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09-0309 (AR)P.O. BOX 1504_ 78-495 CALLE TAMPICO LA QUINTA, CALIFORNIA 92253 Application Number: 09-00000309 Property Address: 80540 VIA TALAVERA APN: 772-250-999-126 -30357 - Application description: ADDITION - RESIDENTIAL Property Zoning: LOWDENSITY DENSITY RESIDENTIAL Application valuation: 35228 Applicant: r Architect or Engineer: c,4 let* BUILDING & SAFETY DEPARTMENT Q BUILDING PERMIT Owner: ' ROBERT & R ECCA LAIA P.O-. BOX 111 BLUE JAY 101 BLUE JAY, CA 9231 -------------------------------------------------- LICENSED CONTRACTOR'S DECLARATION 'I hereby affirm under penalty of perjury that I am licensed under provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professionals Code, and my License is in full force and effect. Lice. Class: B C8 Li w No.: 716719 .(Dat .ice r Com nt�actor: OWNER -BUILDER DECLARATION I hereby affirm under penalty of perjury that I am exempt from the Contractor's State License Law for the following reason (Sec. 7031 .5, Business and Professions Code: Any city or county that requires a permit to construct, alter, improve, demolish, or repair any structure, prior to its issuance, also requires the applicant for the permit to file a signed statement that he or she is licensed pursuant to the provisions of the Contractor's State - License Law (Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professions Code) or - that he or she 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 155001.: 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 Contractors' State License Law does not apply to an owner of property :who builds or improves thereon, and who does the work himself or herself through his or her own employees, provided that the 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 or she did not build or y improve for the purpose of sale.) (_ I I; as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The Contractors' State License Law does not apply to an owner of property who builds or improves thereon, and who contracts for the projects with a contractorls) licensed pursuant to the Contractors' State License Law.). (_ 1 I am exempt under Sec. -, B.&P.C. for this reason Date: Owner: CONSTRUCTION LENDING AGENCY Ihereby affirm under penalty of perjury that there is a construction lending agency for the performance of the - work for which this permit is issued (Sec. 3097, Civ. C.). ' Lender's Name: _ Lender's Address: LQPERMIT VOICE (760) 777-7012 FAX (760) 777-7011 INSPECTIONS (760) 777-7153 - Contractor: NZ•v RC CONSTRUCTION SERVICES 2223 N LOCUST AVENUE RIALTO, CA 92377 (909)829-3688 Date: 8/05/09 LIc. No.: 716719 --------------- WORKER'S COMPENSATION DECLARATION hereby affirm under penalty of perjury one of the following declarations: I have and will maintain a certificate of consent to self -insure for workers' compensation, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. I have and will maintain workers: compensation insurance, as required by Section 3700 of the Labor. Code,,for the performance of the work for which this permit is issued. My workers' compensation _ insurance carrier and policy number are: ' Carrier CYPRESS INS CO Policy Number 3300050668-091' I certify that,, in the performance of the work for which this permit is issued, 1 shall not employ any - .person in any manner so as to become subject to the workers' compensation laws of California, and agree that; if I should become subject to the workers' compensation provisions of Section 3700 of the Labor C e, I shall forthwith' comply with those, provisions. - Date:- Applic`ant: WARNING: FAILURE TO SECURE WORKERS' COMPENSATION OVERAGE IS UNLAWFUL, AND SHALL SUBJECT AN EMPLOYER TO CRIMINAL PENALTIES AND CIVIL FINES UP TO ONE HUNDRED THOUSAND DOLLARS ($100,000). IN ADDITION TO THE COST OF COMPENSATION, DAMAGES AS PROVIDED FOR IN SECTION 3706 OF THE LABOR CODE,, INTEREST, AND ATTORNEY'S FEES. APPLICANT ACKNOWLEDGEMENT IMPORTANT Application is hereby made to the Director of Building and Safety for a permit subject to the conditions and restrictions set forth on this application. 1. Each person.upon whose behalf this application is made, each person at whose request and for whose benefit work is performed under or pursuant to any permit issued as a result of this application, the owner, and the applicant, each agrees to, and shall defend, indemnify and hold harmless the City of La Quinta, its officers, agents and employees for any act or omission related to the work being performed under or following issuance of this permit. 2. Any permit issued as a result of this application becomes null and void if work is not commenced within 180 days from date of issuance of such permit, or cessation of work for 180 days will subject permit to cancellation. I certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives of this c my to enter upon the above-mentioned propr for inspection purposes. � Dates '—�'— �M`Signature 1ApphcanYor Age Application Number 09-00000309 ------ Structure Information 436 SF CASITA ADDTN ----- Other struct info . : . CODE.EDITION 2007 , # BEDROOMS 1.00 FLOOD ZONE NA - GARAGE SQ FTG .00 PATIO SQ FTG .00 1ST FLOOR SQUARE FOOTAGE 436.00 2ND FLOOR SQUARE FOOTAGE 00 Permit . . . BUILDING PERMIT Additional desc 436 SF CASITA -Permit"Fee . . ." 323.50 Plan Check Fee 210.28 Issue Date Valuation 35228 Expiration Date.. 2/01/10 Qty Unit Charge Per Extension BASE FEE 252.00 , 11.00 6.5000 THOU BLDG 25,001-50,000 •71.50 Permit ELECT - ADD/ALT/REM Additional desc ... Permit Fee 30.26 Plan Check Fee . 7.57 Issue Date- . . . . Valuation 0 Expiration'Date 2/01/10 Qty Unit Charge Per Extension BASE FEE 15.00 436.00 ..0350 ELEC.NEW RES - 1 OR 2 FAMILY 15.26 Permit_ . . . . . : MECHANICAL Additional desc . Permit Fee . . . -39.50. Plan Check Fee ,. 9.88 _. Issue Date _ Valuation . . . . 0 Expiration Date 2/01/10. Qty Unit Charge Per Extension BASE FEE 15.00 1.00 9.0000 EA -MECH FURNACE <=100K 9.00 1.00 9.0000 EA MECH B/C <=3HP/100K BTU 9.00 1.00, 6.5000 ---------------------------------------------------------------------------- EA MECH VENT FAN 6.50 Permit .. . . . PLUMBING Additional desc . LQPERAIIT. LQPERMIT Application Number 09-00000309 Permit . .. PLUMBING Permit Fee 57.00 Plan Check Fee 14.25 Issue Date Valuation . . . . 0 Expiration Date 2/01/10 Qty Unit Charge Per Extension BASE FEE 15.00 4.,00 6.0000 EA PLB FIXTURE 24.00 1.00 15.0000 EA PLB BUILDING SEWER 15.00 1.00 3.0000 EA PLB.WATER INST/ALT/REP 3.00 ----------------------------------------------------------------- Special Notes and Comments 436 SF DETACHED CASITA ADDITION TO EXISTING RESIDENCE. TYPE VB CONSTR: R-3 _ OCC. 2007 CODES. ----------------------- --- ---------------------- O Other Fees . . . . . . .` BLDG'STDS ADMIN (SB1473) -------- 2.00 ENERGY REVIEW FEE 21.03 STRONG MOTION (SMI) - RES 3.52 Fee summaryCharged Paid Credited Due; -- Permit Fee Total— 450.26 .00 .00 - 450.26 Plan Check Total' 241.98 .00 00 241:98 Other Fee Total 26.55, .00 .00 26.55 '- Grand Total _. 718.79 .00 .00 718.79 LQPERMIT 4 Bin #, , City of La Quetta Building 8i Safety Division Box 1504, 78-495 Calle Tampico La Quinta, CA 92253 - (760) 777-7012 Building Permit Application and Tracking Sheet Permit #/MP.O. Project Address: So _ 54o v Owner's Name: C A. P. Number: Address: o �ti Legal Description: L 17.6 Contractor: C- L 0-0 S -T (� c, �. City, ST, Zip: 11� L 'LZ53 Telephone: ::>:<> >:;:<:: P Address: Project Description: 36 60L GAS' City, ST, Zip: Telephone: State Lic. # : City Lic. #; Arch., Engr., Designer. �7� ,� 5 Address: 4 _ City., ST, Zip: t_ p„ BIZ O Telephone: = 1 —:::;:::;;:<:>::::::.::.;:•;;::;.;>.:::::;: State to Lic #: Name of Contact Person: J0a —mom Construction Type: IM Occupancy: Project type (circle one): • New Add n Alter Repair Demo Sq. Ft.: 3� #Stories: 0 #Units: Telephone # of Contact Person: _ 5 Fct Estimated Value of Project-1 APPLICANT: DO NOT WRITE BELOW THIS LINE Submittal Req'd Recd TRACKING PERMIT FEES Plan Sets Plan Check submitted Item Amount Structural Cafes. Reviewed, ready for corrections Plan Check Deposit Truss Cafes. Called Contact Person Plan Check Balance Tide 24 Calcs. Plans picked up Construction Flood plain plan Plans resubmitted Mechanical Grading plan 2 -.(Review, ready fo corrections ssue + Electrical Subcontactor List Called Contact Person 14 .1 Plumbing Grant Deed Plans picked up S.M.I. H.O.A. Approval Plans resubmitted V Grading IIN HOUSE:- '"' Review, ready for correction issue Developer Impact Fee Planning Approval Called Contact Person A.I.P.P. Pub. Wks. Appr Date of permit issue School Fees Total Permit Fees C�[��d�r � APR 03 2009 �lt&e10 slrz �7* Coachella Valley Unified School District 83-733 Avenue 55, Thermal, CA 92274 (760) 398-5909 — Fax (760) 398-1224, This Box For District Use Only DEVELOPER FEES PAID AREA: AMOUNT LEVEL ONE AMOUNT : LEVEL TWO AMOUNT: MITIGATION AMOUNT: COMM/MD. AMOUNT: DATE: RECEIPT: CHECK N: INITIALS: CERTIFICATE OF COMPLIANCE (California Education Code 17620) Project Name: Mountain View Country_Club, Date: August 5, 2009 Owner's Name: Robert & Rebecca Clapper Phone No. 909-829-3688 Project Address: 80-540 Via Talavera LaQuinta, CA Project Description: Detached Casita Addition APN: 777-270-010 Tract #: t Lot #'s: 126 Type of Development: Residential XX Commercial Industrial Total Square Feet of Building Area: 436 Certification of Applicant/Owners: The person signing certifies that the above information is correct and makes this statement under penalty of perjury and further represents that he/she is authorized to sign on behalf of the owner/developer. Dated: August 5, 2009 Signature: SCHOOL DISTRICT'S REQUIREMENTS FOR THE ABOVE PROJECT HAVE BEEN OR WILL BE SATISFIED IN ACCORDANCE WITH ONE OF THE FOLLOWING: (CIRCLE ONE) Education Code Gov. Code Project Agreement Existing Not Subject to Fee 17620 65995 Approval Prior to 1/1/87 Requirement Note Number of Sq.Ft. 436 Amount per Sq.Ft. $2.97 Amount Collected $1,294.92 Building Permit Application Completed: Yes/No By: Jamie T. Brown, Asst. Supt., Business Services Certificate issued by: Laurie Howard, Secretary III Signature: dru� +40-k d-- NOTICE OF 90 DAY PERIOD FOR PROTEST OF FEES AND STATEMENT OF FEES Section 66020 of the Government Code asserted by Assembly Bill 3081, effective January 1, 1997, requires that this District provide (1) a written notice to the project appellant, at the time of payment of school fees, mitigation payment or other exactions ("Fees"), of the 90 -day period to protest the imposition of these Fees and (2) the amount of the fees. Therefore, in accordance with section 66020 of the Government code and other applicable law, this Notice shall serve to advise you that the 90 -day protest period in regard to such Fees or the validity thereof, commences with the payment of the fees or performance of any other requirements as described in section 66020 of the Government code. Additionally, the amount of the fees imposed is as herein set forth, whether payable at this time or in whole or in part prior to issuance of a Certificate of Occupancy. As in the latter, the 90 days starts on the date hereof. This Certificate of Compliance is valid for thirty (30) days from the date of issuance. Extension will be granted only for good cause, as determined by the School District, and up to three (3) such extensions may be granted. MV:c/mydoes/devfees/certificate of compliance form Updated 3-2007 3/9/07 MOUNTAIN VIEW COUNTRY CLUB at La Quinta July 28, 2009 Bob Clapper PO Box 1113 Blue Jay, Ca 92317 Re Architectural Request 80540 Via Talavera Dear Bob: The Architectural/Landscape Committee of the Mountain View Country Club Homeowners' Association have reviewed the plans for your improvements per the enclosed application. The committee is pleased, to inform you that it has approved the plans as submitted; Thank you for your patience and understanding during this approval process. If there are any questions please'contact me at 760-776-5100 ext. 324. Sincerely, By Direction of The Board of Directors Mountain View Country Club Homeowners, Association Bill Clifford, CACM Association Manager cc: Board of Directors Unit File', CITY OF LA QUINTA PLAN CHECK CORRECTION LIST Prest * Vuksic May 11, 2009 '(760) 779-5393 PLAN CHECK NO. 09-3WSECOND/FINAL CHECK ADDRESS 80-540 Via Talavera F_ OCCUPANCY R -3/U SCOPE OF WORK New Casita TYPE -OF -CONST. VB (Structural Review Only) The submitted plans and specifications. have been reviewed by the VCA CODE GROUP. In our professional opinion the plans are in . substantial conformance with 'the building codes and regulations adopted by the CITY OF LA QUINTA and the State, of California Amendment. APPROVAL FOR A BUILDING PERMIT IS HEREBY RECOMMENDED SUBJECT TO OBTAINING APPROVALS/CLEARANCES FROM ALL APPLICABLE CITY DEPARTMENTS, AGENCIES, AND ASSOCIATIONS Plans check ue uu,'P.E. VCA CODE GROUP r ' 2200 W Orangewood Ave, Ste 155 1 t Orange,.CA, 92868 (714) 363-4700 ext. -VCA File No. LQ -21539.2A Y TITLE 24 REPORT Title 24 Report' for: Casita Addition for Bob & Becky Clapper 8077540 _Via Talavera (Lot #126) La Quinta, CA 92253 ' . Project'Designer,' Prest/Vuksic Architects 44-530 San Pablo Ave, Suite #200 Palm Desert, CA 92260 (760).779-5393 Report Prepared By:.' ' C.J. McFadden:.' . BREEZE AIR CONDITIONING 75-145 ST. CHARLES PLACE PALM DESERT, CA 92211 (760) 346-0855 CITY OF LA QUINTA BUILDING & SAFETY DEPT. APPROVED FOR CONSTRUCTION `Job .Number: �?� 0 ` APR 0 3 2009 Date: B 3/26/2009 y r . The EnergyPro computer program has been used to perform the calculations summarized in this compliance report. This program has approval and is authorized by the California Energy Commission for use with both the Residential and Nonresidential 2005 Building Energy Efficiency Standards. This program developed by EnergySoft, LLC - www.energysoft.com. EnergyPro 4.4 by EnergySoft Job Number: ' ' User Number: 3665 r Cover Page - 1 Table of Contents 2 Form CF -1 R Certificate of Compliance 3 Form MF -1R Mandatory Measures Summary 7 HVAC System Heating and Cooling Loads Summary 9 Room Load Summary 10 Room Heating Peak Loads . 11 Room Cooling Peak Loads 12 Cover Page - 1 Table of Contents 2 Form CF -1 R Certificate of Compliance 3 Form MF -1R Mandatory Measures Summary 7 HVAC System Heating and Cooling Loads Summary 9 Room Load Summary 10 Room Heating Peak Loads . 11 Room Cooling Peak Loads 12 EnergyPro 4.4 by EnergySoft Job Number: User Number: 3665 - EnergyPro 4.4 by EnergySoft Job Number: User Number: 3665 Certificate Of Compliance: Residential (Part 1 of 4) CF -1 R Casita Addition for Bob Project Title R Reckv Clapper 3/26/2009 Date -54n Viaalayer._a (II ot #196) 1 a Qijinta _Rn Project Address Building Permit # BREEZE AIR CONDITIONING (760) 346-0855 Documentation Author Telephone Plan Check/Date EnergyPro Compliance Method CA Clffimntp 7onp 15 Climate Zone Field Check/Date TDV Standard Proposed Compliance (kBtu/sf-yr) Design Design Margin Space Heating 3.17 2.36 0.81 Space Cooling 91.99 80.68 11.31 Fans 13.10 13.41 -0.31 Domestic Hot Water 0.00 0.00 0.00 Pumps 0.00 0.00 0.00 Totals 108.26 96.45 11.81 Percent better than Building Type: [J Single Family ❑ Multi Family Building Front Orientation: Fuel Type: Fenestration: ❑ Addition ❑ Existing + Add/Alt (N) 0 deg Natural Gas Area: 110 ft 2 Avg. U: Ratio: 25.3% Avg. SHGC: BUILDING ZONE INFORMATION Zone Name 0.42 0.47 Total Conditioned Floor Area Existing Floor Area: Raised Floor Area: Slab on Grade Area: Average Ceiling Height: Number of Dwelling Units: Number of Stories: # of Thermostat Floor Area Volume Units Zone Type Type 436 4 0-1 1 nn_ Conditioned Sathank OPAQUE SURFACES Insulation Act. Type Frame Area U -Fac. Cay. Cont.. Azm. Tilt Roof Wond 4'i6 n n95_ R-38 R-0 0 a 'AS Wall Wood 190 0069 R_21 R-0 0 _D gn Wall Wood 140 0.069 R-21 R-0.0 770 90 Wall Wond 777 0 069 R_21 R_0.0 1R0 g0 Wall Wood 146 0,069 R_21 R_0.0 270 gQ 436 ft2 n/a ft2 0 ft2 436 ft2 9.2 ft 1.00 Vent Hgt. Area -2 n/a Gains Condition Y / N Status JA IV Reference Location / Comments Run Initiation Time: 03126/09 10:43:23 Run Code: 1238086803 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:3 of 12 Certificate Of Compliance: Residential (Part 2 of 4) CF -1 R Casita Addition for Bob & Becky Clapper 3/26/2009 Project Title Date FENESTRATION SURFACES True # Type Area U -Factor' SHGCZ Azm. Tilt Cond. `Location/ Stat. Glazing Type Comments L Window Front (N) 48.0 045 NFRC 0 40 NFRr �020_ New Milgard SwnqDr Lo/F Clear 080) Casita 2 Window Right (W) 4.0 0.400 NFRC 0_53 NFRC 270 90 New Milgard Fixed Lo/E Clear (2020) Casita 3 Window Right (W) 4.0 0.400 NFRC 0_53 NFRC 270 90 New Milgard Fixed WE Clear (2020) Casita 4 Window Rear (S) 4.0 0.400 NFRC 0_53 NFRC 180 90 New Milgard Fixed Lo/E Clear (2020) Casita 5 Window Rear (S) 4.0 0.400 NFRC 0_53 NFRC 180 90 New Milgard Fixed WE Clear (2020) Casita 6 Window Rear (S) 4.0 0.400 NFRC 0_53 NFRC 180 90 New Milgard Fixed Lo/E Clear (2020) Casita L Window Rear (S) 4.0 0.400 NFRC 0.53 NFRC 180 90 New Milgard Fixed WE Clear0(2 20) Casita 8 Window Right (W) 8.0 0.400 NFRC 0_53 NFRC 270 90 New Milgard Fixed WE Clear (2830) Casita 9 Window Right (W) 22.5 0.410 NFRC0 51 NFRC 270 90 New Milgard HorizSldr WE Clear (504 )Casita 1Q Window Right (VW 8.0 0.400 NFRC 0.53 NFRC 270 90 New - Milgard Fixed Lo/E Clear (2830) Casita 1. Indicate source either from NFRC or Table 116A. 2. Indicate source either from NFRC or Table 1168. INTERIOR AND EXTERIOR SHADING Window Overhang Left Fin Right Fin # Exterior Shade Type SHGC Hgt. Wd. Len. Hgt. LExt. REA. Dist. Len. Hgt. Dist. Len. Hgt. 1 Bug Screen 0.76 2 Bug Screen 0.76 3 Bug Screen 0.76 _ 4 Bug Screen 0.76 5 Bug Screen 0.76 _ 6 Bug Screen 0.76 7 Bug Screen 0.76 8 Bug Screen 0.76 _ 9 Bug Screen 0.76 _ 10 Bug Screen 0.76 THERMAL MASS FOR HIGH MASS DESIGN Area Thick. Heat Inside Condition Location/ Type (sf (in.) Cap. Cond. R -Val. JA IV Reference Status Comments Insulation PERIMETER LOSSES Condition Location/ Type Length R -Val. Location JA IV Reference Status Comments Slab Perimeter 87 None No Insulation 26-A1 New Casita EnergyPro 4.4 by EnergySoft I User Number: 3665 Job Number: PageA of 12 1 Certificate Of Compliance: Residential (Part 3 of 4) CF -1 R Casita Addition for Bob & Becky Clapper 3/26/2009 Project Title Date HVAC SYSTEMS Heating Minimum Cooling Minimum' Condition Thermostat Location Type Eff . Type Eff Status Type HVAC -#1 Split Heat Pump 7.70 HSPF Split Heat Pump 14.0 SEER New Setback HVAC DISTRIBUTION Duct Duct Condition Ducts Location Heatinq Coolinq Location R -Value Status Tested? HVAC -t1 Ducted Ducted Attic 4.2 New Yes Hydronic Piping Pipe Pipe Insul. System Name Length Diameter Thick. WATER HEATING SYSTEMS Rated Tank Energy Tank Insul. Water Heater # in Input ' Cap. Condition Factor Standby R -Value System Name Type Distribution Syst. (Btu/hr) (gal) Status or RE Loss (%) Ext. Multi -Family Central Water Heating Details Hot Water Pump Hot Water Piping Length (ft) Add 1/2" Control # HP Tvae In Plenum Outside Buried Insulation REMARKS COMPLIANCE STATEMENT ' This certificate of compliance lists the building features and specifications needed to comply with Title 24, Parts 1 and 6 of the California Code of Regulations, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. The undersigned recognizes that compliance using duct design, duct sealing, verification of refrigerant charge and TXVs, insulation installation quality, and building envelope sealing require installer testing and certification and field verification by an approved HERS rater. Designer or Owner (per Business & Professions Code) Documentation Author Name: Name: C.J. McFadden Title/Firm: Prest/Vuksic Architects Title/Firm: BREEZE AIR CONDITIONING Address: 44-530 San Pablo Ave, Suite #200 Address: 75-145 ST. CHARLES PLACE Palm Desert, CA 92260 PALM DESERT, CA 92211 Telephone: (760) 779-5393 Lic. #: Telephone: _(760) 346-0855 (signature) (date) (signature) 0 (date) Enforcement Agency Name: Title/Finn: Address: Telephone: (date) Certificate Of Compliance: Residential (Part 4 of 4) CF -1 R Casita Addition for Bob & Becky Clapper 3/26/2009 Project Title Date Special Features and Modeling Assumptions The local enforcement agency should pay special attention to the items specified in this checklist. These items require special written justification and documentation, and special verification to be used with the performance approach. The local enforcement agency determines the adequacy of the justification, and may reject a building or design that otherwise complies oaseo on the aoequacy or ine special /ustirication ano oocumentation suominea. Plan Field The Roof "R-38 Roof' includes a Radiant Barrier. HERS Required Verification Items in this section require field testing and/or verification by a certified home energy rater under the supervision of a 4R. Valve. and documented on the CF- " incorporates a HERS verified Refrigerant Charge test or a HERS verified Thermostatic Expansion 6 / CBX32MV (2 Ton) " includes credit for a 11.5 EER Condenser. Plan I Field I EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Paae:6 of 12 1 Mandatory Measures Summary: Residential (Page 1 of 2) MF -1 R NOTE: Lowrise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. More stringent compliance requirements from the Certificate of Compliance supercede the items marked with an asterisk (') below. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. DESCRIPTION Check or initial applicable boxes or check NA if not applicable and included with the ENFORCE - permit application documentation. NIA DESIGNER MENT Building Envelope Measures § 150(a): Minimum R-19 in wood ceiling insulation or equivalent U -factor in metal frame ceiling, i ❑ ❑X ❑ § 150(b): Loose fill insulation manufacturer's labeled R -Value: ❑ ❑ ❑ § 150(c): Minimum R-13 wall insulation in wood framed walls or equivalent,U-factor in metal frame walls (does not ❑ 0 ❑ apply to exterior mass walls). § 150(d): Minimum R-13 raised floor insulation in framed floors or equivalent U -factor. ❑ ❑ ❑ § 150(e): Installation of Fireplaces, Decorative Gas Appliances and Gas Logs. 1. Masonry and factory -built fireplaces have: a. closable metal or glass door covering the entire opening of the firebox ❑ 0 ❑ b. outside air intake with damper and control, flue damper and control ❑ 0 ❑ 2. No continuous burning gas pilot lights allowed. _ ❑ ❑ ❑ § 150(f): Air retarding wrap installed to comply with §151 meets requirements specified in the ACM Residential Manual. ❑ ❑ ❑ § 150(g): Vapor barriers mandatory in Climate Zones 14 and 16 only. ❑ ❑ ❑ § 150(1): Slab edge insulation - water absorption rate for the insulation alone without facings'no greater than 0.3%, water vapor ❑ ❑ ❑ perneance rate no greater than 2.0 perm/inch. § 118: Insulation specified or installed meets insulation installation quality standards. Indicate type and include El El ElCF-6R Form: § 116-17: Fenestration Products, Exterior Doors, and Infiltration/Extiltration Controls. 1. Doors and windows between conditioned and unconditioned spaces designed to limit air leakage. ❑ ❑X ❑ 2. Fenestration products (except field fabricated) have label with certified U -Factor, certified Solar Heat Gain ❑ Q ❑ Coefficient (SHGC), and infiltration certification. 3. Exterior doors and windows weatherstripped; all joints and penetrations caulked and sealed. ❑ ❑X ❑ Space Conditioning, Water Heating and Plumbing System Measures § 110-13: HVAC equipment, water heaters, showerheads and faucets certified by the Energy Commission. ❑ ❑X ❑ § 150(h): Heating and/or cooling loads calculated in accordance with ASHRAE, SMACNA or ACCA. ❑ ❑ ❑ § 150(i): Setback thermostat on all applicable heating and%or cooling systems. ❑ ❑X ❑ § 1500): Water system pipe and tank insulation and cooling systems line insulation. 1. Storage gas water heaters rated with an Energy Factor less than 0.58 must be externally wrapped with insulation ❑ ❑x ❑ having an installed thermal resistance of R-12 or greater. 2. Back-up tanks for solar systems, unfired storage tanks, or other indirect hot water tanks have R-12 external ❑ ❑X ❑ insulation or R-16 internal insulation and indicated on the exterior of the tank showing the R -value. 3. The following piping is insulated according to Table 150-A/B or Equation 150-A Insulation Thickness: 1. First 5 feet of hot and cold water pipes closest to water heater tank, non -recirculating systems, and entire ❑ ❑X ❑ length of recirculating sections of hot water pipes shall be insulated to Table 150B. 2. Cooling system piping (suction, chilled water, or brine lines), piping insulated between heating source and ❑ ❑X ❑ indirect hot water tank shall be insulated to Table 150-6 and Equation 150-A. 4. Steam hydronic heating systems or hot water systems > 15 psi, meet requirements of Table 123-A. ❑ ❑ ❑ 5. Insulation must be protected from damage; including that due to sunlight, moisture, , equipment maintenance, ❑ ❑X ❑ and wind. 6. Insulation for chilled water piping and refrigerant suction piping includes a vapor retardant oris enclosed ❑ ❑ - ❑ entirely in conditioned space. 7. Solar water -heating systems/collectors are certified by the Solar Rating and Certification Corporation. ❑ ❑ ❑ EnergyPro 4.4 by EnergySoft ' User Number: 3665 - Job Number: . Page:7 of 12 Mandatory Measures Summary: Residential (Page 2 of 2) WAR NOTE: Lowdse residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. More stringent compliance requirements from the Certificate of Compliance supercede the items marked with an asterisk (') below. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. DESCRIPTION Instructions: Check or initial applicable boxes when completed or check N/A if not applicable. N/A DESIGNER ENFORCE - MENT Space Conditioning, Water Heating and Plumbing System Measures: (continued) ❑ ❑X ❑ 150-C, and do not contain a medium screw base socket (E24/E26). Ballasts for lamps 13 Watts or greater are electric § 150(m): Ducts and Fans and have an output frequency no less than 20 kHz. § 150(k)l : HIGH EFFICACY LUMINAIRES - OUTDOOR HID: contain only high efficacy lamps as outlined inTable 150-C, 1. All ducts and plenums installed, sealed and insulated to meet the requirements of the CMC Sections 601, 602, 603, 604, ❑ ❑X ❑ 605, and Standard 6-5; supply -air and retum-air ducts and plenums are insulated to a minumum installed level of in Section 130(c), of permanently installed luminaires in kitchens may be in luminaires that are not high efficacy luminaires, provided that these luminaires are controlled by switches separate from those controlling the high efficacy luminaires. R-4.2 or enclosed entirely in conditioned space. Openings shall be sealed with mastic, tape or other duct -closure system § 150(k)3: Permanently installed luminaires in bathrooms, garages, laundry rooms, utility rooms shall be high efficacy luminaires. ❑ O ❑ OR are controlled by an occupant sensor(s) certfied to comply with Section 119(d). that meets the applicable requirements of UL 181, UL 181A, or UL 161 B or aerosol sealant that meets the requirements § 150(k)4: Permanent)y installed luminaires located other than in kitchens, bathrooms, garages, laundry rooms, and utility rooms shall be high efficacy luminaires (except closets less than 70 ft) OR are controlled by a dimmer switch OR are controlled ❑ ❑X ❑ by an occupant sensor that complies with Section 119(d) that does not tum on automatically or have an always on option. of UL 723. If mastic or tape is used to seal openings greater than 1/4 inch, the combination of mastic and either mesh or § 150(k)5: Luminaires that are recessed into insulated ceilings are approved for zero clearance insulation cover (IC) and are ❑ ❑X ❑ certified to ASTM E283 and labeled as air tight (AT) to less than 2.0 CFM at 75 Pascals. tape shall be used. § 150(k)6: Luminaires providing outdoor lighting and permanently mounted to a residential building or to other buildings on the ❑ ❑X ❑ same lot shall be high efficacy luminaires (not including lighting around swimming pools/water features or other Article 680 2. Building cavities, support platforms for air handlers, and plenums defined or constructed with materials other than sealed ❑ ❑X ❑ sheet metal, duct board or flexible duct shall not be used for conveying conditioned air. Building cavities and support Lighting for parking garages for 8 or more vehicles shall have lighting that complies with Section 130, 131, and 146. § 150(k)8: Permanently installed lighting in the enclosed, non -dwelling spaces of low-rise residential buildings with four or more platforms may contain ducts. Ducts installed in cavities and support platforms shall not be compressed to cause reductions dwelling units shall be high efficacy luminaires OR are controlled by occupant sensor(s) certified to comply with Section 119(d). EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: in the cross-sectional area of the ducts. 3. Joints and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive ❑ ❑X ❑ duct tapes unless such tape is used in combination with mastic and draw_ bands. ❑ ❑ 4. Exhaust fan systems have back draft or automatic dampers. 5. Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operating ❑ ® ❑ dampers. 6. Protection of Insulation. Insulation shall be protected from damage, including that due to sunlight, moisture, equipment ❑ ❑X ❑ maintenance, and wind. Cellular foam insulation shall be protected as above or painted with a coating that is water retardant and provides shielding from solar radiation that can cause degradation of the material. ❑ ❑X ❑ 7. Flexible ducts cannot have porous inner cores. § 114: Pool and Spa Heating Systems and Equipment 1. A thermal efficiency that complies with the Appliance Efficiency Regulations, on-off switch mounted outside of the ❑ ❑ ❑ heater, weatherproof operating instructions, no electric resistance heating and no pilot light. 2. System is installed with: ❑ ❑ ❑ a. At least 36" of pipe between filter and heater for future solar heating. b. Cover for outdoor pools or outdoor spas. ❑ ❑ ❑ 3. Pool system has directional inlets and a circulation pump time switch. ❑ ❑ ❑ § 115: Gas fired fan -type central furnaces, pool heaters, spa heaters or household cooking appliances have no continuously ❑ ® ❑ burning pilot light. (Exception: Non -electrical cooking appliances with pilot < 150 Btu/hr) § 118 (1): Cool Roof material meets specified criteria ❑ ❑ ❑ Lighting Measures § 150(k)l: HIGH EFFICACY LUMINAIRES OTHER THAN OUTDOOR HID: contain only high efficacy lamps as outlined in Table ❑ ❑X ❑ 150-C, and do not contain a medium screw base socket (E24/E26). Ballasts for lamps 13 Watts or greater are electric and have an output frequency no less than 20 kHz. § 150(k)l : HIGH EFFICACY LUMINAIRES - OUTDOOR HID: contain only high efficacy lamps as outlined inTable 150-C, ❑ Q ❑ luminaire has factory installed HID ballast. § 150(k)2: Permanently installed luminaires in kitchens shall be high efficacy luminaires. Up to 50% of the Wattage, as determined ❑ ❑X ❑ in Section 130(c), of permanently installed luminaires in kitchens may be in luminaires that are not high efficacy luminaires, provided that these luminaires are controlled by switches separate from those controlling the high efficacy luminaires. § 150(k)3: Permanently installed luminaires in bathrooms, garages, laundry rooms, utility rooms shall be high efficacy luminaires. ❑ O ❑ OR are controlled by an occupant sensor(s) certfied to comply with Section 119(d). § 150(k)4: Permanent)y installed luminaires located other than in kitchens, bathrooms, garages, laundry rooms, and utility rooms shall be high efficacy luminaires (except closets less than 70 ft) OR are controlled by a dimmer switch OR are controlled ❑ ❑X ❑ by an occupant sensor that complies with Section 119(d) that does not tum on automatically or have an always on option. § 150(k)5: Luminaires that are recessed into insulated ceilings are approved for zero clearance insulation cover (IC) and are ❑ ❑X ❑ certified to ASTM E283 and labeled as air tight (AT) to less than 2.0 CFM at 75 Pascals. § 150(k)6: Luminaires providing outdoor lighting and permanently mounted to a residential building or to other buildings on the ❑ ❑X ❑ same lot shall be high efficacy luminaires (not including lighting around swimming pools/water features or other Article 680 locations) OR are controlled by occupant sensors with integral photo control certified to comply with Section 119(d). § 150(k)7: Lighting for parking lots for 8 or more vehicles shall have lighting that complies with Sections 130, 132, and 147. ❑ ❑ ❑ Lighting for parking garages for 8 or more vehicles shall have lighting that complies with Section 130, 131, and 146. § 150(k)8: Permanently installed lighting in the enclosed, non -dwelling spaces of low-rise residential buildings with four or more ❑ ❑ ❑ dwelling units shall be high efficacy luminaires OR are controlled by occupant sensor(s) certified to comply with Section 119(d). EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:8 of 12 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE Casita Addition for Bob & Becky Clapper 3/26/2009 SYSTEM NAME FLOOR AREA HVAC -#1 436 26.0 of 76.9 of Outside Air 33 cfm 79.0 of SYSTEM LOAD Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM I Sensible Latent I CFM I Sensible 17,163 2,002 14,279 Lennox XP16 / CBX32MV (2 Ton) 17,703 1,705 13,616 Total Adjusted System Output17,703 1,705 13,616 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Aug 2 pm F Jan 12 am Heating Coil 92.90F Supply Fan 800 cfm 9'2.9 OF -�! Supply Air Ducts 91.9 of ROOMS 80.0 of k Return Air Ducts `S (COOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Coolina Peak) I 11.0 177,13 of 75.1 162.O of 54.3 / 53.3 of 54.3 / 53.3 of Outside Air 33 cfm 73.6 / 61.2 of Cooling Coil O Supply All Ducts Supply Fan 55.9 / 54.0 of 800 cfm 52.1% R. H. ROOMS 71_.0160.6 OF Return Air Ducts I EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Paoe:9 of 12 ROOM LOAD SUMMARY I PROJECT NAME Casita Addition for Bob & Becky Clapper DATE 3/26/2009 SYSTEM NAME HVAC -#1 FLOOR AREA 436 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE Casita Casita 1 768 13,138 1,350 768 13,138 1,350 852 10,785 PAGE TOTAL 1 768 13,138 1,350 852 10,785 TOTAL 1 768 13,138 1,350 852 10,785 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 10 of 12 ROOM HEATING PEAK LOADS Project Title Date Casita Addition for Bob & Beck Clapper 3/26/2009 Room Information Design Conditions Room Name Casita Time of Peak Jan 12 am Floor Area 436 Outdoor Dry Bulb Temperature 26 OF Indoor Dry Bulb Temperature 80°F Conduction Area U -Value AT of Btu/hr VMATOM 436.0 X x X x x x x X x x x x x X x x x x X X x X X x X X X X x X X X X X X X X X X 0.0250 X X X X X x X x x X x X X X x X x X X X X X x x X x x X x X x X X x X x X x x 54 = = = = = = = = = = = = = = = = = - = = = = = _ = 589 190.0 0.0690 54 708 48.0 0.4500 54 1,166 140.0 0.0690 54 522 4.0 0.4000 54 86 4.0 0.4000 54 86 222.0 0.0690 54 827 4.0 0.4000 54 86 4.0 0,4000 54 86 4.0 0.4000 54 86 4.0 0.4000 54 RF; 146.5 0.0690 54 546 8.0 0.4000. 