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0106-165 (SFD) Title 24C7 r-, �7 • r7 0 M I TITLE 24 REPORT I Title 24 Report for: R O C C A Residence 52-905 Latrobe Lane * Traditions Country Club La Quinta, CA 92253 Project Designer: Mc FADDEN / Mc INTOSH ARCHITECTS 72-925 Fred Waring Drive, Suite 204 Palm Desert, CA 92260 (760) 346-8014 Report Prepared By: Christopher Mc Fadden C.M. Energy Consulting 72-925 Fred Waring Drive, Suite 204 Palm Desert, CA 92260 (760) 346-8014 52 -101 ,zoo CITY OF LA QUINTA BUILDING & SAFETY DEPT. Job Number: APPROVED 0019.00 FOR CONSTRUCTION I DATE `1 y 6 BY. Date: 8/9/01 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 2001 Building Energy Efficiency Standards. This program developed by Gabel Dodd/EnergySoft, LLC (415) 883-5900. EnergyPro 3.1 By EnergySoft Job Number. 0019.00 User Number. 1088 L9 0 0 lJ 0 I* 0 0 i L Mandatory Measures Checklist: Residential MF -1 R NOTE: Lowrise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. Items marked with an asterisk (') may be superseded by more stringent compliance requirements listed on the Certificate of Compliance. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component 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 or enter N/A if not applicable. I DESIGNER IENFORCEMENI ng Envelope measures '§ 150(a): Minimum R-19 ceiling insulation in wood frame assembly, or equivalent U -value. § 150(b): Loose fill insulation manufacturer's labeled R -Value. 150(c): Minimum R-13 wall insulation in wood framed walls or equivalent U -value in metal frame walls (does not apply to exterior mass walls). '§ 150(d): Minimum R-13 raised floor insulation in framed floors. § 150(1): Slab edge insulation - water absorption rate <= 0.3%, water vapor transmission rate <= 2.0 perm/inch. §118: Insulation specified or installed meets insulation quality standards. Indicate type and form. §116-17: Fenestration Products, Exterior Doors and Infiltration/Exfiltration Controls 1. Doors and windows between conditioned and unconditioned spaces designed to limit air leakage. 2. Fenestration products (except field fabricated) have label with certified U -Factor, certified SHGC, and infiltration certification. 3. Exterior doors and windows weatherstripped; all joints and penetrations caulked and sealed. §150(g): Vapor barriers mandatory in Climate Zones 14 and 16 only. §150(f): Special infiltration barrier installed to comply with Section 151 meets Commission quality standards. §150(e): Installation of Fireplaces, Decorative Gas Appliances and Gas Logs. 1. Masonry and factory -built fireplaces have closable doors, outside air intake with damper and control, and flue damper and control; 2. No continuous burning gas pilots allowed. ace Conditioning, Water Heating and Plumbing System Measures §110-13: HVAC equipment, water heaters, showerheads and faucets certified by the Commission. §150(h): Heating and/or cooling loads calculated in accordance with ASHRAE, SMACNA or RCCA. §150(i): Setback thermostat on all applicable heating and/or cooling systems. §1500): Pipe and Tank Insulation 1. Storage gas water heaters with less than 0.58 energy factor shall be externally wrapped with R-12. 2. First 5 feet of pipes closest to water heater tank, non -recirculating systems, insulated (R-4 or greater) 3. Back-up tanks for solar system, unfired storage tanks, or other indirect hot water tanks have R-12 external insulation or R-16 combined internal/external insulation. 4. All buried or exposed piping insulated in recirculating sections of hot water systems. 5. Cooling system piping below 55 degrees F. insulated. 6. Piping insulating between heating source and indirect hot water tank. '§150(m): Ducts and Fans 1. All ducts and plenums installed, sealed and insulated to meet the requirements of the 1998 CMC Sections 601, 603, 604 and Standard 6-3; ducts insulated to a minimum installed level of R-4.2 or enclosed in conditioned space. Openings shall be sealed with mastic, tape aerosol sealant or other duct- closure system that meets the applicable requirements of UL181, UL181A, or UL181 B. If mastic or tape is used to seal openings greater than 1/4 inch, the combination of mastic and either mesh tape or tape shall be used. Building cavities shall not be used for conveying conditioned air. Joints and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive duct tapes unless such tape is used in combination with mastic and drawbands., 2. Exhaust fans systems have back draft or automatic dampers. 3. Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operated damper §114: Pool and Spa Heating Systems and Equipment 1. Certified with 78% thermal efficiency, on-off switch, weatherproof instructions, no electric resistance heating, no pilot. 2. System is installed with at least 36" of pipe between filter and heater for future solar, cover for outdoor pools or spas. 3. Pool system has directional inlets and a circulation pump time switch. XJ §115: Gas fired central furnaces, pool heaters, spa heaters or household cooking appliances have no continuously burning pilot light. (Exception: Non -electrical cooking appliances with pilot < 150 Btwbr) Lighting Measures §150(k)l: Luminaires for general lighting in kitchens shall have lamps with an efficacy 40 lumens/watt or greater for general lighting in kitchens. This general lighting shall be controlled by a switch on a readily accessible lighting control panel at an entrance to the kitchen. 150(k)2: Rooms with a shower or bathtub must have either at least one luminaire with lamps with an efficacy of 40 lumens/watt or greater switched at the entrance to the room or one of the alternative to this requirement allowed in Section 150(k)2.; and recessed ceiling fixtures are IC (insulation cover) approved. IEnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:1 of 1 • Certificate of COMDliancp . Certificate of Compliance: Residential (Part 1 of 2) CF -1 R R O C C A Residence 8/9/01 Project litle Date 52-905 Latrobe Lane * Traditions Country Club La Quinta •Project Address Building Permit C.M. Energy Consulting (760) 346-8014 Plan Check Date Documentation Autnor i a ep one Computer Performance 15 meld UheckDate Compliance Method (Package or Computer) Climate Zone Enforcement Agency Use Only GENERAL INFORMATION Total Conditioned Floor Area: 5,020 ft2 Average Ceiling Height: 10.9 ft Total Conditioned Slab Area: 51020 ft2 Building Type: (check one or more) ® Single Family Detached ❑ Addition ❑ Single Family Attached ❑ Existing Building ❑ Multi -Family ❑ Existing Plus Addition Front Orientation: (West) 270 deg Floor Construction Type: FX Slab Floor Number of Dwelling Units: 1.00 0 Number of Stories: 1 ❑ Raised Floor 11 0 • to 0 0 BUILDING SHELL INSULATION Component Type Frame Type Const. Assembly U -Value Location/Comments (attic, garage, typical, etc.) C/R-2 (R.38.2x_.16) Wood 0.026 Exterior Roof C/R-3 (R.38.2x_.16) Wood 0.030 Exterior Roof W-1 Wall (W.21.2x6.16) Wood 0.057 Exterior Wall W-2 Wall (W.21.2x6.16) Wood 0.057 Exterior Wall Slab On Grade n/a 0.756 Covered Slab w/R-0.0 Perimeter Insulation C/R-1 (R.38.2x_.16) Wood 0.024 Exterior Roof Slab On Grade Na 0.756 Exposed Slab w/R-0.0 Perimeter Insulation Solid Wood Door Wood 0.387 Exterior Door FENESTRATION Shadina Devices Type Orientation Area Fenestration Exterior Overhang Side Fins (SF) U -Factor SHGC Shading Yes / No Yes / No Left (North) 80.3 0.38 0.36 Bug Screen ❑ X❑ ❑ x❑ Rear (East) 58.0 0.52 0.55 Bug Screen X❑ ❑ ❑ X❑ Right (South) 88.0 1.10 0.53 Bug Screen X❑ ❑ ❑X❑ Right (South) 40.0 1.10 0.53 Bug Screen ❑ x❑ ❑ x❑ Right (South) 115.0 0.52 0.55 Bug Screen ❑ X❑ ❑ K Right (South) 40.0 0.52 0.55 Bug ScreenX❑ ❑ ❑ X❑ Front (West) 3.3 0.38 0.36 Bug Screen ❑ X❑ ❑ K Front (West) 92.2 0.52 0.55 Bug Screen ❑ x❑ ❑ x❑ Left (North) 48.0 1.10 0.53 Bug Screen ❑ © 0 ] Left (North) 15.0 0.55 0.53 Bug Screen ❑ T x❑ Left (North) 75.0 0.52 0.55 Bug Screen ] ❑ ❑XD Rear (East) 48.0 1.10 0.53 Bug Screen ❑ © ❑ 0 Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 EnergyPro 3.1. By EnergySoft User Number. 1088 Job Number. 0019.00 Page:1 of 4 0 Certificate of Compliance: Residential (Part 1 of 2) CF -1 R 0 • 0 0 L 0 • 0 R O C C A Residence 8/9/01 Projectm e -Date 52-905 Latrobe Lane * Traditions Country Club La Quinta ro/ec ress C.M. Energy Consulting (760) 346-8014 ocumen a ion u or a ep one Computer Performance 15 Building ermit Plan Check Date Reld Checka e Compliance Method (Package or Computer) Climate Zone Enforcement Agency Use Only GENERAL INFORMATION Total Conditioned Floor Area: 5,020 ft2 Average Ceiling Height: 10.9 ft Total Conditioned Slab Area: 5,020 ft2 Building Type: (check one or more) ® Single Family Detached ❑ Addition ❑ Single Family Attached ❑ Existing Building ❑ Multi -Family ❑ Existing Plus Addition Front Orientation: (West) 270 deg Floor Construction Type: X❑ Slab Floor Number of Dwelling Units: 1.00 Number of Stories: 1 ❑ Raised Floor BUILDING SHELL INSULATION Component Frame Assembly Location/Comments Type Type U -Value (attic, garage, typical, etc.) FENESTRATION Shadina Devices Type Orientation Area Fenestration Exterior Overhang Side Fins (SF) U -Factor SHGC Shading Yes / No Yes / No Skylight 14.2 0.68 0.55 None ❑X❑ ❑ X❑ Rear (East) 218.0 0.55 0.53 Bug Screen X❑ ❑ ❑ x❑ Rear (East) 24.0 1.10 0.53 Bug ScreenX❑ ❑ ❑ x❑ Rear (East) 18.8 1.04 0.63 Bug Screen ❑ x❑ ❑ X❑ Front (West) 48.0 1.10 0.53 Bug Screen ❑ X❑ ❑ x❑ Front (West) 102.8 0.52 0.55 Bug ScreenX❑ ❑ ❑ X❑ ❑ ❑ ❑ ❑ ❑❑ ❑❑ ❑❑ 1:1 EJ F1 El F-1 El El El El El Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:2 of 4 • WATER HEATING SYSTEMS Rated 1 Tank Energy Facts 1 External Water Heater Water Heater Distribution # in Input Cap. or Recovery Standby Tank Insul. System Name Type Type Syst. Btu/hr (gal) Efficiency Loss (%) R -Value RHEEM HE119-130 Large Gas Recirc/Time+Temp 1 130,000 119 0.95 0.0129 0.0 1 For small gas storage (rated inputs of less than or equal to 75,000 Btu/hr), electric resistance and heat pump water heaters, list energy factor. For large gas storage water heaters (rated input of greater than 75,000 Btu/hr), list Rated Input, Recovery Efficiency and Standby Loss. For instantaneous gas water heaters, list Rated Input and Recovery Efficiency. REMARKS 11 • • 0 This certificate of compliance lists the building features and performance specifications needed to comply with Title 24, Parts 1 and 6 of the Califomia Code of Regulations, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, any shading feature that is varied is indicated in the Special Features/Remarks section. Designer or pwner (per Business & Professi s Code) Documentation Author Name: W, so -i Mt -1 Name: Christopher Mc Fadden Title/Firm: Mc FADDEN / Mc INTOSH ARCHITECTS Title/Firm: C.M.-Energy Consulting Address: 72-925 Fred Waring Drive, Suite 204 Palm Desert, CA 92260 e: (760) 346-8014 1 #RZO.K•In•ot (date) n envy e: Tel Address: 72-925 Fred Waring Drive, Suite 204 Palm Desert, CA 92260 Telephone: (1601446-8014 signature stamp (date) Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:3 of 4 Certificate of Compliance: Residential p (Part 2 of 2) CF -1R R O C C A Residence 8/9/01 ro/ec Title -Date HVAC SYSTEMS Note: Input Hydronic or Combined Hydronic data under Water Heating Systems, except Design Heating Load. Distribution Heating Equipment Minimum Type and Duct or Type (furnace, heat Efficiency Location Piping Thermostat Location / pump, etc.) (AFUE/HSPF) (ducts, attic, etc.) R -Value Type Comments Central Furnace 80% AFUE Ducts in Attic 4.2 Setback ZONE 1 (Guest Bedrooms) Central Furnace 80% AFUE Ducts in Attic 4.2 Setback ZONE 2 (Master Bedroom) Central Furnace 80% AFUE Ducts in Attic 4.2 Setback ZONE 3 (Living Area) Cooling Equipment Minimum Duct Type (air conditioner, Efficiency Location Duct Thermostat Location / heat pump, evap. cooling) (SEER) (attic, etc.) R -Value Type Comments • Split Air Conditioner 14.5 SEER Ducts in Attic 4.2 Setback ZONE 1 (Guest Bedrooms) Split Air Conditioner 13.5 SEER Ducts in Attic 4.2 Setback ZONE 2 (Master Bedroom) Split Air Conditioner 13.5 SEER Ducts in Attic 4.2 Setback ZONE 3 (Living Area) • WATER HEATING SYSTEMS Rated 1 Tank Energy Facts 1 External Water Heater Water Heater Distribution # in Input Cap. or Recovery Standby Tank Insul. System Name Type Type Syst. Btu/hr (gal) Efficiency Loss (%) R -Value RHEEM HE119-130 Large Gas Recirc/Time+Temp 1 130,000 119 0.95 0.0129 0.0 1 For small gas storage (rated inputs of less than or equal to 75,000 Btu/hr), electric resistance and heat pump water heaters, list energy factor. For large gas storage water heaters (rated input of greater than 75,000 Btu/hr), list Rated Input, Recovery Efficiency and Standby Loss. For instantaneous gas water heaters, list Rated Input and Recovery Efficiency. REMARKS 11 • • 0 This certificate of compliance lists the building features and performance specifications needed to comply with Title 24, Parts 1 and 6 of the Califomia Code of Regulations, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, any shading feature that is varied is indicated in the Special Features/Remarks section. Designer or pwner (per Business & Professi s Code) Documentation Author Name: W, so -i Mt -1 Name: Christopher Mc Fadden Title/Firm: Mc FADDEN / Mc INTOSH ARCHITECTS Title/Firm: C.M.-Energy Consulting Address: 72-925 Fred Waring Drive, Suite 204 Palm Desert, CA 92260 e: (760) 346-8014 1 #RZO.K•In•ot (date) n envy e: Tel Address: 72-925 Fred Waring Drive, Suite 204 Palm Desert, CA 92260 Telephone: (1601446-8014 signature stamp (date) Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:3 of 4 0 0 0 0 0 0 0 0 Certificate of Compliance: Residential (Addendum) CF -1 R R O C C A Residence 8/9/01 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 oases on ine adequacy or the special jusuncanon and aocumemation submitted. Plan Field The HVAC System "ZONE 1 (Guest Bedrooms)" must meet all CEC Criteria for a Zonally Controlled system serving only Sleeping Ar as. HIGH MASS Design(see C-211) - Verify Thermal Mass: 932 sqft Covered Slab Floor, 4.00" thick at Guest Bedrooms The HVAC System "ZONE 2 (Master Bedroom)" must meet all CEC Criteria for a Zonally Controlled system serving only Slec ping Areas. HIGH MASS Design(see C -2R) - Verify Thermal Mass: 256 sqft Tile in Mortar Interior Mass, 0.75" thick at Master Bedroom . HIGH MASS Design(see C-211) - Verify Thermal Mass: 256 sqft Exposed Slab Floor, 4.00" thick at Master Bedroom HIGH MASS Design(see C-211) - Verify Thermal Mass: 1261 sqft Covered Slab Floor, 4.00" thick at Master Bedroom The HVAC System 'ZONE 3 (Living Area)" must meet all CEC Criteria for a Zonally Controlled system serving only Living Areas. HIGH MASS Design(see C-211) - Verify Thermal Mass: 2314 sqft Tile in Mortar Interior Mass, 0.75" thick at Living Area HIGH MASS Design(see C-211) - Verify Thermal Mass: 257 sqft Covered Slab Floor, 4.00" thick at Living Area HIGH MASS Design(see C -2R) - Verify Thermal Mass: 2314 sqft Exposed Slab Floor, 4.00" thick at Living Area HERS Required Verification These features must be confirmed and/or tested by a certified HERS rater under the supervision of a CEC approved HERS provider. The HERS rater must document the field verification and diagnostic testing of these measures on a form CF -6R. an I Field e system "ZONF 1 (6uest Bedrooms)"includes Refrigerant charge and Airflow, Gredit (ora ce i e must provide verifification of the TXV, or measure the Refrigerant Charge and Airflow. rater The HVAC System 'ZONE 2 (Master Bedroom)' includes Refrigerant Charge and Airflow Credit (or a TXV). A certified HERS must provide verifification of the TXV, or measure the Refrigerant Charge and Airflow. rater The HVAC System "ZONE 3(Living res includes Refrigerant Charge and Airflow Credit or a TXV). A certified MRS rater provide verifification of the TXV, or measure the Refrigerant Charge and Airflow. must The HVAG system(Living res is using reduced uc leakage to comply and Must have diagnostic site testing ol leakage performed by a certified HERS Rater. The results of the diagnostic testing must be reported on a CF -611 Form. duct Run InitiationTime: un Code: 997392001 EnergyPro 3.1 By EnergySoft User Number. 