2 1.77 17.1 15.2 1.88 19.9 18.1 1.94 23.2 23.2 2.04 11.2 1.72 14.7 13.4 1.80 17.4 15.4 1.88 20.2 18.4 1.96 23.5 23.S 2.05 10.4 1.67 13.7° :12.5 1.77 18.3 14.5 ,1.86 19.1 17A 1.96 22.2 22.2 '.2.06 10.6 1.70 14.0 12.8 1.80 16.6 14.8 1.89 19.5 17.7-1.98 22.6 22.6 2.07 10.8 1.73 14.2 13.0 1.83 16.9 15.0 1.91 19.7 18.0 1.99 22.9 22.9 2.09 9.95 1.68 13.3 ·12.1 1.79 15.8 14.1 1.89 1a6 16.9 1.99 21.6 21.6 ·2.10 10.2 1.71 13.5 12.3 1.82 16.1 14.3 1.91 19.0 17.3 2.01 22.0 22.0 2.11 1();4 1.75 f3.8 12.8 1.85 16.4 14.6 1.94 19.3 17.S 2.03 22.4 22.4 2.12 Multipliers for Determining the Performance With Other Indoor Secliqns ' Heating . i Indoor 20.8 20.8 1.83 21.0 21.0 1.83 21.1 21.1 1.84 20.3 20.3 1.86 20.5 20.5 1.87 20:1 20.7 1.88 19.9 19.9 1.so· 20.1 20.1 1.91 20.2 20.2 1.91 Heating capactty 1,00 1.02 1.02 1.00 1.00 1.01 o:tHS 1.00 1.03 . 26.8 28.8 2.17 27.1 27.1 2.17 27.4 27.4 2.16 26.0 26.0 2.20 26.5 26.5 2.21 26.9 26.9 2.21 25.3 25.3 2.24 25.8 25.8 2.25 26.2 28.2 2.26 Heating Section Size . Cilpaclty PoMr ' Section Size Cilpaclty F(A,8)4ANF 024 1.00 1.00 CD3(A,BJA 024 1.00· 030 1.00 0.99 030 1.00 FD3ANA 024 1.00 1.0·1 CCSA.a>5NCDSBW 030 : 1.00 030 1.00 0.99 CE3AA 024 1.00 FF1(A,B)NA 024 1.00 1.01 030 1.00 030 1.00 ' ~-99 ·CF5AA_ 024. 1.00 CC5AICDSAICD5BA 024 1.00 1.03 -- 030 1.00 1.03 See noies on pg. 17. 14 23.8 23.8 1.98 24.0 24.0 1.911 24.2 24.2 2.00 23.4 23.4 2.02 23.6 23.6 2.02 23.7 23.7 2.03 22:9 22.9 2.05 .. 23.1 23.1 2.06 23.3_ 23.3 2.07 .. ~ 0.99 om 0.98 0.911 0.99 0.95 0.94 1.00 0.99 30.2 30.2 2.28 30.3 30.3 2.25 30.2 30.2 2.23 29.8 ~~ 2.34. 29.9 2.30, 30.0 ·30.0 2.30· 29.0 29.0 2.38 29.4 .29.4 2.36 29.7 29.7 2.36 p- 1.03 1.03 1.03. 1.02 0.99 . 1.02 - . 1 Heat pump heating performance continued 950 11.7 10.8 2.04 14.7 15 1050 11.9 11.0 2.07 14.9 1150 12.1 11.2 2.11 15.1 950 11.2 10.3 2.06 1"-3 ·70 1050 1U 10.5 2.09 14.5 1150 11.6 10.7 2.13 1".7 950 10.6 9.78 2.07 13,7 .rs 1050 10.8 9.97 2.11 14.0 .1150 11_.0 10.1 2.14 14.2 Indoor Si!ctlon Sin F(A,8)4ANF 030 035 FD3ANA 030 FF1(A,8)NA 030 FG3AAA 036 CC5A/CD5A/CD5BA 030 036 CC5A/Ct15A/CD5BW 0 0 ··~ ... ,-..... ···- 1100 17.1 15.8 2.77 20.3 65 1200 17.3 15.9 2.79 20.4 1300 17.5 16.1 2.62 20.6 1100 16.9 15.5 2.86 20.0 70 1200 17.0 15,7 2,69 20.2 1300 17.2 15.8 2:91 20.3 1100 16.5 15.2 2.95 19.7 75 1200 16.7 15.3 2.97 19.9 1300 16.9 15.5 3.00 20.1 . I Indoor ~on Size F(A,B)4ANF 036: F(A,8)4AN(F,B) 042 FG3AAA 036 CCSA.ICD5AICD5B 036 .. 042 043 CD5A/CD5BW 036 See notes on pg. 17. 13,5 2.15 17.8 16:3 2.25 21.3 18.9 2,37· 25.1. 22.8 2.49 29.3 29.3 2.82 13.7 2.18 18.1 18.5 2.29 21.5 19.1 2A0 25.<l 23.1 2.51 29.7 29.7 2.6" 13.~ 2.21 18.3 18.7 2.32 21.8 1U 2.42 25.7 23.4 2.53 30 .. o 30.0 2.65 13.1 2.17 17.4 15.8 2.30 20.7 18.4 2.41 2"-5 22.3 2.5" 28.6 28.6 2.68 13.3 2.21 17.6 16.0 2.32 21.0 18.7 2.4" 24.8 22.8 2.56 29.0 29.0 2.69 13.5 2.24 17.8 18.2 2.35 21.3. 18.9 2.46 25.1 .22.8 2.56 29,3 29.3 2.71 12.6 2.20· 16.9 15.4 2.33 20.2 17.9 2.45 23.9 21.8 2.59 27.9 27,9 2.73 12.8 2.23 17,1 15.8 2.35. 20.5 18.2 2.48-24.2 22.1 2.61 28.3 28.3 2.74 13.0 2.28 17.3 15.8 2.39 20,7• 18.4 2.50 24.5 22.3 2.63 28.7 28.7 2.78 Multipliers for Detennining the Performance With Other Indoor Sections Heating '. .. Indoor .. ' Capacity Power ... Section Size. 1.00 1.00.· CD3(A,B)A. 030 1.01 1.01 038 1.00 1.00 · CD5A/CD5BW 038 1.00 0.99 CE3AA 030 1.00 1.00 ·. 0 Cl.99 1.01 CFSAA .. ,11 1.01 G.99 - 0.99 1.01 ·-I·-· -.,:..,, , .. ...... , ••:::r• •:11 f(11l IIICto 18.6 2.85 23.7 21.6 2.94 27.4 24.4 3.05 31.6 28.8 3.18 36.2 36.2 3.34 18.8 2.87 23.9 21.8 2.95 27.6 24.6 3.05 31.9 29.0 3.17 36.4 36.4 3.33 18.9 2.89 24.1 21.9 2.96 27:8 ·24.7 3.05 32.1 29.2 3.17 36.7 36.7 3.33 18.4 :2.9a 23.4 21.3 3.08 ,21.1 24.1 3.17. 31.3 28.4 3.31 35.7 35.7 3.47 18.5 2.97 23.8 21.5 3.07 27.3 24.3 i~~ 31.5 28.7 3.30 36.0 :] .3.46 18.7 2.99 23.8 21.7 3.08' 27.5 24.4 31.7 28.9 3.30 38:3 3.46 18.1 ·3,07 23.1. 21.1 3.18 26.8 23.8 3.29 30.9 28.1 3.4" 35.3 35.3 3.61 18.3 3.08 23.3 21.3 3.18 27.0 24.0 3.29 31.1 28.3 3.43 35.6 '35,6 3.59 18.5 3.10 23.5 21.4 3.19 27.2 24.2 3.30 31.3 28.5 3.43 35.8 35.8 3.59 Multipliers for Oetennining the Perfonnance With Other Indoor Sections ' Heating Indoor 34.7 34.7 2.81 35.2 35.2 2.82 35.8 35,6, 2.~ 33.:; 33.9 2.87 34.4· 34.4 2.87 34.8 34.8 2.89 33.f 33.1· 2.92 33.6 33.6 2.93 34.0 34.0 2.94 tieeUng Capacity 0.99 1.01 1.01 1.00 1.00 1.00 - ... ,. 42.1 42.1 3.60 42.4 42.4 ~ 42.7 42.7 .41.6 41.8 3.;74 41.9 41.9 3.72 42.2 42.2 3.71 41.0 41.0 3.88 41.3 41.3 3.86 41.6 41.6 3.85 Heating Cepeclty Power Section Size Capacity 1.00 . 1.00 CD3(A,B)A 036 1.00 1.00 0.97 042 1.00 : 1.00 1.01 CCSAICD5AICD5BW 042 1.00 1.00 0.98 . 043 1.00 1.00 0.98 ~-·CE3AA 036 1.00 1.00 0.98 042 1.00 1.00 0.96 CF5AA 036 1.00 .. 40.t 40.t 3.01 40.7 40.7 3.02 ·41.1 41.1 3.02 39.2 39.2 3.07 39.8 39.8 3.07 40.3 40.3 3.08 38.3 38.3. 3.12 38.9 38.9 3.13 39.4 39.4 3.14 P!JWff -~ 1.01 G.99 0.99 1.00 . 1.00 G.99 - 46.2 46.2 3.93 46.6 46.6 3.91 48.9 48.9 3.90 47.5 47.5 ·4,07 47.9 47.9 4.05 48.3. 48.3 4.D4 46.9 46.9 4.22 47.3 47.3 4.19 47.8 47.6 4.18 :i' Power 0.98 0.98 0.99 0.99 1.00 0.97 0.99 .ts Heat pump heating performance co.ntinued • i 1300' 21.7 20.0 3.51 25.4 23.3 3.57 29.1 28.5 3.62 33.1. 29.4 3.67· 37.4 34.0 3.75 42.2 42.2 3.85 48.4 48.4 4.03 54.5 54.5 4.24 611 1400 21.9 20.1 3.53 25.5 23.5 3.59 29.3 28.7 3.63 33.3 29.6 3.67 37.6 34.2 3.74 42.5 42.5 3.84 48.6 48.6 4.01 ss:o 55.0 4.21 1500 22.1 20.3 3.58 25.7 23.8 3.61 29.5 26.9 3.64 33.5 29.7 3.68 37.9 34.4 3.74 42.8 42.8 3.83 49.1 49.1 3.99 55.3 5;5,3 4.20 1300 21.2 19.5 3.63 25.1 23.0 3.71 28.8 28.3 3.715 32.7 29.1 3.83 37.0 33.7 3.90 41.7 41.7 4.01 · 47.8 47_9· 4.19 ·53.9 53.8 4.41 70 1400 21.5 19.7 3.65 25.3 23.2 3.72 29.0 28.4 3.TT 32.9 '29,3 3.83 37.2 33.9 3.89 42.0 42.0 3.99 48.1 48.1 4.17 .54.2 54.2 4.38 ·. 1500 21.7 19.i," 3.68 25.4 23.4 3.74 29.2 28.6 ·3,79 33.1 29.4 3.83 37.5 34.1 3.89 42.3 42'.3 3.98 48.5 48.5 4.15 54.6 54.6 4.35 1300 20.7 19.1 3.75 24.7 22.7 3:03 28.5 26.0 3.91 32.4 20:1· 3.98 38.8 33.3 4.08 41.2 41.2 4.17 47.1 47.1 4.36 53.0 s;J,!i 4.58 75. 1400 20.9 19.3 3.77 24.9 22.9 3.86 28.7 28.2 3.92 32.6 28.9 3.98 38.8 33.5 4.05 41.5· 41.5 4.15 47.5 47.5 4.33· 53.4 53.4, 4.54 ·.: 1500 21.1, 19.5 3.80 25.1 23.1 3.88 28.9 26.~ 3.93 32.8 29.1 3.98 37.1 33.7 4.Q5 41.8 41.8 4.15 47.8 47.8 4.32 53.8 53.8 4.~ Multipliers for Determining the,Perform~ce With Other lnd_oor Sections ~ --. - Indoor ., HNUrig Indoor HeaUng Section .. Size Capacity ~-', Section ·Sin Capacity :~t .. F(A,B)4"N(F,B) · 042 1.00 1.00 cc;sNC05A,'Cl)5 042 1.00 1._02 048 1.00 0.96 043 1.00 .. f.01 FG3AAA 048 1.00 0.98 048 1.00 0.99 CC5AICDSAICD58A 042 1.00 1.01 CD5AICD5BA 048 1.00 ,.. 0.99 (!43 1.00 1.01 CC5NCD5A,Q)58C 048 1.00 1.04. CD3(A,B)A 042 1.00 1.01 CE3AA 042 1.00 0.99 048 1.00 0.99 048 0.98 ---CF5AA 048 1.00 , ... , -, .. rai.,, ,.: .. -. , ... I• . ... .,, ,. :u•I' •••11;; ;1111 ··-·· .. ~,-- 1450 21.1 19.4 3.51 25.1 23.1 3.60 29.8 27.0 3.70 34.7 30.8 3.81 40.3 35.7· 3.95 47;1 47.1 . 