54 173 22.5 0.4100 54 498 80 0.4000 54=17.1 perimeter= 87.0 0.7300 54 3,430 Items shown with an asterisk (•ff) denote conduction through an interior surface to another room. Page Total: 9,149 Infiltration: I 1.00 x 1.064 x 436 x 9.25 x 0.423 / 60] x 54 = 1 636 'Schedule Air Sensible Area Ceiling Height ACH OT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 10,785 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 11 of 12 771 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Title Date Casita Addition for Bob &'Becky Clapper 3/26/2009 Room Information Design Conditions Room Name: Casita Outdoor Dry Bulb Temperature: 112OF Floor Area: 436 sf Outdoor Web Bulb Temperature: 780F Indoor Dry Bulb Temperature: 72 OF Outdoor Daily Range: 340F Opaque Surfaces -21 Wall Orientation Area X X X X X X X x X X x x U -Factor X X X X X X x X x X x X CLTD 1 = = = = = = = = = = N 436.0 0.0173 77.0 N 190.0 0.0690 31.0 O erableWdw 5046 140.0 0.0690 55.0 S 222.0 0.0690 38.0 146.5 0.0690 55.0 112.9= 452 S 0.0x 34.2+ 4.0X 45.9= 184 S 0.0 34.2 4.0 45.9 184 S 0.0 34.2 4.0 45.9 184 S 0.0 34.2 4.0 45.9 184 0.0 34.2 8.0 112.9 Pa a Total Items shown with an asterisk (') denote conduction through an interior surface to another room. g 1. Cooling Load Temperature Difference (CLTD) Fenestration Swn GIsDr 6080 FxdWdw 2020 FxdWdw 2020 FxdWdw 2020 FxdWdw 2020 FxdWdw 2020 FxdWdw 2020 FxdWdw 2830 O erableWdw 5046 FxdWdw 2830 0.0X 34.2+ Btu/hr 581 406 531 582 556 z sss Orientation Shaded Area x X x x x x x x GLF + + + + + + + + Unshaded Area X X X X X X X x GLF = = = = = = = = Btu/hr N 0.0 28.8 48.0 28.8 1,382 0.0X 34.2+ 4.0X 112.9= 452 0.0x 34.2+ 4.0X 112.9= 452 S 0.0x 34.2+ 4.0X 45.9= 184 S 0.0 34.2 4.0 45.9 184 S 0.0 34.2 4.0 45.9 184 S 0.0 34.2 4.0 45.9 184 0.0 34.2 8.0 112.9 903 0.0 33.4 22.5 109. 2,455 0.0 34.2 8.0 112.9 903 Page Total 7 261 Internal Gain Btu/hr Occu ants 4 Occupants X 230 Btuh/OCC. = 920 E ui ment El Dwelling Units X 1,200 Btuh = 1.2001 Infiltration: 1.064 x 0.92 x 27.63 x = 1080 Air Sensible CFM ELA DT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 13138 Latent Gain Btu/hr Occu ants Occupants X 200 Btuh/OCC. = 800 Infiltration: 4,77 X 0.92 X 27.63 X 0.00454 = 550 Air Latent CFM ELA n w TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,350 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 12 of 12 YOUNG ENGINEERING SERVICES 77-804 Wildcat Dr., Ste.- C, Pahn Desert, CA. 92211 (760) 360-5770 fax (760) 360-5719 April 29, 2009 Tom Hartung Building Official City of La Quin.ta Re: Clapper Residence Casita Addition, 80-540 Via Talaver, La Quinta, CA Dear Mr. Hartung, In reference to the above noted project We have reviewed the truss calculations by JMW Truss, dated April 29, 2009 and find them to be in general conformance with the structural- plans and calculations for design loading and layout. Review and approval of dimensions, fabrication processeg, and field, erecting techniques are not apart of this review and acceptance letter. If you have any questions please call. Sincerely, Jeffrey B. Young, S.E. 'K 03 S404 LU EV. Uc MAY 0 5 2009 (� % MAY 0 5 2009 (� P R EST . V U KS IC ARCHITECTS September 02, 2009 Re: Bob Clapper Casita - 80'540WiamTalaverq1(Lot 126) Mountain View CC Plan Check #;09=309 - CITY OF LA QUINTA y BUILDING-& SAFETY DEPT. Burt Hanada APPROVE® Building Department 78-495 Calle Tampico t FOR CONSTRUCTION La Quinta, CA 92253 LDATECI 3 . BY %42- Dear Mr. Hanada The Clapper Casita is currently under construction and the owner has requested a small detail change in regards to the stucco system. The Mountain View country Club has used the La Habra wall system, which utilizes an EPS foam, lath and thin coat throughout all of its construction. Our existing details call out for a 7/8" scratch, brown, texture and color coat. Mr. Clapper would like to keep continuity between the existing house and the new casita. Please see the attached ICC report on the La Habra wall system. I have attached both the ICC report and HOA approval of the modification to this letter. Your approval of the modification is greatly appreciated. Please contact me with any questions. Thank you, John Greenwood SEP 03 2009 Designer . By 3� 38 44530 SAN PABLO AVE SUITE 200 PALM DESERT CA 92260 T . 760 779 5393 F • 760 779 5395 Page 1 of 1 John From: "Bob Clapper'<bob.clapper@rcconstruction.com> To: "'John G"'<johng@prestvuksicarchitects.com> cc:<johnv@prestvuksicarchitects.com> Sent: Wednesday, September 02, 2009 5:05 PM Subject: FW: Casita addition Hey John's here is an other copy of the a -mail from Bill Clifford from the Monarch Group Bob Clapper . . President, R C Construction Services Inc. , 2223 N. Locust Avenue Rialto, CA. 92377 Phone 909-829-3688 Ext. 226 " A C AGC "CALIFORNIA = - . From: Bill Clifford[mailto:bclifford@monarchgrp.com] ` Sent: Wednesday, September 02, 2009 1:30 PM To: Bill Clifford; bob.clapper@rcconstruction.com Subject: RE: Casita addition ; Hi Bob: The architecture committee at Mt View Country'Club has approved the casita addition at your residence and furthermore, it is approving that the stucco be installed with the same system, style, texture and color as the existing residence. Thanks and have a great day. Bill Clifford, CCAM ` Association Manager Monarch Management Group LLC A Division of the Management Trust 760-776-5100 EXT 351 a 760-776-5111 FAX s• , , r t . 9/3/2009 LaFlabra LaHabra Wall' Concentrate Consistent Quality Every Time. O h� LaHabra WaII'Con centrate Consistent Quality, Wall to Wall. LaHabra Wall is a fibered cement stucco base designed for use over a variety of substrates and is available as either a pre -sanded or concentrate base. LaHabra Wall is manufactured applying the industry's most stringent quality standards, providing greater consistency, batch - for -batch, than other single -coat solutions. • All incoming raw materials used are tested and inspected. • Computerized manufacturing assures blending accuracy. • All finished products are continuously evaluated. The Consistent Advantage of LaHabra Wall. With greater consistency improving spreadability, LaHabra Wall speeds up application, reducing scaffolding time and associated costs. It also offers other advantages that add value for both builder and buyer. • Faster application, whether gun or hand applied. • Reduced cracking (fiber reinforced). • Increased R values (foam board assembly). • One hour fire -rated assembly. • Installation by listed applicators. A Versatile Performer. LaFabra Wall works ,with a wide range of substrates anc finishes. Approved substrates include: Exterior grade gypsum sheathing, plywood, OSB, EPS, asphalt imprecnated fiberboard, concrete, and masonry. LaHabra Extericr Stucco Color Coat and LaHabra Acrylic Finishes are recommended. tie R Consistent Service. Consistent Satisfaction. Every application of the LaHabra Wall one-step solution comes with three steps of service — before, during and after the sale. • Builder Service Representatives provide the added information and support to guide the builder to the right solution. • LaHabra offers educational seminars and complete information on the correct installation of products. • Consistent quality is even better when it's backed by consistent service. Which is exactly what you get with LaHabra Wall. LaHabra Wail® Concentrate ..l Archi.tectutal Specj:fication Guide ' ". Description: A fiber -reinforced stucco base concentrate. Also available factory -sanded. See separate literature. A. Factory blended mixture of portland cement, synthetic fibers, and proprietary ingredients. B. Specified sand is added at the job site (LaHabra Wall' concentrate only). C. Can be installed 3/8-1/2"(10-12.7mm) thick in one application. 1 Uses: As a stucco base, apply LaHabra Wall® over: A. Masonry surfaces, metal lath or stucco netting. B. Lath or stucco netting is applied over: • Building paper with continuous sheathing. • EPS applied over building paper. Composition: A. Binder: Portland cement, fibers and proprietary ingredients for workability and curing. B. LaHabra Wall° Concentrate: Add specified sand (ASTM C897 or C144) at job site. Packaging: Packed as a concentrate in 801b. (36.3kg.) bags. Storage: Shelf life: six (6) months if properly stored and kept dry. Coverage: One 80 Ib. (36.3kg) bag of LaHabra Wall® concentrate covers approximately 8-10 sq. yd. (6.7-8.4m') at 3/8 inch (10mm) thickness. 'r LaHabra Corporate Office Plants ParexLahabra, Inc. Riverside, CA 4125 E. La Palma Ave., Suite 250 French Camp, CA Anaheim, CA 92807 Albuquerque, NM Telephone: 714-778-2266 Colorado Springs, CO Toll Free: 877-LHSTUCCO San Antonio, TX Fax 714-774-2079 Redan, GA Flame Spread _ _ . vertical Flame Spread Wilkes Barre, PA Email:info@lahabrastucco.com lahabrastucco.com Job Procedure A. Surface Preparation: 1. On masonry surfaces,appply only to those surfaces that are sound, clean, dry, unpainted, and free of any residue which may affect the ability of LaHabra wall' to bond to the surface. -Thoroughly dampen surface at time of application. See cautions and limitations.. 2. Over either wood or steel framing, stud selection, bracing, water -resistive barrier and sheathing must conform to the applicable codes. 3. When lath is used, apply according to ASTM C 1063. Cover wood -based sheathings with a minimum of two layers of Grade D building paper. Other approved sheathing substrates require a minimum of one layer of Grade D building paper. 4. When using T&G Insulation Board, the tongue & groove board is installed horizontally with the tongue up. Vertical joints shall be staggered and shall overlap a framing member. 5. Corner aid, control joints etc. must be attached mechanically through the substrate into a framing member. ' 6. Do not apply to substrates which are frozen or contain frost or ice. 7. Apply to surfaces prepared for portland cement plaster. B. Mixing: 1. Use cool, clean potable water; let hose run to clear it of hot water. 2. Sand for LaHabra Wall* Concentrate: Start with approximately 3 gallons (11.4 liters) of clean potable water. Add approximately 60 Ib of the ASTM C 897 sand. Add one bag of LaHabra Wall'. Add remaining sand along with additional water -approximately 1-3 gallons for workability. Total amount of sand equals 200-2401b. (90-110%. Allow the material to slake then break set. If needed, add water for workability. 3. No unapproved additives of any kind, such as portland cement, lime, rapid binders, antifreeze, accelerators, etc. should be added under any circumstances. 4. A great variety of colors and textures may be obtained by applying LaHabra finishes. C. Application: For complete application procedures refer to ICC -ES ER4226, NES NER 547. NOTE: All materials are to be installed by a listed applicator and in compliance with the current manufacturer's specifications andlor Evaluation Report and local building code requirements. 1. LaHabra Wall' may be sprayed or hand -applied to a minimum thickness of 3/8 inch 00mm) on wood or steel studs or a maximum thickness of 1/2 inch (12.7 mm). 2. LaHabra Wall, should be kept moist by water curing for 48 hours after application. During high temperature or dry weather, frequent water application is required. a. Start light water fogging after initial set of 1-2 hours. b. Allow LaHabra Wall° to cure thoroughly before applying acrylic primers or finishes. C. Texture may be applied, as soon as base has set sufficiently to receive it. NOTE: When a portland cement finish coat is to be Bplied the surface must be opened (not smooth) by ating or brushing. Testing LaHabra Wall* fibered cement plaster has been tested in accordance with the following test methods: Test Method Accelerated Weathering G23 _ CdY is Agin __ _ASTM ASTM 81 183 Compressive Strength _ ASTM C472 3 Compressive Strength ASTM C 109 Flexural Strenqth_ , Transverse Load _ASTM C348 ANSVASTM E330 Flame Spread _ _ . vertical Flame Spread ASTM E84 _ ASTM E 108 MOD vertical Furance _ - Water Penetration _ ASTM E136 ASTM C413 1 -Hour Fire Endurance ASTM E119 _. Multi -Story Fire Evaluation UBC 17-6 NES Fire Ratinq _ __ Fire Resistive Assembly - NER-547 ICG -ES ER4226 Material Standards Portland cement ASTM C150; Federal SS -C-1960/3 Type 1 Cautions and Limitations 1. LaHabra Wall* shall not be applied when temperatures fall below 40°F WQ within 48 hours of application. 2. LaHabra Wall° should not be applied if ambient temperature exceeds 120°F (49°C) within 24 hours of application. 3. A suitable bonding agent should be used if a portland cement finish is not applied -within 7 days. 4. For very dense or smooth concrete, contact LaHabra Technical Services for additional information. 5. See package for handling precautions. 6. Always wear proper safety equipment, including particle mask, when mixing or applying this product. Information contained in this brochure conforms to general recommendations for the installation of LaHabra Wall®, and is provided in good faith. ParexLahabra, Inc. assumes no liability, expressed or implied, as to the workmanship, engineering or architecture of any project. Warehouses Anaheim, CA North Hollywood, CA 0T9 '-, t <<._M� W15 -t -F �4 01 LaHabra and LaHabra Wall are registered trademarks of ParexLahabra, Inc. ® 2007, ParexLahabra, Inc. LWC 10/07 IMES Evaluation Report ESR -2564. Issued October 1, 2008 This report is subject to re-examination in two years. www.icc-es.org 1 (800) 423-6587 1 (562) 699-0543 A Subsidiary of the International Code Council® DIVISION: 09 --FINISHES Section: 09220—Portland Cement Plaster REPORT HOLDER: PAREXLAHABRA, INC. 4125 EAST LA PALMA AVENUE, SUITE 250 ANAHEIM, CALIFORNIA 92807 800-537-2739 www.parexlahabra.com EVALUATION SUBJECT: PAREXLAHABRA ONE COAT STUCCO SYSTEMS: LA HABRA-WALL, SUREWALL® FRP, TEIFS, AND PAREX ARMOURWALL 100 1.0 EVALUATION SCOPE Compliance with the following codes: ■ 2006 International Building Code® (IBC) ■ 2006 International Residential Code® (IRC) ■ 1997 Uniform Building CodeTm (UBC) Properties evaluated: ■ Structural ■ Durability ■ Fire -resistance -rated construction ■ Noncombustible construction 2.0 USES The ParexLahabra One Coat Stucco Systems are cementitious exterior wall coverings installed on exterior walls of wood or steel stud construction, and over walls of concrete, concrete masonry or insulated concrete foam (ICF) construction. The systems are alternatives to the exterior wall coverings specified in IBC Chapter 25, -IRC Section R703 and UBC Chapter 25. The systems may be used to construct one-hour fire -resistance -rated and noncombustible wall assemblies when installed in accordance with Sections 4.4 and 4.5, respectively, of this report. 3.0 DESCRIPTION 3.1 General: The ParexLahabra One Coat Stucco Systems are proprietary mixtures of portland cement, sand (if applicable), fibers, water and proprietary additives reinforced with wire fabric or metal lath, and are applied to substrates of expanded polystyrene (EPS), extruded polystyrene (XPS) and polyisocyanurate foam plastic insulation boards, concrete or concrete masonry (with or without lath), wood structural panels, fiberboard and gypsum sheathing. 3.2 Materials: 3.2.1 One Coat Stucco—Concentrated: The stucco mixes for the ParexLahabra One Coat Stucco Concentrated Systems (LaHabra-Wall, SUREWALL, Teifs, and Parex Armourwall 100) are identified as La Habra -Wall One Coat Stucco Concentrate; SUREWALL FRP Concentrate; Teifs One Coat Concentrate; and Parex 210 ArmourWall Stucco Base Concentrate, respectively. The mixes are factory -prepared mixtures of Type I or Type II portland cement complying with ASTM C 150, chopped fibers, and proprietary additives. The stucco mixtures are packaged in 80 -pound (36 kg) bags. Four and one-half to 6 gallons (17 to 22.7 L) of water and 200 to 240 pounds (90.7 to 108.9 kg) of sand complying with Section, 3.2.2 of this report are added to each 80 -pound (36.3 kg) bag in the field,, and mixed in accordance with the manufacturer's recommendations. 3.2.2 One Coat Stucco—Sanded: The stucco mixes for the ParexLahabra One Coat Stucco Sanded Systems are identified as La Habra -Wall; Surewall FRP One Coat; Teifs One Coat Sanded; and Parex 202 Armourwall StuccoBase Pre -sanded, respectively. The mixes are provided in premixed 80 -pound (36.3 kg) bags, which are mixed in the field with 1.3 to 1.5 gallons (4.92 to 5.67) of water per bag. 3.2.3 Sand: Sand must be clean and free from deleterious amounts of loam, clay, silt, soluble salts and organic matter. Sampling and testing must comply with ASTM C 144 or ASTM C 897. Sand must be natural sand graded in accordance with ASTM C 144 or C 897 within the following limits: RETAINED ON U.S. STANDARD SIEVE PERCENT RETAINED BY WEIGHT + 2 PERCENT Min. Max. No. 4 (4.75 mm) 0 0 No. 8 (2.36 mm) 0 10 No. 16 (1.18 mm) 10 40. No. 30 (600 mm) 30 65 No. 50 (300 mm) 70 90 No. 100 (150 mm) 95 100 No. 200 (75 mm) 97 100 *Revised April 2009 ICC -ES Evaluation Reports are not to be construed as representing aesthetics or an), other attributes not specifically addressed, nor are they to be construed as an endorsement of the subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Sen•ice. Inc., express or implied, as v to any finding or other mailer in this report, or as to any product covered by the report.