1088 Job Number. 0019.00 PageA of 4 Certificate of Compliance: Residential p (Part 1 Of 2) CF -1 R R O C C A Garage 8/9/01 Project Title Date 52-905 Latrobe Lane * Traditions Country Club La Quinta •Project Address Building Permit C.M. Energy Consulting (760) 346-8014 Plan Check / Date Documentation Author i a ep one Computer Performance 15 new checkDate Compliance Method (Package or Computer) Climate Zone Enforcement Agency Use Only GENERAL INFORMATION • 11 0 • • L Total Conditioned Floor Area: Total Conditioned Slab Area: Building Type: (check one or more) ® Single Family Detached ❑ Single Family Attached ❑ Multi -Family 776 f? Average Ceiling Height: 10.0 ft 855 ft2 ❑ Addition ❑ Existing Building ❑ Existing Plus Addition Front Orientation: (West) 270 deg Floor Construction Type: X❑ Slab Floor Number of Dwelling Units: - 1.00 Number of Stories: 1 ❑ Raised Floor BUILDING SHELL INSULATION Component Type Frame Type Assembly U -Value Location/Comments (attic, garage, typical, etc.) _ C/R-2 (R.38.2x_.16) Wood 0.026 Exterior Roof W-1 Wall (W.21.2x6.16) Wood 0.057 Exterior Wall Solid Wood Door Wood 0.387 Exterior Door W-2 Wall (W.21.2x6.16) Wood 0.057 Exterior Wall Insulated Garage Dr. (Wd) Wood 0.114 Exterior Door Slab On Grade n1a 0.756 Covered Slab w/R-0.0 Perimeter Insulation Slab On Grade n1a 0.756 Exposed Slab w/R-0.0 Perimeter Insulation FENESTRATION Shadina Devices Type Orientation. Area Fenestration Exterior Overhang Side Fins (SF) U -Factor SHGC Shading Yes / No Yes / No Left (North) 12.0 0.57 0.55 Bug Screen ❑ N ❑ a Right (South) 6.0 0.57 0.55 Bug Screen ❑ x❑ ❑ ❑x El 1:1 ❑❑ El El El El 1:1 El 1:1 El El El El 1:1 1-1 1:1 El D ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ El 1:1 El El El El El El Run Initiation Time: 08109/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:1 of 3 E 0 0 • 0 0 0 0 Certificate of Compliance: Residential p (Part 2 of 2) CF -1 R R O C C A Garage 8/9/01 ro)ec Title -0—ale HVAC SYSTEMS Note: Input Hydronic or Combined Hydronic data under Water Heating Systems, except Design Heating Load. Distribution Heating Equipment Minimum Type and Duct or Type (furnace, heat Efficiency Location Piping Thermostat Location / pump, etc.) (AFUE/HSPF) (ducts, attic, etc.) R -Value Type Comments Split Heat Pump 7.30 HSPF Ductless / with Fan n/a Setback ZONE 1 (Garage) Cooling Equipment Minimum Duct Type (air conditioner, Efficiency Location Duct Thermostat Location / heat pump, evap. cooling) (SEER) (attic, etc.) R -Value Type Comments Split Heat Pump 11.0 SEER Ductless n/a Setback ZONE 1 (Garaue) WATER HEATING SYSTEMS Rated 1 Tank Energy Facts 1 Water Heater Water Heater Distribution # in Input Cap. or Recovery Standby System Name Type Type Syst. Btu/hr (gal) Efficiency Loss (%) Standard Gas 50 gal or Less Small Gas Standard 1 40,000 50 0.53 n/a 1 For small gas storage (rated inputs of less than or equal to 75,000 Btu/hr), electric resistance and heat pump water heaters, list energy factor. For large gas storage water heaters (rated input of greater than 75,000 Btu/hr), list Rated Input, Recovery Efficiency and Standby Loss. For instantaneous gas water heaters, list Rated Input and Recovery Efficiency. REMARKS External Tank Insul. R -Value 12 This certificate of compliance lists the building features and performance 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. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, any shading feature that is varied is indicated in the Special Features/Remarks section. Designer or Owner (per Business & Professions Code) Documentation Author Name: Name: Christopher Mc Fadden Title/Firm: Mc FADDEN / Mc INTOSH ARCHITECTS Title/Firm: C.M. Energy Consulting Address: 72-925 Fred Waring Drive, Suite 204 Address: 72-925 Fred Waring Drive, Suite 204 Palm Desert, CA 92260 Palm Desert, CA 92260 Telephone: (760) 346-8014 Telephone: (760) 346-8014 Lic. #: (signature) (date) (signature) (date) Enforcement Agency Name: Title/Firm: Address: Telephone: signature stamp (date) Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:2 of 3 Certificate of Compliance: Residential (Addendum) CF -1 R ROC CA Garage 8/9/01 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 Jaacu vn u.a aucyuai.y v. Lila aNaL.a. Juaun%.auvn anu uwun.an•mrvn auunnuau. The DHW System "Standard Gas 50 gal or Less" Energy Factor = 0.530. An EF below 0.58 requires an R-12 External Blanke . HIGH MASS Design(see C -2R) - Verify Thermal Mass: 79 sqft Covered Slab Floor, 4.00" thick at Garage HIGH MASS Design(see C -2R) - Verify Thermal Mass: 776 sgft Exposed Slab Floor, 4.00" thick at Garage 0 0 HERS Required Verification These features must be confirmed and/or tested by a certified HERS rater under the supervision of a CEC approved HERS .....u:dIrk LICOC •• -1 ........• L. .1..--:I'--`'-- ---a J:-----`-- `--`--- -t .�--- "-------- -- `--- p........... ...� ..�..., .a.v. ...a.�• ..vwn.cn• •nc .law .a. ... wuvn anu u.aanwur. •aauny vl u.caa maaau.aa vn a rvnn %.r -or%. an Field • 11 0 L 0 Run InitiationTime: un Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:3 of 3 40 U • Compliance Budget • r • Compliance Budget • • Computer Method Summary (Part 1 of 3) C -2R R O C C A Residence 8/9/01 ProjeCt Title Date 52-905 Latrobe Lane * Traditions Country Club La Quinta Project Aaaress • C.M. Energy Consulting (760) 346-8014 ocu� m�fion Author Te ep one Computer Performance 15 Building Permit PlanCheckmate Re ec a e omp lance e o ac age or ompu er ima a one Source Energy Use Standard Proposed Compliance (kBtu/sf-yr) , Design Design Margin • Space Heating 3.45 3.83 Space Cooling .35.35 35.23 Domestic Hot Water • 5.68 4.81 Totals 43.87 GENERAL INFORMATIONBUILUMM 0.030 Conditioned Floor Area: 5,020 Building Type: Single Fam Detached Building Front Orientation: (West) 270 deg Number of Dwelling Units: 1.00 Number of Stories: 1 63 0.057 BUILDING ZONE INFORMATION Zone Name Floor Area Volume -0.37 0.12 0.87 0.61 Floor Construction Type: X❑ Slab Floor E] Raised Floor Total Conditioned Volume: 54,535 Slab Floor Area: 5,020 # of Thermostat Vent Units Zone Type Type Hgt. Area ZONE 1 (Guest Bedrooms) 932 8,947 0.19 ZONE 2 (Master Bedroom) 1,517 -16,53 0.30 ZONE 3 (Living Area) 2,571 29,052 0.51 • So a OPAQUE SURFACES Act. Gains Type Area U -Val. Azm. Tilt Y / N U Form 3 Reference Sleeping SleepingStat 2 n1a Sleeping SleepingStat 2 n/a Living LivingStat 2 n1a C/R-2 (R.38.2x_.16) Roof 702 0.026 0 0 W-1 Wall (W.21.2x6.16) Roof 230 0.030 0 0 W-1 Wall (W.21.2x6.16) Wall 250 0.057 14 90 • Wall 63 0.057 14 90 Wall 42 0.057 104 90 Wall 56 0.057 104 90 Wall 318 0.057 194 90 Wall 322 0.057 284 90 Roof 100 0.024 0 0 Roof 500 0.026 0 0 Roof 917 0.030 0 58 • Wall 724 0.057 14 90 Wall 143 0.057 104 90 Wall 250 0.057 194 90 Wall 56 0.057 284 90 Roof 324 0.024 0 0 Roof 2,233 0.026 0 0 Wall 97 0.057 14 90 • Wall 229 0.057 104 90 Wall 44 0.057 104 90 Wall 603 0.057 194 90 Wall 66 0.057 194 90 Wall 669 0.057 284 90 Door 35 0.387 284 90 Wall 44 0.057 284 90 • U Form 3 Reference Sleeping SleepingStat 2 n1a Sleeping SleepingStat 2 n/a Living LivingStat 2 n1a C/R-2 (R.38.2x_.16) C/R-3 (R.38.2x .16) W-1 Wall (W.21.2x6.16) W-2 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) W-2 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) C/R-1(R.38.2x .16) C/R-2 (R.38.2x .16) C/R-3 (R.38.2x .16) W-1 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) W-2 Wall (W.21.2x6.16) C/R-11(R.38.2x .16) C/R-2 (R.38.2x .16) W-1 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) W-2 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) W-2 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) Solid Wood Door W-2 Wall (W.21.2x6.16) Location / Comments ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 2 ONLY ZONE 2 ONLY ZONE 2 ONLY ZONE 2 ONLY ZONE 2 ONLY ZONE 2 ONLY ZONE 2 ONLY ZONE 3 ONLY ZONE 3 ONLY ZONE 3 ONLY ZONE 3 ONLY ZONE 3 ONLY ZONE 3 ONLY ZONE 3 ONLY ZONE 3 ONLY ZONE 3 ONLY ZONE 3 ONLY I Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:1 of 6 Computer Method Summary (Part 2 of 3) C -2R R O C C A Residence 8/9/01 Project Title Date • U- Act. Glazing Type Location/ # Type Area Factor SHGC Azm. Tilt Comments 11 0 0 40 • 0 0 0 0 1 Window Left (North) 7.0 0.380 0.36 14 90 Fltwd Aspen 530T (LoE/Air) ZONE 1 ONLY 2 Window Left (North) 7.0 0.380 0.36 14 90 Fltwd Aspen 530T (LoE/Air) ZONE 1 ONLY 3 Window Left (North) 3.3 0.380 0.36 14 90 Fltwd Aspen 530T (LoE/Air) ZONE 1 ONLY 4 Window Rear (East) 18.0 0.520 0.55 104 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 5 Window Right (South) 40.0 1.100 0.53 194 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 6 Window Right (South) 40.0 1.100 0.53 194 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 7 Window Right (South) 4.0 0.520 0.55 194 90 Double Default (Lo-E/Clad) _ ZONE 1 ONLY 8 Window Right ( out) ----f.-o- 0.520 ---0-.5F --T9-4- 90 Dou e e au to- /C aTad) _ ZONE ONLY 9 Window Right (South) 8.0 0.520 0.55 194 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 10 Window Right (South) 8.0 0.520 0.55 194 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 11 Window Right (South) 20.0 0.520 0.55 194 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 12 Window Right (South) 20.0 0.520 0.55 194 90 Double Default (Lo-E/Clad) _ ZONE 1 ONLY 13 Window Front (West) 3.3 0.380 0.36 284 90 Fltwd Aspen 530T (LoE/Air) ZONE 1 ONLY - 14 Window Front (West) 29.2 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 15 Window Front (West) 12.0 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 16 Window Front (West) 3.0 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 1 ONLY 17 Window Left (North) 48.0 1.100 0.53 14 90 Double Default (Lo-E/Clad) ZONE 2 ONLY 18 Window Left (North) 15.0 0.550 0.53 14 90 Double Default (Lo-E/Clad) ZONE 2 ONLY 19 Window Left (North) 9.0 0.380 0.36 14 90 Fltwd Aspen 530T (LoE/Air) ZONE 2 ONLY 20 Window Left (North) 45.0 0.380 0.36 14 90 Fltwd Aspen 530T (LoE/Air) ZONE 2 ONLY 21 Window Le ort 9.0 0.380 0.36 90 Fltwd Aspen 530T ( of Air) ZONE 2 ONLY 22 Window Left (North) 24.0 0.520 0.55 14 90 Double Default (Lo-E/Clad) ZONE 2 ONLY 23 Window Rear (East) 48.0 1.100 0.53 104 90 Double Default (Lo-E/Clad) ZONE 2 ONLY 24 Window Rear (East) 20.0 0.520 0.55 104 90 Double Default (Lo-E/Clad) ZONE 2 ONLY 25 Window Rear (East) 20.0 0.520 0.55 104 90 Double Default (Lo-E/Clad) ZONE 2 ONLY 26 Skylight Left (North) 4.0 0.680 0.55 0 0 Bristolite (Default) Skylite ZONE 3 ONLY 27 S y ig e(North) -O-. -035 07 - 0 ns o i e eau y i e ZONE J ONLY 28 Skylight e o -63 -0:680 -035 0- 0 Bristolite eau y t e - 29 Win owe ( orth 6 0 0.520 ---0-.-55 -----14 90 Double Default o- la ZONE 3 ONLY INTERIOR AND EXTERIOR SHADING Window Overhang Left Fin Right Fin # Exterior Shade Type SHGC -Rg�d- Len. Hgt. x . RExt. Dist. en.gt. Dist. Len. T gt. Bug screen 2 Bug Screen 0.76 2 Bug Screen 0.76 - 4 Bug Screen 0.76 6.0 3.0 6.0 0.1 6.0 6.0 5 Bug Screen 0.76 8.0 5.0 8.0 0.1 8.0 8.0 _ T- Bug Screen 0.76 7- Bug Screen 0.76 8- BugScreen -0. - 9 Bug creen 0.76 10 Bug Screen 0.76 - Tf Hug Screen - T2 Bug Screen -071; 8.0 2.5 8.0 0.1 --To- 8.0 - T3 Bug Screen X78 -M Bug Screen - T5 Bug Screen X71; -% ug Screen 17 Bug Screen 0.76 T8 Bug Screen -0:76- T9 13ug Screen �Tti M6 Bug Screen �T� -- 'f Bug Screen 22 Bug Screen 0.76 8.0 3.0 0.0 0.0 -0 0.0 23 Bug Screen 0.76 24 Bug Screen 0.76 8.0 2.5 4.0 0.1 4.0 4.0 25 Bug Screen 0.76 8.0 2.5 4.0 0.1 4.0 4.0 26 None 1.00 27 None 00 - 28 None -600 29 Bug cre-en 0.76 2.0 8.0 0.0 0.0 �0 0.0 Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 1 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:2 of 6 0 0 0 9 0 0 0 0 i 40 Computer Method Summary (Part 2 of 3) C -2R R O C C A Residence 8/9/01 roP j-e-cTTi e Date Ll- Act. Glazing Type Location/ # Type Area Factor SHGC Azm. Tilt Comments 30 Window Left (North) 35.0 0.520 0.55 14 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 31 Window Rear (East) 85.0 0.550 0.53 104 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 32 Window Rear (East) 70.0 0.550 0.53 104 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 33 Window Rear (East) 24.0 1.100 0.53 104 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 34 Window Rear (East) 18.8 1.040 0.63 104 90 Single Default (Lo-E/Clad) _ ZONE 3 ONLY 35 Window Rear (East) 63.0 0.550 0.53 104 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 36 Window Right (South) 48.0 1.100 0.53 194 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 37 Window Right tFi) X520 x.55 -9 90ooUble Defau t (LO -F -/Glad) 3 ONLY 38 Window Right (South) 3.0 0.520 0.55 194 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 39 Window Right (South) 72.0 0.520 0.55 194 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 40 Window Right (South) 16.0 0.520 0.55 194 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 41 Window Front (West) 48.0 1.100 0.53 284 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 42 Window Front (West) 15.0 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 43 Window Front (West) 15.0 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 44 Window Front (West) 24.0 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 45 Window Front (West) 24.0 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 46 Window Front (West) 18.8 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 47 Window Front (West) 6.0 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 3 ONLY 48 Window Front (West) 48.0 0.520 0.55 284 90 Double Default (Lo-E/Clad) ZONE 3 ONLY INTERIOR AND EXTERIOR SHADING Window Overhang Left Fin Right Fin # Exterior Shade Type SHGCgT�t Wd-. Len. Hgt. t. x . -Dist. Len. Hgt. Dist. Len. HgL 30 Bug Screen 31 Bug Screen 0.76 10.0 8.5 10.0 0.1 10.0 10.0 32 Bug Screen 0.76 10.0 7.0 10.0 0.1 10.0 10.0 33 Bug Screen 0.76 8.0 3.0 8.0 0.1 8.0 8.0 34 Bug Screen 0.76 -- Bug Screen 0.76 7.0 9.0 7.0 0.1 7.0 7.0 Bug Screen 0.76 8.0 6.0 8.0 0.1 8.0 8.0 _ -37 BugScreen 38 Bug Screen 0.76 39 Bug Screen 0.76 0 ug IS creen ---V7r; 4T ug creen X76" 42 ug creen -U79- 10.0 1.5 4.0 0.1 4.0 4.0 43 Bug Screen X76- 10.0 1.5 4.0 0.1 4.0 4.0 44 Bug Screen -6.76- BO -3:0 -0 --T0 -0:0 -0:0 45 Bug Screen 76- 8.0 3.0 0.0 0.0 0.0 0.0 4% Bug Screen 0.76 2.5 7.5 5.0 0.1 5.0 5.0 47 B ug creen -076- -3To00-1 49 Bug creen Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 EnergyPro 3.1 By EnergySoft User Number. 1088 Job Number. 0019.00 Page:3 of 6 REMARKS • Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 I EnergyPro 3.1 By EnergySoft User Number: 1080 Job Number. 