4.14 55.8 55.8 4.44 64.8 64.8· 4:80 611 1800 21.3 19.IS 3.55 25.4 23.3 3.83 ~ 27.:J 3.72 35.0 31.1 3.82 40.7 :.rr.o 3.95 47.6 47.6 . 4.14 56.3 58.3 4.43 64.4 64.4 4.69 1750 21.6 19.8 3.60 25.8 23.5 3.87 27.5 3.75 35.3 31.3 3.84 41.0 37.3 3.96 47.9 47.9 4.15 56.8 56.8 4.44 64.2 64.2 4.64 1450 20.8, 19.2 3.64 24.9 22.8 3.74 29.3 28.7 3.84 34.3 30.5 3.96 39.9 38.3 4.11 48.6 46.6 4.30 55.1 55.1 4.81 64.1 64.1 4.99 70 1600 21.1, 19.4 3.68 25.1 23.1 3.77 29.8 27.0 3.86 34.8 30.7 3.98 40.3 36.I· 4.11 47.0 47.0 4.30 55.6 55.6 4.60 64.7 64.7 4.97 1750 21.3 19.8 3.72 25.3 23.3 3.80 29.9 27.2 3.89 34.9 31.0 4:.00 40.5 38.9 4.12 47.4 47.4 4.30 56.1 56.1 4.60 64.0 64.0 4.85 1450 20.S 18.8 3.76 24.6 22.8 3.88 29.0 28.5 3.99 33.9 30.1 4.12 39.S 36.0 4.28 48.0 46.0 4.48 54.4 54.4 4.79 63.2 63.2 5.17 75 1600 20.7 19.1 3.80 24.8 22.8 3.91 29.3 26.7 4.01 34.2 30.4 4.13 39.9 36.3 4.28 46.4 46.4 4.48 54.9 54.9 4.77 63.8 63.8 5.14 1750 21.0 19.3 3.84 25.1 23.0 3.94 29.S 28.9 4.04 34.S 30.7 4.15 40.2 36.6 4.29 46.8 46.8 4.47 55.3 55.3 4.77 64.3 64.3 5.14 Multipliers for Determining the Performance With Other Indoor Sections Indoor Heating Indoor : Hct,atlng Section Size Capacity p-Section ! Size Capacity p-;,t· .. F(A,B)4AN{F,B) 048 1.00 1.00 CC5NCD5A.a>5BC ' 048 0.98 1.05 060 1.00 0.98 CCSNCD5AICD5BW 048 0.99 1:01 F8'AffB . 070 1.00 ·0.95 060 , ·1.00 0.99 ' ' FG3AAA 048 1.00 1.01 CC5NCD5A.a)58A 060 0.99 1.02 060 1.00 1.00. CE3AA 048 1.00 1.01 CDSAICDSBA 048 0.99 1.01 060 1.00 ·0.99 CD3(A,B)A 048 0.99 1.01 CF5AA 048 0.99 : 1.03 060 0.99 1.02 --- See notes on pg. ·11. 16 ' ; Heat pump heating performance :continued 1800 30.0 21:6 4.24. 34.6 Cl!I 2000 30.4 27.9 4.31 35:0 2200 30.8 28.3 4.38 35.4· 1800 29.4· 27.1 4.38 34.3 70 2000 29.9. 27.5 4.45 34,7 2200 30.3 27.9 4.52 35:1 1800 ~l 26.5 4.53 33.9 75 2000 21.0· 4.59 '34,3 2200 29.8 27.4 4.68 34.7 Indoor ~Ion· . Sin F(A,8)4AN(F,B} 060 FB4AN8. 070 FG3AAA ~ CCSA/CDSA/CDSBA OISO 31.8 4.37 ·39,4 38.0 4.51 44.9 32.2 4.43 39.9 38.3 4.55 45.4 32.5 4.49 40.2 36.7 4.«J 45.8 31.5 4.54 39.1 35.6 4.88 44.5 31.9 4.59 39.5 36.0 4.72 44.9 32.2 4.65 39.9 38.4 4.78 45.4 39.9 4.67 40,3 4.70 40.7 4.74 39.5 4.85 39.9 4.88 40.3 4.93· 50.7 51.2 51.7 50.2 50.7 51.2 48.2 48.8 47.0 45.7 48.1 48.5 4.85 58.1 58.1 5.12 4.88 58.7 58.7 5.13 4.91, 59.2 59.2 5.16 5.05 57.4 57.4 5.32 5.07 58.0 58.0 5.33 5.10 58.5 58.5 5.36 31.2 4.11 38.7 35.3 4~ 44,1 39.2 5.05 49.7 45.2 5.25 58.8 58.8 5.54 31.5 4.78. 39.2 35.7 4,91, 44,5 39.$ 5.08 50.2 45,7 5.27 57.3 57.3 5.54 31.9 4.82 39.5 36.o 4.96 44.9 39.9 5.11 sq.a 46.1 5.30 57.8 57.8 5.56 Multipliers for Determining the Performance With Other Indoor Sections ~ltlng Indoor Capacity 'Penn,. Section Size 1.00· ·1.00 CD3{A,B)A 080 0.98 0.94 CC5A/CD5A/CD5BW 060 0.97 1.00 CE3AA OiiO 0.97 . 1.05 - 68.6 66.6 5.47 68.4 158.4 5.42 66.2 66.2 5.40 66.t. 66.1 5.70 66.3 68.3 5.66 68.1 66.1. 5.63 65.5 65.5 5.94 66.1. 66.1 5.93 66.o, 68.0 5.88 Heating Capacity 0.97 OJ17 0.97 - 71.9 71.9 5.69 71 .. 1 71.1 5.61 70.4 70.4 5.57 72.1 72.1 5.97 70.9 70.9 5.84 . 69.9 69.9 5.78 72.2 72.2 6.28 72.3 72.3 6.20 70.8 70.8 6.06 Power 1.05 0.99 0.98 - t The Btuh heating capacity values shown are net Integrated values from which the defrost effect has been subtracted. The Btuh heating from sup- plement heaters should be added to those values to obtain total system capacity. · :J: The kw values include the compressor, outdoor fan motor, and indoor blower motor. The kw from supplement heaters should be added to these ·values to obtain total system kw's. · · EDB-Entering Ory Bulb · . ; I System 'Design . 1. Jntended for outdoor installation with free air inlet and outlet. Outdoor fan external static pressure available is less than. 0.01-in. ~ 2. Minimum outdoor operating air temperatw-e for cooling mode. without low-ambient operation accessory Is 55°F (12.B"C). , 3. Maximum outdoor operating !!fr temperature for cooling r,paje Is 125°F (51. 7°C), except SOl!le 3 phase models is l l5°F (46. 7°C)._ 4. Minimum outdoor operating ~Ir temperature for heating mode is -30°F (-34.4°C).. : . : ' s: Maximum outdoor operating air temperature for heating mode is 66°F.(18.9°C). 6.: For reliable operaHon, unit should be level In all horizontal planes. · 7. Maximum elevation of indoor coil above or below base of outdbor unit is: indoor coil above • 50 ft, indoor coil below -iso ft. (See items 8 and 9 following.) · · 8. For interconnecting refrigerant tl.!be lengths greater than 50 ft; consult l.ong-Une Application Guideline available from equipment distributor. 9. Not more than 36 in. of refrigerant tube should be buried in.the grournt If necessary to bury tubes under a sidewalk, provide a minimum 6-in. vertical rise to the valve connections at the unil ' . . . 10. Use only copper wire for electric connection at unit. Aluminum -and clad aluminum are not acceptable for the type of conriector.provided. 11. Mixmatches of indoor coil capacity more than 1 size larger than outdoor unit capacity may result In Inadequate indoor comfort. 17 4:l .,, w a.ECTIIICAL UNIT ii: ·A B w CIWIACTEAISTICS ,.,, 38YCA018 3,4 X 0 0 0221N' 25 1!\1111 .. 38YCA024 5,6 X 0 0 0221N' 25 1!\lls· 38YCA030 5 X O 0 0221N' 33 1!\118" 38YCA030 6 X 0 0 0 22 11.!" 37 1lV18" 38YCA030 7 X 0 X 0 22½'" 33 1iv,11• 38YCA036 6,7 X 0 X X 30" 33 1lV111" 38YCA042 2 X 0 X X 30" 33 1!\lls" 38YCA042 3 X 0 X X 30" 31 1!\lls" 38YCA048 2 X 0 X X 30" 39 l!j/,5" 38YCA048 3 X 0 X X. 30" 31 1!¥10" 38YCA060 2,3 X 0 X X 30" 39 1!¥111• ~ ~ i 0 X=YES i i i. O=NO: CD ., g g. .------.F;----i ----o---..-i ------' H----~ MINIMUM UNITSIZE MOUNTING PAO DIMENSIONS 18,24,30 22 11.l"x221N' 36 30"x 30-42,48,60 18 · ... •. • .. !{~:-·.· C D E F G H J K ! L 3:Vus"' W' 311/te" 18 1K 19¥4 .. 21 %"' 14:w" 18 1.-11-22 11111- 3%s"' % .. 3 11/tG" 18 ,,.... 19¥4'" 21%" 14% .. 18 7AI'" 22 1/111" 3 ¥18" 3 :V18" 3!¥111"' 3 :Yt8" 31/4" 3¼'" 31/4" 31/4" 3 l/4" . . . . J J K ¥4 .. 3 11/te" 18 W". 19¥4"' 21 W" 14% .. 18 7AI"' 221/te" :}'4"' 3 11/111• 18W 19!¥4'' 21 W" 14%" 18 7AI"' 22½11"' !}'4" 3 1½11" 18 1N' 19:V4" 21%" 14%" 18 7AI" 22 1/111" !}'4" 61N' 231N' 271/4'" 29 IAI" 20" 26%" 29 o/,11'" 7AI'" 61N' 23 11.!'" 27¼" 29 1111" 20" 26%" 29 o/111" 711(' 6 11.l'" 231N' 27¼" 29 1AI" 20~ 26%" 299/10" 7A,'" 61N' 231N' 27¼" 29 IAI" 20". 26%" 29 P/10" 7A1'" 61N' 231N' 271/4'" 29 IAI" 20'" 26%" 299/16'" 1.-11-611.l" 231N' 27¼"' 29 \.11". 20"-26 %" 29 9/10" . . . ' " ,· .. ... . A so .---------. AIR DISCHARGE ~-+~ .. 0 • L AJRIN .B NOTES: 1. ALLOW 30" CLEARANCE TO SERVICE SIDE OF UNIT, 48" ABOVE UNIT, 6"0N ONE SIDE 12"' ON REMAINING SIDE, AND 24~ BElWEEN UNITS FOR PROPER AIRFLOW. ~ M N p WEIGHT 11-5-12"' 1321 10" 5" 13" 1481 121N' 12"' 14• 1551 161N' 14"' 15"' 1621 12½" 12" 14" 158# 16 ¥4" 15" 14" 1811 15" 15~4" 13 ½" 2121 15" 15" 13" 2121 15" 15 :V4" 15 1.11" 2241 15'" 15"' 13" 2221 13:V4~ 15%"' ·15• 242# .. . . " FIELD POWER SUPPLY CONN 7/e" DIA HOLE WITH 1 1/a" DIA KNOCKOUT ANO. . 1 3/a" DIA KNOQIOUT ; 3fe•DIA U0U1D LINE CONN 2. MINIMUM OUTDOOR OPERATING AMBl~T IN COOLING MODE IS 55°F, MAX 125°F. . 