�s �.. Copyright m 2009 Page 1 of 10 ESR -2564 I Most Widely Accepted and Trusted Page 2 of 10 3.2.4 Insulation Board: 3.2.4.1 Expanded Polystyrene: EPS board must have a nominal density of 1.5 pounds per cubic foot (24 kg/m3); a Class A flame -spread index of 25 or less and a smoke - developed index of 450 or less; and must comply with ASTM C 578 as Type II board. Boards installed without sheathing over open framing must be 1 inch to 1'/2 inches (2.5 to 3.8 mm) thick and must be provided with 3/8 -inch= high (9.5 mm) tongues with compatible grooves for horizontal joints. See Figure 1 for joint details. All. boards must be recognized in a current ICC -ES evaluation report. See Section 7.2 for board identification. Over solid substrates, a square -edge foam plastic board with a minimum 1/2 -inch (25.4 mm) thickness and a minimum nominal density of 1 pcf (16 kg/m3) is permitted except when installation is as part of the water -resistive barrier over wood -based sheathing as described in Section 3.2.10.1, which requires 1 -inch -thick (25.4 mm) EPS boards with tongue -and -groove edges. When installation is over solid sheathing, as described in Section 4.3, the boards must have minimum'/4-inch-wide- 'by-'/8-inch-deep. (6.4 mm by 3.2 mm) vertical grooves spaced a maximum of 12 inches (305 mm) on the back face of the board. As an alternate to the vertical grooves on the foam plastic board, installation of flat -faced board over a solid sheathing may incorporate the Tyvek StuccoWrap water -resistive barrier recognized in ESR - 2375, or a three-dimensional drainage mat recognized in ESR -1935 3.2.4.2 Extruded Polystyrene: The board must have a minimum density of 1.5 pcf (24 kg/m3) and must comply with ASTM C 578 as a Type IV or V board. See Section 3.2.3.1. for other details and requirements. 3.2.4.3 Polyisocyanurate Foam Board: Polyisocyanurate foam plastic board must comply with ASTM C 1289 as Type II board. Polyisocyanurate foam plastic board must have a nominal density of 2 pcf (32 kg/m3) and a maximum flame -spread index of 25 or less and a smoke -developed index of 450 or less. The foam plastic board must be 1 inch to 11/2 inches (25 to 38 mm) thick, have all squared joints installed at horizontal and vertical edges supported by framing or blocking, and be limited to nonfire-resistive-rated and combustible construction. All boards must be recognized in a current ICC -ES evaluation report. See Section 7.2 for board identification. Over solid substrates, a square -edge foam plastic board is permitted, with the same requirements set forth in Section 3.2.4.1. 3.2.4.4 Use over Solid Sheathing: When foam plastic insulation boards are used over solid sheathing with a code -complying water -resistive bamer, the following foam plastic.boards may be used: a. Parex Water Master Expanded Polystyrene as recognized in ESR -2562. b. One -inch TeifsChannelBoard as recognized in ESR - 1935. c. TeifsDrainBoard as recognized in ESR -1935. d. One -inch -thick EPS foam, complying with ASTM C 578, Type I, insulation board with 1/4-inch-by'/4-inch (6 mm by 6 mm) vertical grooves spaced at 3 inches (76 mm) on center. e. One -inch -thick, flat -faced, foam plastic insulation board with either Tyvek Stucco Wrap, recognized in ESR - 2375, as the water -resistive barrier or having a three- dimensional drainage' mat, recognized in ESR -1935, placed between the foam and the water -resistive barrier. Foam plastic board having minimum'/2-inch-wide-by-'/4- inch-deep (12.7 mm by 6.4 mm) vertical grooves spaced a maximum of 12 inches (305 mm) on the back face of the boards, as recognized in ESR -1788. 3.2.5 Lath: 3.2.5.1 Wire Fabric Lath: Wire fabric lath must comply with the ICC -ES Acceptance Criteria for Metal Plaster Bases (Lath) (AC191). Minimum No. 20 gage [0.035 inch (0.89 mm)], 1 -inch -opening (25.4 mm), galvanized steel, woven -wire fabric must be used. Lath must be furred when applied over all substrates. Furring must comply with the following requirements: • When maximum total coating thickness is'/2 inch (12.7 mm) or less, the body of the lath must be furred a minimum of 1/8 inch (3.2 mm) from the substrate after installation. ■ When the total coating thickness is greater than '/2 inch (12.7 mm), minimum No. 17 gage [0.058 inch. (1.47 mm)] by 11/2 -inch (38 mm), woven -wire fabric lath must be used. The body of the lath must be furred a minimum of /4 inch (6.4 mm) from the substrate after installation. 3.2.5.2 Metal Lath: Metal lath must comply with AC191 and, when applicable, UBC Table 25-B. Furring requirements are as set forth in Section 3.2.4.1 3.2.6 Gypsum Board: Water-resistant treated core gypsum sheathing must comply with ASTM C 79 or ASTM C 1396. Gypsum wallboard must comply with ASTM C 36 or ASTM C 1396. 3.2.7 Fiberboard: Minimum 1/2 -inch -thick asphalt - impregnated fiberboard must comply as ASTM C 208, Type IV, wall sheathing. 3.2.8 Wood Structural Panels: The panels must be minimum 5/18 -inch -thick (7.9 mm) plywood or OSB for studs spaced 16 inches (406 mm) on center, and must be minimum 3/8 -inch -thick (9.5 mm) plywood or'/16-inch-thick (11.1 mm) OSB for studs spaced 24 inches (610 mm) on center. Plywood must be exterior -grade or Exposure 1 plywood complying with U.S. Department of Commerce Product Standard PS -1 or UBC Standard 23-2, as applicable; and OSB must be Exposure 1 complying with U.S. Department of Commerce Product Standard PS -2 or UBC Standard 23-3, as applicable. 3.2.9 Caulking: Caulking materials must be either acrylic latex complying with ASTM C 834, or polyurethane, polyurethane modified, polysulfide, or silyl-terminated polyether elastomeric sealants complying with ASTM 'C 920. 3.2.10 Weather Protection: 3.2.10.1 Water -resistive Barrier: A water -resistive barrier is required and must comply with IBC Section 1404.2, IRC Section R703.2 or UBC Section 1402.1, as applicable. Minimum No. 15, asphalt nonperforated felt complying as Type I in accordance with ASTM D 226 (IBC or IRC); minimum Grade D kraft building paper complying with UBC Standard 14-1; asphalt -saturated rag felt complying with UL Standard 55A (UBC); or material recognized in a current ICC -ES evaluation report as complying with the ICC -ES Acceptance Criteria for Water -resistive Barriers (AC38); or a water -resistive coating described in ESR - 2045, is required, as applicable. When applied over any wood -based sheathing, the barrier must be either: (a) a minimum of two layers of Grade D kraft building paper as set forth in IBC Section 2510.6, IRC Section R703.6.3 or UBC Section 2506.4; or (b) one layer of EPS or XPS insulation board having horizontal tongue -and -groove edges as described in ESR -2564 ( Most Widely Accepted and Trusted Page 3 of 10 Section 3.2.4.1, over one layer of Grade D kraft building paper having a minimum water -resistance rating of 60 minutes, or an equivalent water -resistive barrier recognized in a current ICC -ES evaluation report. When Parex Water Master House Wrap 366, a Grade D asphalt -saturated kraft building paper with a 60 -minute water -resistance rating, is used, installation must be as described in ESR -1027. When TeifsWEATHERSEAL or ParexWeatherseal is used as the water -resistive barrier, installation must be in accordance with ESR -2045. When Tyvek StuccoWrap, recognized in ESR -2375, is used as the water -resistive barrier, vertically grooved insulation boards, as described in Section 3:2.4.4, are not required. The Tyvek StuccoWrap must be installed as described in ESR -2375. 3.2.10.2 Vapor Retarder: Protection against condensation must be provided in accordance with IBC Section 1403.2. Under the IRC, a vapor retarder must be provided in accordance with Section R318.1, unless its omission is permitted under the exceptions in IRC Section R318.1. 3.2.10.3 Flashing: Flashing complying with IBC Section 1405.3, IRC Section R703.8 or UBC Section 1404.2, as applicable, must be provided. Where membrane flashing is used, flashing must be a self -adhering, flexible rubberized asphalt and polyethylene material, a minimum of 0.020 inch (0.51 mm) thick, shingle -lapped with the water - resistive barrier. 3.2.11 Trim and Accessories: All trim, weep screeds and corner reinforcement must be corrosion -resistant. 4.0 INSTALLATION 4.1 General: The exterior cementitious coating is applied by hand - troweling or machine -spraying, in one coat or two coats, to a minimum 3/a -inch (9.5 mm) thickness, unless noted otherwise. Nominal thickness around penetrations is 3/8 inch (9.5 mm), backed by framing or blocking. The lath must be embedded in the minimum coating thickness and therefore cannot be exposed. The finish coat must be applied in accordance with the manufacturer's instructions. Flashing, corner reinforcement, metal trim and weep screeds must be installed as shown in Figure 2. The coating must be applied at ambient air temperatures between 40°F and 120°F (4.4°C and 49°C) by applicators listed by ParexLahabra Inc. The water -resistive barrier must be applied as set forth in Section 3.2.10.1. An installation card, similar to that illustrated in Figure 3, must be at the jobsite with the name of the applicator and the product to be used, before any water -resistive barrier or exterior sheathing is installed. Also see Section 5.6 of this report. 4.2 Application over Open Framing: Foam Plastic Insulation Board: The water -resistive barrier, as set forth in Section 3.2.10.1, is placed over open studs spaced a maximum of 24 inches (610 mm) on center. The EPS, XPS, or polyisocyanurate foam plastic insulation board, as described, respectively, in Sections 3.2.4.1, 3.2.4.2, and 3.2.4.3, must be attached using galvanized staples, roofing nails, or screws. Vertical butt joints must be staggered at least one stud space from adjacent courses, and must occur directly over studs. The lath must then be applied tightly over the insulation board and fastened through the board and water -resistive barrier to wood studs using No. 11 gage galvanized roofing nails or No. 16 gage corrosion -resistant staples spaced a maximum of 6 inches (152 mm) on center, with a minimum 1 -inch (25.4 mm) penetration into the studs. Staples must have a minimum crown width of 7/ inch (11.1 mm). The wood species must have a minimum specific gravity of 0.42. Care must be taken to avoid over -driving fasteners. The ParexLahabra One Coat Stucco System may also be applied over minimum No. 20 gage [minimum 0.0359 - inch (0.91 mm)] steel studs spaced a maximum of 24 inches (610 mm) on center. The lath must be fastened through. the insulation board and water -resistive barrier to the metal studs using minimum No. 8, Type S, drywall screws with 1 -inch -diameter (25.4 mm) washers, or No. 8 screws having 3/e -inch -diameter (9.5 mm) pan heads, at 6 inches (152 mm) on center to all studs and track. Screws must penetrate the stud a minimum of inch (12.7 mm). Lath must be applied with 1'/2 -inch (38 mm) end and side laps. Wall bracing in accordance with IBC Section 2308.9.3 or 2308.12, IRC Sections R602.10 and R602.11, or UBC Section 2320.11.3 or 2320.11.4, or an acceptable alternate, is required. Square wall corners and parapet corners must be covered with metal comer reinforcement. For round wall,. bull nose and parapet corners, metal reinforcement is optional when construction is in accordance with Figure 2. Weep screed must comply with, and be installed at the bottom of the wall in accordance with, IBC Section 2512.1.2, IRC Section R703.6.2 or UBC Section 2506.5, as applicable. Galvanized steel, J-shaped trim pieces are installed at other areas where foam is exposed. At windows and doors, flashing as described in Section 3.2.10.3 of this report is required. Butting J -trim and approved metal edges, when installed, must be flashed in accordance with the code. Holes for hose bibbs, electrical panels, and other penetrations of substrate surfaces, except those caused by fasteners, must also be flashed in accordance with the code. The coating must then be applied as described in Section 4.1. 4.3 Application over Solid Backing: 4.3.1 General: When the optional insulation board is installed over solid sheathing, the drainage system must be provided by using one of the following systems: a. One layer of water -resistive barrier as described in Section 3.2.10.1, over sheathing and Parex Water Master Grooved (vertically grooved) EPS Board, with installation -as described in ESR -2562. b. One layer of water -resistive barrier as described in Section 3.2.10.1, over sheathing and TeifsChannelboard (vertically grooved foam board), with minimum thickness of 11/4 inches (31.7 mm) and maximum thickness of 4 inches, (102 mm), and installation as described in ESR -1935. c. One layer of water -resistive barrier as described in Section 3.2.10.1 over sheathing and TeifsDrainboard (vertically grooved foam board), with minimum thickness of 11/2 inches (38 mm) and maximum thickness of 4 inches (102 mm), and installation as described in ESR - 1935. d. One layer of water -resistive barrier as described in Section 3.2.10.1, over sheathing, Weepmaster mesh (recognized in ER -3559), and 1 -inch -thick (25.4 mm) EPS polystyrene foam Type I complying with ASTM C 578, with 1/4 -inch -by -1/4 -inch (6 mm by 6 mm) vertical grooves spaced at 3 inches (76 mm) on center, and with installation as described in the EI Rey Stucco Company, Inc., published installation manual. e. One layer of water -resistive 'barrier, as described in Section 3.2.10.1 over sheathing; drainage mat as ESR -2564 ( Most Widely Accepted and Trusted Page 4 of 10 described in ESR -1935; and EPS flat -faced foam plastic insulation board, with installation as described in ESR - 1935. f. Tyvek StuccoWrap with installation as described in ESR -2375, and 11/2 -inch -thick (38 mm) Teifs drainboard, with installation as described in ESR -1935. g. One layer of DuPont Tyvek StuccoWrap, with, installation as described in ESR -2375, and 1 -inch -thick (25.4 mm), flat -faced foam plastic insulation board with a nominal density of 1 pcf (17.7 kg/m3). 4.3.2 Fiberboard: Minimum 1/2 -inch -thick (12.7 mm) fiberboard, as described in Section 3.2.7, is installed directly over wood or steel studs spaced a maximum of 24 inches (610 mm) on center. The fiberboard is temporarily held in place using corrosion -resistant staples, roofing nails (for wood studs) or self -tapping screws (for steel studs). A water -resistive barrier must be applied over the fiberboard, as set forth in Section 3.2.10.1 of this report, prior to installation of lath or optional foam board. The lath must be attached to the studs through the sheathing, with fasteners and spacing as described in Section 4.2 of this report or as described for fiberboard in either Table 2304.9.1 of the IBC, Table R602.3(1) of the IRC, or Table 23 -II -13-1 of the UBC, whichever is more restrictive. All walls must be braced in accordance with the applicable code. Exposed sheathing edges must be protected with trim. Openings in the substrate surface must be flashed in accordance with the code, and the coating must be applied in accordance with Section 4.1. The fiberboard, optional foam plastic insulation board, lath and coating may be applied to minimum No. 20 gage [0.0359 inch (0.91 mm)] steel studs spaced a maximum of 24 inches (610 mm) on center, provided the fasteners and their placement are as set forth in Section 4.2 for steel studs. 4.3.3 Gypsum Sheathing: Minimum 1/2 -inch -thick (12.7 mm), water-resistant treated core gypsum sheathing, described in Section 3.2.6 of this report, must be installed directly over wood studs spaced a maximum of 24 inches (610 mm).on center. Gypsum sheathing must be fastened in accordance . with ASTM C 1280 (IBC), IRC Table R702.3.5 or UBC Table ,25-G, as applicable. Water- resistant treated core gypsum sheathing.or water-resistant exterior fiber -reinforced gypsum sheathing, as described in Section 3.2.6 of this report, must be fastened in accordance with the applicable evaluation report. A water - resistive barrier must be applied over the gypsum sheathing in accordance with Section 3.2.10.1 before application of lath or optional insulation board. The lath must be attached to the studs through the sheathing with fasteners and spacing as described for insulation board in Section 4.2. All walls must be braced in accordance with the applicable code. Openings in the substrate surface must be flashed in accordance with the code, and the coating must be applied as described in Sections 4.1 and 4.2. 