0019.00 Page:4 of 6 1 1-1 Computer Method Summary ry (Part 3 of 3) C -2R R O C C A Residence 8/9/01 'Pro�ect Trtle ate THERMAL MASS FOR HIGH MASS DESIGN Area Thick. Heat Inside Location Type (sf) (in.) Cap. Cond. Form 3 Reference R -Val. Comments Concrete, Heavyweight 932 4.00 28 0.98 n/a 2 ZONE 1 ONLY / Slab on Grade Tile in Mortar 256 025 24 0.67 n/a 0 ZONE 2 ONLY / Interior Mass Concrete, Heavyweight 256 4.00 28 0.98 n/a 0 ZONE 2 ONLY / Slab on Grade Concrete, Heavyweight 1,261 4.00 28 0.98 n/a 2 _ ZONE 2 ONLY / Slab on Grade Tile in Mortar 2,314 0.75 24 0.67 n/a 0 ZONE 3 ONLY / Interior Mass PERIMETER LOSSES F2 Insulation Type Length Factor R -Val. Depth Location / Comments Slab Perimeter 110 0.76 0.0 0 ZONE 1 ONLY Slab Perimeter 20 0.76 0.0 0 ZONE 2 ONLY _ 40 Slab Perimeter 115 0.76 0.0 0 ZONE 2 ONLY Slab Perimeter 39 0.76 0.0 0 ZONE 3 ONLY Slab Perimeter 125 0.76 0.0 0 ZONE 3 ONLY HVAC SYSTEMS Heating Equipment Minimum Distribution Type Type (furnace, heat Efficiency and Location Duct Thermostat Location / 0 pump, etc.) (AFUE/HSPF)(ducts/attic, etc.) R -Value Type Comments Central Furnace 80% AFUE Ducts in Attic 4.2 Setback ZONE 1 (Guest Bedrooms) Central Furnace 86%AFUE Ducts in Attic 4.2 Setback ZONE 2 (Master Bedroom) Central Furnace 80%AFUE Ducts in Attic 4.2 Setback ZONE 3 (Living Area) � Hydronic Piping Pipe Pipe Insul. System Name Length Diameter Thick. Cooling Equipment Minimum Duct Type (air conditioner, Efficiency Location Duct Thermostat Location / heat pump, evap. cooling) (SEER) (attic, etc) R -Value Type Comments Split Air Conditioner 14.5 SEER Ducts in Attic 4.2 Setback ZONE 1 (Guest Bedrooms) Split Air Conditioner 13.5 SEER Ducts in Attic 4.2 Setback ZONE 2 (Master Bedroom) Split Air Conditioner 13.5 SEER Ducts in Attic 4.2 Setback ZONE 3 (Living Area) WATER HEATING SYSTEMS Ratedl Tank Energy Fact! 1 Tank Insul. Water Heater Water Heater Distribution # in Input Cap. or Recovery Standby R -Value System Name Type Type Syst. (Btu/hr) (gal) Efficiency Loss (%) Ext. RHEEM HE119-130 Large Gas Recirc/Time+Temp 1 130,000 119 0.95 0.0129 0.0 1 For small gas storage (rated input <= 75000 Btu/hr), electric resistance and heat pump water heaters, list energy factor. For large gas storage water heaters (rated Input > 75000 Btu/hr), list Rated Input, Recovery Efficiency and Standby Loss. For instantaneous gas water heaters, list Rated Input, and Recovery Efficiency. REMARKS • Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 I EnergyPro 3.1 By EnergySoft User Number: 1080 Job Number. 0019.00 Page:4 of 6 1 1-1 Computer Method Summary (Part 3 of 3) C -2R R O C C A Residence 8/9/01 Project Title Date THERMAL MASS FOR HIGH MASS DESIGN Area Thick. Heat Inside Location Type (sf) (in.) Cap. Cond. Form 3 Reference R -Val. Comments Concrete, Heavyweight 257. 4.00 28 0.98 n/a 2 ZONE 3 ONLY / Slab on Grade Concrete, Heavyweight 2,314 4.00 28 0.98 n/a 0 ZONE 3 ONLY / Slab on Grade 0 0 L: 0 PERIMETER LOSSES Type HVAC SYSTEMS Heating Equipment Type (furnace, heat pump, etc.) F2 Insulation Length Factor R -Val. Depth Location / Comments Minimum Distribution Type Efficiency and Location Duct Thermostat Location / (AFUE/HSPF)(ducts/attic, etc.) R -Value Type Comments Hydronic Piping Pipe System Name Length Pipe Diameter Insul. Thick. Cooling Equipment Minimum Duct Type (air conditioner, Efficiency Location heat pump, evap. cooling) (SEER) (attic, etc,) WATER HEATING SYSTEMS Water Heater Water Heater Distribution System Name Type Type Duct Thermostat Location / R -Value Type Comments Ratedl Tank Energy Fact! 1 Tank Insul. # in Input Cap. or Recovery Standby R -Value Syst. (Btu/hr) (gal) Efficiency Loss (%) Ext. 1 For small gas storage (rated input <= 75000 Btu/hr), electric resistance and heat pump water heaters, list energy factor. For large gas storage water heaters (rated input > 75000 Btu/hr), list Rated Input, Recovery Efficiency and Standby Loss. For instantaneous gas water heaters, list Rated Input, and Recovery Efficiency. REMARKS Run Initiation Time: 08/09/01 14:20:01 Run Code: 997392001 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:5 of 6 i Computer Method Summary (Addendum) C -2R R O C C A Residence 8/9/01 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 0 0 0 • 0 r] 40 0 based on the adequacy of the special justification and documentation submitted. Plan Field The HVAC System "ZONE 1 (Guest Bedrooms)" must meet all CEC Criteria for a Zonally Controlled system serving only Sleeping Ar as. HIGH MASS Design(see C -2R) - Verify Thermal Mass: 932 sqft Covered Slab Floor, 4.00" thick at Guest Bedrooms The HVAC System "ZONE 2 (Master Bedroom)" must meet all CEC Criteria for a Zonally Controlled system serving only Sleeping Areas. HIGH MASS Design(see C-211) - Verify Thermal Mass: 256 sqft Tile in Mortar Interior Mass, 0.75" thick at Master Bedroom HIGH MASS Design(see C -2R) - Verify Thermal Mass: 256 sqft Exposed Slab Floor, 4.00" thick at Master Bedroom HIGH MASS Design(see C-211) - Verify Thermal Mass: 1261 sqft Covered Slab Floor, 4.00" thick at Master Bedroom The HVAC System "ZONE 3 (Living Area)" must meet all CEC Criteria for a Zonally Controlled system serving only Living Areas. HIGH MASS Design(see C -2R) - Verify Thermal Mass: 2314 sqft Tile in Mortar Interior Mass, 0.75" thick at Living Area HIGH MASS Design(see C -2R) - Verify Thermal Mass: 257 sqft Covered Slab Floor, 4.00" thick at Living Area HIGH MASS Design(see C-211) - Verify Thermal Mass: 2314 sqft Exposed Slab Floor, 4.00" thick at Living Area HERS Required Verification These features must be confirmed and/or tested by a certified HERS rater under the supervision of a CEC approved HERS provider. The HERS rater must document the field verification and diagnostic testing of these measures on a form CF -6R. an I Field e HVAU bystem -ZONL I (rjuest Bedrooms) -includes Refrigerant Charge and Airflow Credit (ora ce ie must provide verifification of the TXV, or measure the Refrigerant Charge and Airflow. ra er The HVAC System "ZONE 2 (Master Bedroom)" includes Refrigerant Charge and Airflow Credit (or a TXV). A certified HERS must provide verifification of the TXV, or measure the Refrigerant Charge and Airflow. rater The HVAC System "ZONE 3 wing Area)" includes Refrigerant Charge and Airflow Credit or a TXV). A certified HERS rater provide verifification of the TXV, or measure the Refrigerant Charge and Airflow. must e HVAG System(Living red is using reduced uc leakage to comply and must have diagnostic site testing o leakage performed by a certified HERS Rater. The results of the diagnostic testing must be reported on a CF -611 Form. duct Kun Initiation i ime: umutim'i 74:Lu:ul Kun (;ode: yy/3yluu9 EnergyPro 3.1 By EnergySoft User Number: 1086 Job Number. 0019.00 Page:6 of 6 0 Computer Method Summary (Part 1 of 3) C -2R R O C C A Garage 8/9/01 Project title Date 52-905 Latrobe Lane * Traditions Country Club La Quinta Projectress �1 C.M. Energy Consulting (760) 346-8014 Building Permit oc�abon Author Ielepep on1nee Computer Performance 15 an CheclUvate Field Checkluate 40 Source Energy Use Standard Proposed Compliance (kBtu/sf-yr) Design Design Margin Space Heating 4.37 2.63 1.74 Space Cooling 36.97 29.49 7.49 Domestic Hot Water 25.95 25.64 0.30 Totals � 57.76 9.53 • GENERAL INFORMATION Conditioned Floor Area: 776 Floor Construction Type:X❑ Slab Floor Building Type: Single Fam Detached ❑ Raised Floor Building Front Orientation: (West) 270 deg Number of Dwelling Units: 1.00 Total Conditioned Volume: 7,760 Number of Stories: 1 Slab Floor Area: 855 BUILDING ZONE INFORMATION # of Thermostat Vent Zone Name Floor Area Volume Units Zone Type Type Hgt. Area ZONE 1 (Garage) 776 7.760 1.00 Conditioned Setback 2 n1a Q OPAQUE SURFACES Act. Gains Type Area U -Val. Azm. Tilt Y / N Form 3 Reference Location / Comments Roof 776 0.026 0 0 ❑ C/R-2 (R.38.2x .16) ZONE 1 ONLY Wall 314 0.057 14 90❑ W-1 Wall (W.21.2x6.16) ZONE 1 ONLY Door 24 0.387 14 90 ❑ Solid Wood Door ZONE 1 ONLY . Wall 240 0.057 104 90 ElW-1Wall (W.21.2x6.16) ZONE 1 ONLY Wall 20 0.057 104 90 1:1W-2 Wall (W.21.2x6.16) ZONE 1 ONLY Wall 235 0.057 194 90 ❑ W-1 Wall ON.21.2x6.16) ZONE 1 ONLY Door 64 0.114 194 90 ❑ Insulated Garage Dr. (Wd) ZONE 1 ONLY Wall 48 0.057 194 90 ❑ W-2 Wall (W.21.2x6.16) ZONE 1 ONLY Wall 96 0.057 284 90 ❑ W-1 Wall (W.21.2x6.16) ZONE 1 ONLY Door 144 0.114 284 90 ElInsulated Garage Dr. (Wd) ZONE 1 ONLY Wall 10 0.057 284 90 ❑ W-2 Wall (W.21.2x6.16) ZONE 1 ONLY r' ❑ ❑ ❑ ❑ ❑❑ ❑❑❑❑ ❑❑ ❑❑ ❑❑ 0 E Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By Energysoft User Number. 1086 Job Number: 0019.00 Page:1 of 4 40 0 Computer Method Summary (Part 2 of 3) C -2R ROC CA Garage 8/9/01 Project Title Date U- Act. Glazing Type Location/ # Type Area Factor SHGC Azm. Tilt Comments 1 Window Left (North) 6.0 0.570 0.55 14 90 Double Default (Tnt/Air/Clad) ZONE 1 ONLY 2 Window Left (North) 6.0 0.570 0.55 14 90 Double Default (Tnt/Air/Clad) ZONE 1 ONLY Y Window Right (South) 6.0 0.570 0.55 194 90 Double Default (Tnt/Air/Clad) ZONE 1 ONLY INTERIOR AND EXTERIOR SHADING Window Overhang Left Fin Right Fin # Exterior Shade Type SHGCg�Wd- Len. Hgt. LEA REA Dist. Len. Hgt. Dist. Len. Hgt. Bug Screen 2 Bug Screen 0.76 3 Bug Screen 0.76 M — Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1088 Job Number. 0019.00 Page:2 of 4 0 0 Computer Method Summary (Part 3 of 3) C -2R ROC CA Garage 8/9/01 Project rte Date THERMAL MASS FOR HIGH MASS DESIGN Area Thick. Heat Inside Location Type (so (in.) Cap. Cond. Form 3 Reference R -Val. Comments Concrete, Heavyweight 79 4.00 28 0.98 n/a 2 ZONE 1 ONLY / Slab on Grade Concrete, Heavyweight 776 4.00 28 0.98 n/a 0 ZONE 1 ONLY / Slab on Grade PERIMETER LOSSES F2 Insulation Type Length. Factor R -Val. Depth Location / Comments Slab Perimeter - 53 ' 0.76 0.0 0 ZONE 1 ONLY Slab Perimeter 68 0.76 0.0 0 ZONE 1 ONLY HVAC SYSTEMS Heating Equipment Minimum Distribution Type Type (furnace, heat Efficiency and Location Duct Thermostat Location / pump, etc.) (AFUE/HSPF)(ducts/attic, etc.) R -Value Type Comments Split Heat Pump 7.30 HSPF Ductless / with Fan n/a Setback ZONE 1 (Garage) Hydronic Piping Pipe Pipe Insul. System Name Length Diameter Thick. Cooling Equipment Minimum Duct Type (air conditioner, Efficiency Location Duct Thermostat Location / heat pump, evap. cooling) (SEER) (attic, etc,) R -Value Type Comments Split Heat Pump 11.0 SEER Ductless n/a Setback ZONE 1 (Garage) WATER HEATING SYSTEMS Ratedl Tank Energy Fact? 1 Tank Insul. Water Heater Water Heater Distribution # in Input Cap. or RecoveryStandby R -Value System Name Type Type Syst. (Btu/hr) (gal) Efficiency Loss (%) Ext. Standard Gas 50 gal or Less Small Gas Standard 1 40,000 50 0.53 n/a 12 0 1 For small gas storage (rated input <= 75000 Btu/hr), electric resistance and heat pump water heaters, list energy factor. For large gas storage water heaters (rated input > 75000 Btu/hr), list Rated Input, Recovery Efficiency and Standby Loss. For instantaneous gas water heaters, list Rated Input, and Recovery Efficiency. REMARKS Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:3 of 4 Computer Method Summary (Addendum) C -2R R O CCA Garage 8/9/01 Project Title Date Special Features and Modeling Assumptions A 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 Is 10 0 I.— — •..` •.•.�4---J -- •..` ter-- Ja...... . a,a.{... a..{. YVHY...c..{QU V.1 . 11111acu. The DHW System "Standard Gas 50 gal or Less" Energy Factor = 0.530. An EF below 0.58 requires an R-12 External Blanke . HIGH MASS Design(see C -2R) - Verify Thermal Mass: 79 sqft Covered Slab Floor, 4.00" thick at Garage HIGH MASS Design(see C -2R) - Verify Thermal Mass: 776 sqft Exposed Slab Floor, 4.00" thick at Garage HERS Required Verification These features must be confirmed and/or tested by a certified HERS rater under the supervision of a CEC approved HERS provider. The HERS rater must document the field verification and diagnostic testing of these measures on a form CF -6R. an Field Run InitiationTime: un Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 PageA of 4 Computer Method Summary (Part 1 of 3) C -2R R O CCA Garage 8/9/01 Project Date 52-905 Latrobe Lane * Traditions Country Club La Quinta vrolect Aaaress 0 C.M. Energy Consulting (760) 346-8014 ocD u�afion Author Te ep one Computer Performance_ 15 omp lance e o ac age or ompu er ' im few Source Energy Use Standard Proposed Compliance (kBtu/sf-yr) Design Design Margin 0 6 0 a 0 Space Heating Space Cooling Domestic Hot Water Totals 4.37 2.63 1.74 36.97 29.49 7.49 25.95 25.64 0.30 Insulated Garage Dr. (Wd) 57.76 Wall Conditioned Floor Area: Building Type: Building Front Orientation: Number of Dwelling Units: Number of Stories: 776 Single Fam Detached (West) 270 deg 1.00 1 BUILDING ZONE INFORMATION Zone Name Floor Area Volume Building ermi Plan CrieclMate Reld Checkmate Floor Construction Type:X❑ Slab Floor ❑ Raised Floor Total Conditioned Volume: 7,760 Slab Floor Area: 855 # of Thermostat Vent Units Zone Type Type Hgt. Area ZONE 1 (Garage) 776 7.760 1.00 Conditioned Setback 2 n/a OPAQUE SURFACES Solar Act. Gains Type Area U -Val. Azm. Tilt Y / N Form 3 Reference Location / Comments Roof Wall Door Wall Wall Wall Door 776 314 24 240 20 235 64 0.026 0.057 0.387 0.057 0.057 0.057 0.114 0 14 14 104 104 194 194 0 90 90 90 90 90 90 ❑ ❑ ❑ ❑ ❑ ❑ ❑ C/11-2 (R.38.2x_.16) W-1 Wall (W.21.2x6.16) Solid Wood Door W-1 Wall (W.21.2x6.16) W-2 Wall (W.21.2x6.16) W-1 Wall (W.21.2x6.16) ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY ZONE 1 ONLY Insulated Garage Dr. (Wd) ZONE 1 ONLY Wall 48 0.057 194 90 ❑ W-2 Wall (W.21.2x6.16) ZONE 1 ONLY Wall 96 0.057 284 90 ❑ W-1 Wall (W.21.2x6.16) ZONE 1 ONLY Door 144 0.114 284 90 ❑ Insulated Garage Dr. (Wd) ZONE 1 ONLY Wall 10 0.057 284 90 ❑ W-2 Wall (W.21.2x6.16) ZONE 1 ONLY ❑ ❑ 1-1 ❑ ❑ F1 ❑❑ F ❑❑ F1 1:1 El Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:1 of 4 Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:2 of 4 z • Computer Method Summary (Part 2 of 3) C -2R ROC CA Garage 8/9/01 Project e a e • Ll- Act. Glazing Type Location/ # Type Area Factor SHGC Azm. Tilt Comments 1 Window Left (North) 6.0 0.570 0.55 14 90 Double Default (Tnt/Air/Clad) ZONE 1 ONLY 2 Window Left (North) 6.0 0.570 0.55 14 90 Double Default (Tnt/Air/Clad) ZONE 1 ONLY 3 Window Right (South) f 6.0 0.570 0.55 194 90 Double Default (Tnt/Air/Clad) _ ZONE 1 ONLY i — r — INTERIOR AND EXTERIOR SHADING Window Overhang Left Fin Right Fin # Exterior Shade Type SHGCgra Len. Hgt. xt. xt. Dist. Len. R gt. Dist. Len. Hgf ug creep 0.75 2 Bug Screen 0.76 3 Bug Screen 0.76 Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:2 of 4 z • e eret— of ce North is14.1U.55 from Irue North. Tnis bimulation run has been rotated accordingly 0 Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1008 Job Number: 0019.00 Page:3 of 4 0 Computer Method Summary (Part 3 of 3) C -2R ROC CA Garage 8/9/01 Project Title Date THERMAL MASS FOR HIGH MASS DESIGN Area Thick. Heat Inside Location Type (sf) (in.) Cap. Cond. Form 3 Reference R -Val. Comments Concrete, Heavyweight 79 4.00 28 0.98 n/a 2 ZONE 1 ONLY / Slab on Grade Concrete, Heavyweight 776 4.00 28 0.98 n/a 0 ZONE 1 ONLY / Slab on Grade PERIMETER LOSSES F2 Insulation Type Length Factor R -Val. Depth Location / Comments Slab Perimeter 53 0.76 0.0 0 ZONE 1 ONLY Slab Perimeter 68 0.76 0.0 0 ZONE 1 ONLY HVAC SYSTEMS Heating Equipment Minimum Distribution Type Type (furnace, heat Efficiency and Location Duct Thermostat Location / pump, etc.) (AFUE/HSPF)(ducts/attic, etc.) R -Value Type Comments Split Heat Pump 7.30 HSPF Ductless / with Fan n/a Setback ZONE 1 (Garage) Hydronic Piping Pipe Pipe Insul. System Name Length Diameter Thick. Cooling Equipment Minimum Duct Type (air conditioner, Efficiency Location Duct Thermostat Location / heat pump, evap. cooling) (SEER) (attic, etc,) R -Value Type Comments Split Heat Pump 11.0 SEER Ductless n/a Setback ZONE 1 (Garage) WATER HEATING SYSTEMS Ratedl Tank Energy Fact? 1 Tank Insul. Water Heater Water Heater Distribution # in Input Cap. or Recovery Standby R -Value System Name Type Type Syst. (Btu/hr) (gal) Efficiency Loss (%) Ext. Standard Gas 50 gal or Less Small Gas Standard 1 40,000 50 0.53 n/a 12 1 For small gas storage (rated input <= 75000 Btu/hr), electric resistance and heat pump water heaters, list energy factor. For large gas storage water heaters (rated input > 75000 Btu/hr), list Rated Input, Recovery Efficiency and Standby Loss. For instantaneous gas water heaters, list Rated Input, and Recovery Efficiency. L REMARKS e eret— of ce North is14.1U.55 from Irue North. Tnis bimulation run has been rotated accordingly 0 Run Initiation Time: 08/09/01 14:20:21 Run Code: 997392021 EnergyPro 3.1 By EnergySoft User Number. 