3. MAXIMUM OUTDOOR OPERATING AMBIENT IN HEATING MODE IS 66°F. 4. ~~~~E ~a~i:~TION IS THE-13TH POSITION. OF THE UNIT · 5. CENTER OF'GRAVJTY .& .• < C~rtified drawing-38YCN u, UNIT I!! ELECTRICAi. A 8 ffi CHARACTERISTICS 38YCN024 38YCN030 . 38YC.N030. 38YCN036 38YCN042 38YCN042 38YCN048 38YCN048 3/e,; DIA TIEDOWN KNOCKOUTS ~21 PLACES IN BASEPAN 5,6 X o· 5,7 x-o 6' X 0 6,7 X 0 2 X 0 .3 X 0 2 X 0 3 X 0 0 <9 ~ i 6 C') .CII CII . .I ~ I-·. MINIMUM UNIT SIZE MOUNTINGPAD DIMENSIONS 24,30 22 11.!"'x2211.2" 36,42,48 30" X 30" 0 0 22 11.f 33 1!V1e" 0 O; 221~" 33 1¥16" 0 ·O 22_11.!" 371¥16" 0 0 30" 33 1¥16" 0 0 30". 33 1¥16" 0 6 30" 31 1!ii1s"' 0 ci 30" 39 15/16" 0 0 30-31 1!¥16" I 0 X=YES <9 C') . O=NO ~ g 0 '<t CII I. +··· AIRIN I F ., I G H C D E F 3:Yt6" %". 3 11/16" 18 IAI" 3:Y16" o/4"· 3 11/16" 181111'· 3 o/16" o/4" 13 11/uf 3 :Yt6" o/4"' 61/t'' 3¼" 71f1" 6 11.!" 3¼" 1,s" 6½" 3 1/4" 1Ai" 6 1f.!"· 31/4" 1,s" 61/t' ~ K L AIRIN NOTES: 18 1111" 23·½ .. 23 11.!" 2311.!'' 231/t' 23 11.!"' B p G H J K L 191/t' 21%"' 14%" 18 1111" 21 o/4" 191/.i" 21%" 14%" 18 1111" 21 o/4" 19 11.!" 21%" 14%~ 181111" 21 o/4" 271/te" 29 1111" 20-26%" 29¥16" 27½6" 29 1111" 20" 26%" 29¥1ii" 271/16" 29¼" 20" 26%" 295/16" 27½6" 29 1111" 20 ... 26¾" 29¥11;'.' 271/ur 29 IAI" 20" 26%" 29 S/16" .. .. ...,. ___ i_· Asa ---..i AIR DISCHARGE ~ ~ ~ 0 0 1. ALLOW 30" CLEARANCE TO SERVICE SIDE OF UNIT, 48" ABOVE UNIT, 6" ON ONE SIDEi.12" ON REMAINING SIDE, AND 24" BETWEEN UNITS FOR PROPER AIRFLOW. M .N p SHIPPINO WEIGHT 10" 5" 13'.' 148#. 12 11.!" 12"· 14" 155# 16 11.!" 14" 10" 162# 16 o/4" 15" 14" 181# 15" 15 o/4" 131/t' 212# 15" 15" 13" 212# 15" 15 :Y4" 1511.!" 224# 15" 15" 13" 222# .. FIELD POWER SUPPLY CONN 7/s"DIAHOLEWITH . 1 1/a" DIA KNOCKOUT AND 1 3/a" DIA KNOCKOUT FIELOCONTROLSUPPLV. CONN 7/e"DIAHOLE 3/e" DIA LIQUID LINE CONN: 2. MINIMUM OUTDOOR OPERATING AMBIENT IN·COOLING MODE IS 55°F MAX 125°F. 3. MAXIMUM OUTDOOR OPERATING AMBIENT IN HEATING MOOE IS 66°F. 4. SERIES DESIGNATION IS THE 13TH POSITION OF fHE UNIT MODEL NUMBER. 5. CENTEROFGRAVITY 6l . . --.,.. ~-... -------~--- 19 JI .. 20 "II i 5· i:: en ~ ~ 1! ·.! 0 C:· -I C 0 0 :xr -I m g ,, m ::D :i :c: :D m .. O· -n • .... ·o .o en 0 BUILDING HEAT LOSS, 1000 BTU/HR UNIT INTE~RATED H~ATI_NG CAPACITY, 10.00 BTO/HR I I I I •-t•1•-,.-T• · I I I I -~~-+-f-l I I I I t I. I I I I I I I I t I I I I -----~-?-,---+-~--~-T-l I I f '1 I I I f I I I I I t KW t I I I t I ·I I I I I I I t I t I I t I I I t J I I I I I I I -~-~-~--r--1-~-~-,--~-~-...--r--~-...,.-~-~-I l : ' ' I I .1 ; I I I : I ,. ' -~-T-,--r--,-4-~-~--r-4--r--~--,--,.-~-,-, I I t . I -1 I I I I f I : : : : -~-f-~--~--~-+-~-t--~-4-+-f--,--r--r-, I I f I .f I I I I I I I I I I I -~-t-i-+--;-+-t-~--f-t-~--~--~-+-~-t I I I I I I I I I I I I I I J 1 .... .... :..., .... ..., i:,, c,.) 00 -< 0 l> m )> r- l> z· 0 m ,, 0 -z -I ~ ·o :D " en :c ·ffl m -I .. jl. ,, . . Guide specifications GENERAL .. System D~riptio1i"'-· . Outdoor-mounted, air-cooled, split-system heat pump unit suitable for ground or rooftop ins~llation. Unit . · consists of a hermetic comp_ressor, an air-cooled coil, . propeller-type condenser fan, and a con~rot ~x. Unit will discharge ·supply air upward as shown on contract · ·'. drawings. Unit will be .used iri a refrigeration circuit to match up to a package" fan coil or coil unit. _ · : Quality Assurance·,-: -; · · ·: · .. : . · . · Unit will be rated in accordance with the latest edition of ARI Standard 240 and 270. · . _ · Unit will be certified for capacity, efficiency, and sound and listed in the latest ARI directory. . · . Unit construction will comply with latest edition of ANSVASHRAE and with NEC. Unit will be constructed in accordance with UL standards and will carry the UL label of approval. Unit will have C-UL approval. . Unit cabinet will be capable of withstanding Federal Test Method Standard No. :141 (Method 6061) 500-hr salt spray t8;St. · Air-cooled condenser coils will be leak tested at 150 psig and pr~ure tested at 300 psig. Delivery, Storage, and Handling · · ;unit will be shipped as single pac~ge only and is;stored aJ'.id handled per unit manufacturer's recommenda~ons. Warranty (for Inclusion by speciCyin~ engineer) : _ U.S. and Canada only. PRODUCTS Air-Cooled, Split-System Heat Pump 38YCA 1-1/2 To 5 Tons Nominal C~ndenser fan motors will be totally enclosed, I-phase · type with clas~ B insulation and permanently lubricated bearings. . · · Shafts will be corrosion resistant. . . . Fan blades will be statically and dynamically ·balanced. Condenser fan openings will be equipped with PVC-co~ted steel wire safety gua!"(fs. . Compressor . . . . . _ Compressor will be hermetically sealed. · . Compresspr will be mounted on_ rtibbe~ vibration . isolators. Condenser Coil Condenser coil will be ·air cooled. Coil will be-·constructed of aluminum fins mechanically bonded to copper tubes which are then cleaned, dehydrated, and sealed. · Refrigeration -Components Refrigeration circuit components will include liquid line shut-off valve with sweat connections, suction shut-Qff valves with sweat connections, system charge of -refrigerant R-22, compressor oil, acc;umulator, and · reversing valve; , 1 : ; Operating c~~~cs . . ; . . . The capacity of the unit will meet or exceed __ Btuh at a suction temperature of __ F. The power consumption at full "load will not exceed __ kw. Combination.of the unit and the evaporator or fan coil tmit will have a total net cooling capacity of __ ~tub or greater at conditions of_ CFM entering air ' .. · temperature at the evaporator at _. _ F wet bulb and F dry bulb, and air entering the unit at __ F. The system will have an SEER of_._.Btuh/wattor greater at DOE,conditions. · Equipment . Electrical Requirements . Factory-assembleg, single piece, air-cooled h~at pump Nominal unit 'electrical characteristics will be __ · v. unit. Contained within the unit enclosure will be all factory 1 phase, 60 hertz. The unit will be capable of satisfactory · wiring, piping, controls, compressor, refrigerant charge operation within voltage limits of __ v to __ v. 'R-22), and special features required prior to field start~u_p. ___ ~ Unit electrical. power will be single point connection. Jnit Cabinet . Control circuit will be 24v. _ Unit _cabinet will be con_structed of galvanize~ steel, Special Features "i,>Dndenzed, and coated with a powder coat paint. Refer to section of this literature identifying accessories fans and descriptions for specific features and available · Condenser fan will be direct-drive propeller type, enhancements. ~harging air upward.· 21 .··: .. < A .i .. • .. ,_ ~' .. ... I . . HEATING & CQOUNG ··: .,,_._. = Copyright 1994 Carrier Corporation 0 -Product Data··- .. ·. :-.~~· . -·- --- .FA4A· FB4A FC4B. [)ire~t Ex,:'~gr. ... . ... Sizes 01·a thru 070 .-.. :_. -:11 ..~ . . . ·:· . -----Air'_.HandJing Tech_nology At . Its Finest · · · Carrier's FA4A, ·'FB:4A, and FC4B . :-. ,: =~ .. ·,·.