4.3.4 Wood -based Sheathing: Wood -based sheathing must be applied directly to wood or steel studs under conditions set forth in Section 3.2.8 and either IBC Table 2308.9.3(3), IRC Table R602.3(3) or UBC Tables 23 -IV -D- 1 and 23 -II -B-1, as applicable. The water -resistive barrier, optional foam plastic insulation board, wire fabric lath, and coating must be applied as described in Section 4.3.2 for fiberboard. Installation to minimum No. 20 gage [0.0396 inch (0.91 mm)] steel studs spaced a maximum of 24 inches (610 mm) on center is as described in Section 4.3.2 for fiberboard. Application of the stucco system is as set forth in Section,4.3.2 of this report. 4.3.5 Concrete and Masonry: 4.3.5.1 Direct Application without Lath: Surface preparation of cast -in-place or precast concrete and masonry shall be straight and true within 1/4 inch (6.4 mm) in 10 feet (3048 mm) and shall be in accordance with Section 2510.7 of the IBC, or Section 2508.8 of the UBC. Surfaces shall be clean and free from any deleterious materials. Surfaces shall be adequately rough to have good absorption for proper bonding. Cast -in-place or precast concrete that has smooth or nonabsorbent solid surfaces shall be prepared to receive stucco by sandblasting, wire brushing, acid etching, or chipping. The coating shall be applied directly to the prepared surface at a minimum thickness of 3/8 inch (9.5 mm) in accordance with Section 4.1 of this report. 4.3.5.2 Application with Lath: Lath and furring used to receive stucco shall be installed and conform with ASTM C 1063. Fasteners used to install the lath shall be recognized in an ICC -ES evaluation report. The lath shall be fastened in vertical rows, a maximum of 24 inches (609.6 mm) on center. Fastener spacing in each row shall be a maximum of 6 inches (152.4 mm). The coating shall be applied in accordance with Section 4.1 of this report. 4.4 One-hour Fire -resistive Wall Assemblies The assemblies described in this section are rated for exposure to fire from both sides, unless otherwise noted. 4.4.1 First Assembly: 4.4.1.1 Interior Face: One layer of 5/e -inch -thick (15.9 mm), Type X gypsum wallboard, water-resistant backer board, or veneer base is applied vertically or horizontally to the interior face of minimum nominally 2 -by -4 wood studs spaced a maximum of 24 inches (610 mm) on center. The wall board must be attached using 17/8 -inch -long (48 mm), 1/4 -inch -diameter -head (6.4 mm), 6d coated nails at 7 inches (178 mm) on center, with attachment to studs, plates and blocking. All wallboard joints must be backed with minimum nominally 2 -by -4 wood framing, and taped and treated with joint compound. Fastener heads must also be treated with joint compound in accordance with ASTM C 840 or GA -216. 4.4.1.2 Exterior Face: One layer of minimum 5/8 -inch - thick (15.9 mm), Type X, water-resistant core gypsum sheathing, 48 inches (1219 mm) wide, must be applied parallel to studs using 13/4 -inch -long (44.5 mm), No. 11 gage [0.148 -inch (3.8 mm) shaft diameter] galvanized roofing nails having 7/is-inch- or'/2-inch-diameter (11.1 mm or 12.7 mm) heads, spaced at 4 inches (102 mm) on center at board edges and 7 inches (178 mm) on center at intermediate studs and top and bottom plates. Nails must penetrate framing a minimum of 1 inch (25.4 mm). A water - resistive barrier must be applied over the sheathing in accordance with Section 3.2.10.1. The lath and wall coating must then be applied without insulation board as described in Section 4.1. 4.4.1.3 Axial Load Design: The wood stud axial design stress for the wall assembly calculated in accordance with Sections 3.6 and 3.7 of ANSI AF&PA NDS -05 (IBC and IRC) or ANSI/NFoPA NDS -91 (UBC) is limited to 0.78 Fc, and the maximum stress must not exceed 0.78 F, at a maximum 1ald ratio of 33. 4.4.2 Second Assembly: 4.4.2.1 Interior Face: One layer of 5/8 -inch -thick (15.9 mm), Type X gypsum wallboard, complying with ASTM C 1396, is applied horizontally to the interior face of minimum nominally 2 -by -4 wood studs spaced a maximum of 16 inches (406 mm) on center. The wallboard is fastened with ESR -2564 I Most Widely Accepted and Trusted Page 5 of 10 15/8 -inch -long (41.3 mm), 5d gypsum wallboard nails having minimum 0.086 -inch (2.18 mm) shank diameters and 15/84 -inch -diameter (23.8 mm) heads, spaced at 6 inches (152 mm) on center to studs, plates and blocking. All wallboard joints must be backed by minimum nominally 2 -by -4 wood framing and taped and treated with joint compound complying with ASTM C 840 or GA -216. Fastener heads must also be treated with joint compound, in accordance with ASTM C 840 or GA -216. 4.4.2.2 Exterior Face: Minimum 35/8 -inch -thick (92 mm), paper -faced, R-13 mineral wool batt insulation, having a 1.94 pcf (31 kg/m density, must be installed in the wall cavity. A water -resistive barrier, described in Section 3.2.10.1, must be applied over the exterior face of framing in accordance with IBC Section 1404.2, IRC Section 703.2 or UBC Section 1402.1, followed by 1 -inch -thick (25.4 mm), 1.5 pcf density (24 kg/m3) EPS board installed in accordance with Section 4.2 of this report. The lath must then be installed horizontally and attached in accordance with Section 4.2, except that 21/2 -inch -long (63.5 mm), No. 11 gage nails having 3/8 -inch -diameter (9.5 mm) heads must be used. The lath requires 2 -inch (51 mm) overlaps. The ParexLahabra One Coat Stucco System must then be applied to a minimum 3/8 -inch (9.5 mm) thickness, in accordance with Section 4.1. 4.4.2.3 Axial Design: The axial loads applied to the wall assembly are limited to the least of the following: ■ 1,100 pounds (4893 N) per stud. ■ A maximum of 46 percent of the load calculated in accordance with Section 3.6 and 3.7 of the ANSI/AF&PA NDS -05 (IBC and IRC) or ANSI/NFoPA NDS -91 (UBC). ■ Design stress based on 0.78 F'c calculated in accordance with Sections 3.6 and 3.7 of the ANSI/AF&PA NDS -05 (IBC and IRC) or ANSI/NFoPA NDS -91 (UBC). • Design stress of 0.78 F'c at a maximum leld ratio of 33 calculated in accordance with Sections 3.6 and 3.7 of the ANSI/AF&PA NDS -05 . (IBC and IRC) or ANSI/NFoPA NDS -91 (UBC). 4.4.3 Third Assembly: 4.4.3.1 Interior Face: One layer of 5/8 -inch -thick (15.9 mm), Type X gypsum wallboard complying with ASTM C 36 or ASTM C 1396 must be attached horizontally to the interior face of minimum nominally 2 -by -4 wood studs spaced a maximum of 24 inches (610 mm) on center. The wallboard must be attached to studs and perimeter framing using 15/8 -inch -long (41.3 mm), galvanized steel cupped - head nails spaced a maximum of 8 inches (203 mm) on center. All wallboard joints must be backed by minimum nominally 2 -by -4 wood framing and covered with paper tape and treated with joint compound complying with ASTM C 840 or GA -216. Fastener heads must also be treated with joint compound complying with ASTM C 840 or GA 216. 4.4.3.2 Exterior Face: Any of the following substrates may be used independently or in combination with one another: ■ One layer of minimum 1/2 -inch -thick (12.7 mm), water- resistant core gypsum sheathing. • One layer of minimum 7/16 -inch -thick (11.1 mm) OSB. ■ One layer of minimum 15/32 -inch -thick (11.9 mm) plywood. The substrates must be as described in Sections 3.2.6 through 3.2.8, and must be installed on wood framing as described in Section 4.2.1. The water -resistive barrier must be installed over the sheathing in accordance with Section 3.2.10.1. The lath and wall coating must be applied as described in Section 4.1. Foam plastic insulation is not permitted in this assembly. 4.4.3.3 Axial Load Design: The allowable axial loading for this system is limited to the least of the following: ■ 1,100 pounds (499 kg) per stud. • A maximum of 46 percent of the load calculated in accordance with Sections 3.6 and 3.7 of the ANSI/AF&PA NDS -05 (IBC and IRC) or ANSI/NFoPA NDS -91 (UBC). ■ Design stress of 0.78 F'c at a maximum le/d ratio of 33 calculated in accordance with Sections 3.6 and 3.7 of the ANSI/AF&PA NDS -05 (IBC and IRC) or ANSI/NFoPA NDS -91 (UBC). 4.5 Noncombustible Construction: The ParexLahabra One Coat Stucco System may be installed on exterior walls of Type I, II, or IV construction under the IBC or as required to be noncombustible construction under the UBC, as described in Sections 4.5.1 and 4.5.2. 4.5.1 With Foam Plastic: The stucco system with foam plastic must be installed as noted in Sections 4.5.1.1 though 4.5.1.6. 4.5.1.1 Interior Finish: One layer of 5/8 -inch -thick (15.9 mm), Type X gypsum wall board complying with ASTM C 79 or ASTM C 1396 must be applied vertically to steel framing with all edges blocked. Fasteners must be No. 8 by 11/4 -inch -long (31.7 mm) buglehead screws at 8 inches (203 mm) on center at board joints and 12 inches (305 mm) on center at intermediate locations. All joints must be taped and treated with joint compound complying with ASTM C 840 or GA -216. Intermediate fasteners must also be treated with compound complying with ASTM C 840 or GA -216. 4.5.1.2 Steel Framing: Minimum 35/a -inch -deep (92 mm), minimum No. 20 gage [0.0359 -inch (0.91 mm)) steel studs spaced a maximum of 16 inches (406 mm) on center. 4.5.1.3 Openings: Wall openings must be framed with minimum 0.125 -inch -thick (3.2 mm) tubular aluminum or steel framing. . 4.5.1.4 Exterior Finish: One layer of minimum 1/2 -inch - thick (12.7 mm) water-resistant core gypsum sheathing, complying with ASTM C 79 or ASTM C 1396, must be applied horizontally or vertically and attached to the steel framing using No. 8 by 11/4 -inch -long (31.7 mm), bugle head screws spaced 8 inches (203 mm) on center at all framing locations. 4.5.1.5 Stud Cavity: At floor levels,. THERMAFIBER (ER -2331) insulation must be friction -fitted into each cavity. The insulation has a nominally 4 -pound -per -cubic -foot (64 kg/m3) density, and is 4 inches (102 mm) thick and approximately 6 to 8 inches (152 to 203 mm) wide. The insulation must be long enough to achieve a friction fit within a stud cavity. 4.5.1.6 Stucco System: Where a water -resistive barrier is required, the stucco system includes one layer of water - resistive barrier described in Section 3.2.10.1, having a flame -spread index of 25 or less and a smoke -developed index of 450 or less. The water -resistive barrier must be installed over the sheathing in accordance with IBC Section 1404.2, IRC Section R703.2 or UBC Section 1402.1, as applicable. One -inch -thick (25.4 mm) EPS ESR -2564 ( Most Widely Accepted and Trusted IPage 6 of 10 insulation board with a nominal 1.5 pcf density must be installed horizontally in running bond over the sheathing. The lath, insulation board and water -resistive barrier are positively fastened to the steel framing using No. 8 by 2'/2 - inch -long (63.5 mm), wafer -head, self -drilling screws spaced at a maximum of 8 inches. (203 mm) on center to all framing members. The ParexLahabra One Coat Stucco System must be mixed in accordance with Section 3.2.1. and the manufacturer's recommendations, and must be applied to a minimum 3/8 -inch (9.5 mm) thickness in accordance -with Section 4.1 of this report. 4.5.2 Without Foam Plastic: The ParexLahabra One Coat Stucco System must be applied over gypsum sheathing and steel studs, in accordance with Section 4.3.3, without the foam plastic board. 4.6 Miscellaneous: 4.6.1 Inspection Requirements: Building department inspection is required on lath installation prior to application of the coating, as required by the applicable code. 4.6.2 Control Joints: Control joints must be installed as specified by the architect or designer. 4.6.3 Curing: Moist curing must be provided for a minimum of 24 hours after coating application. The length of time and most effective procedure'for moist curing will depend on climatic and job conditions. 4.6.4 Soffits: The system may be applied to soffits, provided the coating is applied over metal lath complying with Section 3.2.5.2 in lieu of wire fabric lath. Metal lath fastening must comply with ASTM C 926 or ASTM C 1063 (IBC), IRC Section 703.6.1 or UBC Table 25-C, as applicable, except the fastener length must be increased by the thickness of any substrate. In the absence of details, conventional three -coat plastering details must be used. 4.6.5 Sills: The systems may be applied to sills at location such as windows and other similar areas. Sills having depths of 6 inches (152 mm) or less may have the coating and lath applied to any substrate permitted in this report, provided the coating, lath, water -resistive barrier and substrate are installed in accordance with the applicable sections of this report. Sills having depths exceeding 6 inches (152 mm) must have substrates of solid wood or plywood. The substrate is fastened in accordance with IBC Table 2304.9.1, IRC Table 602.3(1) or UBC Table 23 -II -B-1, as applicable, and -a double layer of Grade D water -resistive barrier must be applied over the substrate. The coating, lath and optional. foam plastic insulation board must. be applied in accordance with Section 4.2 of this report. 5.0 CONDITIONS OF USE 5.3 The systems are recognized for use in noncombustible construction, when installation is in accordance with Section 4.5. 5.4 The systems are recognized as one-hour fire -resistive assemblies when installation complies with Section 4.4 of this report. 5.5 The interior of the building must be separated from the foam plastic insulation board with a thermal barrier complying with IBC Section 2603.4 or IRC Section R318.1.2, such as 1/2 -inch (25.4 mm) regular gypsum wallboard applied in accordance with the applicable code. 5.6 An installation card, such as that shown in Figure 3, must be left at the jobsite for the owner, and a copy . must be filed with the building department. 5.7 When installation is in accordance with this report, the allowable' positive and negative wind load. for the system installed over wood or steel studs spaced a maximum of 24 inches on center is 32 psf (1532 Pa). Systems installed over steel studs using No. 17 gage by 11/2 -inch (38 mm) woven -wire fabric lath, or 3.4 - pound -per -square -yard (1.29 kg/m2) metal lath, have a 50 psf (2394 Pa) positive and negative allowable wind load. Support framing must be adequate to resist the required wind load. 5.8 Foam plastic must not be placed on exterior walls of wood construction located within 6 inches (152 mm) of the ground in areas where hazard of termite damage is very heavy in accordance with IBC Section 2603.8 or IRC Section R320.5. 6.0 EVIDENCE SUBMITTED 6.1 Data in accordance with the Acceptance Criteria for Cementitious Exterior Wall Coatings (AC11), dated June 2007 (editorially revised April 2008). 6:2 Reports of fire tests per ASTM E 119. 6.3 Noncombustible tests per ASTM E 136. 6.4 Multi -Story Fire Evaluation per UBC Standard 17-6. 7.0 IDENTIFICATION 7.1 The factory -prepared mixes are delivered to the jobsite in water-resistant bags with labels bearing the following information: 1. The name and address of ParexLahabra, Inc., and the evaluation report number (ESR -2564). 2. Name of the product.. 3. Weight of the packaged mix. 4. Storage instructions. The ParexLahabra One Coat Stucco Systems (LaHabra- Wall, SUREWALL FRP, Teifs, and Parex Amourwall 100) described in this report comply with, or are suitable alternatives to what is specified in, those codes listed in Section 1.0 of this report, subject to the following 7.2 conditions: 5.1 Materials and methods of installation must comply with this report and the manufacturer's instructions. The manufacturers published installation instructions must be available at the jobsite at all times during • , . installation. In the event of a conflict between the installation instructions and this report; this report governs. 5.2 Installation is by a plastering contractor listed by ParexLahabra, Inc. 5. Maximum amount of water and sand that may be added, and conditions that must be considered in determining the actual amounts added. 6'. Curing instructions. Foam plastic insulation boards must be identified in accordance with the applicable ICC -ES evaluation report. Additionally, the board density must be noted. When application is to walls required to be of noncombustible construction, one edge of each board and both faces of one board in each package, must bear the foam plastic evaluation report number, the name of ParexLahabra, Inc., and the evaluation report number (ESR -2564). FIGURE 2-TYPICAL INSTALLATION DETAILS ESR -2664 Most Widely Accepted and Trusted Page 8 of 10 FRAMING.......141 - FRAME (er others). + t — SHEATHING i j'� `�`' WATER RESISTIVE BARRIER " ' SHEATHING (By 00"n) LATH I i- WATER RESISTIVE BARRIER — - - _ ONE COAT STUCCO: CONTROL JOINT y` ""- c CONTROL JOINT i - ' LATH FRAMING ONE COAT STUCCO � ; \ ' ,�. �;�i ,,i ..-SHEATHING �• '` , WATER RESISTIVE BARRIER CASING BEAD ...__. . _ .:.... _ . ._ . _ LATH - �-:•:-.___.__...._._.._. -----•----.