1008 Job Number: 0019.00 Page:3 of 4 0 Computer Method Summary (Addendum) C -2R R O CCA Garage 8/9/01 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 Iaacu un anc aucyuaa-r V: 110 QP=u 0 iu4NL wuus: ON uuuu:umnauu:I auunnwcu. The DHW System "Standard Gas 50 gal or Less" Energy Factor = 0.530. An EF below 0.58 requires an R-12 External Blanke . HIGH MASS Design(see C-211) - Verify Thermal Mass: 79 sgft Covered Slab Floor, 4.00" thick at Garage HIGH MASS Design(see C -2R) - Verify Thermal Mass: 776 sgft Exposed Slab Floor, 4.00" thick at Garage HERS Required Verification These features must be confirmed and/or tested by a certified HERS rater under the supervision of a CEC approved HERS ...-...:d-.. Tl.-. LIGOQ ...•-._ .......• d .............• •a.,, a..:A .�s:--•0-- --J -.:-----•:_ •__•:__ _� a_--- ----•---- -- - `-- •.� ter. V1 WVI Of. nu IILI�V gul-I 918- U-119WIlL URS 1161u Fv_ III%-aUVll allu ulaWNIVDUa- IGJUIIa VI allaaa: IIICa.PUICD VII a IVIIII N6,17-UM.an e i • • a • Run InitiationTime: un Code: EnergyPro 3.1 By EnergySoft User Number: 1086 Job Number. 0019.00 Page:4 of 4 0 11 11 0 C` 10 0 0 0 PROPOSED CONSTRUCTION ASSEMBLY ENV -3 I R O C C A Residence 1 8/9/01 SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM ASSEMBLY NAME C/R-2 (R.38.2x_.16) Roofing, Asbestos -Cement Shingles 2 Membrane, Vapor -Permeable Felt ASSEMBLY Floor Plywood 4 TYPE Wail (check one) 5 WQ Ceiling / Roof Gypsum or Plaster Board W 0.39 8 WFRAMING MATERIAL yy� 1.39 z p % FRAMING o 10 �o Framing % 0.610 41.19 15% (16" o.c. Wall) 12% (24" o.c. Wall) 10% (16" o.c. Floor/Ceil.) SKETCH OF ASSEMBLY 7% (24" o.c. Floor/Ceil.) SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM 1 Roofing, Asbestos -Cement Shingles 2 Membrane, Vapor -Permeable Felt 3 Plywood 4 Air Space 5 Insulation, Mineral Fiber, R-38 6 Gypsum or Plaster Board 7 0.39 8 3.86 9 1.39 2.60 INSIDE SURFACE AIR FILM SUBTOTA R -VALUE THICK- NESS (in.) FRAMING ❑ ❑ ❑ ® ❑ El El 0.170 0.250 0.010 0.625 2.000 1.500 0.625 0.800 11.880 38.0001 11.385 SUBTOTA R -VALUE CAVITY R -VALUE (Rc) WOOD FRAME R -VALUE 0.170 0.170 0.2101 0.210 0.060 0.060 0.775 0.775 0.800 11.880 38.0001 11.385 0.562 0.562 0.39 1.36 3.86 0.36 1.39 2.60 0.610 0.610 41.19 25.65 'HEAT CAPACITY (Optional) WALL WEIGHT (lbs/sf) SPECIFIC HEAT (Btu/F-Ib) HC (A X B) (Btu/F-sf) = 0.026 1 / Rc_ o 1 (Fr /o / 100) 2.50 0.24 0.60 0.06 0.35 0.02 1.77 0.29 0.51 3.49 0.39 1.36 3.86 0.36 1.39 2.60 0.26 0.68 14.3 TOTAL HC 4.6 RG Rr *NOTE: Weight and Specific Heat values for materials penetrated by wood framing include the effects of the framing members. [ 0.0243 X 0.90 + r 0.0390 X 0.10 = 0.026 1 / Rc_ o 1 (Fr /o / 100) L 1 / Rf Fr% / 100 ASSEMBLY U -VALUE EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:1 of 5 0 • r 0 • • 0 • 0 0 PROPOSED CONSTRUCTION ASSEMBLY ENV -3 R O C C A Residence 1 8/9/01 SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM ASSEMBLY NAME C/R-3 (R.38.2x_.16) Roofing, Asbestos -Cement Shingles 2 Membrane, Vapor -Permeable Felt ASSEMBLY Floor Plywood 4 TYPE Wall (check one) 5 W� Ceiling / Roof 0.51 W 0.36 8 NFRAMING MATERIAL yy 0.68 INSIDE SURFACE AIR FILM 0.610 O FRAMING % 0 10 ° �o Framing 15% (16" o.c. Wall) 12% (24" o.c. Wall) 10% (16" o.c. Floor/Ceil.) 10,8 SKETCH OF ASSEMBLY 7% (24" o.c. Floor/Cell.) SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM 1 Roofing, Asbestos -Cement Shingles 2 Membrane, Vapor -Permeable Felt 3 Plywood 4 Insulation, Mineral Fiber, R-38 5 Gypsum or Plaster Board 6 0.51 7 0.36 8 2.60 9 0.68 INSIDE SURFACE AIR FILM SUBTOTA R -VALUE THICK- NESS (in.) FRAMING ❑ ❑ ❑ [ ❑ D 0.170 0.250 0.010 0.625 1.500 0.625 0.775 38.000 11.385 0.562 0.562 SUBTOTA R -VALUE CAVITY R -VALUE (Rc) WOOD FRAME R -VALUE 0.170 0.170 0.210 0.210 0.060 0.060 0.775 0.775 38.000 11.385 0.562 0.562 0.51 3.861 0.36 1.39 2.60 0.26 0.68 0.610 0.610 40.39 13.77 *HEAT CAPACITY (Optional) WALL WEIGHT (lbs/sf) SPECIFIC HEAT (Btu/F-Ib) HC (A X B) (Btu/F-sf) 1 / Rc 1 - (Fr -/6 /100) 2.50 0.24 0.60 0.06 0.35 0.02 1.77 0.29 0.51 3.861 0.36 1.39 2.60 0.26 0.68 10,8 TOTAL HC 3.2 RG RF 'NOTE: Weight and Specific Heat values for materials penetrated by wood framing include the effects of the framing members. [ .0.0248 X 0.90 + 0.0726 X 1 / Rc 1 - (Fr -/6 /100) 1 / Rf Fr% / 100 ASSEMBLY U -VALUE EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:2 of 5 I • • • • • • • • 0 • 0 PROPOSED CONSTRUCTION ASSEMBLY ENV -3 R O C C A Residence 1 8/9/01 CL)MPUNENT DESCRIPTION DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM ASSEMBLY NAME W-1 Wall (W.21.2x6.16) Stucco 2 Membrane, Vapor -Permeable Felt ASSEMBLY Floor Plywood 4 TYPE Wall (check one) 5 WW Ceiling / Roof 0.31 W 0.37 s NFRAMING MATERIAL yy 0.68 INSIDE SURFACE AIR FILM 0.680 0 O FRAMING % 0 15 ° �o Framing 15% (16" o.c. Wall) 12% (24" o.c. Wall) 10% (16" o.c. Floor/Ceil.) 14.8 SKETCH OF ASSEMBLY 7% (24" o.c. Floor/Ceil.) SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM 1 Stucco 2 Membrane, Vapor -Permeable Felt 3 Plywood 4 Insulation, Mineral Fiber, R-21 5 Gypsum or Plaster Board 6 0.31 7 0.37 s 2.60 s 0.68 INSIDE SURFACE AIR FILM SUBTOTA R -VALUE THICK- NESS (in.) FRAMING ❑ ❑ ❑ ❑ El 0.170 0.875 0.010 0.375 5.500 0.625 0.465 21.0001 5.445 0.562 0.562 SUBTOTA R -VALUE CAVITY R -VALUE (Rc) WOOD FRAME R -VALUE 0.170 0.170 0.175 0.175 0.060 0.060 0.465 0.465 21.0001 5.445 0.562 0.562 0.31 2.63 0.37 0.98 2.60 0.26 0.68 0.680 0.680 23.11 7.56 'HEAT CAPACITY (Optional) WALL WEIGHT (lbs/sf) SPECIFIC HEAT (Btu/F-Ib) HC (A X B) (Btu/F-sf) 0.15 1 / Rc 8.46 0.20 1.69 0.06 0.35 0.02 1.06 0.29 0.31 2.63 0.37 0.98 2.60 0.26 0.68 14.8 TOTAL HC 3.7 RG Ri *NOTE: Weight and Specific Heat values for materials penetrated by wood framing include the effects of the framing members. EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:3 of 5 [ 0.0433 X 0.85 ] + C 0.1323 X 0.15 1 / Rc 1 / Rf Fr% / 100 ASSEMBLY U -VALUE EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:3 of 5 0 • i • • 0 • 9 • PROPOSED CONSTRUCTION ASSEMBLY ENV -3 R O C C A Residence 1 8/9/01 SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM ASSEMBLY NAME W-2 Wall (W.21.2x6.16) Gypsum or Plaster Board 2 Insulation, Mineral Fiber, R-21 ASSEMBLY Floor Gypsum or Plaster Board 4 TYPE Wall (check one) 5 WQ Ceiling / Roof 0.68 W 8 H FRAMING MATERIAL W� INSIDE SURFACE AIR FILM 0.680 z O FRAMING % 15 ° �o Framing % 15% (16" o.c. Wall) 12% (24" o.c. Wall) 10% (16" o.c. Floor/Ceil.) 7,8 SKETCH OF ASSEMBLY 7% (24" o.c. Floor/Cell.) SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM 1 Gypsum or Plaster Board 2 Insulation, Mineral Fiber, R-21 3 Gypsum or Plaster Board 4 0.37 5 2.60 6 0.68 7 8 9 INSIDE SURFACE AIR FILM SUBTOTA R -VALUE THICK- NESS (in.) FRAMING ❑ [XJ ❑ ❑ ❑ ❑ ❑ 0.170 0.625 5.500 0.625 5.445 0.562 0.562 0.37 0.98 2.60 0.26 SUBTOTA R -VALUE CAVITY R -VALUE (Rc) WOOD FRAME R -VALUE 0.170 0.170 0.562 0.562 21.000 5.445 0.562 0.562 0.37 0.98 2.60 0.26 0.68 0.6801 0.680 22.98 7.42 'HEAT CAPACITY (Optional) WALL WEIGHT (lbs/sf) SPECIFIC HEAT (Btu/F-Ib) HC (A X B) (Btu/F-sf) 1 / Rc 1 - (Fr% / 100) 2.60 0.26 0.68 2.63 0.37 0.98 2.60 0.26 0.68 7,8 TOTAL HC 2.3 RG mr *NOTE: Weight and Specific Heat values for materials penetrated by wood framing include the effects of the framing members. [ 0.0435 X 0.85 ] + I 0.1348 X 0.15 1 / Rc 1 - (Fr% / 100) L 1 / Rf Fr% / 100 ASSEMBLY U -VALUE �EnergyPro 3.1 By EnergySoft3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:4 of 5 0 • F 0 0 • • • 0 PROPOSED CONSTRUCTION ASSEMBLY ENV -3 I R O C C A Residence 1 8/9/01 SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM ASSEMBLY NAME jC/R-1 (R.38.2x_.16) Roofing, Built -Up 2 Membrane, Vapor -Permeable Felt ASSEMBLY Floor Insulation, Cellular Polyisocyanurate 4 TYPE Wall (check one) 5 LU Ceiling I Roof Gypsum or Plaster Board W 0.29 8 yFRAMING MATERIAL yy� 1.39 Z p FRAMING o % 10 �o Framing % 0.610 47.71 15% (16" o.c. Wall) 12% (24" o.c. Wall) 10% (16" o.c. Floor/Ceil.) SKETCH OF ASSEMBLY 7% (24" o.c. Floor/Ceil.) SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM 1 Roofing, Built -Up 2 Membrane, Vapor -Permeable Felt 3 Insulation, Cellular Polyisocyanurate 4 Plywood 5 Insulation, Mineral Fiber, R-38 6 Gypsum or Plaster Board 7 0.29 8 3.86 9 1.39 2.60 INSIDE SURFACE AIR FILM SUBTOTA R -VALUE THICK- NESS (in.) FRAMING ❑ ❑ ❑ ❑ ® ❑ El El 0.170 0.375 0.010 1.000 0.625 1.500 0.625 0.775 0.775 38.0001 11.385 SUBTOTA R -VALUE CAVITY R -VALUE (Rc) WOOD FRAME R -VALUE 0.170 0.170 0.3301 0.330 0.060 0.060 7.200 7.200 0.775 0.775 38.0001 11.385 0.562 0.562 0.29 0.51 3.86 0.36 1.39 2.60 0.6101 0.610 47.71 21.09 *HEAT CAPACITY (Optional) WALL WEIGHT (lbs/sf) SPECIFIC HEAT (Btu/F-Ib) HC (A X B) (Btu/F-sf) 1 / Rc 1 - (FF-/. / 1 00 2.19 0.35 0.77 0.06 0.35 0.02 0.17 0.22 0.04 1.77 0.29 0.51 3.86 0.36 1.39 2.60 0.26 0.68 10,6 TOTAL HC 3.4 RG RT *NOTE: Weight and Specific Heat values for materials penetrated by wood framing include the effects of the framing members. [ 0.0210 X 0.90 ] + 0.0474 X 0.10 1 / Rc 1 - (FF-/. / 1 00 1 / Rf Fr% / 100 ASSEMBLY U -VALUE EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page;5 of 5 0 • 0 0 0 0 • 0 • 0 PROPOSED CONSTRUCTION ASSEMBLY ENV -3 R O CCA Garage 1 8/9/01 FRAMING SUBTOTA R -VALUE DESCRIPTION WOOD FRAME R -VALUE OUTSIDE SURFACE AIR FILM ASSEMBLY NAME jC/R-2 (R.38.2x_.16) Roofing, Asbestos -Cement Shingles 2 Membrane, Vapor -Permeable Felt ASSEMBLY Floor Plywood 4 TYPE Wall (check one) 5 W Ceiling / Roof Gypsum or Plaster Board O ILL! 0.39 8 0 FRAMING MATERIAL yy 1.39 z O FRAMING o % 10 �o Framing % 0.610 41.19 15% (16" o.c. Wall) 12% (24" o.c. Wall) 10% (16" o.c. Floor/Ceil.) SKETCH OF ASSEMBLY 7% (24" o.c. Floor/Ceil.) FRAMING SUBTOTA R -VALUE DESCRIPTION WOOD FRAME R -VALUE OUTSIDE SURFACE AIR FILM 1 Roofing, Asbestos -Cement Shingles 2 Membrane, Vapor -Permeable Felt 3 Plywood 4 Air Space 5 Insulation, Mineral Fiber, R-38 6 Gypsum or Plaster Board 7 0.39 8 3.86 9 1.39 2.60 INSIDE SURFACE AIR FILM FRAMING SUBTOTA R -VALUE CAVITY R -VALUE (Rc) WOOD FRAME R -VALUE 0.170 0.170 0.210 0.210 0.060 0.060 0.775 0.775 0.800 11.880 38.0001 11.385 0.562 0.562 0.39 1.36 3.86 0.36 1.39 2.60 0.610 0.610 41.19 25.65 'HEAT CAPACITY (Optional) WALL WEIGHT (lbs/sf) SPECIFIC HEAT (Btu/F-Ib) HC (A X B) (Btu/F-sf) X 0.10 1 / Rc 2.50 0.24 0.60 0.06 0.35 0.02 1.77 0.29 0.51 3.49 0.39 1.36 3.86 0.36 1.39 2.60 0.26 0.68 14.31 TOTAL HC 4.6 mu KT 'NOTE: Weight and Specific Heat values for materials penetrated by wood framing include the effects of the framing members. EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:1 of 3 [ 0.0243 X 0.90 + [ 0.0390 X 0.10 1 / Rc 1 - (Fr% /100)— 1 / Rf Fr% / 100 ASSEMBLY U -VALUE EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:1 of 3 0 • 0 11 • • 0 • 0 0 PROPOSED CONSTRUCTION ASSEMBLY ENV -3 I ROC CA Garage 1 8/9/01 SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM ASSEMBLY NAME W-1 Wall (W.21.2x6.16) Stucco 2 Membrane, Vapor -Permeable Felt ASSEMBLY Floor Plywood 4 TYPE Wall (check one) 5 WO Ceiling / Roof 0.31 W 0.37 8 NFRAMING MATERIAL yy� 0.68 INSIDE SURFACE AIR FILM 0.680 z p FRAMING % ° 15 �o Framing % 15% (16" o.c. Wall) 12% (24" o.c. Wall) 10% (16" o.c. Floor/Cell.) 14.8 SKETCH OF ASSEMBLY 7% (24" o.c. Floor/Cell.) SUBTOTA R -VALUE DESCRIPTION FRAMING OUTSIDE SURFACE AIR FILM 1 Stucco 2 Membrane, Vapor -Permeable Felt 3 Plywood 4 Insulation, Mineral Fiber, R-21 5 Gypsum or Plaster Board 6 0.31 7 0.37 8 2.60 9 0.68 INSIDE SURFACE AIR FILM SUBTOTA R -VALUE THICK- NESS (In.) FRAMING ❑ ❑ ❑ pq ❑ El El 0.170 0.875 0.010 0.375 5.500 0.625 0.465 21.000 5.445 0.562 0.562 SUBTOTA R -VALUE CAVITY R -VALUE (Rc) WOOD FRAME R -VALUE 0.170 0.170 0.175 0.175 0.060 0.060 0.465 0.465 21.000 5.445 0.562 0.562 0.31 2.631 0.37 0.98 2.60 0.26 0.68 0.680 0.680 23.11 7.56 *HEAT CAPACITY (Optional) WALL WEIGHT (lbs/sf) SPECIFIC HEAT (Btu/F-Ib) HC (A X B) (Btu/F-sf) 1 / Rc 1 - (Fr /o / 100) 8.46 0.20 1.69 0.06 0.35 0.02 1.06 0.29 0.31 2.631 0.37 0.98 2.60 0.26 0.68 14.8 TOTAL HC 3.7 RG KT *NOTE: Weight and Specific Heat values for materials penetrated by wood framing include the effects of the framing members. [ 0.0433 X 0.85-+ [ 0.1323 X 1 / Rc 1 - (Fr /o / 100) 1 / Rf Fr% / 100 ASSEMBLY U -VALUE MMENTS EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Pagel of 3 I PROPOSED CONSTRUCTION ASSEMBLY ENV -3 PROJECT NAME DATE R O C C A Garage 8/9/01 ::] r E W DESCRIPTION p W 1 O CO) Insulation, Mineral Fiber, R-21 3 N 4 Z O 2.60 SKETCH OF ASSEMBLY ASSEMBLY NAME DESCRIPTION W-2 Wall (W.21.2x6.16) OUTSIDE SURFACE AIR FILM 1 Gypsum or Plaster Board 2 Insulation, Mineral Fiber, R-21 3 Gypsum or Plaster Board 4 0.37 5 2.60 6 FRAMING MATERIAL yy FRAMING % 6 9 INSIDE SURFACE AIR FILM ASSEMBLY NAME THICK- NESS (in.) W-2 Wall (W.21.2x6.16) ASSEMBLY 0.170 0.625 Floor TYPE (check one) 5.445 0.562 Wall 0.37 0.98 2.60 Ceiling / Roof FRAMING MATERIAL yy FRAMING % 15% Framing % • SUBTOTAL R -VALUE THICK- NESS (in.) FRAMING ❑ ❑ El El ❑ El 0.170 0.625 5.500 0.625 5.445 0.562 0.562 0.37 0.98 2.60 0.26 • SUBTOTAL R -VALUE CAVITY R -VALUE (Rc) WOOD FRAME R -VALUE 0.170 0.170 0.562 0.562 21.000 5.445 0.562 0.562 0.37 0.98 2.60 0.26 0.68 0.680 0.680 22.98 7.42 15% (16" o.c. Wall) 12% (24" o.c. Wall) 10% (16" o.c. Floor/Ceil.) T% (24" o.c. Floor/Ceil.) *HEAT CAPACITY (Optional) WALL WEIGHT (lbs/sf) SPECIFIC HEAT (Btu/F-Ib) HC (A X B) (Btu/F-sf) 0.15 0.0435 2.60 0.26 0.68 2.63 0.37 0.98 2.60 0.26 0.68 7,8 TOTAL HC 2.3 KC Kr *NOTE: Weight and Specific Heat values for materials penetrated by wood framing include the effects of the framing members. • =E EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:3 of 3 X 0.85 + 0.1348 X 0.15 0.0435 1 / Rc 1 - (Fr -/6 /100)— L 1 / Rf Fr% 1100 ASSEMBLY U -V EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:3 of 3 • * C.M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 * 72-925 Fred Waring Dr. #204 Palm Desert, Ca. 92260 s • A CUSTOM RESIDENCE for: ROCCA • 52-905 Latrobe Lane * Traditions Country Club — La Quinta , California by MC FADDEN / MC INTOSH ARCHITECTS Square Footage • Attic Area Total Perimeter • 0 Floor Tile= — R -Value: Walls Ceiling GLASS AREAS See Accompanying Glazing Takeoffs Total Glazing Area= 22'3. fS or?4•0 % Tile Edge= Carpet Edge= Weighted Average Ceiling Height= 24� @. �0, CON13"M 1 STRUCTION ASSEMBLIES W- (Ext)= `135. 