·· . ·: ., . · dii:ect expansion multlpoise fan coils · are_designed to cover.a wige range --'. of air han4ling requlreqients. They -. -·. · · . _ - are co"i:npac~ ~nd re~dy to fit where -· -.-· _ · . _ ne~deq -in the bas¢ment,_ crawl-: · · -space, attic, utility room;or closet. . All units come with'sclid-state power board ~ontrols~--i~1ii. T1,1ff-skin insulation with an "R vaiue-0f 4.2, super~qulet mtiltispeed motors, -arid .fully w~ttable coils. U_nits can _ . accormnodate · factory-pr (ield-_ _ · : -· instali~d. heatei:s_·trom·S.to 30 kw. · -·_ The.FA4A is the residential new _ cori~tructic;m {R1"Q) mo9el in the - · line-tip: It ha$ an emboss¢d · _ gaivc:lnized_ ste~l casing,. 2~speed : inotor"in Olij ttirough '0$6 sizes amt-. . :3-spe~d mqtor ·1n ·042 through 060 _ · : · sizes. The FA4A ls eq~pped with an _ -· AccuRater®_ metering··device. . · · · The_ FB4~ is the -~~dard of Carr:ler fan co!Js. It coµi8$ ln_ a prepainted gatvanlzeg steel casing and has -a 3-speed m~tol' 1"1. the full range of sizes 018_ through 070. All units are equipped_ with an ---·· · AccuRater metering d~ce .an4 _ar~ _ alsp shipped with a cleanable, · permanent framed filter. . . The· FC48 ts the deluxe design In the fan co!l_ group. It Incorporates all the features found in ·the FB4A. In addition, tt has· a hard shut-off thermostatic expansion valve (TXV) metering devlce with Internal check valves for reverse~flow bypass · · capability. The FC4B is available In slz~s _024 through 070._ Fonn rMA-4PD . ·.-.;i.:-.. · .. ·: Standard features • Grooved copper: tubing . • Lanced sine-wave aluminum fin .• Boehmlted·coll · . · . . · · • High-impact thermoplastic condensate pan . ·' · · . . .· ~ Prlr:nary and secondary drain connection with bra~s inserts . .. . · · . _ ·_ . • Multlpolse design for maxlmum·versatllity : . · · · . · _ · · · · .. • Ae1d-or factocy-fnstall~d h~ter·pack~ges from 3.-30 l<w, fused, tlrcult breaker, non-fused • Control board.with built-in fuse_ . · • Co~lii:ig contn;>l~ · . . . . _. · ·. · · · ~ Time-delay relay TOR . · ~ f:{Jgh-d~nsity, super thick R 4.2 insulatio.n .. · · • Sweat connections · •. Mutttple el~ctr1c ·eqtry . · ·. . .. · . · . . . . · · . •. Inspection plate for cleaning with A-c;oll desi~n . _.. · · .. • .1-1/2 through S~too sizes · . · ·· ·-· . . . : • HUD cU)proved for: manufactured housing . . .· -.-. . ·._ .'. · • Rep1ac~~le ·s-amp blade-type auto fuse protects agai,1$t tran$former secondary short •. 40-va, 208-?30-v transformer · . · · · • ~JI models ·usted wi~h U.L., CSA, ARI, and RADCO Additionat features FA4A· -·. • Embossed galvaritzed steel cabinet • 2-sp~d m9tor in 018.through 036 sizes · ·•. 3-speed motor in 042 through 060 sizes _ • AccuRater ~et~r!ng _ci!:!vice ._ . ·. . .. ·: .. . ···. . I Fl34A ·-. • · Prepainted steel cabinet _ ... . 3-speed motor·on al!'sizes 018 through 070 _ • ~oqular versions· ~vailable in 042 through 070 sjzes · · · _ • Factory-supplie~ cleanabi~. permanent framed -filter · . . • AccuRater )neterlQg device · -·-. . .. . · .. : . .. . . . . . FC4B: ·, TXV • Prepainted steel cabinet · -• 3-speed motot on -024 through 070 sizes • -Modular version ayailable in 042 .through 07.0 sizes .• Factory-supplied cleanable, ·permanent framed filter · · . · ; ~ 2 .. • . : ....... :' . . ·':' .. . 4 .. : . : . . ·-.... '· ! ... . -:::' . • .. :·-: .. ·.• ... --~ : •' .. _. · .. :; ·.·:·: ·-. .. • ·' : .;-. ~· ~ :· ~ .. -· . . :-. , ... i. --: ... . . . : ~ ;.-_ .. .. ·-.. ··:-:"''. .:-: . . ~ . . .·:· ;.-· . · ... •, .. : ~ . . · .. · _. .. :·; ·:· .... : ... ···: ''?i. . . :~ •, <. I ,c..> •. , . . Model n·umb-er .nome_nclature F C F-FanColl 4-B "N .F ;,' 024 . 005_ ·ABAA A-RNC B-Standard C-Deluxe -: ...•. r- A Common Unit A Minor Engineering Ch$Qe . A-Standard Unit . · · · A Standard Unit Electric Heater (kw) ·•005 008 010 015 02_0 Nominal Capacity (Btu) _ 018 "'""". 18,000 042 -42,000 024 -24,000" 048...:.. 48,000' 030 -30,000 060 -60,000 _ 036 -36,000 _ 070 -60,000 B -Modular with 1 In. Super Thick Insulation · · · · · •. F-·Slngle_Plece:C~blnet wlth_1_ In. SuperThlek lnsulatton-. ,· N....: 208/230-1-60 A ,-Original Series B :.... Second.Serles · 4 -Multlpolse J .i\'-1.llC-~ _ : . ·_ ® "(i ea1ml; .. S.& --~ ••••• CERTIFICATlbN APPLIES ONLY.WHEN THE . COMPLETE_SYS_TEM_ iS,LISTEO WITH ARI. .i:,. '\ Dimensions· ,I =·· 14 0. (22.2) K.O. · FOR LOW VOLTAGE · CONTROL WIRING UNITCONNECTION SIZES CONDENSATE DRAINS 3/4 FPT .. ·· -...-~. HORIZONTAL •A• COIL ,\PPS: 3/4 FEMALE PVC · GLUE JOINT VIA FlTTINGS PROVIDED . . SUCTION; 01'8,024: 0/a 1.0. SWEAT, Q30,038: ~/4 1.O:'SWEAT, 033!!'38 THROUGH 070: 7/8 L 0. SWEAT UQUJD; '/a I, D, SWF:AT . ,._ ___ ,,4, t~, 2.0 122.2, 21.8, 50.8 1<.o:s1 FOR·'HlGH VOLTAGE POWER WIRING DISCONNECT OR CIRCUIT BRAKER LOCATION ALTERNATE . ¾ 0. (22~ K.O. 22V11,----,."1 (!i60.4) uw;, .. (2qa.8) % (22.2) .:i........_ . ~. . BLOWER, CONTROL & ELECTRIC HEATER ACCESS PAt/EL · FOR LOW VOLTAGE I " ~ ' ~'t~ . ALTERNATE' . (111.1) . 14, 1'¥.!a, 2.0 D. . K M0DULAA . ~. (19.1) 'I OPENING -F-· e:v, •. (157.~) FILTER ACCESS, PANEL 2•~ .. Q'l.4 11Wc ~-1) UQUID LINE" . CONNECl!ON av, :235.0) tee:\ I ffi.l .SUCTION LINE CONNECTION . CONTROL WIRING INLET AIR SLOPE COILS POWNflOW OR HORZ. RIGHT APPUCATIONS ANO' .,,-...... . (22.2, 27.B, 50.B K.O.'S) ~WIU. FOR HIGH VOLTAGE HAVE A 1WC> . POWER WIRING . · · PIECE CABINET · OPPOl>ITE SIDE , ·-·---·-·-·---· l L.' ------- -~--~~--• 20V,e TEO 1 Vc (509.S) FIELO ~ INLET AIR SLOPE COIL DETAILS 'CONNECTION. LOCATIONS SHOWN FOR UPFLOW OR HORZ. LEFT APPLICATIONS "A" COILS OOWNfl0W APPLICATIONS (31.1) · INLET Al.A · ~ REfUflN ONI.Y) {SLOPE COil UNITS --~-~~~ f. ~ : :,::·.:::; .. '. . \' ::: : ...... _. ;::r~tc=--kf~ . ~ ~ ~::-: .. ~·~--r:~ -: -~:·::;Jr::~c*_:_~~ia:-~ {~i~_.;:I~~~~ .. ::::?tU r0::~-;i}::1T :_}:~ ?-~~\ ~c~t~i~W1~ ~ff·~ .--~~:_:~,~~::~~ COIL TYPE Siope . Slope Slope Slope A A· A A . - In. m!JI .42-11/16· 1084.3 47-11/16 · 121.1,5· 49-5/8 '1260.5 53-7/16 ·1357.3 53-7/16 1357.3 49-5/8 1260.5 53-7/16 1357.3 3/16 1503.4 8 . -c· In. mm In, mm . 14-5/16 353:5. 12-7/16 316.0 .. '17•5/8 447.5 15-3/4 400.1 17-5/8 447.5 15-3/4 400.1 21-1/8 536.5 19-1/4 489.0 21-1/8 536.5 19-1/4 489.0 · 21-1/8 536.5 . 19-1/4 489.0 21-1/8 536.5 19-1/4 489.0 24-11/16 627.0 · 22-3/4 · .577.9 • Descriptions and dimensions apply to ajl versions (FA4A, F84A, and FC4B), unless othelWise specified. t Applicable for modular units Qnly. · · · • F G 'Kt In. '. In. In. mm mm mm 12-11/16 · 322.3 · 10-7/16 265.1 -- 16 406.4 -1~8 390.5 -- 16 406;4 1~8 390;5 -- 19-1/2' -·495,3 ·19-3/16 ~87.0 25 635 19-1/2 495.3 19-1/2 495.3 25 635 19-1/2 495.3 15-11/16 · 398.3. 19-1/2 495.3 19-1/2. 495.3 I 25 I 635 23 584.2 25-1i4 641.5 25 635 " .· A92«3 L In. 1 mm 12 17 17 19 ' .. , '. ... ·/ •:,·-.::, ·.:, ·:r :...... ~, . . . ·, . ., ··.· .. · ... _":_ :, .: Dimensions eo·n.ti.·nue.d ·· • '• ~ .NOlfll: ·~lo H f 2'1, PLM;ES)~ • H01UONfAL UOUNt ~llOkG-OWl'I.Ell M0IIIQ£D IN TOP l'NEL ANO ~ • BACK Of' ~ IN CABINET BOTTOM, HOLES PA0VJOED ,136-IN. DIA. , H SEC0NOARY . DRAIN , t ~~~~~~~ ONI.Y • APPU(;A110N. . ' 'alt (11.I) ·~ TYi'. Ice.ct (41't,ACES)? 