--WINDOW HEAD FLASHING —� ONE COAT STUCCO tar °tl114J EXPANSION JOINT,--—--- BACKER ROD & SEALANT Expansion and Control Joints TM Window Head WELDED WIRE SHEATHING REINFORCEMENT ' / I SHEATHING h-"- WATER RESISTIVE BARRIER - CASING BEAD t LATH i WATER RESISTIVE BARRIER i BACKER ROD & 2" x Stud ,, I i ONE COAT STUC M SEALANT LATri (By «hers) 1 ONE COAT STUCCO i JIV. CORNER BEAD Corners Window lamb SHEATHING �F n 2 WATER RESTIVE BARRIER 1i WINDOW SILL FLASHING 1?f 1Z (Byothem) • • 11 Ij r + `� i 1 EPS ADHESIVE, '� 11 FILET SEALANT BEAD { EPS . ONE COAT STUCCO REINFORCED BASE COAT LATH' FINISH —WATER RESISTIVE BARRIER ONE COAT STUCCO, (. .. _ _ --.SHEATHING (gy00— ) `Termination at Deck or Roof Window Silt FIGURE 2—TYPICAL INSTALLATION DETAILS (Continued) . i ESR -2564 I . Most Widely Accepted and Trusted'+ " F' n •a •� Page 9 of 10, is �A, y • . .. � 7 h`.e r\ z I � � .tit Y r �, r ', y � w - 12-1450-3S ON SHEATHING _ x t jjt{ w womw ROUGH aoirmrcr 7 ( p (,�j�p i N. I •� r OPENWfi avo STAPLE ALONG12_14'(30-35 1 Ia N �. . .TOP ONLY OVERLAP FIRST LAYER . v 3. % rR7�SfAP1 E 9 x t w a 4 32(90 pn)- • L WATER RESISTIVE BARRIER • t STEP 1: BUILDING PAPER UNDER SILL Cut water resistive barrier to approximate size shown and STEP 6: IAMBS 1 _ STEP 7: INSTALLING WINDOW stepleat bottom of the rough amino. IMPORTAFTTI Water . I Fold wa6az testaava banner into rough ' After the ships of wafer resistive resistive barrier should only tie stapled along the top edge. 1 openlrt9. Bottom leg must overlap Wbarrier have been Installed at the sill „ _ ,del I`, f. I layer as shown. Do not staple Immedl�dy'' and jambs as shown, the window Wt" � below the 511U jamb comers. r % can be Installed. -.SiIEATHtNG •..r .. i., P�< �"� di �t; •• ., .. SHEATHING - 4. ROAIGN rlRAW 4• L nS aN c '�a 1 ,. WrATKR aARM11 �- WEATHER BANDER . �D4-0KGWWTH I(LDa 'v OVERLAWING r Y OVERLAPPING NtNG ' STEP 2: OPTIONAL CUTTING FLASHING MEMBRANE Cut a piece of Reshing membrane 8"(20 cm) longer than the t rough opening width. make two small.auts 2"(5 cm) long 3 r �` FLASHING \ • y NMLnX FIN.,, through the membrane as shown. NOTE: 2"x 6"(5 x 15 cm) r t framing requires 12" (30 em) wide flashing membrene.OAs 14"iNG made In the membrane should be 61(IS on) long. OR=}66 ' ' WINDOW _ I -� '' N• 1 FOLD TO SIDE ; I a• .. , �µ //f h J,i r ' .. FOLD DOWN SSI} z• .. xv-r ,n CUT 22 IN $ Y r SEC AA 1 . ' Sf�TfON 8-B wWOEC WRN BRICY MDLDIIYG !. Wr14 RAW 9 R STEP 3 -OPTIONAL: FOLDING FLASHING MEMBRANE; STEP -8: INSTALLAT70N OF METAL FLASHING Fold. membrane to conform with rough opening. Peel ,� Length of the flashing Is dependent on the type of window used. Sections A -A protective backer from membrane, fp expose adhesive I, and B -B illustrate two types of windows. Flashing should be' Installed as Illustrated. for any unusual condition pteasse contact Patex Techniral,seMt es. + MEMBWWEADHERED 70 r TME SMEATtDNG h., - + ,•' FLASHING J - r . MEMBRANE 4MDAGE' a ` . e+ g - WBARRIEATER FiLST1VE ;: y - • - • X his w�� "� w . 1 � ;' ^� 'tial` � � � ,,P � 'i" STEP 4 -OPTIONAL• INSTALL FLASHING MEMBRANE A. > = trurell the""self sticking" membrane at the rough opening. Membrane should lap over the previously installed `bandages' r ,;. , a K E", . ' end waterresistiYb baf er ,-, - i ►�� k. ,+ /. A{ �~ - t J �` .inyr s ti r. Y z r Ola uN T ,J v- .� r ..� :, ( z fi.. � i'''�'r'caa•z,.^ ^a ..�k>t ''v -.'. r ^i x� `5; l"�a .�,L r ar r� a � � +' V t , r.;. +— v^ t k,. A -z'. �w • ,xx 5. "*. xr r q r7a M y _fi e' r +: +` £,a,<v" ."x.ur .. - rola '� �r • r t� l a i ..r- . _ ._ .. tr+ ,!' �.' a . _. c... _ , v -. �_?xr..� � 9: 'INSTALLING ROLLS OF WEATHER BARRIER E I ittstall.v#Aw to Mve bartler hodmtalty'tn shingle fashion. Each succeeding course , I. overlaps the previous by 2'_(5 cm) min. Continue m lap courses as shown for �'it,° - _ ), • positive drainage. At vertical splices, lap the water resistive barrier a minimum of 6" r a (15 cm). Vertical splices In the water resistive barrier should not occur within 2'(61 an) of the window jambs. Suoceedtng courses lap over the remainder of the water - .41 "resistive barrier scrips and the metal hashing at the head. , ' K0TE: The previously installed strips at the silt overlaps the horizontally Installed STEPS: CUTTING WEATHER BARRIER FOR ]AMBS -waver resistive barrier below the sill, ` CAM water r e.bsmer to At rouen eperi" lemtr FIGURE 2 TYPICAL INSTALLATION DETAILS (Continued) r r� •. :ry .. ' � k f ,• les �� f". dt 4 c1 l' I ' • 70' IL . a .. U ' a.. - , Ste•, s �� ,. ... � - .. + - , ESR -2564 I Most Widely Accepted and Trusted, Page 10 of 10 INSTALLATION CARD LaHabra Wall or Parex 210 -One Coat System ParexLahabra Inc. Project Address Evaluation Report ESR -2564 Date Completed Plastering Contractor Name: Address: Telephone No. ( 1 Approved contractor number as issued by Parexl-ahabra Inc. This'is to certify that the exterior coating system on the building exterior at the above address has been installed in accordance with the evaluation report and the manufacturers instructions. Signature of authorized representative of plastering contractor Date HEAT PUMP OUTDOOR UNITS LEIVN®JJ� ry 'ELITE@;SERIES !R410'St geaCompressor A,-Jwo- a ENGINEERING DATA Bulletin No. 210463 May 2008 Supersedes June 2007 r IA, %C"ATY OF LA QUINT WILDING & SAFETY DEPT. APPROVED POR CONSTRUCTION • DATES; I'd 0 ABY SEER - up to 17.0 2 to 5 Tons' Cooling Capacity - 23,200 to 58,500 Btuh Heating Capacity - 21,200 to 54,000 Btuh FM .0 —DE L-: N'U�M 6 —E R I —DE - N�T I—F I ZAT I —ON, XP16 -03 -.230-2 Refrigerant Type Minor Revision Number X = R-41 OA Voltage Unit Type 230 = 208/230V-1 ph-60hz P = Heat Pump Nominal Cooling Capacity 024 = 2 tons Series 036 = 3 tons, 048 = 4 tons 060 = 5 tons 09 Cf PCE FEATURES - CONTENTS ARI Indoor. Coil / Air Handler Substitutions ...... Page 8 ARI Ratings ............................ Pages 9-13 j.._ Dimensions ...........:.... Page 6 Electrical Data .............................. Page 5 Features ........................... .. Pages 2-4 .�",,�^ �° ` -' r- '•"'° /`. Field Wiring ......................... Page 7' : Indoor Coil/Air Handler Substitution ..........:. Page 8 Installation Clearances .........................Page 7 Model Number Identification :........ ....... Page 1 �;_ r � �. , p3 jam; $0� Optional Accessories ................ :... Page 5 0+ r Re /� Sound Data ......................... Page 7 ' . t: Specifications ........................ .::...Page 5.1,,) EQUIPMENT WARRANTY ,.. e.q Compressor - limited warranty for ten years in1'• Y 1;00r residential installations and five years in non-residential - installations. All other covered components five years inzqq • _ residential installations and one year in non-residential, . `s, o" installations. Refer to Lennox Equipment Limited Warranty certificate'\` included with unit for specific details. �� 'r' //jam �/�1�a ,,,moi•. APPROVALS Certified in accordance with USE certification program ' which is based on ARI Standard 210/240-2005 Sound rated in Lennox reverberant sound test room in accordance with test conditions included in ARI Standard 270-95. ' Tested in the Lennox Research Laboratory environmental test room. - Rated according to U.S. Department of Energy (DOE) test .. . procedures. Heat pumps and components within bonded for., . grounding to meet safety standards for servicing required by UL and CEC. Units are UL and ULC listed. ISO 9001 Registered Manufacturing Quality System. REFRIGERATION SYSTEM ENERGY STAR® certified units are designed to use less t energy, help save money on utility bills, and help protect the environment. Refrigerant ~. 'Non-chlorine,'ozone friendly, R-41 OA. �. a ► APPLICATIONS Umit is .factory pre -charged. See _L SEER up to 17.0. ". Specification,table. Heating COP up to 3.82. c Tctal system refrigerant charge is dependant on outdoor HSPF (region IV) up to 8.70. unit size, indoor.unit size and refrigerant line length. Refer 2 through 5 ton. to charging procedures in the Installation Instructions to Single phase power supply. F determine correct amount of charge required. Sound levels as low as 74 dB. 0 Outdoor Coil Fan, Vertical air discharge allows concealment behind shrubs at grade level or out of sight on a roof. Direct drive fan moves large air volumes uniformly Designed for applications with remotely located indoor air through entire condenser coil for high refrigerant cooling. ' handlers or add-on indoor coils with FM210 dual fuel capacity. furnace control. See FM210 bulletin, Controls section. Vartical air discharge minimizes operating sounds and Also see Indoor Coils and Air Handlers sections for indoor ' eiminates damage to lawn and shrubs. - unit data.F'an .motor has sleeve bearings and is inherently. Units shipped completely factory assembled, piped, and protected. K;otor totally enclosed for maximum protection from wired. Each unit is test operated at the factory insuring vmather, dust and corrosion proper operation. Installer must set'heat pump, connect refrigerant lines,. Fan guard constructed of corrosion -resistant PVC and make electrical connections to complete job. (polyvinyl chloride) coated steel. Fan " service access accomplished by removal of fan For expanded ratings, see www.lennoxdavenet.com. ward. XP16 - 2 to 5 Ton Heat Pump / Page 2 ;- [ 4FEATURES - REFRIGERATION SYSTEM (CONTINUED) ® Copper Tube/Enhanced Fin Coil Lennox designed and fabricated coil. Ripple -edged aluminum fins. Copper tube construction. Lanced fins provide maximum exposure of fin surface to air stream resulting in excellent heat transfer. Fin collars grip tubing for maximum contact area. Inverted coil circuiting prevents ice buildup at coil base in low ambients. Discharge gas enters bottom of coil during defrost and heat of refrigerant flows counter to water drainage resulting in extremely clean and unobstructed fins and tubes. Fin spacing allows rapid and complete water drainage. Flared shoulder tubing connections/silver soldering construction. Coil is factory tested under high pressure to insure leakproof construction. Entire coil is accessible for cleaning. Expansion Valve - Outdoor Unit Designed and sized specifically for use in heat pump system. Sensing bulb is located on the line between reversing valve and the coil thus sensing suction temperature in any cycle. Factory installed and piped. Discharge Temperature Switch Shuts off unit if operating conditions cause the compressor discharge line temperature to rise above setpoint. Protects compressor from excessive pressure / temperature. Automatic reset when temperature drops below setpoint. © High Pressure Switch Shuts off unit if abnormal operating conditions cause the discharge pressure to rise above setting. Protects compressor from excessive condensing pressure. Manual reset. Low Pressure Switch Shuts off unit if suction pressure falls below setting. Provides loss of charge and freeze-up protection. Automatic reset. O Hi -Capacity Liquid Line Drier Factory installed in the liquid line, the drier traps moisture or dirt that could contaminate the refrigerant system. 100% molecular -sieve bead type drier. O Reversing Valve 4 -way interchange reversing valve effects a rapid change in direction of refrigerant flow resulting in quick changeover from cooling to heating and vice versa. Valve operates on pressure differential between outdoor unit and indoor unit of the system. Factory installed. OPTIONS Expansion Valve Kits Must be ordered extra and field installed on certain indoor units. See ARI Ratings tables. Chatleff style fitting. Freezestat Installs on or near the discharge line of the evaporator or on the suction line. Senses suction line temperature and cycles the compressor off when suction line temperature falls below it's setpoint. Opens at 29°F and closes at 587. Refrigerant Line Kits Refrigerant lines (suction & liquid) are shipped refrigeration clean. Lines are cleaned, dried, pressurized, and sealed at factory. Suction line fully insulated. L15 lines are stubbed at both ends. See Specifications table for selection. Not available for -060 model and must be field fabricated. COMPRESSOR 0 Copeland Scroll Ultra Tech- Two -Stage Compressor Compressor features high efficiency with uniform suction flow, constant discharge flow and high volumetric efficiency and quiet operation. Compressor consists of two involute spiral scrolls matched together to generate a series of crescent shaped gas pockets between them. During compression, one scroll remains stationary while the other scroll orbits around it. Gas is'drawn into the outer pocket, the pocket is sealec As the spiral movement pushed to the center of the scrolls. Volume between the pockets is simultaneously reduced. When pocket reaches the center, gas is now at high pressure and is forced out of a port located in the center Slider Ring( - of the fixed scrolls. During compression, several pockets are compressed simultaneously resulting in ti a smooth continuous compression cycle. Continuous flank contact, maintained by centrifugal force, minimizes gas Fixed scroll' leakage and maximizes efficiencPtemal solenoid Scroll compressor is tolerant to the effects of slugging and contaminants. If this occurs, scrolls separate, allowing liquid or contaminants to to be worked toward the center and discharged. On the fixed scroll there are two bypass ports in the first suction pocket. On the outside of the fixed scroll there is a "slider ring" that is controlled by an internal solenoid that will rotate and cover the bypass ports. When the thermostat calls for first -stage cooling, the bypass ports are open and the compressor operates at 67% capacity, creating more cost-effective and efficient compressor operation. The bypassed refrigerant is returned to the compressor housing through the bypass ports. When the thermostat calls for second -stage cooling, the internal solenoid is energized, the slider ring rotates and covers the bypass ports, and the compressor operates at full capacity. Low gas pulses during compression reduces operational sound levels. Compressor motor is internally protected from excessive current and temperature. Compressor is installed in the unit on specially formulated, resilient rubber mounts for better sound dampening and vibration free operation. XP16 - 2 to 5 Ton Heat Pump / Page 3 "FEATURES COMPRESSOR (CONTINUED) Crankcase Heater Crankcase heater prevents migration of liquid refrigerant into compressor and ensures proper compressor lubrication. CONTROLS O Defrost Control Solid-state control furnished as standard. Gives a demand defrost cycle whenever system heating performance falls below optimum levels. The sensing element on coil determines when defrost cycle is required and when to terminate cycle. Anti -short cycle (5 minutes) incorporated into the board. Diagnostic LED's furnished as an aid in troubleshooting. Conveniently located in control box. OPTIONS ComfortSense- 7000 Touchscreen Thermostat Electronic 7 -day, universal, Y t�swnx� multi -stage, programmable, touchscreen thermostat. r~ - 4 Heat/2 Cool. Auto -changeover. Controls humidity during cooling mode. Offers enhanced capabilities including -•- - humidification / dehumidification / dewpoint measurement and control, Humiditrol® control, and equipment maintenance reminders. Easy-to-use, menu driven thermostat with a back -lit, LCD touchscreen. Remote outdoor temperature sensor (optional) allows the thermostat to display outdoor temperature. Required in dual fuel and Humiditrol& applications. See the ComfortSense- 7000 Engineering Handbook bulletin in the Controls section for more information. Compressor Hard Start Kit Single-phase units are equipped with a PSC compressor motor. This type of motor normally does not need a potential relay and start capacitor. In conditions such as low voltage, kit may be required to increase the compressor starting torque. Hard start kit is required in applications where the supply voltage is less than 230V. Indoor Blower Off Delay Relay Delays the indoor blower -off time during the cooling cycle. See ARI Rating Tables for usage. Indoor Blower Speed Relay Kit Relay kit provides optimum humidity control conditions by automatically reducing indoor blower speed during continuous fan or first -stage compressor operation. Low Ambient Kit Heat pump will operate in the cooling mode satisfactorily down to 45°F outdoor air temperature without any additional controls. Kit can be added in the field enabling unit to operate properly down to 30°F. A Freezestat should be installed 'on compressors equipped with a low ambient kit. A Compressor Low Ambient Cut -Off should be added to terminate compressor operation below recommended operation conditions (on/off operation, 30°F or modulating operation, 0°F. XP16 - 2 to 5 Ton Heat Pump / Page 4 Mild Weather Kit Heat pump units operate satisfactorily in the heating mode at outdoor air temperatures up to 75° F. Mild Weather Kit can be field installed, allowing heating operation above 75°F. Monitor Kit - Service Light Contains ambient compensating thermistor and service light thermostat. For use with thermostats requiring input for indicator lights. Outdoor Thermostat Kit An outdoor thermostat can be used to lock out some of the electric heating elements on indoor units where two-stage control is applicable. Outdoor thermostat maintains the heating load on the low power input as long as possible before allowing the full power load to come on the line. Thermostat kit and mounting box must be ordered extra. G)CABINET Heavy -gauge steel construction Pre -painted cabinet finish. Pre -painted base section. Control box is conveniently located with all controls factory wired. Large removable panel provides service access. Drainage holes are provided in base section for moisture removal. High density polyethylene unit support feet raise the unit off ,of the mounting surface, away from damaging moisture. �.SmartHinge- Louvered Coil Protection Steel louvered panels provides complete coil protection. Panels are hinged to allow . easy .cleaning w and servicing of coils. Panels may be completely removed. Interlocking tabs and slots assure tight fit on cabinet. Refrigerant Line Connections, Electrical Inlets and Service Valves Vapor and liquid lines are located on corner of unit cabinet and are made with sweat connections. See dimension drawing. ® Fully serviceable brass service valves prevent corrosion and provide access to refrigerant system. Vapor valve can be fully shut off, while liquid valve may be front seated to manage refrigerant charge while servicing system. Refrigerant line connections and field wiring inlets are located in one central area of the cabinet. See dimension drawing. -4- ,tit PE6 F CATIONS 2 General No. - XP16-024 XP16-036.1 XP16-048 XP16-060 Data Nominal Tonnage 2 r -3 r 4 5 Connections Liquid line (o.d.):. in.