5 W-2 (Garage)= W 3 (Veneer)= --- S.C. Doors= --- C/R-1 (Flat)= e C/R-2 (Vent)= -Io2- C/R-3 (Vault)= 2�J Skylights= IF -'WALLS =CEILING j • * C. M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 * 72-925 Fred Waring Dr. #204 Palm Desert, Co. 92260 • G1 A Z I N G A R E A S * SUBSTANTIALLY SHADED—OVERHANG LENGTH HAS BEEN SET TO GLASS HEIGHT AS OVERHANG EXCEEDS C.E.C. RESTRICTIONS 0 North11F-East • • • - • • symbols size sq. ft. overhang III symbols size sq. ft. overhang w-1= W-2= G3 '�P = F -P -r -7V -Y- \71 -r.WR W-1= 42 VO-2= 56 • * C.M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 * 72-925 Fred Waring Dr. #204 Palm Desert, Co. 92260 • GLAZI NG AREAS * SUBSTANTIALLY SHADED—OVERHANG LENGTH HAS BEEN SET TO GLASS HEIGHT AS OVERHANG EXCEEDS C.E.C. RESTRICTIONS � South � _ est symbols size sq. ft. overhang I symbols size sq. ft. overhang 140 20 • ata. s - ►A I • ( W-1= W-2= 0 VI -2= I * C. M. ENERGY CONSULTING * . Tel: (760) 346-8014 Fax (760) 568-0963 { * 72-925 Fred Waring Dr. #204 Palm Desert, Co. 92260 • A CUSTOM RESIDENCE for: ROCCA 52-905 Latrobe Lane * Traditions Country Club — La Quinta , California by MC FADDEN / MC INTOSH ARCHITECTS Square Footage R—Value: Attic Area Walls � 21 Total Perimeter 13A �_C,:-N9 Ceiling • GLASS AREAS 0 • • See Accompanying Glazing Takeoffs I Total Glazing Area= 2315 or '.l (--7 -. Floor Tile= SSG Tile Edge= - G Carpet Edge= 115-15 Weighted Average Ceiling Height= "q5 WALLS CEILING \ &-A6 1 / !S! --7 CONSTRUCTION ASSEMBLIES W-1 (Ext)= W-2 (Garage)= 5G W-3 (Veneer)= _ S.C. Doors= _ C/R-1 (Flat)= kocD C/R-2 (Vent)= Soo C/R-3 (Vault)= 411-7 Skylights= WALLS CEILING • * C.M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 * 72-925 Fred Waring Dr. #204 Palm Desert, Ca. 92260 G L A Z I N G A R E A S * SUBSTANTIALLY SHADED—OVERHANG LENGTH HAS BEEN SET TO GLASS HEIGHT AS OVERHANG EXCEEDS C.E.C. RESTRICTIONS • North East symbols size sq. ft. oyerfiang symbols size sq. ft. overhang • •C • • I X \' ( --k) ---jA- --- • 1►�-1= 'i W-2= W-1= W-2= • * C.M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 # * 72-925 Fred Waring Dr. #204 Palm Desert, Co. 92260 �1J . G -LAZING AREAS * SUBSTANTIALLY SHADED—OVERHANG LENGTH HAS BEEN SET TO GLASS HEIGHT AS OVERHANG EXCEEDS C.E.C. RESTRICTIONS • South _ est symbols size sq. ft. overhang symbols size sq. ft. overhang • • • • • •( N— 1= W-2= W-2= 'SG r-, L] r7 ENERGY CONSULTING # * Tel: (760) 346-8014 Fax (760) 568-0963 ` * 72-925 Fred Waring Dr. #204 Palm Desert, Co. 92260 A- A CUSTOM RESIDENCE for: ROCCA 52-905 Latrobe Lane * Traditions Country Club — La Quinta , California by MC FADDEN / MC INTOSH ARCHITECTS Square Footage 2S� R -Value: Attic Area Walls Total Perimeter 6g Ceiling 38 GLASS AREAS i - See Accompanying Glazing Takeoffs Total Glazing Area= or;Llo:-I % IFloor Tile= Tile Edge= ► 2.5 Carpet 'Edge= --N Weighted Average Ceiling Height= l .3 W-2 (Garage)= 154 C/R-2 (Vent)= 2LaAl W-3 (Veneer)= — C/R-3 (Vault)= -- S.C. Doors= Skylights= X WALLS__]F-CEILING 2\6eA a55 1 CONSTRUCTION ASSEMBLIES VIF-1 (Ext)= ((.'.4-2 C/R-1 (Flat)= 3P--,1 W-2 (Garage)= 154 C/R-2 (Vent)= 2LaAl W-3 (Veneer)= — C/R-3 (Vault)= -- S.C. Doors= Skylights= X WALLS__]F-CEILING • r * C.M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 * 72-925 Fred Waring Dr. #204 Palm Desert, Ca. 92260 GLAZIN G AREAS * SUBSTANTIALLY SHADED—OVERHANG LENGTH HAS BEEN SET TO GLASS HEIGHT AS OVERHANG EXCEEDS C.E.C. RESTRICTIONS • North East symbols size sq. ft. overhang >1 —v -G o �1 • E • symbols size sq. ft. overhang W- W— 2= -W--2= AA 0 \ f� -�(T 5y" * 0 * C. M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 r * 72-925 Fred Waring Dr. #204 Palm Desert, Co. 92260 t G L A Z I N G AREAS * SUBSTANTIALLY SHADED—OVERHANG LENGTH HAS BEEN SET TO GLASS HEIGHT AS OVERHANG EXCEEDS C.E.C. RESTRICTIONS • South West symbols size sq. ft. overhang symbols size . sq. ft. overhang U a Gas 11-2= 0 (D -.;c. 3 '- L l X 1(7 = 1715 S 6 x a �FD P F C. FF fF �L F >10, V, FF VIS 1= *-2= A • C. M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 72-925 Fred Waring Dr. #204 Palm Desert, Co. 92260 A CUSTOM RESIDENCE for: ROCCA 52-905 Latrobe Lane * Traditions Country Club — La Quinta , California by MC FADDEN / MC INTOSH ARCHITECTS • i C] • Square Footage R—Value: Attic Area Walls Total Perimeter Ceiling GLASS AREAS See Accompanying Glazing Takeoffs Total Glazing Area= :;'.46 or 2 2. IFloor Tile= 6 -,::1-1 I Tile Edge= Carpet Edge= 573 Weighted Average Ceiling Height= CONSTRUCTION ASSEMBLI ES W-1 (Ext)= 1 o=t 3 W-2 (Garage)= W-3 (Veneer)= _ S.C. Doors= C/R-1 (Flat)= -- C/R-2 (Vent)= C/R-3 (Vault)= Skylights= — WALLS CEILING • 4p * C.M. ENERGY CONSULTING * tel: (760) 346-8014 Fax (760) 568-0963 * 72-925 Fred Waring Dr. #204 Palm Desert, Co. 92260 GLAZI-NG AREAS * SUBSTANTIALLY SHADED—OVERHANG LENGTH HAS BEEN SET TO GLASS HEIGHT AS OVERHANG EXCEEDS C.E.C. RESTRICTIONS North East symbols size sq. ft. overhang symbols size sq. ft. overhang i • 0 ;a! vl-1= :2- -Ab W-2= W-2= 2+0 • * C. M. ENERGY CONSULTING * Tel: (760) 346-8014 Fax (760) 568-0963 * 72-925 Fred Waring Dr. #204 Palm Desert, Ca. 92260 • GLAZING AREAS * SUBSTANTIALLY SHADED—OVERHANG LENGTH HAS BEEN SET TO GLASS HEIGHT AS OVERHANG EXCEEDS C.E.C. RESTRICTIONS .r South 11F West v 10 C� 0 symbols size sq. ft. overhang symbols size sq. ft. overhang 1M -2=`f-1 S dl� 1= `24Za W-2= 16 Table 1-D Default Fenestration Product U -Factors M—� i 6-MaCr o o UR mg a ane ou a ane Frame Type' Product Type U -Factor U -Facto? Metal Operable 1.28 0.87 Metal Fixed 1.19 0.72 Metal Greenhouse/Garden window 2.26 1.40 Metal Doors 1.25 0.85 Metal Skylight 1.72 0.94 Metal, erma rea Operable Metal, Thermal Break Fixed 0.60 Metal, Thermal Break Greenhouse/Garden window 1.12 Metal, Thermal Break Doors 0.64 Metal, Thermal Break Skylight 0.80 on- e a perable 0.99 Q,60 Non -Metal ® Fixed 1.04 0.57 Non -Metal Greenhouse/Garden window 0.99 0.55 Non -Metal Doors 1.94 1.06 Non -Metal Skylight 1.47 1 0.68 ' Metal includes any field -fabricated product with metal cladding. Non-metal framed fenestration products with metal Gadding must add 0.04 to the listed U -factor. Non -Metal frame types can include metal fasteners, hardware, and door thresholds. Thermal break product design characteristics are: a. The material used as the thermal break must have a thermal conductivity of not more than 3.6 13tuAnch/hr/ft2/"F, b. The thermal break must produce a gap of not less than 0.210", and c. All metal members of the fenestration product exposed to interior and exterior air must incorporate a ~ thermal break meeting the criteria in (a) and (b) above. In addition, the fenestration product must be clearly labeled by the manufacturer that it qualifies as a thermally broken product in accordance with this standard. 2 For all dual glazed fenestration products, adjust the listed U -factors as follows: a. Subtract 0.05 for spacers of 7/16" or wider. . .11�- b. Subtract 0.05 for products certified by the manufacturer as tow -E glazing. c. Add 0.05 for products with dividers between panes if spacer is less than 7/16" wide. d. Add 0.05 to any product with true divided lite (dividers through the panes). W -110k -r�5 Fr�—�VeZC—Ls\ VTILIZVL> WJNktJ``Et\'S • Table 1-E Default Solar Heat Gain Coefficient • • • r Metal Operable Clear 0.80 0.70 Metal Fixed Clear 0.83 0.73 • Operable Metal Operable Clear 0.80 0.70 Metal Fixed Clear 0.83 0.73 Metal Operable Tinted 0.67 0.59 Metal Fixed Tinted 0.68 0.60 e a , ermal BreakOperable Clear 0.72 0.63 Metal, Thermal Break Fixed Clear 0.78 0.69 Metal, Thermal Break Operable Tinted 0.60 0.53 Metal, Thermal Break Fixed Tinted 0.65 0.57 on= e a Operable Clear Non -Metal Fixed Clear 0.76 0.67 Non -Metal ® Operable Tinted 0.60 0.53 Non -Metal Do Fixed Tinted 0.63 0.55 SHGC = Solar Heat Gain Coefficient i� 1 cam• 5=470?_ 'r C s) UXk L%zPt> A1N '� G� -Lcu LAC-\ toes , • 0 1 0 • 0 ❑WESTLab F —1 ,- . ■ Window Testing and Simulation Accredited Simulation Laboratory Manufacturer: Fleetwood Aluminum Products contact:. Alan Brown Address: 2485 Railroad Corona, CA 91720 Phone: (909) 279-1070 Model/Series: Aspen 530-T OG Fixed Window Frame Type: Aluminum/'Thermal Breaks (AT) NFRC 100-97 LI -factor Window Simulation Test Report Report Number. U98026 Database File: Report Date: 2/18/98 Revision(s): Expiration: 2/18/02 Recertification: IA Code: Operator Type: Fixed (or non -std shape) Glazing System: 1" and 1.5" OA IG Unit with Varying Glass Thicknesses and Heat Mirror Baseline Product for Validation Testing: Description: 1" OA Mapes Panel (polyisocyanurate core with 0.125" hardboard and 0.032" aluminum outer skin). (option 25 AA). Simulated U -factor: Test Size: 0.25 48" x 48" (Residential) Physical Test Tolerance: 0.21 to 0.29 Notes: Manufacturer must have the product described above tested by an accredited physical testing laboratory. Physical test window Ll -value results must be within the tolerance range listed above. Tolerance is rounded in accordance with ASTM E 29. The baseline product simulated U -factor is within'20% N e lowes i ulated U -factor listed in the matrix (as allowed by NFRC 100-97, sec. 4.3). Signature of Certified Simulator: Ro DePaola, Certified Simulator Disclaimers/Notes: The window U -factors presented in this report were determined using the Frame and Window computer programs in full compliance with NFRC 100-97, and from information supplied by the manufacturer. This report does not constitute certification of this product and only relates to the fenestration products simulated. Authorized use of any Li -factor ratings may only be granted by the Certification Program Administrator. WESTLab does not imply or claim that the product simulated in this report will perform as stated in actual use conditions. This report is the property of WESTLab and the client, and must not be reproduced, except in full, without written approval from WESTLab and the client. 1721 Arroyo Drive, Auburn, CA 95603. Phone: (530) 885-9891. Fax: 885.9892 907 W. Dean //venue, Madison. Wi 53716-2001. Phone: (608) 221-9510. Fax: 221-95 10 24.94 Bridgeport Rd. E. Suite 31 1, Walerloo. Ontario. Canada. WJ219. Phone: (519) 742.5909. Fax: 74 2-5912 0 0 1 2 3 P. 4 5 6 7 8 9 Report # U98026 Simulated Total U -factor Summary Rev: Date: 2/18/98 Frame Option: None Manufacturer: Fleetwood Aluminum Products Spacer Type(s): Aluminum Dual -seal (dual pane), Steel Model/Series: Aspen 530-T OG Fixed Window single seal (Heat mirror) Operator Type: Fixed (or non -std shape) Note: For Glazing options, SS=Single-Strength 8 Frame Type: AluminumfThermal Breaks (AT) DS=Double-Strength glass. For spacers, SS=Single Seal and DS=Dual-Seal. Simulated Product Descriptions: Center -of -Glass Groups: Res NR .118"_.764"Air .118" ! 5mm - .632"Air - 5mm 0.56 1 " OA IG with or without dividers 16mm - .593"Air - 5mm 0.55 6mm - .554"Air - 6mm .118"_.764"Argon (95% fill typ)_.118" 15mm - .632"Argon - 5mm 6mm - .593"Argon - 5mm V, OA IG with or without dividers 0.54 0.53 6mm - .554"Argon - 6mm .118"_.764"A i x_.118" Low E.096 We a2 0r 3► � 5mm - .632"Air - 5mm Low E .096 (srctf z or 3) 1" OA IG with or without dividers 6mm - .593"Air - 5mm Low E .096 (srca 2 or 3) 0.42 0.41 6mm - .554"Air - 6mm Low E .096 (sfc# 2 or 3) 5mm - .632"Argon - 5mm Low E .096 (s(c# 2 or 3) 118"_.764"Argon .118'/ Low E.096 �� a2 or 3) 6mm - .5939 1 11 OA IG with or without di -Z � "Ar on - 5mm Low E .096 (slca 2 or 3) 0.38 0.37 6mm - .554"Argon - 6mm Low E .096 (srca 2 or 3) .(sIca2)_.764"Air .118" 5mm low E .043 or .041 - .632"Air - 5mm 118" LowE.043 1 " OA IG With Or without dividers 6mm Low E.043 or .041 - .593"Air - 5mm 0.40 0.39 • 6mm Low E.043 or .041 - .554"Air - 6mm .118" LowE.043_.764"Argon_.118" 5mm Low E .043 or .041 - .632"Argon - 5mm 6mm Low E .043 or .041 - .593"Argon - 5mm i" OA IG with or without dividers 0.36 0.35 6mm Low E.043 or .041 - .554"Argon - 6mm .223".281 "Air" HM6�281"Air_.223" 6mm-.297"Air_HM66-.297"Air_5mm 1 " OA IG withOUt dividers (HM 66 e=.042(sfc #3)) 5mm_ 313"Air_HM66_.313"Air 5mm 0.40 0.38 3mm .375"Air_HM66_.375"Air_3mm .223" .281"Arg(esAn,)_HM66_.281"Argon_.223" 6mm_.297"Argon_HM66_.297"Argon_5mm 1" OA IG without dividers (HM 66 e=.042(sfc #3)) Smm_.313"Argon HM66_ 313"Argon bmm 0.36 0.34 3mm .375"Argon_HM66_.375"Argon_3mm 6mm_ 297"Air. HMTC88-.297"Air 5mm .223"_.281 "Air_HMTC88_.281 "Air _.223" 1 " OA IG without dividers (HMresa a=. 125(03):. 11 r(aa)l 5mm -.313"Air_HMTC88 -.313"Air -5mm 0.37 0.35 3mm .375"Air_HMTC88_.375"Air_3mm .223"_.281"Argon_HMTC88_.281"Argon .223" 6mm_297"Argon_HMTC88_.297"Argon Smm I" OA IG without dividers (HMrcea a=. 725(43):5mm -.313"Argon_HMTC88_ 313"Argon_5mm . r r r(a4�� 0.33 0.31 3mm_ 375"Argon_ HMTC88_.375"Argon_3mm .223"_.281"Air_HMSC75_.281 "Air ; 6mm_.297"Air_HMSC75_.297"Air_5mm _.223" 1 115mm OA IG without dividers (HMSC75 e=. 052(04)) _.313"Air _HMSC75 _ .313"Air_5mm 0.39 0.38 3mm .375"Air_HMSC75_.375"Air_3mm .223" .281"Argon_HMSC75_.281"Argon_.223" 16mm_297"Argon HMSC75_.297"Argon 5mm 1 " OA IG without dividers (HMSC75 e=.052(114) 15mm_.313"Argon HMSC75_ 313"Argon_5mm 0.35 0.34 Smm .375"Argon HMSC75 .375"Argon_3mm 7vvcr. 7 ne s7mu7areo proouct represents the "Group Leader" and has the highest U -value among the grouping of simulated and Center -of -glass options. IG unit groupings are allowed by NFRC 100-97, sec 6.2. This report is the property of WESTLab and the client, and must not be reproduced, except in full, without written approval from WESTLab. WESTLab Initials: ;� • • 13 14 • -15 16 Q 17 18 0 19 20 • 21 22 23 24 Report # U98026 Simulated Total U -factor Summary Rev: Date: 2/18/98 Frame Option: None Manufacturer: Fleetwood Aluminum Products Spacer Type(s): Aluminum Dual -seal (dual pane), Steel Model/Series: Aspen 530-T OG Fixed Window single seal (Heat mirror) Operator Type: Fixed (or non -std shape) - Note: For Glazing options, SS=Single-Strength 8 Frame Type: Aluminum/Thermal Breaks (AT) DS=Double-Strength glass. For spacers, SS=Single Seal and DS=Dual-Seal. Simulated Product Descriptions: Center -of -Glass Groups: Res NR 16mm -1.050"Air - 6mm 1.132"Air .184" .184" 0.56 0.55 1.5" OA 1G with or without dividers i .184"_1.132"Argon_.184" 16mm - 1.050"Argon - 6mm 0.54 0.53 1.5" OA IG with or without dividers I 184"_1.132"Air .184" Low E.096 �Src •z or 3) i 6mm -1.050"Air - 6mm Low E .096 (Srur 2 or 3) 0.44 0.42 1.5" OA IG with or without dividers I .184"_1.132"Argon_.184" Low E.096 (Sfc 02 or 3) 6mm - 1.050"Argon - 6mm Low E .096 (5rcx 2 or 3) 0.40 0.38 1.5" OA IG with or without dividers , i .184" Low:E.043 We a2L_1.132"Air_.184" 6mm Low E.043 or .041 - 1.050"Air - 6mm 0.42 0.41 1.5" OA IG with or without dividers i ( .184" Low E.043 (Src 1$2i_1.132"Argon_.184" i 6mm Low E .043 or .041 - 1.050"Argon - 6mm 0.38 0.36 1.5" OA IG with or without dividers ' .223"_.531"Air_HM66_.531"Air .223" 16mm_531"Air_HM66_531"Air_5mm 0.33 0.32 1.5" OA IG without dividers (HM 66 e=.042(sfc #3)) f 5mm_ 563"Air_HM66_ 563"Air 5mm I DS_ 625"Air HM66 .625"Air DS .223" .531"Argon_HM66_.531"Argon_.223" 6mm _531"Argon_HM66_531"Argon_5mm 0.31 0.29 1.5" OA IG without dividers (HM 66 e=.042(sfc #3)) 15mm_.563"Argon_HM66_ 563"Argon_5mm DS_.625"Argon_HM66_.625"Argon_DS .223" .531"Air_HMTC88 .531"Air .223" 6mm_.531"Air_ HMTC88_531"Air_5mm 0.30 0.28 1.5" OA IG without dividers (HMTC88 a=. 125(03);. r r 1(04) 5mm .563"Air-HMTC88 -.563"Air_5mm - DS_ 625"Air_HMTC88_.625"Air DS 223" .531"Argon_HMTC88_.531"Argon_.223" i 6mm_.531"Argon HMTC88_531"Argon_5mm i 0.28 0.26 1.5" OA IG without dividers (HMTc88e=.125(83);).111(04 5mm .563"Argon_HMTC88_ 563"Argon 5mm - DS_ 625"Argon_HMTC88_ 625"Argon-OS .223" .531"Air_HMSC75_.531"Air_.223" I6mm _531"Air_HMSC75_531"Air-5mm 0.33 0.31 1.5" OA IG without dividers (HMSC75 e=.052(•4) 15mm_ 563"Air_HMSC75_ 563"Air_5mm 0S_.625"Air_HMSC75 .625"Air DS .223" .531"Argon_HMSC75_.531"Argon_.223" ( 6mm_531"Argon_HMSC75_531"Argon 5mm 0.30 0.28 1.5" OA IG without dividers ()qMSC75 e=.052(04)1 5mm_ 563"Argon HMSC75-.563"Argon_5mm DS .625"Argon_HMSC75 .625"Argon_DS Note: The simulated product represents the "Group Leader" and has the highest U -value among the grouping of simulated and Center -of -glass options. IG unit groupings are allowed by NFRC 100-97, sec 6.2. This report is the property of WESTLab and the client, and must not be reproduced, except in full, without written approval from WESTLab. 0 WESTLab Initials: 0 Report # U98026 Simulated Total U -factor Summary (coni) Rev: Date: 2/18/98 Frame Option: None Manufacturer: Fleetwood Aluminum Products Spacer Type(s): Aluminum Dual -seal (dual pane), Steel single seal (Heat mirror) Model/Series: Aspen 530-T OG Fixed Window Operator Type: Fixed (or non -std shape) Note: For Glazing options, SS=Single-Strength & • Frame Type: Aluminum/Thermal Breaks (AT) DS=Double-Strength glass. For spacers, SS=Single Seal and DS=Dual-Seal. Simulated Product Descriptions: • 25 1" OA Mapes Panel (test validation product) 0.25 (Polyisocyanurate core with Hardboard & aluminum cover) 26 • 27 28 29 30 31 32 • 33 34 35 36 Note: This report is the property of WESTLab and the client, and must not be reproduced, except in full, without written approval from WESTLab. WESTLab Initials: E • • • • nfYC 200 SHGC [-IWESTLa'b Window Simulation i Window Testing and Simulation FOI F1 Accredited Simulation Laboratory Test Report Manufacturer: Fleetwood Aluminum Products Contact: Alan Brown Address: 2485 Railroad Corona, CA 91720 Phone: (909) 279-1070 Model/Series: Aspen 530-T OG Fixed Window Report Number. 