1'/P.•. DOWNFI.OW 61.0PECOII- 1 12$.4)' Lgjil~· ..L . ir ·~ (II.I) (49CI •• ~. lYP.• DCPNNfLDW . M:QI. :.·· · .HOAIZONTAL RIGHT . SI.OPE COIL t ~TlON, FIELD CONl'EIITED 6ECQNDARY DRAIN (INSTALL 'st'£CIAI. DAM FITTING) •11\t I\ 122.l!I TYP.• ~~[Pf! Di n 11}~" H0RIZONTAL RIGHT M:()ILt TYP.• 122.21 1'/P.• m'I.ICA.TION. ft:LD CXlffl/ERTED A924il4 · COIL TYPE Slope Sloj)E, ~loi:>Et 'Slope .A·: A A A D* In. 14-15/16 14-3/16 · .14-16/16 17-13/16 mm In. 18-3/16 23-3/16 23-3/16 27 · 379.4 27 376.2 23-3/18 379.4 ·. 27 452.4 32-11/16 •'} ·· .. E* • Descriptions and dimensions apply to all versions (FA4A, FB4A, ~d FC48), unless otherwise specified. U1 * Appllcable only to units approved for horizontal appl~tlon. -::,·~.-.. ·,:: .... mm· 462.0 589.0" • 589.0 685.8 685.8 509.0· ·685.8 830.3 .·.,. ..... .-·-·. --&ECONOMY QRAll,I ~-- [ . l•llt~ . \;,' Ill 0 1ca•1 ~°' . .. I\ . . TYP• ·112.71 ''* 3._ ']' ft.CSI' ~C~-~· --~ ~ • HORIZONTAL LEFT SI.OPE.COIi. t Ai'PUCATION. AS SHWl'EO NIIUMIY ·o '"' 111.11 rv,• ' .!L!: l•IV.CUI 2'o '-:I',\ . ,~,, (1841 .... !:J (1111 TYi' ~PU.Cesl· ;c_,·· 12UJ D 'M' II PIACESI' ~ ~--t--~~-, rr.,:11 11\t .r:i· ~ I-lYP• ~-(11.-1 [, 11821 .HORIZONTAL LEFT A-CQILt Al'ft.lCATIOlf. AS - H ·1n. mm 18 457.2 . 23 ' 584.2 23 584.2 26•13/18 ·ee1.s· 27-1/4 692:2 23-7/1'8. '593.3 27-1/4 692:2 32-5/8 828.7 ... 112071 IJPfLOW A-c011. J In. 16-1/2 23-1/2 23-112 27-3/8 .26-15/16 23-1/8 26-15/16 32-15/16 . ' ,\92445 mm 469.9 596.9 596.9 . 694.5 684.2 587.4 684.2 836.6 - < .,, .,- Physical data in,1~~i:~~~ :·<~ :~,~~: ~l)~\~:,' ~~, . r:~-.~ ... l ;"'/t·~ •· ...... ,~ .... ..I:!" • ~~, -·~;~.;,,-""·-t-r1t'-i-:rir:1;,. .. ·r~ ~, ·,, ·1:-.-.. ~Jri·.i • .,$,.,,,.). v.-··?.1o-;· .. , ..• b ,,,,.~ .. t.. , .v-,,..,. __ ..,~ 1, •. "''(,_. ... :: N1L.-.. 1 .Jr· -..i.1.t!-.. [ .. ,~o.2".l·"'·"-1,J .. "·'SI •.-.. ~........,""""..:,ru.n~ .. J,:,.~:,,., ··~ ., ...... : •• ......... :'+'":t•t '~ ·':''"'('1\ • ""lffl "' ,.. •• ,r•"Y't. ·, ;--. •, • ·.~"' 1/"'':".','' ~ .p ,..~......,-·;,~' .: ~ ... -~ _;'tf ht.' • h; ~ r,.,,..~,..~~j l·:07":,1,,~ ·,:si tt··~.-.,'\:, ", j ~, ./~'-' •• 1i~• ".'.'-~ ~'.i< I~. ~7.·•~ .,U.i,... ~ .. ~ .. , • ,..,..._ ~,1..v, u, ·-" ,:" lt .• .;../ ... _.~ ,.,r, :~.. l. •n • • .., :i,.c., ·~.-, , ~ .t,.. ,at',"""' , ~ ... , .~'.li: l~-.Cl,\:d:,,,,. ,' ~M.1,,u. ~ ... t,.~,t..,4; t, G:;;.:ij.;,r,..1• ~ 1 ., • iJl..tW ,,~ ~ .,.J.4.,!,,.,., ~ (.,,i,.1>11\,M•'\.1'1, !i""'i~--::.~ ~ ... ·:·;:1·-r::i-.. ,-~-1-"';:"' 7 .. ~ .... ,.. ... ~-:~~ ~~., d ~;r.,;,. ~-··. 1'it'i~~7'f"·~ fl''}~ ~.rzr;,-rri·~~~r.ltZ::--·:~ .. ~··"~ ~-r;1.;~~ ij~1~,._ ... _ rr1'7·~1·· . ,"'.t l'i1 ,1 ... ',i:.nc<~',:-.. ~ •• -~t .... '.\.,..,,";t,;.,. t,:tlt.-•,•~, ~&a.! .. t,,,-......w, ~ ~ ... ...,,i"--oJI' ,,...,~'b\Af' t'"l"l"6.-..-~,.1M\!'#t....,.i:1~~1CwbkWu1,ll: ~ • .,,,· .. ,,.'ht>t~,-'I, 'f.•,.1 . .,..,t'°',t•tf-,,l'4.-,,.(.t:.J'-., 'REFRIGERANT ,. .·.• METJ:RIN_G PEVICE Bypass AccuRater (FA4A, FB4A); TXV Factory Installed C?ll FC4B PIS'TON SIZE 52 -~ 73 80 -84 88 . 88. -101 101 TXVSiZEt -2ton 2-1/2 ton 3ton · 2-1/2 ton 3ton 4ton 4ton 3ton Ston 4ton 5ton COIL - 'Rows and Fins 3and14.5 Peri~ · 2and14.5 3111d 14,5 3and 14.5 3and14.5 3and14.5 3and 14.5 3and14.5 3and 14.5 3and 14.5 3and14.5 3and14.5 .face Area (Sq Ft) 2.23. 2:~-2.97 2.97 3.46 ~.46 4.~ 4.45 5.93. 5.93 7.42 7.42 ( . Co11flguralio6 Siope Slope. Sfc!pe Slc!pe Slope "$1Qpe A A. A A A A-: ~ .... FAN . . '·• ,. · Air Dlscha• . . CFM (Nomfr!al) 650 850. 1100 1300 1100 1500 1700 1700 1300 2000 1700 2000 . Motor Hp (!:'SC) 1/5' 1/4 1/3 1/3 1/3 1~ 3/4 3/4 1/3' 3/4 •. 1/2 3;4· . -:. FILTER* 21-1/2x13 ·,?1-1/2.x. 16-3/8 · 21-112 X 19-7/8 21-1/2 X 23-5/16 . -: ·. • Fan coil units with ·ncv used in conjunction with reciprocating ·compressor must also use compressor start capacitor and rel_ay. Refer to outdoor · µnit specifications. · . . · . . . . · · · . · · t F~B factory-installed TXV Is hard shut-off, bypass flov,,-type for heat pump application. ·: · . t Filters must be flak;! SL!PPlied for FA4A products. NOTE: Descriptions and dimensions apply to all versions (FA4A, FB4A, FC4B, etc.), unless otherwise specified • ... . 6 ! Performance data . . . AIRFLOW PERFORMANCE EXTERNAL srATIC PRESSURE (I~. WCJ MODEL 0.10 0.20 0.30 0.40 0.50 .0.60 :AND BLOWER MOTOR SIZE. SPEED 208V 230V 208\f 230V 2011V 230V 208V 230V 2011V 230V 208V 2~V FA4A' High· · 630 710 .575 · : ·ass · 520 600 450 530 345 425 · -· · ·018 Low 55() 630 495 sr5_ 425 520 350 450 -345 - -High· 880 937: 830 ~ 780 833 717 ·110 640 ~ " ·517. 580 FB4A Medium ·633 713. 603' 680 567 640 523 ·595 460 530 370 430 ... 018 ·Low· 545 -633 508 .vl)3 470 567 425 _523 373 460 :~1.2 370. FA4A.: J:figh, 960 1010 910_: 955 855 . . 890 . 78Q', 82_5 725 · 755: -635 . 650' 02• . .. Low · 815 :_ 900 .775_ 855 73(1' .. 805_ 685 750 630 .. 680 '55Q. 575. .. High 975 1010 92Q .960 (360 · 905 · -790 .· '835 705 755 · · 585 -635 FB4A,FC413 Medi~ ~5 .. -905 790 650 74() .acio 680 730 600 -~ ~-535 024 · .. Low 560 650 ~ 620 500 585 450 '530 38_0 470 -370 · FA4A .. High. 1'060 1175 · ·10~0 ·. 1.120_ ., 970 10.65 9_20· 100_0 850 925 '. '130 810 030 '' Lo\Y ·,· 810 · 940 79Q · 912 7'15' 875 7~ -~25 700 765 640 670 High_ 1265 1325 120S 1280 1145 1190 1080 1115 1005 1()35 . 915 935 FB4A,FC48 Medi\Jffi 1065 1170 ·1020. 11?0 ·975 1065 ·920 1000 850 -925 -810 030 · Low . 810 945 79& .. :Q15 775 -~80 730 830 69() 765 · ....:. 705 FA4A High' 1245 1365 .1200 1315 .115Q '1260. 1100·. 1205. 1045 114p: 980 1075 1136 Low 1.005 .1135. -~ 1095 :9.20 .. 1050 ~70 1005 820 95Q,, .750.: 875 High 1465 _. 1550 142(>.,. 1495 1370 : '1440 1310 1370 1250. 1305 1170 1225 FB4.i\FC48 Me<!ium · 1175 133() 1150_ '1295. 11?9 1255 10!3S 1210 1041) 11.55 .. 980 1095 · 036' .. Low' -970 1115 . 9~0-1095 930 1070 ·goo 1Q35 860 995· 805 930' FA4A, F!:14A, High .. 1580 : 17:10 · '1540. 1650. ·1499 •,:.1600 1435 ·.1535 1~0. 1~ 1305 .'. 1380 FC4B Medium 1390 1560 1365. 1520. 1330 1475 1290 1430 ·1230 1360 1170 1280 .042 L,ow ', 1200 1370 1180 1345 116,Q 1310 1125. 1?75 1075 1~,. ·1010 1145 · .. .. FA4A, FB4A, .: High.·.··. ,,._ 1845-::1970 1875,.: .. 190p . 1795 1820 17'.15 17~0 1625 1660 .· 1525 1~. FC4B M~Ufl!. 1790 1875 1725 . 1800 1650 172&-. 1575 -1640 149(!, 1550. 1390 1450 048 ·.L!>w 1450 162,5 1415. .'1575 1380 1570 1330 1460. 1280_ 1390 12f5 13?0 ; FA4A,FB4A, H"igh .. ,/2120'. . -2205: .. 2060,;;" :,2140 1990 2060 f925 1~95 1850. 1920 1770 ,~ FC4B: . M!l(lium. -1995 . ·.2115 :i~ .. :· 2050 189,ci · 1980 182Q 1920 1750_, ·1a45· .1~5, 1765 060 Low 166& 1880 1625. 1845. ~590 1799 156() 1745 '. 1525 1~. 1.48Q 1625 ' .. High -~ . .-2310 . 2150; ~ 2015·.· . 2145 1980 20$0 189Q 19_5S: · 1780 185.0 FA4A,.FC4B : Medium 1910 . 2095 1870 2035. 1!330 1975 1770 1~00 1695 1525·· -~soo· 1715· 070 -1.c;>w· 1610 . 1855 1590 18~5: 1560 1780 15~ 171~ 1460. 164Q 1390 1565 .. High, 1315 1385 1255. 