* 3/8 X3/8 3/8 -3/8 (sweat) Vapor line (o.d.) - in. 3/4 -7/87/8 1-1/8 Refrigerant 1 R-41 OA charge furnished 7 lbs. 13 oz. 10 lbs. 4 oz. 15 lbs. 7 oz. 11 lbs. 7 oz. Outdoor Net face area - sq. ft. Outer coil 13.22 18.67-. - 24.5 24.93 Coil r 'Inner coil 12.65 18.0 23.64 .24.14 -Tube diameter - in. 5/16 :5/16 5/16 r 5/16 -No. of rows 2 2 2 2 Fin per inch 22 22 -22 22 Outdoor Diameter - in., 18 22 X22 26 Fan .,No'of blades 3 4 4 31 Mo Motor hp 11 �1) 6 1/6_ 1/4 1/3 Cfm- „"2215,' 3150' 3980 4380 .,,,Rpm 1040 •%- 844 836 850 Wafts A -It 215 305 .280 Shipping Data -_ lbs. .l p g 219,: _ -;" 265 309 345 : JELECTRICALVATA Line voltag I e' . data 60riz 4 208/230V-1. ph.,, 4 208/230V-1 ph� - r4,20 . 8/230V-1 ph 4 208/230V- . 1 1 ph 2 Maximum overcurrent protection (amps) 20 '35 • 45 60 3 Minimum circuit amp6city 14.d A22.0. M.2 33.9 Compressor Rated load amps- 10.25 f,*, 16.67 25.87 Locked rotor amps 52.. -82- 96 118 F. Power factor 0.98 , 0.99 ` .99' 0.99 0.99 Outdoor Coil, Full load amps - 1 1.7 1.8 Fan Motor Locked rotor amps 2, 2.1 3.1 2.9 L� !II OhS0R1ES--MUSTXE,0RDERE -EXTRA _ ComfortSense- 7000 Thermostat Y0349 NU 11: - extremes of operating range are plus I U% and minus b -/o of line voltage. Refrigerant charge sufficient for 15 ft. length of refrigerant lines. 2 • HACR type breaker or fuse. 3 Refer to National or Canadian Electrical Code manual to determine wire', fuse'itrid disconnect size requirements. 4 Hard start kit is required in applications where the supply voltage is less than MV., XP16 - 2 to 5 Ton Heat Pump Page 5 Outdoor Temperature Sensor- for, X2658 ComfortSense- 7000 Thermostat' -q Jll Compressor Hard Start Kit - Required 1OJ42 - in applications with less than 230V - .81J69 ------------- Compressor Low Ambient Cut -Off 451708 Freezestat 3/8 in. tubing 93G35 5/8 in. tubing -50A93 Indoor Blower Speed Relay Kit Indoor Blower Off Delay Relay 58M81 Low Ambient Kit 68M04 Mild Weather Kit 33M07 'Monitor Kit -Service Light'- - 761753 Outdoor Thermostat -'-56A87 Thermostat u onting Box 6 Kit ' Mounting I -3141 X,. - , Refrigerant L15-41-20 L15-41-40 Line Sets Ll 5-41-30 L15-41-50 .L15-65-30 L15-65-40 L15-65-50 % Field Fabricate Z. NU 11: - extremes of operating range are plus I U% and minus b -/o of line voltage. Refrigerant charge sufficient for 15 ft. length of refrigerant lines. 2 • HACR type breaker or fuse. 3 Refer to National or Canadian Electrical Code manual to determine wire', fuse'itrid disconnect size requirements. 4 Hard start kit is required in applications where the supply voltage is less than MV., XP16 - 2 to 5 Ton Heat Pump Page 5 Model No. in. A mm B in., mm in. C' "'`mm u E __ `•in. mm' • • ' , y .. �. •k =..,a. .L..r - ,a.,,r+1%�rawse� +w .t' yW w. t{ �,:,.p• v y ..t,•.u•� r ..,yr DIMEId,S10N5 -1NCHES`(MM) r� a K in. mm .. _ .. .. ..+... + .... � .,.., .+•. •�' :..•.�....:_r;r .l:.,Y f' ,:n.� ..+ -�' w-�_,,s:..k .rte ,. _ .. 27 686 28 711 XP16-036 35 889 30-1/2 775 '36 889 13-7/8 352 7-3/4,,,197 o r� ,l` .,7 ata; 371/4 83. 27-1/8 '689 3-5/8 c 92 O 114 20-5/8'.524 i � * x r y•. r •- .. , • 35 889 13-7/8 J � v i 3-1/4 83 27-1/8,689'13-5/8 92 14-1/2. 114 20-5/8 524 XP16-060 39 99135 1/2 902 • 16-7/8 y T r 222 13-1/8 ,79 SUCTION LINE , CONNECTION 95 26-7/8 683 �LIQ3UID LINE r�' TOP VIEW a s CONNECTION` v' r#� , DISCHARGEAIRt lit 3 0 0 0 0 0 -LIQUID'LINE,.: 0 0 0 0 0 'CONNECTION o 0 00 00000 00 � :.r o 00000 ,;• -�' �: Vis• ..• ELECTRICAL 0000° INLETS„ / l= 0 °0000 • o °0000/SUCTION LINE t • ° 0 0 0 0 CONNECTION.,,o 0 0 000000 . 2(5 1) o 00000 0 0 0 0 4-21 4-1/4(108) ,._) (121) - : n y 1 (25) a SIDE VIEW :} Ta END VIEW Z f ti UNIT SUPPORT UNIT SUPPORT �{ 2 FEETx y k f a FEET,y\ l 8-1/2 •; �2aij. (D (216) K`Lp 8-3/4 (222) ='(210) z`4r E r t 1 2 5 1 /2 (140) 13-1/2 (343) i e �'r , �� w , ' s ' ' 2.7 XP16-024 BASE SECTION R .• XP16-036 TO -060 BASE SECTION Model No. in. A mm B in., mm in. C' "'`mm p in.`.—mm E __ `•in. mm' F in.. mm , G f_ in.- mm, H in. mm J in. `mm K in. mm XP16-024 31 787 27 686 28 711 XP16-036 35 889 30-1/2 775 '36 889 13-7/8 352 7-3/4,,,197 371/4 83. 27-1/8 '689 3-5/8 c 92 4-1/2 114 20-5/8'.524 XP16-M 45 991 30-1/2 775 35 889 13-7/8 352 7-3/4 197 3-1/4 83 27-1/8,689'13-5/8 92 14-1/2. 114 20-5/8 524 XP16-060 39 99135 1/2 902 39-1/2 1003 16-7/8 429 8-3/4 222 13-1/8 ,79 30-3/4 •781 4-5/8 '117 3-3/4 95 26-7/8 683 a See NOTES NOTES: r ' Service clearance of 30 in. (762 mm) must be maintained on one of the sides adjacent.to the control box, Clearance to one of the other three sides must be 36 in. (914 mm)- -4* See Seems Clearance to one of the remaining two sides may be 12 in. (305 NOTES NOTES r mm) and the final side'may be 6 in. (152 mm). r, A clearance of 24 in. (610 mm) must be maintained between two units See NOTES Control -^: Box' 1 ;.48 in.. (1219 mm) clearance required on top of unit. �;O:UTDOORSOUND„DATA 1 Unit ` Model No., Octave Band Sound Power Levels dBA, re 10-12 Watts • ` 'Center` Frequency - HZ 63 ,125 r 250 '500 - 1000•r 2000 4000 8000 1Sound Rating Number (dB) XP16-024 79.0 72:0, 70.0,- 6975 ` 68.5 63.5 58.0 56.5 74 XP16-036 80.5 70.5 71.5 71.0 68.5 63.5 58.5 53.5 76 XP16-048 81.0 72.5 7.1.5- 73.0. 70.5 66.0 60.5 58.5 76 XP16-060 80.5 72.5 - 73.5 77.5, 72.5 67.0 62.5 58.5 78 NU I t - the octave sound power data does not include tonal correction. - , - t Tested according to ARI Standard 270-95 test conditions. - r r it F ELD WIRING r �, r---� DISCONNECT { „ I (By others) I B O A - Two Wire Power (see Electrical Data) -- —� r----- OPTIONAL ( B — Two or Three Wire Power (size to heater capacity) A E ECTMt r --t: I T DISCONNECTI , 'C "Twelve Wire Low Voltage -18 ga. minimum r OPTIONAL L_— SWITCH OUTDOOR L(By Others) J' —Fourteen Wire Low Voltage with Optional Outdoor Thermostat ITHERMOSTATj LENNOX •'D r ----- I ” —.Eight Wire Low Voltage — 18 ga. minimum INDOOR UNIT ' I THERMOSTATI 7 I_ (Optionaq J . — Ten Wire Low Voltage with Optional Outdoor Thermostat LENNox OUTDOOR ! .� — Field Wiring Not Furnished — UNIT O ? C All wiring must conform to NEC or CEC and local electrical codes. ' t XP16 - 2 to 5 Ton Heat Pump / Page 7 XP16 - 2 to 5 Ton Heat Pump/ Page 8 ARI�RATl:NGS--�INDOOR<COIL'rA1RIHANDLER S:U:BSTITUTION Substituting Coils in the ARI Tables Most R-22 and R -410A indoor coils and air handlers are The expansion device is based on the size of the outdoor the same except for the factory installed expansion unit. The factory installed RFC or TXV on the device. C33 coils can be used in place of the CX34 coils, C33/CB26UH-R/CB27UH/CB30M must be replaced to CB26UH-R, CB27UH, and CB30M air handlers can be correspond to the outdoor unit. The correct TXV's are: used in place of the CBX26UH, CBX27UH, CBX32M and CBX32MV, respectively. 2-3 ton heat pumps ' 491-24 4-5 ton heat pumps 91M02 Example: - A four -ton heat pump is being installed. The ARI table shows that CBX32M-048 is a matching air handler. A CB30M-51 with a 91 M02 TXV can be used in its place. t UP -FLOW COILS AIR HANDLERS R-41 OA R-22 R-41 OA R-22 CX34-18/24A-6F = C33 -24A-2 CBX26UH-018 = CB26UH-018-R CX34-18/24B-6F C33-246-2 CBX26UH-024 = CB26UH-024-R CX34-18/24C-6F = C33 -24C-2 CBX26UH-030 = CB26UH-030-R CX34-19A-6F = C33 -19A-2 CBX26UH-036 = CB26UH-036-R CX34-25A-6F = C33 -25A-2 CBX26UH-042 = CB26UH-042-R CX34-25B-6F = C33-256-2 CBX26UH-048 = .CB26UH-048 CX34-30A-6F = C33 -30A-2 CBX26UH-060 = CB26UH-060-R CX34-30B-6F = C33-306-2 .CBX27UH-018/024 = CB27UH-018/024 CX34-30C-6F = C33 -30C-2 CBX27UH-030 = CB27UH-030 CX34-31A-6F = C33 -31A-2 CBX27UH-036 = CB27UH-036 CX34-31 B -6F = C33-31 B-2 CBX27UH-042 = CB27UH-042 CX34-36A-6F - = C33 -36A-2 CBX27UH-048 = CB27UH-048 CX34-36B-6F = C33-3613-2 CBX27UH-060 = CB27UH-060 CX34-36C-6F = C33 -36C-2 CBX32M-018/024 = CB30M-21/26 CX34-38A-6F C33 -38A-2 CBX32M-030 = CB30M-31 CX34-386-6F = C33-386-2 CBX32M-036 = CB30M-41 CX34-42B-6F = C33 -42B-2. CBX32M-042 = CB30M-46 CX34-43B-6F _ C33-436-2 CBX32M-048 = CB30M-51 CX34-43C-6F _ C33 -43C-2 CBX32M-060 = CB30M-65 no equivalent C33 -44C-2 CBX32MV-(all) no equivalent CX34-44/486-6F = C33-4813-2 . CX34-44/48C-6F = C33 -48C-2 CX34-49C-6F = C33 -49C-2 CX34-50/60C-6F = C33 -50/60C-2 CX34-60D-6F = C33 -60D-2 CX34-62C-6F = C33 -62C-2 CX34-62D-6F = C33 -62D-2 k , XP16 - 2 to 5 Ton Heat Pump/ Page 8 ARI IRATINGS 1 ARI Standard 210/240 Ratings Capacity - Btuh Efficiency Total Watts COP Expansion g l High I Lo P I HSPF lHighIIIndoor Unit Model No. Device Coolin Tem Tem Cool Low High Low Hpatina Hpatina SEER EER IV � V Heat Heat Heat Heat XP16-024 2 TON Air Handlers . Air Handlers 23,800 21,800 13,000 15.70 11.70 8.00 6.70 2025 1810 1600 3.52 2.38 4 CBX32MV-018/024 (Multi -Position) Factory TXV 23,400 22,000 13,300 14.20 11.00 7.70 6.70 2110 1910 1695 3.38 2.30 3 CBX32M-018/024 (Multi -Position) Factory TXV 24,000 22,200 13,400 15.00 11.20 7.70 6.70 2130 1885 1685 3.46 2.32 CBX26UH-018 (Up -Flow / Horizontal) Factory TXV 24,200 21,600 12,900 16.00 12.00 8.20 7.00 1970 1725 1525 3.66 2.48 4,5 CBX32MV-024/030 (Multi -Position) Factory TXV 24,200 21,600 12,800 16.00 12.20 8.20 7.00 1960 1715 1515 3.70 2.48 4 CBX27UH-024 (Up-Flow/Horizontal) Factory TXV 24,200 22,000 13,300 15.00 11.50 8.00 6.70 2095 1845 1645 3.50 2.36 CBX26UH-024 (Up -Flow / Horizontal) Factory TXV 24,400 21,600 12,800 17.00 12.50 8.50 7.20 1940 1680 1490 3.76 2.52 4 CBX27UH-030 (Up-Flow/Horizontal) Factory TXV 24,200 22,200 13,400 15.20 11.50 8.00 7.00 2105 1820 1635 3.58 2.40 4 CBX32M-030 (Multi -Position) Factory TXV 24,800 22,000 13,000 17.00 12.20 8.50 7.20 1995 1685 1515 3.82 2.52 4 CBX32MV-036 (Multi -Position) Factory TXV Up -Flow Indoor Coils Up -Flow Coils 23,600 22,200 13,400 14.00 11.00 7.70 6.70 2145 1910 1700 3.40 2.30 3 CX34-38A/B-6F Factory TXV Up -Flow Indoor Coils + Furnaces Up -Flow Coils + Furnaces 23,800 21,400 12,700 16.00 12.00 7.70 6.70 1975 1800 1585 3.48 2.34 CX34-36C-6F 4 G61 MPV -36C-090 Factory TXV 23,800 21,400 12,700 16.00 12.00 7.70 6.70 1975 1800 1585 3.48 2.34 CX34-36C-6F 4 G71 MPP -36C-090 Factory TXV 23,800 21,400 12,800 16.00 11.70 7.70 6.70 2000 1810 1600 3.46 2.34 CX34-36A-6F 4 G60UHV-36A-070 Factory TXV 23,800 21,400 12,800 16.00 11.70 7.70 6.70 2000 1810 1600 3.46 2.34 CX34-36B-6F 4 G61 MPV -3613-070 Factory TXV 23,800 21,400 12,800 16.00 11.70 7.70 6.70 2000 1810 1600 3.46 2.34 CX34-36B-6F 4 G71 MPP -3613-070 Factory TXV 24,000 21,400 12,700 16.20 12.00 7.70 6.70 2000 1840 1620 3.40 2.30 CX34-25A-6F 4 G60UHV-36A-070 Factory TXV 24,000 21,400 12,700 16.20 12.00 7.70 6.70 2000 1840 1620 3.40 2.30 CX34-256-61F 4 G61 MPV -36B-070 Factory TXV 24,000 21,400 12,700 16.20 12.00 7.70 6.70 2000 1840 1620 3.40 2.30 CX34-256-61F 4 G71 MPP -36B-070 Factory TXV 24,000 21,400 12,700 16.20 12.00 8.00 6.70 1975 1785 1575 3.52 2.36 CX34-366-6F 4 G60UHV-3613-090 Factory TXV 24,000 21,400 12,800 16.00 11.70 7.70 6.70 2010 1845 1625 3.40 2.30 CX34-25B-6F 4 G61 MPV -3613-045 Factory TXV 24,000 21,600 12,900 16.00 11.70 7.70 6.70 2010 1815 1605 3.48 2.36 CX34-36B-6F 4 G61 MPV -3613-045 Factory TXV 24,200 21,200 12,700 16.20 12.20 7.70 6.70 1970 1815 1595 3.42 2.34 CX34-2513-61F 4 G60UHV-36B-090 Factory TXV 24,400 21,400 12,700 16.20 12.00 7.70 6.70 2005 1840 1620 3.40 2.30 CX34-316-6F 4 G61 MPV -36B-070 Factory TXV 24,400 21,400 12,700 16.20 12.00 7.70 6.70 2005 1840 1620 3.40 2.30 CX34-31B-6F 4 G71 MPP -3613-070 Factory TXV 24,400 21,400 12,700 16.20 12.00 7.70 6.70 2005 1840 1620 3.40 2.30 CX34-31A-6F 4 G60UHV-36A-070 Factory TXV 24,400 21,400 12,800 16.20 12.00 7.70 6.70 2015 1845 1625 3.40 2.30 CX34-31B-61F 4 G61 MPV -3613-045 Factory TXV 24,400 21,600 12,900 16.20 12.20 8.20 7.00 1980 1730 1525 3.66 2.48 CX34-3813-6F 4 G60UHV-36B-090 Factory TXV 24,400 21,800 13,000 16.00 12.00 8.20 7.00 2015 1765 1560 3.62 2.44 CX34-38B-6F 4 G61 MPV -3613-045 Factory TXV 24,400 21,800 13,000 16.20 12.00 8.20 7.00 2005 1755 1555 3.64 2.44 CX34-38A-6F 4 G60UHV-36A-070 Factory TXV 24,400 21,800 13,000 16.20 12.00 8.20 7.00 2005 1755 1555 3.64 2.44 CX34-386-6F 4 G61 MPV -3613-070 Factory TXV 24,400 21,800 13,000 16.20 12.00 8.20 7.00 2005 1755 1555 3.64 2.44 CX34-3813-6F 4 G71 MPP -3613-070 Factory TXV 24,400 21,600 12,900 16.20 12.20 8.20 7.00 1980 1730 1525 3.66 2.48 CX34-38B-6F 4 G60UHV-36B-090 Factory TXV 24,400 21,800 13,000 16.20 12.00 8.20 7.00 2005 1755 1555 3.64 2.44 CX34-38A-6F 4 G60UHV-36A-070 Factory TXV 24,600 21,200 12,700 16.50 12.20 7.70 6.70 1980 1815 1590 3.42 2.34 CX34-31B-61F 4 G60UHV-36B-090 Factory TXV Down -Flow Indoor Coils Down -Flow Coils 23,200 22,200 1 13,400 14.00 2135 1925 1705 3.38 1 2.30 3 CR33-24A/B-F 2491-24 23,600 1 22,400 13,500 1 14.20 110.8517.70:6.70 11.00 7.70 6.70 2135 1885 1685 3.48 12.34 3 CR33-30/36A/B/C-F 2491-24 NOTE - When used with gas furnaces, a dual -fuel control (i.e. FM21) or a control system with dual -fuel capabilities (i.e. Harmony III, LZP-2 or LZP-4) must be used (ordered extra). 1 Certified in accordance with USE certification program which is based on ARI Standard 210/240 with 25 ft. of connecting refrigerant lines; Cooling Ratings - 95°F outdoor air temperature and 80°F db/67°F wb entering indoor coil air. High Temperature Heating Ratings - 47°F db/43°F wb outdoor air temperature and 70°F db entering indoor coil air. Low Temperature Heating Ratings - 17°F db/15°F wb outdoor air temperature and 70°F db entering indoor coil air. 2 Factory installed expansion valve or RFC on indoor unit MUST be replaced with valve specified (if equipped). 3 Blower must be capable of time -off blower delay. Indoor Blower Off Delay Relay (58M81) is recommend for field installation. 4 Blower control must be set for a time -off blower delay. 5 Most popular air handler combination. XP16 - 2 to 5 Ton Heat Pump / Page 9 j >AR11IMTINGS 1 ARI Standard 210/240 Ratings Capacity - Btuh Efficiency Total Watts COP Indoor Unit Model No. Expansion Cooling) Temp. Temp. I SPF �C001IHighlLow HighlLow Device Heating Heating SEERI EER IV V flllHeat Heat Heat Heat - - XP16-024 2 TON Down -Flow Indoor Coils + Furnaces Down -Flow Coils + Furnaces 23,800 21,800 13,100 15.70 11.70 8.00 7.00 2015 1790 1580 3.56 2.42 CR33-24B-F 4 G61 MPV -36B-070 2491-24 23,800 21,800 13,100 15.70 11.70 8.00 7.00 2015 1790 1580 3.56 2.42 CR33-2413-F 4 G71 MPP -3613-070 2491-24 23,800 21,800 13,100 15.70 11.70 8.00 7.00 2025 1795 1585 3.56 2.42 CR33-2413-F 4 G61 MPV -3613-045 2491-24 24,000 21,800 13,100 15.70 11.70 8.20 7.00 2035 1780 1575 3.58 2.44 CR33-24A-F 4 G60DFV-36A-070 2491-24 24,200 21,800 12,900 16.20 12.20 8.20 7.20 1970 1720 1520 3.72 2.48 CR33=30/36C-F 4 G61 MPV -36C-090 2491-24 24,200 21,800 12,900 16.20 12.20 8.20 7.20 1970 1720 1520 3.72 2.48 CR33-30/36C-F 4 G71 MPP -36C-090 2491-24 24,200 21,800 13,000 16.20 12.00 8.20 7.20 2005 1730 1535 3.70 2.48 CR33-30/36B-F 4 G61 MPV -3613-070 2491-24 24,200 21,800 13,000 16.20 12.00 8.20 7.20 2005 1730 1535 3.70 2.48 CR33-30/368-F 4 G71 MPP -3613-070 2491-24 24,200 22,000 13,100 16.20 12.00 8.20 7.20 2015 1735 1545 3.72 2.48 CR33-30/36B-F 4 G61 MPV -3613-045 2491-24 24,400 22,000 13,100 16.50 12.00 8.20 7.20 2015 1720 1540 3.74 2.50 CR33-30/36A-F 4 G60DFV-36A-070 2491-24 24,600 22,000 1 13,100 116.70 112.20 8.50 7.20 2005 1690 1515 3.82 12.54 CR33-30/36B-F 4 G60DFV-36B-090 2491-24 Horizontal Indoor Coils Horizontal Coils 23,800 1 22,400 1 13,500 14.00 10.95 7.70 6.70 2175 1925 1745 3.42 2.26 3 CH33-36C-2F 2491-24 Horizontal Indoor Coils + Furnaces Horizontal Coils + Furnaces 24,000 21,400 12,700 16.20 12.00 7.70 6.70 2000 1855 1620 3.38 2.30 CH33-36A-2F 4 G60UHV-36A-070 2491-24 24,000 21,400 12,700 16.20 12.00 8.00 6.70 1975 1785 1575 3.52 2.36 CH33-366-2F 4 G61 MPV -3613-070 2491-24 24,000 21,400 12,700 16.20 12.00 8.00 6.70 1975 1785 1575 3.52 2.36 CH33-366-2F 4 G71 MPP -3613-070 2491-24 24,000 21,400 12,700 16.50 12.20 8.00 6.70 1955 1765 1550 3.56 2.40 CH33-366-21' 4 G60UHV-36B-090 2491-24 24,000 21,400 12,800 16.20 12.00 7.70 6.70 1990 1790 1580 3.50 2.38 CH33-366-21' 4 G61 MPV -3613-045 2491-24 24,200 21,400 12,700 16.20 12.20 8.00 6.70 1955 1740 1550 3.60 2.40 CH33-36C-2F 4 G61 MPV -36C-090 2491_24 24,2001 21,4001 12,700 116.20 112.20 8.00 6.70 1955 1740 1550 3.60 12.40 1 CH33-36C-2F 4 G71 MPP -36P-090 2491-24 X11"16-036 3 TON Air Handlers Air Handlers 34,600 33,000 20,000 14.70 11.20 8.00 6.70 3080 2980 2550 3.24 2.30 3 CBX32M-030 (Multi -Position) Factory TXV 35,200 33,000 19,900 15.50 11.50 8.00 7.00 3055 2900 2495 3.34 2.34 4 CBX32MV-024/030 (Multi -Position) Factory TXV 35,200 33,200 20,000 14.70 1120 8.00 7.00 3105 2950 2550 3.30 2.30 3 CBX32M-036 (Multi -Position) Factory TXV 35,600 33,200 19,900 16.00 11.70 8.20 7.00 3045 2865 2480 3.40 2.34 4,5 CBX32MV-036 (Multi -Position) Factory TXV 35,600 33,000 19,700 15.70 11.70 8.20 7.00 3000 2835 2440 3.42 2.36 4 CBX27UH-036 (Up-Flow/Horizontal) 2491-24 35,600 33,600 20,400 14.70 11.20 8.20 7.20 3110 2895 2470 3.40 2.42 CBX26UH-030 (Up -Flow / Horizontal) Factory TXV 36,000 33,600 20,400 14.50 11.50 8.20 7.20 3110 2865 2455 3.44 2.44 CBX26UH-036 (Up -Flow / Horizontal) 2491-24 36,800 132,800 1 19,700 116.20 112.20 8.20 7.20 2970 2805 2385 3.42 2.42 4 CBX27UH-042 (Up-Flow/Horizontal) 12491-24 Up -Flow Indoor Coils , Up -Flow Coils 35,200 133,800 120,600 1 14.00 11.00 8.00 7.00 3190 2995 2565 F3.30 2.36 3 CX34-38A/B-6F Factory TXV NO I E - When used with gas furnaces, a dual -fuel control (i.e. FM21) or a control system with dual -fuel capabilities (i.e. Harmony III, LZP-2 or LZP-4) must be used (ordered extra). 