598026 Database File: SHGC 01 Report Date: 2/18/98 Revision(s): U -Factor Report: U98026 IA Code: Frame Type: Aluminum/Thermal Breaks (AT) Operator Type: Fixed (or non -std shape) Glazing System(s): 1" and 1.5" CA IG Units using the following high-performance glass products: • PPG Sungate 100 (Soft -coat low E, e =.096) • PPG Sungate 1000 (Soft -coat low E, e = .043) • Cardinal LoE2 172 (Soft -coat low E, e = .041) • SouthWall Technologies Heat Mirror 66 (soft -coat low E, e=.042) • SouthWall Technologies Heat Mirror TC88 (soft -coat low E, e=.125/.111) • SouthWall Technologies Heat Mirror SC75 (soft -coat low E, e=.759/.052) Signature of Certified Simulator: Disclaimers/Notes: The window U -values presented in this report were determined using the Frame and Window computer programs in full compliance with NFRC 200, and from information supplied by the manufacturer. This report does not constitute SHGC certification of this product and only relates to the fenestration products simulated. Authorized use of any SHGC ratings may only be granted by the Certification Program Administrator. WESTLab does not imply or claim that the product simulated in this report will perform as stated in actual use conditions. This report is the property of WESTLab and the client, and must not be reproduced, except in full, without written approval from WESTLab and the client. 1721 Arroyo Drive, Auburn, CA 95003. Phone,(530) 885-9891, Fax: 885-9892 907 W. Dean Avenue, Madison, WI 53716-2001. Phone: (608) 221-9510, Fax: (608) 221-9510 24-94 Bridgeport Rd. E., Suite 311, Waterloo, Ontario, N21219. Phone: (519) 742-5909, Fax: 712-5912 r 1 2 3 0-4 5 6 7 8 9 10 11 12 13 14 15 16 Report # S J26 Total Product SHGC Summary Revised: Date: 2/18/98 Operator Type: Fixed (or non -std shape) Manufacturer: Fleetwood Aluminum Products Frame Type: Aluminum/Thermal Breaks (AT) Frame Abs: 0.50 Model/Series: Aspen 530-T OG Fixed Window Note: Spacer type "Any" represents the lowest -performing spacer offered for the products simulated. Other products are calculated using the Individual Product Table included in this report, Layer I Layer 2 Layer Spacer Type Divider Type Group Rep?/9 0.69 0.67 0.63 .0.64 0.64 0.54 0.52 0 0.64 0.64 0.48 0.47 0.61 0.61 0.36 0.34 0,62 0.61 0.37 0.36 0.31 0.56 0.55 0.45 0.43 0.53 0.53 0.33 0.32 Mfgr Product./Sfc# Mfgr Product/Sfc# Mfgr ProductISfc# N/A Clear N/A Clear S100CL (3)_ Clear N/A N/A Clear Clear Any --Any Any Any Any Any Any Any Any Any --A-,-n,y--- Any Any Any None No70 N/A Clear S100CL (2) VP�6_ N/A None None None None None No No No No No PPG PPd _S1006_d(2) _N_/A_ Clear Clear CIG N/A N/A N/A EE72 (2) Clear Clear Clear Clear N/A SWT TC88 (3)/(4) SWT SC75 (3)/(4) None No No No No __N_o ------ No No No N/A Clear Int.<1" 0.63 0.62 0.61 0.50 0.57 N/A PPG S100CL (3) lnt.<l" _Int._<V _Int.<_1_'_'_ lnt.>V Int.>11" Int.>1" 0.58 0.57 0.57 0.47 PPG S100CL (2) --N/-A--- Clear Clear Clear S100CL (3) Clear --0.58 -----*- 0 .55 .56 0.56 0.52 0.52 0.44 0.42 PPG ___ S1000CU(2) __ N/A __ 0.55 ___ 0.33 0.31 CIG N/A N/A PPG ____ff7_7f (2-F'- Clear Clear S100CL (2) __14/_A-_ N/A PPG N/A 0.55 0.55 0.51 0.51 0.34 0.33 0.55 0.45 0.40 0.52 0.43 0.38 Note: Products were modeled using 3mm and 6mm glass representing residential and non-residential sizes respectively. These represent all other glass thicknesses. This report is the property of WES TLab and the client, and must not be reproduced, except in full, without written approval from WES TLab. WESTLab Initials: -Z. Z 17 18 19 20 21 22 23 24 25 26 27 2$ 29 30 31 32 Report # S ,_�6 Total Product SHGC Summary (p.2) Revised: Date: 2/18/98 Operator Type: Fixed (or non -std shape) Manufacturer: Fleetwood Aluminum Products - Frame Type: Aluminum/Thermal Breaks (AT) Frame Abs: 0.50 Model/Series: Aspen 530-T OG Fixed Window Note: Spacer type "Any" represents the lowest -performing spacer offered for the products simulated. Other products are calculated using the Individual Product Table included in this report. Layer 1 Layer 2 Layer 3 Spacer Type Divider Type Group Rep?/# - Mfgr Product./Sfc# Mfgr Product/Sfc# Mfgr Product/Sfc# PPG S1000CL (2) N/A Clear Any Int.>V No 0.749 0.49 0.30 0.29 CIG EE72 (2) N/A Clear Any Int.>V No 0.49 0.31 0.30 Note: Products were modeled using 3mm and 6mm glass representing residential and non-residential sizes respectively. These represent all other glass thicknesses. This report is the property of WESTLab and the client, and must not be reproduced, except in full, without written approval from WESTLab. Initials: WESTLab • Heat Gain and He at Loss Calculations 0 N AN 0 0 0 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE j R O C C A Residence 8/9/01 SYSTEM NAME FLOOR AREA ZONE 1 (Guest Bedrooms) 932 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 Heating System Output per System 49,000 Total Output (Btuh) 49,000 Output (Btuh/sqft) 52.6 Cooling System Output per System 36,002 Total Output (Btuh) 36,002 Total Output (Tons) 3.0 Total Output (Btuh/sgft) 38.6 Total Output (sgft/Ton) 310.6 Air System CFM per System 900 Airflow (cfm) 900 Airflow (cfm/sgft) 0.97 Airflow (cfmrron) 300.0 Outside Air (%) 0.0 Outside Air (cfm/sgft) 0.00 Note: values above given at ARI conditions i24.0 OF �0 • Outside Air I 0 cfm • 68.8 of 68.8 OF 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 CFMSensible 625 Latent CFM I Sensible . 894 22,204 3,754 625 23,628 0 1,110 1,18 0 0 0 0 0 0 0 0 0 1,110 1,181 24,424 3,754 F777jjA BDP 598AO36-D / CD5A (900 cfm) 25,333 5,704 49,000 Total Adjusted System Output 25,333 5,704 49,000 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Aug 2 pm Jan 12 am :ream I empera ures at Time ot Heating ea 105.0 OF Supply Air Ducts Supply Fan Heating Coil 103.8 °F 900 cfm ROOMS 68.8 OF 70.0 OF 114.1 / 80.3 of Outside Ai 0 cfm . 1 79.1 163.8 of Return Air Ducts (Airstream Temperatures at I Ime of coi 79.1 163.8 of 79.1 / 63.8 OF 55.0 / 53.6 of fmODE gJ Supply Fan Cooling Coil 900 cfm EnergyPro 3.1 By EnergySoft User Number. 1086 Return Air Ducts Job Number. 0019.00 ng Supply Air Ducts 56.1/54 . 0 of 44.8% R.H. ROOMS 78.0 63.4 of Page:1 of 3 0 • 0 0 P, 0 0 9 r7 LA ROOM LOAD SUMMARY PROJECT NAME R O C C A Residence DATE 8/9/01 SYSTEM NAME ZONE 1 (Guest Bedrooms) FLOOR AREA 932 ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 1 ONLY Guest Bedrooms 1 894 22,204 3,754 894 22,204 3,754 625 23,628 r PAGE TOTAL 894 22,204 3,754 TOTAL 894 22,204 3,754 625 23,628 625 23,628 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:1 of 3 0 0 0 0 0 • • • C ROOM HEATING PEAK LOADS Project Title Date R O C C A Residence 18/9/01 Room Information Design Conditions Room Name Guest Bedrooms Time of Peak Jan 12 am Floor Area932 Outdoor Dry Bulb Temperature 24OF Indoor Dry Bulb Temperature 70 OF i Conduction Area U -Value AT of Btu/hr Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 16,223 Infiltration: 1.0o x 1 1.0801 X 932 x 01 x 1.00 / 60] x 46 = 7,405 c e u e it benSible Area a ng e g t ACH6T Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 23,628 EnergyPro 3.1 By EnergySoft User Number: 1088 Job Number. 0019.00 Page:1 of 3 J 702.0 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 xx x 0.0257 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 46.0 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = 832 230.0 0.0295 46.0 313 931.9 0.0566 46.0 2,427 20.6 0.3800 46.0 360 119.0 0.0572 46.0 313 123.2 0.5200 46.0 2,948 80.0 1.1000 46.0 4,048 perimeter =109.5 45.5 4,982 i I 1 Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 16,223 Infiltration: 1.0o x 1 1.0801 X 932 x 01 x 1.00 / 60] x 46 = 7,405 c e u e it benSible Area a ng e g t ACH6T Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 23,628 EnergyPro 3.1 By EnergySoft User Number: 1088 Job Number. 0019.00 Page:1 of 3 J 0 L 0 RESIDENTIAL ROOM COOLING LOAD SUMMARY R O C C A Residence 8/9/01 Project Title Date Room Name Guest Bedrooms Design Indoor Dry Bulb Temperature: 780F Design Outdoor Dry Bulb Temperature: 1150F Design Temperature Difference: 370F Conduction /R-2 (R.38.2x_.16) /R-3 (R.38.2x_.16) -1 Wall (W.21.2x6.16) Itwd Aspen 530T (LoE/Air) -2 Wall (W.21.2x6.16) ouble Default (Lo-E/Clad) ouble Default (Lo-E/Clad) Area U -Value 931 11 X 0.0257 X X 0.0295 X X 0.0566 X X 0.3800 X X 0.0572 X X 0.5200 X X 1.1000 X x 73)x X X 40.0 X 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Shaded Unshaded Solar Gain Orientation Area SGF Area SGF FxdWdw (W) (North) FxdWdw X (North) FxdWdw (Y) (North) FxdFr (FF) (East) Frpoor (27) (South) Frpoor (31) (South) FxdWdw (BB) (South) FxdWdw (CC) (South) FxdWdw (DD) (South) FxdWdw (EE) (South) DETD' 56.0 56.0 35.6 37.0 35.6 37.0 37.0 Page Total SC Btu/hr 1,012 381 1,879 290 242 2,371 3,256 9,431 Btu/hr 0.0 x+ x+ X+ X+ x+ x+ X+ X+ xdi X+ + 7.0 x x x x x x X X X X 15)X X X x 0.414 = = = = = = = = = = 43 0.0 7.0 15)X 0.41 43 0.0 3.3 15)X 0.414 20 14.1 3.9 73)x 0.63 314 40.0 0.0 32) 0.609 366 0.0 40.0 -32)X 0.609 780 0.0 4.0 32)X 0.632 81 0.0 1.0 32) 0.632 20 0.0 8.0 32)X 0.632 162 0.0 1 8.0 32) 0.63 1 162 Sched. Page Total 1,ss1 Internal Gain Frac. Area Heat Gain Btu/hr Lights 1.00 X 932 X 0.500 Watts/sqft X 3.41 BtuhlWaft = 11590 Occupants 1.00 x 932 X 255 Btuh/occ. / 333 sqft/occ. = 714 Receptacle 1.00 X 932 X 0.000 Wafts/sgft x 3.413 Btuh/Watt = 0 Process 1.00 x 932 x 0.000 Watts/sgft x 3.413 Btuh/Watt = 0 • Infiltration: 1.00 X 1.080 X 932 X 9.60 x 1.00 / 60] 37 = 5,956 ceue a Sensitile rea ei mg e g Q Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 22,204 Sched. Latent Gain Frac. Area Heat Gain Btu/hr Occupants 1.00 X 932 x 225 Btuh/OCC. / 333 sgft/oCC. = 630 Receptacle 1.00 X 932 x 0.000 Wafts/sqft x 3.41 Btiu=tt = 0 Process 1.00 x 932 x 0.000 Wafts/sgft x 3.41 Btuh/Watt = 0 Infiltration: [ 1.00 x 4,840 x 93 x 9.60 x 1.00 / 60] 0.00433 c e u e it a en rea ei ng e g Qyy . Fraction TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 3,754 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:1 of 6 0 RESIDENTIAL ROOM COOLING LOAD SUMMARY R O C C A Residence 8/9/01 Date . Room Name 0 0 Design Indoor Dry Bulb Temperature: Design Outdoor Dry Bulb Temperature: Design Temperature Difference: Guest Bedrooms 78°F 115°F 370E Conduction Area U -Value DETD 1 Btu/hr X 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Shaded Unshaded Solar Gain Orientation Area SGF Area SGF FxdFr (GG) (South) FxdFr HH (South) FxdWdw (Z) (West) FxdWdw (AA) (West) FxdWdw (BB) FxdWdw (CC) (West) (West) 190 20.0 0.0 32) 0.632 190 0.0 Page Total SC Btulhr 20.0 x+ x+ X+ Xdi x+ X X x x x + + + + + + 0.0 x X x X x X x X x X 32)X x x X )x )x )x )x 0.63 = = = = = = = = = 190 20.0 0.0 32) 0.632 190 0.0 3.3 73)x 0.414 100 0.0 29.2 73)x 0.632 1,350 0.0 12.0 73) 0.632 554 0.0 1 3.0 73) 0.632 138 Sched. Page Total 2,521 Internal Gain Frac. Area Heat Gain Btu/hr Lights 1.00 X 932 X 0.500 Wafts/sgft x 3.41 Btuh/Watt = 1,590 Occupants 1.00 x 932 X 255 Btuh/occ. / 333 sqft/occ. = 714 Receptacle 1.00 X 932 X 0.000 Wafts/sqft x 3.413 Btuh/Watt = 0 Process 1.00 x 932 x 0.000 Wafts/sgft X 3.412 Btuh/Watt = 0 • Infiltration: 1.0o X 1.080 x 932 X X 1.00 / 60] 37 = 5,956 ceue r cosi a rea ei g ng e 9.60 p Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 22,204 Sched. Latent Gain Frac. Area Heat Gain Btu/hr Occupants 1.00 X 932 x 225 Btuh/OCC. / 333 sgft/occ. = 630 Receptacle 1.00 x 932 x 0.000 Wafts/sqft x 1 3.41 Btuh/Watt = 0 Process 1.00 x 932 x 0.000 Wafts/sgft x 1 3.41 Btuh/Watt = 0' Infiltration: 1.00 x 4,840 X 93 x9.90 x 1.00 / 60] 0..00433 ceue it Latent Area e- m9 Re • Fraction TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 3,754 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:2 of 6 0 r • 0 �m HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE � R O C C A Residence 8/9/01 SYSTEM NAME FLOOR AREA ZONE 2 (Master Bedroom) 1,517 Number of Systems Heating System Output per System Total Output (Btuh) Output (Btuhlsgft) Cooling System Output per System Total Output (Btuh) Total Output (Tons) Total Output (Btuh/sgft) Total Output (sgft/'Ton) Air System CFM per System Airflow (cfm) Airflow (cfm/sgft) Airflow (cfm/Ton) Outside Air (%) Outside Air (cfm/sqft) Note: values above given at ARI conditions PSYCHROMETRI 24.0 of 69.0 of 69 4 14 Outside Air 0 cfm 69.09F 114.1 / 80.3 of Outside Aii 0 cfm i I • i 78.9163.9 of 0 COIL COOLING PEAK COIL HTG. PEAK i CFM Sensible Latent CFM I Sensible J 82,000 Total Room Loads 82,000 Return Vented Lighting 54.1 Return Air Ducts Return Fan 53,485 Ventilation C 53,485 Supply Fan 4.5 Supply Air Ducts 35.3 TOTAL SYSTEM LOAD 340.4 EQUIPMENT SELECTR qHVAC 1,500 1 BDP 598AO60-D / CD5A (1500 cfm) 1,500 33,475 6,799 35,960 38,179 7,979 82,000 I Total Adjusted System Output 38176 7,979 82,000 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Aug 2 pm I Jan 12 am 5 (Airstream I et 0 of 105.0 OF Supply Fan Heating Coil 1500 cfm k Return Air Ducts V 78.9/63.9 OF 78.9/63.9 OF m 55.0/53.6 OF Supply Fan Cooling Coil 1500 cfm EnergyPro 3.1 By EnergySoft User Number. 1086 Return Air Ducts Job Number. 0019.00 ng Supply Air Ducts 104.0 of ROOMS 11 70.0 of I Supply Air Ducts 55.9/54 . 0 of 45.2% R.H. ROOMS 78.0 / 63.6 of Page:2 of 3 0 • 0 0 0 0 0 0 0 11 r1 u ROOM LOAD SUMMARY PROJECT NAME R O C C A Residence DATE 8/9/01 SYSTEM AME ZONE 2 (Master Bedroom) FLOOR AREA 1,517 IROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 2 ONLY Master Bedroom 1 1,226 30,432 6,799 1,226 30,432 6,799 865 32,691 PAGE TOTAL TOTAL 1,226 30,432 6,799 865 32,691 1,226 30,432 6,79911. 