1315 1185 1240: 1115 1165 1'035 1080 950 995 FC4B -Medium 1045 ·1170 1010 113Q 970 1080 925 1020 870 ~ 790 · 870 -033 . 'Low 775" 9QO 765 .aeo · 74·0 .• 855 710 825 655 780,. 570 715 High 1570_ · 17QO 1525 . 164~. · 1~75 1~80 1420 1515 1355 1440 1285 1360 FC48 Medium 1215 ,. 1420 1180 138(1 11li() -~340 · 1110 1290 1060 1240 10QQ. 1170 038 ,. " Low 102Q_ 1200· 995 1185 960 1130" 925 1090 .· 880 1040 · .835 gap .. . ·High 1700 1835 1640. 1760 1570 1685 1500 1605 1420 1520 1330 1430 FCI~ Mediur_n 1505 1660 1455 1600 . 1395 1540 . 1330 1470 1260 1395 -1175 1310 054 Low 1300 14E!O. 1260 1410 . 1205 1350 1145 1290 1oso· 1220 · 1000 1140 NOTES: 1: Dry coil at 230v ~ filter and elecJric heater (2 element hea.ter, sizes 018 through 03~; 3 eleme,:it heater, sizes 042 through 060). · 2. Not recommended for use above 0.60 In. extemal static pressure. Shaded areas are outside the recommended airfl~w for the rim' coll. Usage outside this area could result in condensation lllow-off. 7 .. : ... •' . ··. .,·, I ,: . . ·~ : : ~-: .· .. '. ·. _-,, ·. · ... · .. l1 . .'' .. , .... ····t· .. . . ~ . ~ . •',. .. ··:' .. r . ..... , . ·· .. -· •• J Performance data continued HEATER ELEMENTS 0 1 ·2 .a 4 FILTER STATIC PRESSURE DROP CFM 400 600 JOO 1000 1200 140(J 1600 -0.02 · 0.-044 0.075 -0.(144 0.075 -0.110 . -· - 0.048 0.072 9.100 .0.072 0.100 . 0.130 ...;... -0.070 ,0,092 'tl.120 .,0.092. , :0.1.20 -----·. ·0.120 -'0,08!> ELECTRIC HEATER STATIC fRESSURJ;. DROP 018-042 .048-070 'EXTERNAL STATIC . PRESSURE KW <:;QRRECTION 0 +.02 .. 3,5 +.01 ·a.10 () ~.15. -.02 20 -.04 HEATER · . ELEMENTS 0 3 4 6, ~-· . 0 8,10 . 9,fs . 2() ·. 18,24,30 : .1800 .. .. - ,, -· · ._Q:152 ·.tJ.'152 0.187 ' 0.105 0.130 ~~TIC· . ~CTION . +.04 ·+.02 -:02 ' -.10 ! • • . The airflow performance data was developed using fan coils with 10-kw:electric heaters (2 elements) in the.O18 through ~42 size units and 15-kw heaters (3 elemei:its) in the 04ff through 070 size uriits: :for' fan· coils with beaters of a different nuJDber of elements, the external available static at a. given CF~ from the curve.may bE;! corrected.by adding or · s1,1b~cting .available external static· pressure as indicated above. · AIR DELIVERY PERFORMANCE CORReCTION COMPONENT PRESSURE.DROP (iN: we) AT INDICATl;D AIRFLOW {DRY-TO-WET COU.) . · .. CFM. ·soo 600 700 800 90Q 1000 1100 1201) . 1300 1_~ 0.023 0.0~. 0.044 .. -,-. ...,. 0.035 0.051 0.066 0.080 0.091 - 0.051 0.063 0.073 O.Q81 ---0.073 0.081'. 0.091 0.098 0.102 '. 'Br;.!: . , ;.~t .,., .: CFM ~;:-·~~~~~~~i~~~!-~ 1200 1300 1400 1500 1600 1700 1800 1900 2000· 033,042 0.075 0.083 0.091 -0.098 ------~ --0.066 0.073 0.080 0.086 0.091 .... - 038,0IG -..... -0'.051 0.057 0.063 p.069 D.073 ,, 054, °" .. -.:· Ji ----.0.030 0.034 0.039 0.044 0.053 ~ NOTE: Subtract_the above pressure drop corrections from unit airflow data when that component or condition is used. The remaining exteml;II static . pressure will be available for the duct system. 8 .,. ._· ... :· ··.: ,4;1'. ·., .... .. ·; . .:· Performance data continued. . . . C09LING CAPACITIES (MBtuh) .. ,COIL REFRl~ERANT Tl;MPERATURE ("F)* ·-· .. EVAPORATOR . 35 I ·-. 40 .J 45 1 50 · -I 55 AIR . Eva_ponttQr Air -Entering Wet-Bulb Temp ("F) CFMAND UNIT .BF 72 .87_ 62 ·12 67 ~2 12 67 62 ?2 67 82 72 .. ,47 409 27 23 19 25 20 16. 22 17 13 19 ·14 ·10 -15 1,0 0.08 13 14 15 12 13_ 13 10 11 =12 9 10 10 8 8 500 30 25 21 ·2s 22 18 24. 19 15 21 ·15 12 16 1_1 ·FA4A, F84A_ .. 0.10 14 16 17 .13 14 1.6 12 13 14 10 11 12 9 ,o 01a ·soo 33 27. 22 3p; 24 -19 ·25 21 16 23 17 13 18 ·' -12 . 0.13 15 17 ··19 14 16 18 13 14 -t6 : 11 13 13 10 11 -~o 34_· . 28 23 31 25 20 27 21 17 23 17 14 18 :j3 '·• .... 14 · 0.14 -· 16 18 20 1r 18 13 15 16 12 13 14 10· 11 ~00 38 32 26 35 29 22 31 24 _18 : 26 .19 14', 21 ·13 ' -0.05 1a 20 21 16 18 19 15 16 .• 17 1_3 -14 . 1~ 11 , -:11 FA4A,.FB4A, 700 41 34. ~8 ·39 30 24 33 2!3 20 28 .20 1~ 22. 15 FC48 p.06 -19 21 23 18 19 21 1~ 18 19 15 1E! 12 ll24 .. 14 13 875 46 38 31: 41 34 27 37 29 ~ 31 23 1_9· ·25 .17 0,08 21 24 Zl 20 22 24 18 20 22 16 18 19 14. 15 750 .47 -39 32 43 34 27 38 29_· -~ 32 23 17. 25 17 0.04 22 24 2p. 20 ·22 23 18 19 20 15 17 17 13-14 "F.A4A, FB4A, · ·900 52 43 35 47 38 30 41-· 32 24 35 26 20 27 18 J:C48 : ;-·29· . 22: 24:., 26 _20-22 .. ·. 23 1T -.-·· _19-·,·. ;i/:2Qi :._ .{':_;:,~:A !S-\;t16-'" 030 0.06 c.:.;2~.,, Zl; 1075 .56 47' 38 ·. 51 41 33 45 35 2_7 38 . . 28 22 30 20 .. 0.07 . "":,26:~ t 29-. :-·-,.32'-·,, .-24-. , .. _~l_, .. _:. 29 ·22-.-. ,•·.-24-26 19-· 0 ."2tf:.· -~·22'': ~-~~,~ ~1a: 800 52 42 34·· 46 37 28 40 30 22 33 24 17 2E! 17 .0.05 24-26 27 > 22 23-24 . 19 20 21 16 -17·_ _17: .. _14·: '-15- 900 56 46 ~7 ' 50 40 .. 31 44 33 24 36 26. 1_9 28 · 18 FA4A,FB4A, 0.06 2&:··. 28 30 · 24 25 .27 21 22 -23 18 19' · .19 .·, 15·; --~16 fC4B 1100 64". 52· 42 57 45. 35 49 '38 28 41 29 22. · 32 21 036 ... 0.07. . ;'~act-:,'-/"33·, -~,$,;.; ~ ,_Zl t:W;l . · 31 24 26 . :Z, :··2t .:?:~t ~~..;.. :11:~ -~j9/-\. 1300 .. to .57 . ~6 62 ·_59 3~ 54 42 31 45 33 .25 -~ 23 .Q .. 09. ~az.:~ ;36 ?:~-~-. 29· -:-,.33:·. : 35 26:. : -29-31 . 23 :·~-f ?::'25-,;. t1:if~1'ii il,":21-,:1 ,1000 . 6~ 56 · ·44 .. ~1 -48 -37 5~ 49 30 4:4 31 ~3 34.: ~ ·0.05 31 34 36 28 30 32 25 27 28 21 23 -~ 18 _. 19 1200 75 62 50. 68. .54 42 5~ 45 34 49 35 '• 27 ·_ ~----25 : FA4A, i:IMA, :.·0.01 35 38 41. 32· 34 37 28 3J 32 24_ 26 27 20 22 · FC4B 53 58 63 033,042 1350 ·so 66 72 45 48 ~ .53 38 30 41 2:1 .0.08 .-... ·37 41 44. . 34 ':.37 40 30 .. 33 35 26 29 30 22·, ... 24 -1530 85 70 57 Tl 62 .is 68 51 39 57 40 32 44 . 29 · 0.09 ·3Q.: 44 _48 36 .. ""i4()': 43 .32. 36 38 28 . . 31-32 -· 2•H _:·s . 1200 ,. ~Q 66 ·54_ 1? ._58 45 63 49 37 54 39 ;iO ·42. 28 0.05 37 40 ~ 33 37 39 30 ~ 35 26 28 30 22 24 1400. 86. 71 58 78 ~ 50 68 53 40 58 42 33 46. 31 FA4A, i:B4A,_ ·o.os 40 44 48 36 40 44 33 38 39 29 32 33 24 Zl FC4B 73 62 048 1600 91 75 62 ~ fJ7 53 57 44 45 37 49 33 0.07 ·42-47 S2 39 44. 47 35 39 43 31 35. 37 28 29 1750 ~ 79 64 86. 70 56 76 59 46 65 47 39 $1 34 0.08 44 50 55 40 46 51 37 42 45 33 37 39 28 31 See notes on pg. 10. 6~ 8 .8 10 10 11 11 12 12· 12 ·12 13 13 16 16 14 14 16. ·\.-1°6':-; 18 ·- . ·:is-_;: 14 14 . 15 15 18 ,· .. 1li;l.; 20 :·l'20::.'.: -· 19 19 22_ 22 24 24 _: 21? 26(',; 24 24 Zl Zl. 30 30< 32 ·32 9 ·: ·-: I• •• ... .; .. .. -.. · •, . :l. ;_.. .. '· -·· . ~·--~ . .. ,.1·' • ·, .. EVAPORATOR 35 AIR . CFM_AND 'UNIT "BF _72 -67. 62 1300 -. ~9. 72 58 0.0$· 41 44 46 FA4A,FB4A 1600 101 ·ss 67 060 .--0.~-47 ~1 54 . "FC48 .1750 · 107 88 71 038 0.05 49 54 58 .. . ""20QO_. ' H4 94 76 .. 0.06 53 ~ .. 64 13!)0 i,. 91 _7~: 61 0.02 42 45 48 . ·. ~ .-1600 .. 102 as·., 10 FB4A 0.03 47 52 56_ 070 .. FC4B. 1750 1Q7 t39 73 (i54 . 0.04 50 55· 60 2000 11_3 95 -78 .. : ·o.QS ·53 59 65 .. · •saturated sticti9n ieavmg evaporator coil_. if?·.,, ·· ~nsible H_eat 9apacity {1000 Btuh) · BF-:-BypassFactor ·:: . ·-. · · · NOTE~: .;._ . COOLING CAPACITIES (MBtuh) 1 7~ 79 37 .91 42 "96 45 103 · 4$ 83 ~ 93 43 98 .. 46 1~ 49 COIi,. REFRIGERANT TEMPERATURE ("F)" 4q -4_5 50 55 ·evaporator Air -·entering Wet-Bulb Temp ("FJ • 67. '62 63 49 39 41 73 -57 46. 