1 Certified in accordance with USE certification program which is based on ARI Standard 210/240 with 25 ft. of connecting refrigerant lines; Cooling Ratings - 95°F outdoor air temperature and 80'F db/67°F wb entering indoor coil air. High Temperature Heating Ratings - 47° F db/43°F wb outdoor air temperature and 70°F db entering indoor coil air. Low Temperature Heating Ratings - 17'F db/15°F wb outdoor air temperature and 70°F db entering indoor coil air. 2 Factory installed expansion valve or RFC on indoor unit MUST be replaced with valve specified (if equipped). 3 Blower must be capable of time -off blower delay. Indoor Blower Off Delay Relay (58M81) is recommend for field installation. 4 Blower control must be set for a time -off blower delay. 5 Most popular air handler combination. XP16 - 2 to 5 Ton Heat Pump / Page 10 ARURATINGS 1 ARI Standard 210/240 Ratings Capacity - Btuh Efficiency Total Watts COP Expansion HighLow HSPF Indoor Unit Model No. Device Cooling Temp. Temp. Cool High Low High Low Heating Heating SEER EER IV V Heat Heat Heat Heat XP16-036 3 TON Up -Flow Indoor Coils + Furnaces Up -Flow Coils + Furnaces 35,600 33,600 20,400 15.20 11.20 8.20 7.00 3125 2915 2490 3.38 2.40 CX34-38A-6F 4 G60UHV-36A-070 Factory TXV 35,600 33,600 20,400 15.20 11.20 8.20 7.00 3145 2930 2505 3.36 2.38 CX34-38B-6F 4 G61 MPV -36B-045 Factory TXV 35,600 33,400 20,200 15.20 11.50 8.20 7.00 3100 2910 2475 3.36 2.38 CX34-38B-6F 4 G61 MPV -3613-070 Factory TXV 35,600 33,400 20,200 15.20 11.50 8.20 7.00 3100 2910 2475 3.36 2.38 CX34-386-6F 4 G71MPP-36B-070 Factory TXV 35,800 33,200 20,000 15.70 11.70 8.20 7.20 3040 2830 2405 3.44 2.44 CX34-38B-6F 4 G60UHV-36B-090 Factory TXV 36,200 32,200 19,500 16.00 11.70 7.70 6.70 3035 3075 2580 3.06 2.22 C33 -44C 4 G61 MPV -36C-090 2491-24 36,200 32,200 19,500 16.00 11.70 7.70 6.70 3035 3075 2580 3.06 2.22 C33 -44C 4 G71 MPP -36C-090 2491-24 36,400 32,000 19,400 16.00 12.00 7.70 6.70 3000 3080 2560 3.04 2.22 CX34-43C-6F 4 G61 MPV -36C-090 2491-24 36,400 32,000 19,400 16.00 12.00 7.70 6.70 3000 3080 2560 3.04 2.22 CX34-43C-6F 4 G71 MPP -36C-090 2491-24 36,400 32,200 19,500 16.00 11.70 7.70 6.70 3040 3095 2585 3.04 2.20 CX34-43B-6F 4 G601.11 -IV -366-090 2491-24 Down -Flow Indoor Coils Down -Flow Coils 34,800 33,400 20,400 3 CR33-48B/C-F 2491-24 35,800 34,000 20,600 113.70 14.20 110.9017.7016..7013190130651261013.2012.28 11.20 8.20 700 3195 2950 2555 3:38 2.36 3 CR33-50/60C-F 2491-24 Down -Flow Indoor Coils + Furnaces Down -Flow Coils + Furnaces 35,200 33,200 20,200 15.20 11.20 8.00 7.00 3100 2980 2520 3.26 2.34 CR33-486-F 4 G61 MPV -3613-070 2 491-24 35,200 33,200 20,200 15.20 11.20 8.00 7.00 3100 2980 2520 3.26 2.34 CR33-48B-F 4 G71 MPP -366-070 2491-24 35,200 33,400 20,200 15.20 11.20 8.00 7.00 3140 2995 2550 3.26 2.32 CR33-486-F 4 G61 MPV -3613-045 2491-24 35,400 32,800 19,800 15.70 11.70 8.00 7.00 3000 2885 2425 3.34 2.40 CR33-48C-F 4 G61 MPV -36C-090 2491-24 35,400 32,800 19,800 15.70 11.70 8.00 7.00 3000 2885 2425 3.34 2.40 CR33-48C-F 4 G71 MPP -36C_090 2491-24 35,400 32,800 19,900 15.50 11.50 8.00 7.00 3015 2890 2435 3.32 2.40 CR33-48B-F 4 G60DFV-36B-090 2491-24 36,400 33,200 20,000 16.00 12.00 8.50 7.20 3005 2765 2370 3.52 2.48 CR33-50/60C-F 4 G61 MPV -36C-090 2491-24 36,400 33,200 20,000 16.00 12.00 8.50 7.20 3005 2765 2370 3.52 2.48 CR33-50/60C-F 4 G71MPP-36C-090 2491-24 Horizontal Indoor Coils Horizontal Coils 34,800 33,600 20,400 13.70 10.95 7.70 6.70 3185 3045 2595 3.24 12.30 3 CH23-51 2491-24 35,200 33,800 1 20,600 114.00 11.00 8.00 7.00 3190 2980 2555 3.32 1 2.36 3 CH23-65 2491-24 Horizontal Indoor Coils + Furnaces Horizontal Coils + Furnaces 35,800 32,200 19,500 15.70 11.70 7.70 6.70 3035 3105 2590 3.04 2.20 CH33-4213-2F 4 G60UHV-36B-090 2491-24 36,200 32,000 19,400 16.00 12.00 7.70 6.70 3000 3085 2565 3.04 2.22 CH33-48C-2F 4 G61 MPV -36C-090 2491-24 36,200 32,000 19,400 16.00 12.00 7.70 6.70 3000 3085 2565 3.04 2.22 CH33-48C-2F 4 G71 MPP -36C-090 2491-24 36,200 32,200 19,500 16.00 11.70 7.70 6.70 3040 3075 2585 3.06 2.20 CH33-44/486-2F 4 G60UHV-366-090 2491-24 X11316-048 4 TON Air Handlers Air Handlers 47,000 44,500 26,400 16.00 11.70 8.20 7.00 3995 3895 3315 3.34 2.34 4 CBX32MV-048 (Multi -Position) Factory TXV 47,000 45,000 26,800 15.70 11.70 8.00 6.70 3960 3990 3375 3.30 2.32 4 CBX27UH-060 (Up-Flow/Horizontal) Factory TXV 47,000 44,500 26,600 14.70 11.50 8.00 7.00 4055 3970 3380 3.28 2.30 3 CBX32M-048 (Multi -Position) Factory TXV 47,500 45,000 27,000 15.70 12.00 8.00 7.00 3960 3910 3320 3.38 2.38 4 CBX27UH-048 (Up-Flow/Horizontal) Factory TXV 47,500 43,000 25,800 15.70 12.00 7.70 6.70 3945 4070 3400 3.10 2.22 4 CBX32MV-068 (Multi -Position) Factory TXV 47,500 44,000 26,000 16.0012.00 8.20 7.00 3935 3865 3280 3.34 2.32 4,5 CBX32MV-060 (Multi -Position) Factory TXV 47,500 45,000 26,800 14.50 11.20 8.00 6.70 4240 4045 3480 3.26 2.26 3 CBX32M-060 (Multi -Position) Factory TXV NU I t - when used with gas furnaces, a dual -fuel control (i.e. FM21) or a control system with dual -fuel capabilities (i.e. Harmony III, LZP-2 or LZP-4) must be used (ordered extra). 1 Certified in accordance with USE certification program which is based on ARI Standard 210/240 with 25 ft. of connecting refrigerant lines; Cooling Ratings - 95°F outdoor air temperature and 80°F db/67°F wb entering indoor coil air. High Temperature Heating Ratings - 47°F db/43° F wb outdoor air temperature and 70°F db entering indoor coil air. Low Temperature Heating Ratings - 17°F db/15°F wb outdoor air temperature and 70°F db entering indoor coil air. 2 Factory installed expansion valve or RFC on indoor unit MUST be replaced with valve specified (if equipped). 3 Blower must be capable of time -off blower delay. Indoor Blower Off Delay Relay (58M81) is recommend for field installation. 4 Blower control must be set for a time -off blower delay. 5 Most popular air handler combination. XP16 - 2 to 5 Ton Heat Pump / Page 11 ARI RATINGS 1 ARI Standard 210/240 Ratings Capacity Btuh Efficiency Total Watts COP High Low HSPF High Low High Low Cooling Temp. Temp. Cool Heat Heat Heat Heat Heating Heating SEER EER IV V XP16-048 Indoor Unit Model No. I Expansion Device 4 TON Up -Flow Indoor Coils Up -Flow Coils 48,000 143,500 126,600 114.00 111.0018.0017.0014365138751345013.30 12.26 CX34-62D-6F Factory TXV Up -Flow Indoor Coils + Furnaces Up -Flow Coils + Furnaces 47,500 43,500 26,000 15.70 11.70 7.70 6.70 4010 4110 3450 3.10 2.20 CX34-60D-6F 4 G60UHV-00D-135 Factory TXV 48,000 44,000 26,200 15.70 11.70 7.70 6.70 4090 4150 3510 3.10 2.18 CX34-60D-6F 4 G61MPV-00D-135 Factory TXV 48,500 43,000 25,800 15.70 11.70 8.20 7.20 4145 3650 3225 3.46 2.34 CX34-62D-6F 4 G60UHV-60D-135 Factory TXV 48,500 43,500 26,200 15.70 11.70 8.20 7.15 4145 3730 3325 3.42 2.30 CX34-62D-6F 4 G61 MPV -60D-1 35 Factory TXV 48,500 43,500 26,200 15.70 11.70 8.20 7.15 4145 3730 3325 3.42 2.30 CX34-62D-6F 4 G71MPP-60D-135 Factory TXV Horizontal Indoor Coils Horizontal Coils 47,000 44,000 26,800 14.00 11.00 7.70 6.70 4225 4180 3550 3.08 33,200 3 CH33-62D-2F 2 91 M02 47,000 1 46,000 1 27,600 114.20 111.2018.20 2.96 7.00 4185 3845 3360 3.50 12.22 2.40 3 CH23-68 2 91 M02 Horizontal Indoor Coils + Furnaces Horizontal Coils + Furnaces 47,500 43,500 26,000 15.70 11.70 7.70 6.70 4045 4115 3470 3.10 2.20 CH33-60D-2F 4 G60UHV-60D-135 2 91 M02 47,500 43,500 26,000 15.70 11.70 7.70 6.70 4005 4080 3425 3.12 2.22 CH33-62D-2F 4 G60UHV-60D-135 2 91 M02 47,500 44,000 26,400 15.50 11.50 7.70 6.70 4095 4135 3500 3.12 2.20 CH33-62D-2F 4 G61 MPV -60D-135 2 91 M02 47,500 44,000 26,400 15.50 11.50 7.70 6.70 4095 4135 3500 3.12 2.20 CH33-62D-2F 4 G71 MPP -60D-1 35 2 91 M02 X113,16-060 5 TON Air Handlers Air Handlers 57,000 51,500 32,600 15.20 11.50 8.00 7.20 4935 4905 4225 3.08 2.26 4 CBX32MV-068 (Multi -Position) Factory TXV 57,000 52,500 33,200 15.50 11.50 8.20 7.50 4965 4680 4075 3.28 2.38 4,5 CBX32MV-060 (Multi -Position) Factory TXV 57,500 53,000 33,600 14.50 11.20 8.50 7.50 5090 4750 4170 3.28 2.36 3 CBX32M-060 (Multi -Position) Factory TXV 58,000 52,000 33,200 14.70 11.20 8.20 7.20 5105 4935 4350 3.08 2.24 CBX26UH-060 (Up -Flow / Horizontal) Factory TXV 56,500 52,500 33,200 15.20 11.20 8.50 7.20 4985 4710 4115 3.26 2.36 4 CBX27UH-060 (Up-Flow/Horizontal) Factory TXV Up -Flow Indoor Coils Up -Flow Coils 56,500 52,000 33,200 14.00 11.00 7.70 7.00 5130 5125 4445 2.98 2.18 3 CX34-60D-6F Factory TXV 57,000 52,000 33,200 14.00 11.00 7.70 7.00 5140 5160 4460 2.96 2.18 3 CX34-49C-6F Factory TXV 57,000 52,000 33,400 14.00 11.00 7.70 7.00 5135 5105 4435 2.98 2.20 3 CX34-62D-6F Factory TXV 58,000 52,000 33,200 14.20 11.20 7.70 7.00 5150 5080 4440 3.00 2.18 3 CX34-62C-6F Factory TXV Up -Flow Indoor Coils + Furnaces Up -Flow Coils + Furnaces 57,000 51,500 32,800 15.20 11.20 8.00 7.00 4990 4995 4310 3.02 2.22 CX34-60D-6F 4 G61 MPV -60D-1 35 Factory TXV 57,000 51,500 32,800 15.20 11.20 8.00 7.00 4990 4995 4310 3.02 2.22 CX34-60D-6F 4 G71 MPP -60D-1 35 Factory TXV 57,000 51,500 33,000 14.50 11.20 7.70 6.70 5095 5120 4420 2.94 2.18 CX34-49C-6F 4 G61MPV-00C-110 Factory TXV 57,000 51,500 33,000 14.50 11.20 7.70 6.70 5095 5120 4420 2.94 2.18 CX34-49C-6F 4 G71MPP-60G110 Factory TXV 57,000 51,500 33,000 15.00 11.20 7.70 7.00 5040 5065 4365 2.98 2.22 CX34-49C-6F 4 G60UHV-60C-090 Factory TXV 57,000 51,500 33,000 15.00 11.20 7.70 7.00 5045 5085 4375 2.96 2.20 CX34-49C-6F 4 G60UHV-60C-110 Factory TXV Up -Flow Indoor Coils + Furnaces I Continued on Next Page rvu i t - wnen usea wim gas tumaces, a aual-tuei control (i.e. rMZi) or a control system with dual -fuel capabilities (i.e. Harmony lll, LZP-2 or LZP-4) must be used (ordered extra). I Certified in accordance with USE certification program which is based on ARI Standard 210/240 with 25 ft. of connecting refrigerant lines; Cooling Ratings - 95°F outdoor air temperature and 80°F db/67°F wb entering indoor coil air. High Temperature Heating Ratings - 47°F db/43°F wb outdoor air temperature and 70°F db entering indoor coil air. Low Temperature Heating Ratings - 17°F db/15°F wb outdoor air temperature and 70°F db entering indoor coil air. 2 Factory installed expansion valve or RFC on,indoor unit MUST be replaced with valve specified (if equipped). 3 Blower must be capable of time -off blower delay. Indoor Blower Off Delay Relay (58M81) is recommend for field installation. 4 Blower control must be set for a time -off blower delay. 5 Most popular air handler combination. XP16 - 2 to 5 Ton Heat Pump / Page 12 .ARURATINGS 1 ARI Standard 210/240 Ratings Capacity - Btuh Efficiency Total Watts COP Expansion High Low HSPF Indoor Unit Model No. Device Cooling Temp. Temp. Cool High Low High Low �Heating Heating SEER EER IV V Heat Heat Heat Heat XP16-060 5 TON Up -Flow Indoor Coils + Furnaces (Continued) Up -Flow Coils + Furnaces 57,500 51,500 32,800 15.50 11.50 8.00 7.20 4995 4915 4265 3.08 2.26 CX34-60D-6F 4 G60UHV-00D-135 Factory TXV 57,500 51,500 32,800 15.20 11.50 8.00 7.00 5000 4980 4300 3.04 2.24 CX34-62D-6F 4 G61 MPV -60D-1 35 Factory TXV 57,500 51,500 32,800 15.20 11.50 8.00 7.00 5000 4980 4300 3.04 2.24 CX34-62D-6F 4 G71 MPP -60D-1 35 Factory TXV 57,500 52,500 33,800 14.70 10.95 7.70 7.00 5255 5185 4525 2.96 2.18 CX34-49C-6F 4 G61 MPV -60C-090 Factory TXV 57,500 52,500 33,800 14.70 10.95 7.70 7.00 5255 5185 4525 2.96 2.18 CX34-49C-6F 4 G71 MPP -60C-090 Factory TXV 58,000 51,500 33,000 15.20 11.20 8.00 7.00 5060 5005 4355 3.02 2.22 CX34-62C-6F 4 G60UHV-60C-110 Factory TXV 58,000 51,500 33,000 15.50 11.50 8.00 7.00 5050 4985 4345 3.02 2.22 CX34-62C-6F 4 G60UHV-60C-090 Factory TXV 58,000 52,000 33,200 15.00 11.20 7.70 7.00 5105 5040 4400 3.02 2.20 CX34-62C-6F 4 G61MPV-60C-110 Factory TXV 58,000 52,000 33,200 15.00 11.20 7.70 7.00 5105 5040 4400 3.02 2.20 CX34-62C-6F 4 G71MPP-00C-110 Factory TXV 58,500 52,000 32,800 15.50 11.70 8.00 7.20 5005 4895 4255 3.12 2.26 CX34-62D-6F 4 G60UHV-60D-135 Factory TXV 58,500 52,500 33,800 15.20 11.00 8.00 7.00 5270 5105 4510 3.02 2.20 CX34-62C-6F 4 G61 MPV -00C-090 Factory TXV 58,500 52,500 33,800 15.20 11.00 8.00 7.00 5270 5105 4510 3.02 2.20 CX34-62C-6F 4 G71 MPP -60C-090 Factory TXV Down -Flow Indoor Coils Down -Flow Coils 55,500 53,000 33,800 13.70 10.85 8.20 7.20 5120 4820 4200 3.22 2.36 CR33-50/60C-F 2 91 M02 55,500 1 53,000 1 33,800 13.70 10.85 8.20 7.20 5120 4820 4200 3.22 1 2.36 CR33-60D-F 2 91 M02 Down -Flow Indoor Coils + Furnaces Down -Flow Coils + Furnaces 55,500 52,500 33,400 14.70 11.00 8.50 7.50 5015 4730 4100 3.26 2.38 CR33-60D-F 4 G61 MPV -60D-135 2 91 M02 55,500 52,500 33,400 14.70 11.00 8.50 7.50 5015 4730 4100 3.26 2.38 CR33-60D-F 4 G71 MPP -60D-135 2 91 M02 55,500 53,000 33,600 14.50 10.95 8.20 7.20 5075 4780 4155 3.24 2.36 CR33-50/60C-F 4 G61 MPV -60C-110 2 91 M02 55,500 53,000 33,600 14.50 10.95 8.20 7.20 5075 4780 4155 3.24 2.36 CR33-50/60C-F 4 G71 MPP -60C-110 2 91 M02 55,500 53,500 34,200 14.50 10.60 8.50 7.50 5235 4855 4270 3.22 2.34 CR33-50/60C-F 4 G61 MPV -00C-090 2 91 M02 55,500 53,500 34,200 14.50 10.60 8.50 7.50 5235 4855 4270 3.22 2.34 CR33-50/60C-F 4 G71 MPP -60C-090 2 91 M02 56,000 52,500 33,400 15.00 11.20 8.50 7.50 4990 4685 4065 3.28 2.40 CR33-60D-F 4 G60DFV-60D-135 2 91M02 56,000 52,500 33,400 15.00 11.20 8.50 7.50 5000 4700 4080 3.28 2.40 CR33-50/60C-F 4 G60DFV-60C-110 2 91 M02 56,000 53,000 33,600 15.00 11.00 8.50 7.50 5035 4700 4090 3.30 2.40 CR33-50/60C-F 4 G60DFV-60C-090 2 91 M02 Horizontal Indoor Coils Horizontal Coils 56,500 52,000 33,400 14.00 10.95 7.70 7.00 5170 5135 4460 2.96 2.20 3 CR33-60D-2F 2 91M02 56,500 52,000 33,400 14.00 11.00 7.70 7.00 5130 5110 4420 2.98 2.22 3 CH33-62D-2F 2 91 M02 57,500 54,000 34,000 14.20 11.20 8.70 7.70 5145 4635 4090 3.42 2.44 3 CH23-68 2 91M02 Horizontal Indoor Coils + Furnaces Horizontal Coils + Furnaces 56,500 51,500 32,800 15.20 11.20 7.70 7.00 4985 5040 4325 3.00 2.22 CH33-60D-2F 4 G61 MPV -60D-135 2 91 M02 56,500 51,500 32,800 15.20 11.20 7.70 7.00 4985 5040 4325 3.00 2.22 CH33-60D-2F 4 G71MPP-60D-135 2 91 M02 57,000 51,500 32,800 15.20 11.20 8.00 7.00 4985 4985 4285 3.02 2.24 CH33-62D-2F 4 G61MPV-60D-135 2 91 M02 57,000 51,500 32,800 15.20 11.20 8.00 7.00 4985 4985 4285 3.02 2.24 CH33-62D-2F 4 G71 MPP -60D-1 35 2 91 M02 57,000 51,500 32,800 15.20 11.20 8.00 7.00 4990 4955 4280 3.04 2.24 CH33-60D-2F 4 G60UHV-00D-135 2 91M02 57,500 52,000 33,000 15.20 11.50 8.00 7.20 4995 4900 4240 3.12 2.28 CH33-62D-2F 4 G60UHV-60D-135 2 91M02 NOTE - When used with gas furnaces, a dual -fuel control (i.e. FM21) or a control system with dual -fuel capabilities (i.e. Harmony III, LZP-2 or LZP4) must be used (ordered extra). 1 Certified in accordance with USE certification program which is based on ARI Standard 210/240 with 25 ft. of connecting refrigerant lines; Cooling Ratings - 95°F outdoor air temperature and 80°F db/67°F wb entering indoor coil air. High Temperature Heating Ratings - 47°F db/43°F wb outdoor air temperature and 70°F db entering indoor coil air. Low Temperature Heating Ratings - 17°F db/15°F wb outdoor air temperature and 70°F db entering indoor coil air. 2 Factory installed expansion valve or RFC on indoor unit MUST be replaced with valve specified (if equipped). 3 Blower must be capable of time -off blower delay. Indoor Blower Off Delay Relay (58M81) is recommend for field installation. 4 Blower control must be set for a time -off blower delay. 5 Most popular air handler combination. XP16 - 2 to 5 Ton Heat Pump / Page 13 MEVISIONS Sections Description of Change ARI Ratings New rating for XP16-048 with CX34-62D coil and CX34-62D coils with furnaces. ARI Ratings I Removed CB30U ratings s L . t t.!I111#I / ��r►// C ft us REGISTERED QUALITY SYSTEMS L ENN®� Visit the latest technical n ical com information, For the latest technical information, www.lennoxdavenet.com m Contact us at 1-800-4-LENNOX ; NOTE - Due to Lennox' ongoing committment to quality, Specifications, Ratings and Dimensions subject to change without notice and without incurring liability. Improper installation, adjustment, alteration, service or maintenance can cause property damage or personal injury. Installation and service must be performed by a qualified installer and servicing agency. ©2008 Lennox Industries Inc.