865 32,691 EnergyPro 3.1 By EnergySoft User Number: 1066 Job Number: 0019.00 Pagel of 3 n • 0 0 0 0 0 0 11 u ROOM HEATING PEAK LOADS Project Title Date R O C C A Residence 18/9/01 Room Information Design Conditions Room Name Master Bedroom Time of Peak Jan 12 am Floor Area 1,517 Outdoor Dry Bulb Temperature 24OF (Indoor Dry Bulb Temperature 70 OF I � Conduction Area U -Value AT of Btu/hr Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 19,006 Infiltration:Ue&. x 1.080 x 1,517 x 10.90 x 1.00 / 60] x 46 = 13,686 v ensi a Area ceiling Height ACH pT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 32,691 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:2 of 3 _ J 100.0 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 0.0236 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 46.0 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = 109 500.0 0.0257 46.0 592 917.0 0.0295 46.0 1,246 1,117.5 0.0566 46.0 2,911 96.0 1.1000 46.0 4,858 15.0 0.5500 46.0 380 63.0 0.3800 46.0 1,101 64.0 0.5200 46.0 1,531 56.0 0.0572 46.0 147 perimeter 134.8 6,131 I i Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 19,006 Infiltration:Ue&. x 1.080 x 1,517 x 10.90 x 1.00 / 60] x 46 = 13,686 v ensi a Area ceiling Height ACH pT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 32,691 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:2 of 3 _ J 0 RESIDENTIAL ROOM COOLING LOAD SUMMARY 0 0 0 0 R O C C A Residence 8/9/01 Room Name Master Bedroom Design Indoor Dry Bulb Temperature: Design Outdoor Dry Bulb Temperature: Design Temperature Difference: Conduction /R-1 (R.38.2x_.16) /R-2 (R.38.2x_.16) /R-3 (R.38.2x_.16) -1 Wall (W.21.2x6.16) Double Default (Lo-E/Clad) Double Default (Lo-E/Clad) Itwd Aspen 530T (LoE/Air) Double Default (Lo-E/Clad) -2 Wall .21.2x6.16 Area 100. X 500. X 917.0 X 1,117. X 96. X 15. X 63A X 64A x sa I X U -Value 0.0236 0.0257 0.0295 0.0566 1.1000 0.5500 0.3800 0.5200 0.0572 78OF 115°F 37° F X X X X X X X x x DETD' = = = = = = = = = Btu/hr 56.0 132 56.0 721 56.0 1,517 35.6 2,253 37.0 3,907 37.0 305 37.0 886 37.0 1,231 35.6 114 1. Design Equivalent Temperature Difference (DETD) Page Total 11,067 Items shown with an asterisk (') denote conduction through an interior surface to another room. Shaded Unshaded Solar Gain Orientation Area SGF Area SGF SC Btu/hr Frpoor (21) (North) Awnin Wdw Q (North) FxdWdw (R) (North) FxdWdw (S) (North) Fxii (T) (North) FxdFr M (North) Frpoor (8) (East) FxdFr (0) (East) FxdFr (P) (East) ( 0.0 x1 X x x X x x x x x + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + + 48.0 x X x x X X x X X x 15)X x )x 0.609 = = = = = = = = = = 439 ( 0.0 15.0 15) 0.609 137 ( 0.0 9.0 15)x 0.414 56 ( 0.0 45.0 -15)X 0.414 279 ( 0.0 9.0 15)X 0.414 56 ( 0.0 24.0 15)X 0.632 228 ( 0.0 48.0 -73)x 0.609 2,135 (-7.8 12.2 -73)X 0.632 639 ( 7.8 12.2 -73)X 0.632 639. ( Sched. Page Total 4,607 Internal Gain Frac. Area Heat Gain Btu/hr Lights 1.00 X 1,517 x 0.500 Watts/sqft x 3.411 Btuh/Watt = 2,589 Occupants 1.00 X 1,517 X 255 Btuh/occ. / 333 sqft/occ. = 1,162 Receptacle 1.00 X 1,517 x O.Ooo Watts/sqft x 3.413 Btuh/Watt = 0 Process 1.00 x 1,517 x 0.000 Watts/sgft x 3.413 Btuh/VVatt = 0 • [nfiltration: 1.00 X E1.080 x 1,517 x 10.90 x 1.00 / 60] 37 = 11,008 ceue rr SensiDle rea Celling HeigntQ Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 30,432 Sched. Latent Gain Frac. Area Heat Gain Btu/hr Occupants 1.00 X 1,517 X 225 Btuh/ocC. / 333 sgft/occ. Receptacle 1.00 x 1,517 x 0.000 Watts/sgft X 1 3.411 Btuh/Watt = 0 Process 1.00 x 1,517 x 0.000 Watts/sqft x 3.41 Btuh/Watt = 0 Infiltration: 1.00 x 1 4,840 X 1,51 X 1 10.90 X 1.00 / 60] 1 0^`00433 ceue Air Latent Area Cening Height • Fraction TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 6,799 EnergyPro 3.1 By EnergySoft User Number: 1086 Job Number. 0019.00 Page:3 of 6 l 0 0 r HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY 7 PROJECT NAME DATE R O C C A Residence 8/9/01 SYSTEM NAMEFLOOR AREA ZONE 3 (Living Area) 2,571 (Number of Systems Heating System Output per System Total Output (Btuh) Output (Btuh/sgft) Cooling System I , Output per System I I— Total Output (Btuh) I i Total Output (Tons) Total Output (Btuh/sgft) Total Output (sgft/Ton) Air System CFM per System Airflow (cfm) Airflow (cfm/sgft) Airflow (cfm/Ton) Outside Air (%) Outside Air (cfm/sgft) Note: values above given at ARI conditions 24.0 of . r 0 Outside Ai 0 cfm 69.1 OF �m 0 0 SYSTEM LOAD —72 COIL COOLING PEAK COIL HTG. PEAK CFM Sensible Latent CFM I Sensible 65,000 Total Room Loads 2,680 66,551 11,883 1,580 59,700 130,000 Return Vented Lighting 0 50.6 Return Air Ducts 3,328 2,985 Return Fan 0 0 48,410 Ventilation 0 0 0 0 0 96,820 Supply Fan 0 0 8.1 Supply Air Ducts 3,328 2,985 18 TOTAL SYSTEM LOAD 73,206 11,883 65,670 318.7 HVAC EQUIPMENT SELECTION 1,470 2,940 BDP 598AO48-D / CD5A (1470 cfm) 73,681 9,693 130,000 1.14 Total Adjusted System Output 73,68 9,693 130,000 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Aug 2 pm Jan 1.2 am 69.1 of 69.1 of 105.0 of Supply Fan Heating Coil 2940 cfm �, Return Air Ducts V Supply Air Ducts 104.1 of ROOMS 70.0 of (Airstream Temperatures at Time of Cooling ea 114.1/80.3OF 79.0/63.7OF 79.0/63.7OF 55.0/53.6OF Supply Air Ducts Outside Air 0 cfm Supply Fan Cooling Coil 56.0154.0 of 2940 cfm 44.6% R.H. ROOMS I i 79.0/63.7 of 78.0 / 63.4 of Return Air Ducts IE I EnergyPro 3.1 By EnergySoft User Number: 1008 Job Number. 0019.00 Page:3 of 3 0 9 0 0 9 0 0 49 ROOM LOAD SUMMARY PROJECT NAME R O C C A Residence DATE 8/9/01 SYSTEM NAME ZONE 3 (Living Area) FLOOR AREA 2,571 IROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 3 ONLY rving Area 1 2,680 66,551 11,883 2,680 66,551 11,883 1,580 59,700 PAGE TOTAL TOTAL 12,6801 66,5511 11,883 1,580 59,700 2,680 66,551 11,883 1,580 59,700 EnergyPro 3.1 By Energysoft User Number: 1086 Job Number: 0019.00 Page:3 of 3 ROOM HEATING PEAK LOADS IR O C C A Residence Room Information Room Name Floor Area Indoor Dry Bulb Temperature Conduction C/R-1 (R.38.2x_.16) C/R-2 (R.38.2x_.16) Bristolite Default Skylite W-1 Wall (W.21.2x6.16) Double Default Lo-E/Clad Double Default (Lo-E/Clad) (Double Default (Lo-E/Clad) Single Default (Lo-E/Clad) W-2 Wall (W.21.2x6.16) Solid Wood Door Slab -On -Grade I -- i 8/9/01 Living Area Time of Peak 2,571 Outdoor Dry Bulb Temperature 70 of Area U -Value AT of Jan 12 am 24 OF Btu/hr Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 35,654 Infiltration:1.00 x 1.080 x 2,571 x 11.30 x 1.00 / 60] x 46 = 24,046 Lc e u e it bensible Area a ng e g t ACH pT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 59,700 EnergyPro 3.1 By EnergySoft User Number: 1086 Job Number: 0019.00 Page:3 of 3 324.0 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 0.0236 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 46.0 = = = = = = = = = = = = = = = = = = = = = = = = = = 2,232.8 0.0257 46.0 14.2 0.6800 46.0 1,598.0 0.0566 46.0 295.8 0.5200 46.0 218.0 0.5500 46.0 120.0 1.1000 46.0 18.8 1.0400 46.0 154.0 0.0572 46.0 35.0 0.3872 perimeter =164.0 45.5 I Jan 12 am 24 OF Btu/hr Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 35,654 Infiltration:1.00 x 1.080 x 2,571 x 11.30 x 1.00 / 60] x 46 = 24,046 Lc e u e it bensible Area a ng e g t ACH pT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 59,700 EnergyPro 3.1 By EnergySoft User Number: 1086 Job Number: 0019.00 Page:3 of 3 0 RESIDENTIAL ROOM COOLING LOAD SUMMARY R O C C A Residence 8/9/01 Project Title Date . Room Name 46 0 UJ Design Indoor Dry Bulb Temperature: Design Outdoor Dry Bulb Temperature: Design Temperature Difference: Conduction /R-1 (R.38.2x_.16) IR -2 (R.38.2x_.16) Bristolite (Default) Skylite -1 Wall (W.21.2x6.16) Double Default (Lo-E/Clad) Double Default (Lo-E/Clad) Double Default (Lo-E/Clad) Ingle Default (Lo-E/Clad) 2 Wall .21.2x6.16 Area U -Value 0.0236 0.0257 0.6800 0.0566 0.5200 0.5500 1.1000 1.0400 0.0572 DETD1 X 56.0 X 56.0 X 37.0 X 35.6 X 37.0 X 37.0 X 37.0 x 37.0 x 35.6 1. Design Equivalent Temperature Difference (DETD) pp Page Total Items shown with an asterisk (*) denote conduction thrg�a� adn interior surf ace ed other room. Solar Gain Orientation Area SGF Area SGF Sc Bristolite (Skylight) Bristolite (Skylight) Bristolite (Skylight) FxdFr (K) (North) FxdFr(M) (North) SldFrDr (5) (East) SIdFrDr (6) Frpoor (7) (East) (East) SingPnWdw (H) (East) SIdFrDr (N) (East) Living Area 78°F 115OF 37OF Btu/hr 428 3,220 359 3,221 5,690 4,436 4,884 722 314 23,273 Btu/hr ( 0.0 x x x x X X x x x x 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 4.0 x x x x x x x x X x 152) X x X X X 0.63 = = = = = = = = = 384 ( 0.0 4.0 152) 0.63 384 ( 0.0 6.2 152) 0.63 601 ( 0.0 16.0 15)X 0.63 152 ( 0.0 35.0 15) 0.632 332 ( 67.2 17.8 -73)X 0.609 1,407 (-55.3 14.7 73)X 0.609 1,159 (-18.9 5. 73) 0.609 400 ( 0.0 18.8 -73)X -0.724- 991 (-49.5 13.5 73)x 0.609 1,053. � Sched. Page Total s,863 Internal Gain Frac. Area Heat Gain Btu/hr Lights 1.00 X 2,571 x 0.500 Watts/sgft x 3.41 Btuh[Watt = 4,387 Occupants 1.00 X 2,571 X 25 Btuh/OCC. / 333 sgft/OCc: = 1,969 Receptacle 1.00 x 2,571 X 0.000 Watts/sqft X 3.413 Btuh/Watt = 0 Process 1.00 x 2,571 x 0.000 Watts/sgft x 3.41 Btuh/Watt = 0 Infiltration:1.00 x 1.080 x 2,571 x 11.30 x 1.00 / 60] 37 = 19,341 L .. . a ensi a Area Ceiling Heightp Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 66,551 Sched. Latent Gain Frac. Area Heat Gain Btu/hr Occupants 1.00 X 2,571 x 225 Btuh/OCC. / 333 sgft/OCC. Receptacle 1.00 X 2,571 x 0.000 Watts/sqft X 1 3.411 Btuh/Watt = 0 Process 1.00 x 2,571 x 0.000 Watts/sqft x 3.41 Btuh[Watt = 0 Infiltration: [ 1.00 x 1 4,840 x 2,57 x 11.30 x 1.00 /610 0.00433 = 10,146 ceue it Latent Area a mg Height �yy Fraction TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 11,883 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:4 of 6 • 0 0 0 0 RESIDENTIAL ROOM COOLING LOAD SUMMARY R O C C A Residence 8/9/01 Project Title Date Room Name Living Area Design Indoor Dry Bulb Temperature: Design Outdoor Dry Bulb Temperature: Design Temperature Difference: 780F 115°F 370F Conduction Area U -Value DETD 1 Btu/hr �olid Wood Door 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Shaded Unshaded Solar Gain Orientation Area SGF Area SGF Frpoor (23) (South) FxdWdw E (South) FxdWdw (F) (South) FxdWdw (G) (South) FxdWdw (J) (South) Frpoor (2) (West) FxdWdw (A) (West) FxdWdw (B) (West) FxdFr (C) (West) FxdFr (D) (West) 35.6 482 Page Total ase SC Btu/hr 48.0 X x X X x X X X x X 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 0.0 X X X X X X X X X X 32) X x X x X X 0.609 = = = = = = = = 439 0.0 3.0 32) 0.63 61 0.0 3.0 32)X 0.63 61 0.0 72.0 32) 0.63 1,457 0.0 16.0 32) 0.63 324 0.0 48.0 73)X 0.609 2,135 4.7 10.4 73) 0.63 522 4.7 10.4 73) 0.63 522 0.0 24.0 73)X -0.632= 1,108 0.0 24.0 -73)x -0.632= 1,108 • Sched. Page Total 7,734 Internal Gain Frac. Area Heat Gain Btu/hr Lights 1.00 X 2,571 x 0.500 Watts/sqft x 3.41 BtuhMatt = 4,387 Occupants 1.00 X 2,571 X 255 Btuh/occ. / 333 sgft/occ. = 1,969 Receptacle 1.00 X 2,571 X 0.000 Watts/sgft x 3.413 Btuh/Watt = 0 Process 1.00 x 2,571 x 0.000 Watts/sgft x 3.41 Btuh/Watt = 0 Infiltration: 1.00 X 1.080x 2,571 x 11.30 X 1.00 / 60] 37 = 19,341 c e u e r sensible rea a ng e g p Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 66,551 Sched. Latent Gain Frac. Area Heat Gain Btu/hr Occupants 1.00 X 2,571 x 225 Btuh/occ. / 333 sgft/occ. Receptacle 1.00 x 2,571 X 0.000 Watts/sgft x 3.41 BtuhfWatt = 0 Process 1.00 x 2,571 x 0.000 Watts/sgft x 3.41 BtuhfWaft = 0 Infiltration: 1.00 x4,840 1 X 2,57 x gnt x 1.00 / 60] �W0433 = 10,146 e a it Latent Area e ng e Frr action TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 11,883 EnergyPro 3.1 By EnergySoft User Number: 1088 Job Number. 0019.00 Page:5 of 8 0 0 • 0 0 0 6 0 0 RESIDENTIAL ROOM COOLING LOAD SUMMARY R O C C A Residence 8/9/01 Project Title Date Room Name Living Area Design Indoor Dry Bulb Temperature: 78°F Design Outdoor Dry Bulb Temperature: 1150F Design Temperature Difference: 370F Conduction Area U -Value DETD' Btu/hr X = X = X = X = X = X = X = X = X = 1. Design Equivalent Temperature Difference (DETD) Page Total 0 Items shown with an asterisk (') denote conduction through an interior surface to another room. Shaded Unshaded Solar Gain Orientation Area SGF Area SGF SC Btu/hr FxdWdw(L) (West) ( 18.8 x 1 + 0.0 x 73)X 0.632 = 178 FxdWdw II (West) ( 4.6 x 1 + 1.4 x 73) x 0.632 = 108 FxdFr (JJ) (West) ( 0.0 x 1 + 48.0 x -73)x 0.632 = 2,215 ( x + X )X — ( x + X )x = ( x + X )x ( x + X )x ( x + X )x ( X + X )X = ( X + X )x Sched. Page Total 2,501 Internal Gain Frac. Area Heat Gain Btu/hr Lights 1.00 X 2,571 X 0.500 Watts/sqft x 3.41 Btuh/Watt = 4,387 Occupants 1.00 X 2,571 X 255 Btuh/OCC. / 333 sqft/occ. = 1,969 Receptacle 1.00 x 2,571 x 0.000 Watts/sqft x 3.413 Btuh/VVatt = 0 Process 1.00 x 2,571 x 0.000 Watts/sqft x 3.41 Btuh/Watt = 0 Infiltration: 1.00 X 1.080 x 2,571 x 11.30 x 1.00 / 60] 37 = 19,341 ceue it ensi a Area a mg e g Q Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 66,551 Sched. Latent Gain Frac. Area Heat Gain Btu/hr Occupants 1.00 X 2,571 x 225 Btuh/occ. / 333 sgft/occ. Receptacle 1.00 X 2,571 x 0.000 Wafts/sgft x 3.41 Btuh/VVatt = 0 Process 1.00 x 2,571 x 0.000 Watts/sgft x 3.41 Btuh/Watt = o Infiltration: 1.00 x 1 4,840 x 2,57 x11.30 x 60] 0.00433 = 10,146 ceue Air Latent Area Cening neignt AU11 �yy Fraction TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 11,883 EnergyPro 3.1 By EnergySoft User Number: 1086 Job Number. 0019.00 Page:6 of 6 0 • 0 0 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE ROC CA Garage 8/9/01 SYSTEM NAME FLOOR AREA ZONE 1 (Garage) 776 ENGINEERING CHECKS 11SYSTEM LOAD Number of Systems 1 Heating System Output per System i Total Output (Btuh) 22,600 22,600 Output (Btuh/sqft) 29.1 Cooling System Output per System 24,500 Total Output (Btuh) 24,500 Total Output (Tons) 2.0 Total Output (Btuh/sgft) 31.6 Total Output (sgftrron) 380.1 Air System CFM per System 550 Airflow (cfm) 550 Airflow (cfm/sgft) 0.71 Airflow (cfm/Ton) 269.4 Outside Air (%) 0.0 Outside Air (cfm/sqft) 0.00 Note: values above aiven at ARI conditions 24.0 OF Outside A 0 cfm 68.5 OF 1114.1 180.3 OF Outside Ai 0 cfm . 79.0/64.3 of 0 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 Sensible Latent CFM I Sensible 48 11,933 3,234 459 17,356 0 597 868 0 01 0 0 0 0 0' 0 0 597 868 13,127 3,234 [77719:09� BDP 619CO24/538BO24 (550 cfm) 17,123 4,182 14,246 Total Adjusted System Output 17,123 4,182 14,246 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Aug 2 pm Jan 12 am eam Temperatures at Time of Heatina ea 68.5 of® 105.0 °F Heating Coil Supply Fan 550 cfm 105.0 of -),h Supply Air Ducts 103.5 of ROOMS 70.0 of Return Air Ducts l 79.0164.30F = 55.0/53.70F 55.0 / 53.7 of -> Supply Air Ducts Cooling Coil Supply Fan 56.0 / 54.1 of 550 cfm 46.7% R.H. ROOMS 78.0/64.0 of Return Air Ducts 0 0 0 0 0 11 ROOM LOAD SUMMARY PROJECT NAME R O C C A Garage — DATE 8/9/01 SYSTEM NAME ZONE 1 (Garage) FLOOR AREA 776 ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME d ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 1 ONLY arage 1 481 11,933 3,234 481 11,933 3,234 459 17,356 PAGE TOTAL TOTAL 481 11,933 3,234 459 17,356 481 11,933 3,234 459 17,356 EnergyPro 3.1 By EnergySoft User Number. 1088 Job Number. 0019.00 Page:1 of 1 0 0 0 0 0 ROOM HEATING PEAK LOADS Project Title Date R O C C A Garage 8/9/01 Room Information Design Conditions Room Name Garage Time of Peak Jan 12 am Floor Area 776 Outdoor Dry Bulb Temperature 24OF Indoor Dry Bulb Temperature 70 OF i Conduction Area U -Value AT of Btu/hr Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 10,933 Infiltration:1.00 x 1.080 x 776 x 10.00 x 1.00 /6 0] x cSensible46 = 6,42L3 e u e it ensi a rea a ng e g t pT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 17,356 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:1 of 1 776.0 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 0.0257 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 46.0 = = = = = = = = = = = = = = = = = = = = = = = = = = = = 919 885.0 0.0566 46.0 24.0 0.3872 46.0 427 18.0 0.5700 46.0 472 77.5 0.0572 46.0 204 208.0 0.1137 46.0 1,088 Perimeter 121.2 45.5 5,517 Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 10,933 Infiltration:1.00 x 1.080 x 776 x 10.00 x 1.00 /6 0] x cSensible46 = 6,42L3 e u e it ensi a rea a ng e g t pT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 17,356 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number: 0019.00 Page:1 of 1 0 RESIDENTIAL ROOM COOLING LOAD SUMMARY R O C C A Garage 8/9/01 Project Title Date • Room Name 0 0 0 Design Indoor Dry Bulb Temperature: Design Outdoor Dry Bulb Temperature: Design Temperature Difference: Conduction /R-2 (R.38.2x_.16) -1 Wall (W.21.2x6.1 Solid Wood Door - Double Default (Tnth -2 Wall (W.21.2x6.1 nsulated Garage Dr. Area U -Value 77 0. 