49 n 60 49· -52 ~ 65 54 58 6_7 51 41 43 76 59 48 51 79 ~ 50 54 85 68 55 60. 72 67 82 72 67 62 72 67 :· ·&2 70 53 39 58 42 29 45 29 24 33 35 38 ·2a ;w 29 23 25 24 80 -&1 44. 68 49 35 53 34 29 ~ 41 42 33 $6 35 "27 -3(1 -29 84 65 48 72. 51 38 56 37 31 4P 44 4$ 35 38 38_ ·29 32 31 ". 91 71 .52 TT .56 ·42 61 _-40 ·:35 43 48 51 38 42 ' 42 32 36 ·35 73 57 41 -62 44 32 .. 48 .. 31 26 -· 34 37 38 30 31' 31 25 25 26 83 '65 48 71 51 38 56 36 31 39 ' 43 45 34 37 38 29 31 31 117 68 51 74 ~5 41· ?9 3!3 34 41 45 ~ 36 40 41 31 33 34. ·!J.3 73 55 ·t!O !!8 : 46 64 42 ~ 44 50 53 ~ 44 46 ·34 ' 37 38_,: -. 5. SHC is 1;>ased on ~O·F db t!;!_mperature of air entering coll. Bele>w 80°F subtract_ {corr factor x CFM) from SHC. · Above BO"F db, add (corr·f~ctor x CFM} to SHC. ·.-· . 1. _Net capacru~.s~o_ym·tnclude a d~uction for evapo~tor fan motor heat._ .• -. . .. . _ 2. Contapt manufactu~er for cooling capaci~es at conditions other than SHC COR~EClJON i=ACTOJ_I · ,, · -shown·il) tal)!e. · ·. · . ·· · · · . . . 3. Formul~: . L . -db ·t . db · sensible heat cap. ~.avmg _=en ~n_ng -: 1 _09-x CFM . _·: . Leavi.r!_g wb = wb co~poi,dir!9 to ~thalpy of air le~ving coil (hiwi,) ·. -: . total capacity (Btuh) . ·, . . . ~ -~.1r -· 4;~ x· CFM . ENTER!NG AIR DRY~BlJLB TEMPERA~RE {"F) 79 78 ·. 77 .. i, 76 · '!5 t U~er~5. BYPASS '81 82 f3 &i 84 J :0ver85 FACTOR· ' .. · ~rrection Factor . ... -0.10 0.98 1.96 , 2.94 3.92 4.91 Usefonniita . ·'0.20 0.87 1.74 2.62 S.49 4.~ 0.30 0.76 1.53 2~~ 3.05. 3.82. shown below .. . where~--= ~nthalpy of aif ~n~erin,9 coll. -. . 4. Direct interpolation is perrilisslt,le. (?o not extrapolate. lnterpo~tion 1s· permissible. . · . . Corr~ Facto~= 1_.t>9 x (1 -:-SF) x {db-:-80) .·.·. Carrier .accessories ... ' . . . iTEM · ACCE~ORY PAA.r ~O. • F~ COIi,. S1ZE·U5!:D _WITH _Dlsconn~ Kit .. KFADK0101 DSC Cooling controls and hea~rs 3 kw throu9h 10 kw Downflow Base Kit .. KFACB0101CFB 01~. 0~4. ", .. " KFAC~0201CFB . ~.036 ,. . KFACB0301CFB 033.038,042,048,060 KFACB0401CFB 054,070 Downflow Conversion Kit KFA!)C0201SLP S)ope Coil Units -018, 024, oao; 033, 036, 042 KFADC0301ACL A-Coil Units -038, 048, 054, 060, 070 Retum-Alr"Duct-FlaflSl'e ~ 'KFARF0101 RAF ,, All s1ng1e-Point Wiring 1<11 KFASP0101 SPK 15 and 20· kw Fuse Filter Kit (6 Pack) KFAFK0106SML FA4A 018, 024t KFAFK0206MED FA4A 030, 036't KFAFK0306LRG FA4A 042-060t ·• Factory-authorized and listed, field instaUed. t Can also be used as a replace~t for FB4A, FC4B in related sizes_. 10 .., " Accessory '(its Description Suggested and ·Required Use ·. · 1. Dlaconnect Kit · . . . . - 11ie kit Is used to dlsconl)ect electrical power to the fan coll so servlc~ or maintenance ~Y be performed safely. SUGGESTED USE: FK~ •. fC4, FB4, FA4, and FH4 units for 3kw through lOkw electric resistance heaters and cooling controls. 2. Oownflow Base Kit · . . · This kit Is designed to provide a I ·In. minimum cleorance between unit discharge plenum, ductwork, and combustible materials. It also provides a gap free seal with the floor. · . · · . ' · · · REQUIRED USE: This kit must be used whenever· FK4; f"C4, FB4, FA4,-and FH4 fan coils are used li:i dowoflow applications. · . .. . . . . ... -3. Downflow Conversion Kit · . . . . . . Fan ~11s are ·1hipj>ed from the facrory for upflo\1/ or horizontal-left 11ppll~llo11$_. DownOow c~nv,e~lon· kits provide proper condensate water drainage and support for the coll when used In downflow applications. Separate kits .ore ovalllible for .slope coils arid A-coils. · . REQUIRED USE: This kit must !>e used whenever FK4, FC4, ~B4, and FA4 fan coils are used In downflow 11pJ)llcat1ons. · · ·4. Single Point Wiring Kit · :·_ · · · · . -· · · · . · ·. · . · · · . The slngle_polnt wiring kit licts 115 a. Jumper bi1tween L1 and L3 lugs, and beiw~en the L2 and L4 lugs. This allows the Installer to run 2 hea~. high-voltage · . wires Into the fan coll rather than 4 light-gage, high-voltage wires. · . _ .. • · · SUi;;GESTED USE:_FK4, FC4, ~. ~A4, and FH4 fon coils only wi!h-15kw ~d 20kw heot~rs: ·· · .5. Fan~IFilter ,·. . •. · · .. . : · .' ' . . The kit consists of 6 fan coll framed filters. These filters collect large dust particles from the· return air entering the fan coll and prevents~ from ccillectlng on the coll. This process helps to k~p the coll cleon, which Increases. ·heot transfer Md In tum the efficiency of the system. ·suGGESTED US.E: To replace the filters In FK4, FC4, FB4, and FH4 fan coll~. · · · · RE~UIRED U~E: All FA4A u~lts u~less 11 filter grille Is used. · · · · , .. -Accessot}' electric heaters._ .. ' . ·HEATER .KW·. '. · · PARTNc;> •. @240V -VOLTS/PH KFAJ:H0101N03 ··3 230/1 · -KFAEH0201N05 5 \ . 230/_1 KFAE~301Nlill 8 : . 230/1 .. · . · · KFAEH0401N10 10 ·23011 KFAEH0501f.15 ·15 230/1 ·KFAEtf0601F20 .• ,20 . 230/1 · KFAEH0701309 _.g· 230/3 KFAEH0801315 -15 230/3 !(FAEH090~3~8 18 230/3 KFAEH1001F24 ' . .24 230/3* . KFAEH1101.F30 30. · 230/3* · KFAEH1201C03 '. ~ •' 230/1 KFAEH1301C05 5 230/1 .KFAEH1401C08 a ~0/1 KFAEH1501C10 .19 230/1 KFAEH~601C15 .1? .230/1 KFAEH1701C20 20 . . · 230/1 ·KFAEif~ao1s1s 15 -230/1 -KFAEH1901S20. 20 '230/1 Kf:AEH2001S24 ·24 230/3* KFAEH2101S30 30,. 2$()/3* • These heaters field convertible to single phase. t Blower motor heat not included. * CSA approved. .. . KWiST-'GE 3 5 8 .. .. 10 J0,5 : ·10,10 ~,3 10,5 ,:6,6,6. ·: .. 8,8,8 .10,10,10 -~ 5. .8 10 .: 10,5 10;10 .. 10,5 ·10,10 B,8,8 10,10,10 -INTERtfAL FAN COIL SIZE CIRCUIT PROTECTIQ~ U!i!EDWITH :Nonet; 018,024 Nonet 018-038 . No(il¢ ·018--070 Nonej 018-070. Fuse. '024-070 ·FU~ 030-070 .. N9ri8* 036-070 Nonet 036-070 .Non!ij: · · 042-070 ft.I~ .. ~48, 060. 070 Fuse 048, 060, _070 CktBJ<!:t 018,024 CktBkrt ·Q18-038 CktBkrt 018-038 CktB!<f:1: 018-070 ~kt Bkr:t 024-070 Ckt'Bkrt 030-070 . Fuset 024-970 ·Fu~ 1:l»..070 Fuse* 048,060,070 Fusej: 048,060,070 ~GCAP.t @230Y 9,420 .. 15,700 · 25,100 · .31.400 . . •' .. 47,100 ·.m_5op · ·28,300 :47,100 . 56,500 : · ... 78,500 . 94,200 9,420 15,700 . '25,100 31,400 . 47,100 62,800 47,100 62,800 78,500 94,200 When using FB4A units with 20-, 24-, and 30-kw electric heaters, maintain a 1-in. clearance from combustible materials to dischargepenum and ductwork and maintain a distance.of 36 in. from the unit. Use an accessory downf!ow base to maintain proper clear~ce on dowrifiow installations. · Use flexible connectors between ductwork and unit to prevent transmission of vibration. When electric heater Is Installed, use heat resistant material for flexible connector between ductwork and unit at discharge connection. Ductwork passing through' unconditioned space must be infuated and covered with vapor barrier. 11 ·:",\ .. . . ' 'A .., -:, :di?':".':. ' .. i. ;l: ·' I+, ·, .•. ·, ..... ;._ . ~t1((: I · .. ?~ . ~.~.'j_:·· , .. ~ ,(:~ ':::..·:~"1v~~·,....1o.~~ VOLTS (1 PHASE) ·,~--:J~::.-·::!:~i. ,..~ 2081230 FAN COIL ELECTRICAL DATA (UNITS WITHOUT ELECTRICAL HEAT) BRANCH CIRCUIT Max Wire MIN length (Ft)t _ CKT Min Wire FLA AMPS Size•Awg 208v .230v 1.6 2.0 14 325 350 : : FuN Amps· .15 .t:~~ .... ~::;~.:~~\.~ ·~:~~-: (.1::j~r~:.: ~·-1 ~ :~·~~· :::J,::~~-t~. J ~" ~w-4 •• ;~rc:~v~ 2081230 2.0 2.5 14 250 ·275. . · 15 : ... :·· 208/230 2,4 · 3.0 j4 210 225, · 15 208/23!) ~-2 .4.0 14 150 -175 ' 1~ ·20!31230 3.4 . 4.7 14 :125 150 15 -:~_.1,J.~~ ... J~r-.,_i,W, -~~ 2081230 5.5 6.9 14, 9!) 100·. 15· -~-~~:~~:~~.rr:,;·:~2~,<.~::) 208/230 ·5_4 ·6.8 ·. 14 . ·go 100 -15 .... •' ., • Use copper Wire only. Use.75 ·c only In this application. When using non-metallic (NM) sheatJled cable, wire size requir84 !ihoukfbe based~ that or' . so•c conductors, im;tead of wire sizes shown In table above per NEC 1993 ~ ~8-~6. ;. · · · . · . · t Length shown is as ~ured one way along wire path between unifand servi~ panel f9r a voltage drop not to exceed 2%. · FLA -FuliLoadAmps . . . . ·. · · . ·. ·. · . · · · ·. : ELECTRIC HEATER l~TERNAL PllOTECTIQN ·FUSE a<TBKR · 1f~TERKW PHASE· -QTYiSl~ QTY/SIZE 3 1 . 2160. 5 1 ' -· · 2/60 " . ' B 1 · 2/60 10 1 .. -: 2160 15· 1 4/~0 4/60 '' 20 1 4i6i). 4160 .... 24 3/1 8160 .,__ ~o 3/1 -6160 . ~f ; ·9 3 - 1~ 3 ...... - 18 3 - ESTIMATED.SOO~D POWER LEVEL .,, COt(DIT!ONS · · . OCTAVE BAND CENTER FREQUENCY Ext Static Motor CFM Pres~ure Rpm_ 63 -125 250. 51,KJ 1000 -4000 -650 0.25 950 63 59 55 54 50 ~ 44 ' 875 0.25 1075 64 60 56 53' 5~ 49 45 1075 0.25 1075 ·65 61 57 .54 54 50 46 1300 0.25 1075 ·66 62 58 55 50 47 1530 0.25 1075 67 63_ 59 56 .56 52 48 1750 0.25 1075 67 63 59 -56 56 52 48 2000 0.26 1100 68 64 60 67 57 53 49 2000 0.25 1075 68 64 60 57 57 53 49 • Estimated sound .power levels have been derived using the method described.in ·the 1987 ASHRAE HVAC Systems & Applications Handbook, Chapter 52, p. 52.7. . . · 12 ~. Electric he·ater electrical d·ata· BRANCH CIRCUIT ' HEATI!R' AMPS' Min, Amp11c11v Min, Wire SIH (AWG) Min. GND Wll'e Size Fuaa/CKT BKR Ampa Max. Wite Length .. 208/230V ·20$/230V• · 208/230V* . 2011230V . 20lt230V 20li230V (Ill'' KW· . INtERNAL ' Dual Circuit Dual Circuit Dual Circuit Dual Circuit .Dual Circuit DualCll'cuit HEATER CIRCUIT Single Single Single Single Single , Single PARTNO. , • 240V zoav PHASE ,PROTEC'tlON Circuit L1,L2 . L3,L4 Circuit '-L1,L2 L3,L4 ·Circuit l;.1,~ L3,L4 ,Circuit' L1,L2 . . L3,L4 Clic:ult L1,L2 L3,L4 Citcllit L1,l2 L3,L4 KFAEH0101N03 3 2.3 1 -10.9/12.0 -,.... 16,2/17.5 --12 --12 -,... 20 --63165 -- KFAEH1201C03 3 2.3 1 CklBkr 10.9/12.0 --16.2/17.5 --12 --12 --20 --63,'65 -- KFAEH0201N05 5 3'.8 1 -· 18.1/20.0 --,26,7129,0 ·--10 --10. --25130 ·--61162 -- KFA!H1301C05 5. 3.8 1 CktBkr 18.1/20,0 --26.7/29.0 -'" -10 --10 --25/30 --61/62 -- KFAEH0301N08 8 6.0 ' . 1 -· 28.9/32.0 --43.0/46.9 --. 8 -·-10 --45;50 --· 61/62 -- KFAEH1401C08 8 6.0 1 CktBkr. 28.9132.0 --. 43.0/46.9 -. -8 --10 --45/50 --6.1162 -- KFAEH070130II 9 6.8 3 -18.8120.8 -.-30.4132.9 --8 --io --35/35 --108i111 -- KFAEH0401Nt0 10 7.5 1 -36.2140.0 --52.2/56.9 --.. 6 --10. --60,60 --78179 -- KFAEH1501C10 10 7.5 1 CktBkr 36.2140.0 --52.2156.9 . --6 --10 -. -60,60 --7879 -- KFAEH0501F15 15 11.3 1 . Fuse 54.2159.9 36.2140.0 18.1/20.0 74.7/81,8 ,52.2156.9 22.7/25.0 4 6 10 8 10/10 10/10 8()190 60,60 25125 ' 86187 78179 78 79 KFAEH1101S15 15 11.3 1 Fuset 54.2159.9 36.2/40.0 18.1/20.0 74.7/81.8 52.2156.9 22.7/25.0 4 6 10 8 10/10 10/1'0 80190 60,60 25,25 86:87 78179 78 79 KFAEH1601C15 . 15 11 .. 3 1 CktBkr -36.2/40.0 18.1120.0 ..:. 52.2156.9 22.7/25.0 -6 10 -10/10 10/10 -60:60 25:25 -78'79 78 79 KFAEH0801315. 15 .11.3 3 -31.3134.6 --. 46.0/50.2 --816 --10 --50/50 --711112 -- KFAEH0901311 18 13.5 · 3 37,6/41,5 -,.... 53.9/58.8 --6 ---10 --60160 '' --94,'95 -- KFAEH0&01F20 20 15.0 1 Fuse . 72,3/79.9 36.2140.0 36.2140.0 97.311~,e ~2 .. 2/S.6.9 ,45,3/50.0 3/2 6 8 ·6 10/10 10/10 100,.110 60.60 50,50 84,106, 78•79-.5858 KFAEH1901S20 20 15.0 1 ... Fuset 72.3/79.9 36.2140.0 36.2140.0 97.31108.8 52.2/58.9, .45.3/.50.0 3/2 6 8 6 10110 10/10 100/110 60,60 5050 84'106 78-79 58.58 KFAEH1701C20 20 15.0 1 ClitBkr -36.2140.0 36.2140.0 ....:. 52.2156.9 45.3/50,0 -6 8 -10/10 10/10 -6060 50,so -78•79 58 58 24 18.0 3 Fuse 50,1/55,4 --69,5/76.2 ... -4 ---8 --7();60 --116,117 --KFAEH1001F24 .6 1251150, 112113 24 18.0 1 Fuse 86.7195.9. --116/127.0 --1 --' ------ 24 18.0 3 Fuset 50.1/55.4 --69.5176.2 --4 --8 --10,90 --116'117 --KFAEH2001S24 ~ .86.7195.9 1)6/127.0 8 1251150 112113 24 18.0 1 .Fuset ----1 -------- 30 22.5 3 ~ 62.6/69,2 --85.2/93.4 --3 --8 ·--901100 --120·121 -- KFAEH1101,F30 30 22.5 1 Fuse 109.0/ --143/157.0 --0/00 --6 --150,175 --114,145 --120.0 30 22.5 3 Fuatt 62.6169.2 --85.2/93.4 --3 , . --8 --901100 --120121 -- KFAEH2101S30 30 22.5 1 Fu11t 109.0/ --143/157,0 --40/00 --6 --150/175 --1141145 --I . 120,0 ' ' ,FIELD M'-11.TIPOINJ' WIRING OF 24-AND.SO-KW SINGLE PHASE HEATER AMPS " MIN. AMPACITY MIN. WIRE SIZE (AWG) MIN,GND FUSEICKT BKR AMPS MAX. WIRE LENGTH HEATER KW 208/230V 208/230V* 208123ilV* .' WIRE.SIZE 20li230\! 20ll230V (It) .. PART NO. 240V zoav PHASE L1/L2 L3/L4 ' L5/L6 . L1/L2 ~L4 . LS/LI L1/L2 L3/L4 LS/LS 208/23ilV L1/L2 L3/L4 LSl\.,S L11J.2. L3/L4 LSILI KFAEH1001F24 24 18 1 28.9132.0 28.9132.0 28.9132,0 43.0/46.9 36.1/40.0 36.1/40.0 8 8 8 . 10 45/50 40i45 . 40,45 61162 . 73'73 73,73 KFAEH2001S24tt ,. KFAEH1101F30 . 30 22.5 1 36.214~.o . 36,2/40.0 36.2140.0 52.2156.9 ,45.1/50.0 45,1/50.0 6 8 8 10 .60/60 . 5(};60 50:60, 78'79 58,58 58156 KFAEH2101S30tt '. ,. • Includes blower motor amps of largesttan COIi uSEJd-wlth h'eater.. . . . . . . . t CSA fused with single-point WlllnQ adapter; ' . ' .. ! . . " ' . ,,, ' : , ·.. . < ' " .. ' ' ' ' . . . ,.·,. , :· ' . . , ,., ' . * COpper wlte.~t be used. If otrttr than u~ted (non.platlld), 15-:e ambient, copper wire (IOffd wl('-Jor 10 AWG and 1mallir, ~trancted wlrt'·for tar;ertnan to AWG) 11 wNd, con1u1t appllcGle tablnof the· . National Electric Coda·(ANSUNFPA 70). . .. . · . . . · . ·. . . · . . · . . •• Length shown is as. measured 1 way along wire path .between ·unit and-service panel ·tor a voltage drop not to exceed 2%. , · tt The 24-and 30-kw·!\eaters are convertible to 11)hase, single or multlp!esupply circuit. · · . . . · . Ckl Bkr -Circuit Breaker' . . . . . . . . . c:;; · NOTE: Single circuit applicatiOn of F15 anc(F20 heaters requires single-point wiring kit accessory. . . :· ·~:·· ;·> ... . .:·/·~= ',\ ·"' L .I' ~ Matched system~. : ... 0 ·r:::---_,~ 0 Prlntfil on recy,:l«I paper. Carrier Corporation• Syracuse, New York 13221 3-94 -Manufacturer reserves Che right co discontinue, or change at any time, apeciiications or designs without notice and without incurring obliptiona. 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DATES -~ ---- To From --:'7._b( C/j -~)}4 . . -. 4t4M , ~-0/ J-,J/~ 1-w~ fa ~ ~ ~ d'3/ ;Pt ~ A ~ t:/MJ~ ~ Annlicant Anolicant ~ M :/J,'h.ae:&, .Ir ~-!)07rliUJ C&k r:t-tu--6~ Dewaj ro /'' u Vf1 t1a--r1t Jc:r:f f-~ tr.I«. ~--q_.a~~ It ,tr\ I~;:; 5 /1 fi L \,l \ .,,. f..-1(,,--, - - --- HAZMATFORM INO WASTE APP SCHOOL FEE FORM PLAN CORR ENGRGCORR BUSLIC WCOMP FIRE PLANS ASSESSOR PLANS COFO