0.11 Garage 78°F 115°F 370F X X X X X X DETD' = = = = = = Btu/hr 56.0 1,119 35.6 1,784 35.6 331 37.0 380 35.6 158 35.6 842 X X X 1. Design Equivalent Temperature Difference (DETD) Page Total 4,613 Items shown with an asterisk (') denote conduction through an interior surface to another room. Shaded Unshaded Solar Gain Orientation Area SGF Area SGF SC Btu/hr FxdWdw (KK) (North) ( 0.0 x 1 + 6.0 X 15)X 0.632 = 57 FxdWdw LL (North) ( 0.0 x 1 + 6.0 X 15)X 0.632 = 57 FxdWdw (MM) (South) ( 0.0 x 1 + 6.0 X 32)X 0.632 = 121 ( x + X )X = ( x + X )X = ( x + X )X = ( x + X )X = ( x + x )x = ( X + x )X = ( x + X )x = Sched. Page Total 235 Internal Gain Frac. Area Heat Gain Btu/hr Lights 1.00 X 776 X 0.500 Wafts/sqft x 3.413 Btuhi'Watt = 1,324 Occupants 1.00 X 776 x 255 Btuh/occ. / 333 sgft/occ. = 594 Receptacle 1.00 X 776 X 0.000 Wafts/sqft x 3.413 BtuhlWaft = 0 Process 1.00 x 776 x 0.000 Wafts/sqft x 3.413 Btuh/Watt = 0 Infiltration: 1.00 x 1.080 x 776 x 10.00 x 1.00 / 60] 37 = Lc5,166 eue r Sensible rea e� mg e g Q Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 11,933 Sched. Latent Gain Frac. Area Heat Gain Btu/hr Occupants 1.00 x 776 x 225 Btuh/occ. / 333 sgft/occ. = 524 Receptacle 1.00 x 776 x 0.000 Watts/sgft x 1 3.411 Btuh/Waft = 0 Process 1.00 x 776 x 0.000 Wafts/sqft x 3.41 BtuhfWatt = 0 Infiltration: 1.00 x C 4,8401 x 77 x 10.00 x 1.00 / 60] 0.00433 = 2,710 ceue v Latent rea Ceiling egg c . Fraction TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 3,234 EnergyPro 3.1 By EnergySoft User Number. 1086 Job Number. 0019.00 Page:1 of 1 0 • Equipment Specifications e R O C C A RESIDENCE ■ 06/01/01 COMPLIANCE REQUIREMENTS: ■ ZONAL CONTROL REQUIRED • (1) 119 GAL. RHEEM PE119-130 (R.E. - 0.95) or APPROVED EQ. with TIME and TEMP RECIRC. SYSTEM • ALL GLAZING PER DEFAULT TABLES I -D and I -E EXCEPT as FOLLOWS U -FACTOR - 0.38 - FLTWD ASPEN (LO-E/AIR) / FIXED (0.36 SHGC) ■ ALL WALLS to RECEIVE R-21 BATT INSULATION. ■ ALL CEILING / ATTIC SPACES to RECEIVE R-38 BATT INSULATION. BRYANT AIR CONDITIONING EQUIPMENT Zone 1 Zone 2 Zone 3 Zone 4 Furnace 333JAV036060 333JAV060100 (2) 333JAV048080 619CX024OWOA BTU Output : 49,000 82,000 65,000 22,600 A.F.U.E. / H.S.P.F. 80.0 80.0 80.0 7.30 (H.S.P.F.) Cooling Coil CDSA CDSA CDSA (N/A) Condenser : 598A036 -D 598A060 -D (2) 598A048 -D 5386024 C.F.M. (Min Req./Design) : 900 / 1100 1500 / 1835 2940 / 3250 550 / 870 S. E. E. R.: 14.50 13.50 13.50 11.00 Thermostat (Totaline) TSTATDDTIOOS TSTATDDTIOOS TSTATDDTIOOS WIRED NOTES: I. PROVIDE SEPARATE ADDER for ELECTRONIC FILTRATION and HUMIDIFIER. 2. ALL DUCTS SHALL be INSULATED (and LABELED) to ACHIEVE AN OVERALL 12 -VALUE - 4.2. 3. ALL THERMOSTATS SHALL be RECESSED MOUNTED at LOCATIONS INDICATED. 4. ALL BATHROOM EXHAUST FANS SHALL be 'GEMINI' =500 or APPROVED EQUAL and SET for 150 C.F.M. MIN. or 5 A/C PR. HR. WHICHEVER is GREATER. 5. ALL CONDENSERS SHALL be INSTALLED with TXV (EXPANSION VALVE) 6. ZONE 3 MUST HAVE A DIAGNOSTIC SITE TESTING of DUCT LEAKAGE PERFORMED by A CERTIFIED 'HERS' RATER. 0 I Heating 6 Cooling Systems 0 0 0 0 U] 0 0 0 With a unique approach to induced -combustion design, a 40 -in. tall cabinet, a 4 -pass heat exchanger, an inshot burner system, and its safety features, this furnace is without peer. The Plus 80 Variable -Speed Upflow/Horizontal Furnace achieves an 80% Annual Fuel Utilization Efficiency (AFUE) rating. The benefits of variable -speed operation in reducing sound and improving com- fort put it in a class well ahead of the competition. The Plus 80 Variable -Speed has the kind of overall performance needed in today's homes. All models are GAMA efficiency rating certified. The model 333JAV furnaces are certified for use in California Air Quality Management Districts. FEATURES EFFICIENCY—The Plus 80 Variable -Speed Induced -Combus- tion Gas Furnace provides the efficiency customers want with 80.0% AFUE and improves air conditioner or heat pump perfor- mance up to 1-1/2 points. HOT SURFACE IGNITION—No pilot to waste gas with this field - proven ignition system. ALUMINIZED HEAT EXCHANGER—The patented 4 -pass heat exchanger is made of aluminized steel and backed by a 20 -year Limited Warranty. INTELLIGENT CONTROL—The Plus 80 Variable -Speed has an intelligent control that monitors the operation of the furnace. This control also has a component -test feature that enables the servicing technician to verify operation of the control, the high and low inducer speeds, the hot surface ignitor, and high-, medi- um-, arid low -speed blower operation. The control features a 3 - amp fuse that protects the transformer and control. We guaran- tee the reliability of the control with a 3 -year Limited Warranty. 40 -IN. HEIGHT—The Plus 80 Variable -Speed cabinet height is only 40 in. This simplifies installation in alcoves, attics, base- ments (ideal for short basement), closets, and utility rooms, es- pecially with a taller high -efficiency cooling coil. PREPAINTED CABINET—The Plus 80 Variable -Speed uses prepainted sheet metal for the cabinet. This is the same high- quality finish found on refrigerators and other appliances today. We ensure its durability by using a galvanized steel substrate to provide superior rust protection. PATENTED DRAFT SAFEGUARD—Our induced -combustion furnace has a patented draft safeguard switch. The safeguard switch will stop furnace operation if the vent system becomes blocked or is not operating properly. EASY INSTALLATION—The Plus 80 Variable -Speed has many features that make installation easier: left or right gas and electri- cal connections, heating and cooling airflow selector, matching coil sizes, accessory low -voltage connections, and many more. QUIET OPERATION—A soft mount inducer assembly and 2 - stage slow -opening gas valve reduce sound level. The 2 -stage heating operation capability minimizes furnace and air noise for total home comfort. Form No. PDS 333B.60.2B • 0 0 0 0 0 0 0 0 Q AIRFLOW 2 1/1s" 28 'h" A 19" FLUE COLLAR �1 ' D 13/16" � 1" 1" r OUTLET I t'16" 7/b -IN. DIA HOLE 5 3rb 5 �o �0 0 7/t -IN. DIA + POWER ENTRY POWER ENTRY o 0 0 125/16" o00 7/t -IN. DIA o o 2 11/16 I 1 lf2-IN. DIA ACCESSORY I I 5' ts" o 0 0 513/'� s I R.H. GAS ENTRY 39 7/b„ 1 3/4 -IN. DIA HOLE —►Q+ �o �0 0 2 7� IN. DIA ACCESSORY GAS ENTRY o 0 o 1h WIRE -IN. DIA HOLE 2 3/b" o 0 o I DIA THERMOSTAT THERMOSTAT WIRE ENTRY WIRE ENTRY v v SIDE INLET I� d �— 24 5/16" 3" 11/16" I AIR INLET u TYP 1" SIDE INLET I 141/i" 11 __j s /8 —+jI �-� jI 4" 1 1/16" I E 1 , " 1„ I� 5/8 231/4" TYP SIDE RETURN DUCT LOCATION NOTES: 1. Two additional 7k -in. dia knockouts are located in the top plate. 2. Minimum return -air opening at furnace: a. For 800 CFM -16 -in. round or 141/2 x 12 -in. rectangle. b. For 1200 CFM -20 -in. round or 141/1 x 191h -in. rectangle. c. For 1600 CFM -22 -in. round or 141/2 x 231/4 -in. rectangle. d. For airflow requirements above 1800 CFM, use both side inlets, a combination of 1 side inlet and the bottom, or the bottom only. A88367 DIMENSIONS (In.) UNIT SIZE A D ECONNECTION* VENT SHIPPING WEIGHT (LB) 036060 14-3/16 12-9/16 12-11/16 4 134 048080 21 19-3/8 19-1/2 4 154 060100 24-1/2 22-7/8 23 4 184 060120 24-1/2 22-7/8 23 5 194 Refer to the furnace Installation Instructions for proper venting procedures. DIMENSIONAL DRAWINGS OF OPTIONAL SIDE FILTER RACK yI '/2"IL-1 1/1, (TYP) DABS 25 '/B" 1 16 '/B 14 '/2 I —2— A80199 U 0 0 u 0 10 10 k �v 3 FLVV_t 9- ® SPECIFICATIONS IF V 11 UNIT SIZE I 03606011 048080 060100 060120 PERFORMANCERATINGS AND High Stage Gas Input (Btuh)* Low Stage 60,000 39,000 80,000 100,000 52,000 65,000 117,000 78,000 Output Capacity (Btuh)t High Stage Nonweatherized ICS Low Stage 49,000 31,000 65,000 82,000 42,000 53,000 96,000 63,000 AFUE%t Nonweatherized ICS 80.0 80.0 80.0 80.0 Certified Temperature Rise High Stage Range (°F) Low Stage 25-55 15-45 30-60 25-55 15-45 15-45 40-70 25-55 Certified External Static Pressure Heat/Cool 0.12/0.70 0.15/0.50 0.20/0.70 0.20/0.70 Airflow CFM$ High/Low Cooling (Max) 1250/1135 1260 1310/1395 1935/1630 1635 2085 1720/1605 2010 ELECTRICAL Unit Volts—Hertz—Phase 115--6'0-1 Operating Voltage Range 104-127 Maximum Unit Amps 10.1 10.6 12.6 13.9 Maximum Wire Length (Measured 1 Way) Ft 36 34 29 26 Minimum Wire Size 14 14 14 14 Maximum Fuse Size 15 15 15 15 Transformer (24v) 40va External Control Heating Power Available Cooling 19va 35va Air Conditioning Blower Relay Standard CONTROLS Limit Control SPST (Auto -Reset) Heating Blower Control Solid -State Time Operation Inducer 2 -Speed Burners (MonopoR) 3 4 T 5 6 Gas Connection Size 1/2 -in. NPT GAS CONTROLS 2 -Stage Redundant Gas Valve White -Rodgers Min Inlet Pressure (In. wc) 4.5 (Natural Gas) Max Inlet Pressure (In. wc) 13.6 (Natural Gas) Ignition Device Hot Surface BLOWER Direct -Drive Motor HP (ICM Variable Speed) 1/2 1/2 1 3/4 11 Motor Full Load Amps 7.7 7.7 9.6 12.0 RPM (Nominal --Speeds 300 to 1400 300 to 1400 300 to 1400 300 to 1400 Blower Wheel Diameter x Width (In.) 10 x 6 10 x 8 11 x 10 11 x 10 Filter Size (In.)—Permanent Washable (Supplied) 1 FACTORY -AUTHORIZED DEALER -INSTALLED AC• High -Altitude Pressure Switch Kit** (1) 16 x 25 x 1 - (1) 20 x 25 x 1 (2) 16 x 25 x 1 KGAHA5701PSW (2) 16 x 25 x 1 Gas Conversion Kit—Natural-to-Propane KGANP24012SP Gas Conversion Kit—Propane-to-Natural KGAPN20012SP Electronic Air Cleaner Model 901 KAX Humidifier Model 913BAX Thermostat See Thermostat Price Page Sidewall Power Venter Kit KGASW03012SP Side Filter Rack (Accepts 1 Filter)tt In. KGAFR0201ALL (Filter Size 16 x 25 x 1) Return Filter Cabinet (With 2 Washable Filters In. KGARP0201ALL (Filter Size 20 x 25 x 1) * Gas input ratings are certified for elevations to 2000 ft. For elevations above 2000 ft, reduce ratings 4% for each 1000 ft above sea level. Refer to National Fuel Gas Code Table F4. In Canada, derate the unit 10% for elevations 2000 ft to 4500 ft above sea level. t Capacity and AFUE in accordance with U.S. Government DOE test procedures. t Air delivery above 1800 CFM requires that both sides, or a combination of 1 side and bottom, or bottom only of the furnace be used for return air. A filter is required for each return -air inlet. "* 5500 ft and higher above sea level. tt Side filter rack must be used for upflow right -side return with 036060 size. ICS—Isolated Combustion System 1 -3- 0 0 0 ul 0 U 0 CLEARANCES FROM COMBUSTIBLE MATERIALS (In.) Clearance shown is for the outlet end. The inlet end must maintain 6 in. clearance from flue to combustible materials when using sin- gle-wall vent. t 18 -in. front clearance required for alcove. t Indicates supply or return sides when furnace is in the horizontal position. NOTES: 1. Provide 30 -in. front clearance for servicing. An open door in front of the furnace can meet this requirement. 2. A minimum clearance of 3 in. must be provided in front of the fur- nace for combustion air and proper operation. �- '-�m Cor ora MEETS DOE RESIDENTIAL v� vo> CONSERVATION SERVICES �� PROGRAM STANDARDS. Before purchasingp this appliance, important ~`= so9ool aP2�0� energy cost and efficiency information available from your retailer. —4— UNIT SIZE 060 060-120 UPFLOW Single -Wall Vent 1 0 Furnace Sides Type B-1 Double -Wall Vern 0 0 Furnace Back 0 0 Plenum Top 1 1 Furnace Front Single -Wall Vent 6 6 (See Notes) Type B-1 Double -Wall Vent 3 3 Single -Wall Vern 1 6 6 Vent Type B-1 Double -Wall Vent 1 1 1 HORIZONTAL POSITION (IN ALCOVE, ATTIC, OR CRAWLSPACE) Sides*j 1 1 Back 0 0 Single -Wall Vern 1 1 Top Type B-1 Double -Wall Vent 1 1 Furnace Frontt Single -Wall Vent 6 6 (See Notes) Type B-1 Double -Wall Vent 3 3 Single -Wall Vent 1 6 6 Vent Type B-1 Double -Wall Vent 1 1 1 HORIZONTAL POSITION (IN CLOSET) Sides'* 1 1 Back 0 0 Single -Wall Vent 2 2 Top Type B-1 Double -Wall Vent 2 2 Furnace Front Single -Wall vent 6 6 (See Notes) Type B-1 Double -Wall Vent 3 3 Single -Wall Vent 6 6 Vent Type B-1 Double -Wall Vent 1 1 Clearance shown is for the outlet end. The inlet end must maintain 6 in. clearance from flue to combustible materials when using sin- gle-wall vent. t 18 -in. front clearance required for alcove. t Indicates supply or return sides when furnace is in the horizontal position. NOTES: 1. Provide 30 -in. front clearance for servicing. An open door in front of the furnace can meet this requirement. 2. A minimum clearance of 3 in. must be provided in front of the fur- nace for combustion air and proper operation. �- '-�m Cor ora MEETS DOE RESIDENTIAL v� vo> CONSERVATION SERVICES �� PROGRAM STANDARDS. Before purchasingp this appliance, important ~`= so9ool aP2�0� energy cost and efficiency information available from your retailer. —4— 0 0 0 0 0 0 0 0 0 AIR DELIVERY—NOMINAL CFM (With filter) GAS HEAT AIRFLOW AC/HP JUMPER POSITION: AC AIR CONDITIONING, COOLING AIRFLOW HP—EFFY HEAT PUMP—EFFICIENCY, COOLING AND HEATING AIRFLOW HP—CFMT HEAT PUMP—COMFORT, COOLING AIRFLOW GAS HEAT SINGLE -SPEED TWO -SPEED (HIGH / LOW) TEMP RISE GAS HEAT GAS HEAT JUMPER POSITION$ FURNACE TEMP RISE (°F)' AIRFLOW (CFM) Red Wire Violet Wire HIGH -STAGE LOW -STAGE HIGH -STAGE LOW -STAGE SIZE 400 HI A 51 45 925 615 060 M -HI A 46 38 1085 730 SIZE MID D 40 30 1250 1135 530 HI A 58 44 970 790 080 M -HI A 51 39 1140 925 865 MID D 45 29 1310 1395 M -HI HI A 51 44 1430 1035 100 M -HI A 45 39 1685 1215 1200 MID D 40 30 1935 1630 990 HI A 69 49 1330 1240 120 M -HI A 59 43 1560 1460 080 MID D 55 40 1720 1605 AC/HP JUMPER POSITION: AC AIR CONDITIONING, COOLING AIRFLOW HP—EFFY HEAT PUMP—EFFICIENCY, COOLING AND HEATING AIRFLOW HP—CFMT HEAT PUMP—COMFORT, COOLING AIRFLOW AC/HP JUMPER POSITION: HP—CMFT HEAT PUMP—COMFORT, HEATING AIRFLOW SINGLE -SPEED TWO -SPEED (HIGH / LOW) AIRFLOW SELECTION CFM CFM COOL SIZE COOL CFM PER TON COOL CFM PER TON JUMPER POSITION JUMPER JUMPER POSITION 400 350 315 FURNACE 400 350 315 HIGH LOW HIGH LOW HIGH LOW SIZE POSITION TONS LO 1-1/2 600 530 500t 630 5001 550 5001 5001 500t 060 M -LO 2 800 700 630 865 510 735 5001 660 5001 M -HI 2-1/2 1000 880 790 1060 650 920 570 825 510 HI 3 1200 1050 945 1260 780 1100 680 990 585 LO 2-1/2 1000 875 790 1050 660 920 595 830 545 080 M -LO 3 1215 1050 945 1260 790 1100 700 990 625 M -HI 3-1/2 1400 1225 1100 1470 910 1280 805 1155 715 HI 4 1600 1 1400 1250 1635 1040 1470 915 1325 820 LO 3 1195 1045 950 1260 780 1090 775 990 7001 100 M -LO 3-1/2 1400 1225 1090 1470 910 1285 830 1155 715 M -HI 4 1600 1400 1260 1680 1040 1465 915 1325 820 HI '5 2000 1750 1575 2085 1300 1840 1150 1655 1025 LO 3 1160 1050 955 1195 865 1085 785 985 785 120 M -LO 3-1/2 1400 1220 1090 1420 970 1265 875 1150 845 M -HI 4 1600 1395 1250 1650 1070 1465 975 1315 930 HI 5 2000 1750 1565 2110 1300 1835 1140 1. 1640 1 1080 AC/HP JUMPER POSITION: HP—CMFT HEAT PUMP—COMFORT, HEATING AIRFLOW ' Within ± 2°F t Minimum airflow is set for electronic air cleaner: 060-500 CFM, 080-500 CFM, 100-700 CFM, 120-700 CFM t Use only listed jumper position combinations. NOTES: 1. A humidistat can be used to further reduce airflow when increased humidity is sensed. This feature reduces the selected airflow by 20%, but no lower than 280 CFM per ton. 2. Continuous -fan selections are 50%, 65%, or 100% of selected cooling airflow. 100% is not recommended for 2 -speed air conditioning or heat pumps.t • 3. See the following airflow curves for CFM versus ESP at 350 CFM per ton. —5— SINGLE -SPEED TWO -SPEED (HIGH / LOW) AIRFLOW SELECTION CFM CFM COOL SIZE COOL CFM PER TON COOL CFM PER TON JUMPER POSITION JUMPER JUMPER POSITION 400 350 315 FURNACE 400 350 315 HIGH LOW HIGH LOW HIGH LOW SIZE POSITION TONS LO 1-1/2 540 5001 5001 565 5001 5001 5001 5001 5001 060 M -LO 2 720 630 570 780 5001 660 5001 595 5001 M -HI 2-1/2 900 790 710 945 585 830 515 740 5001 HI 3 1080 945 855 1135 700 990 610 895 555 LO 2-1/2 900 785 710 945 605 825 535 755 5001 080 M -LO 3 1080 945 850 1135 715 990 630 895 560 M -HI 3-1/2 1260 1100 990 1325 830 1150 725 1040 655 HI 4 1440 1260 1135 1510 940 1325 825 1190 740 LO 3 1075 940 855 1130 700 980 700 890 7001 100 M -LO 3-1/2 1260 1100 990 1325 820 1155 750 1040 7001 M -HI 4 1440 1260 1130 1510 935 1320 825 1190 740 HI 5 1800 1575 1420 1890 1170 1655 1035 1490 920 LO 3 1045 945 860 1075 780 975 750 885 750 120 M -LO 3-1/2 1260 1100 980 1280 875 1140 790 1035 760 M -HI 4 1440 1255 1125 1485 965 1320 880 1185 835 HI 5 1800 1575 1410 1900 1170 1650 1025 1475 970 ' Within ± 2°F t Minimum airflow is set for electronic air cleaner: 060-500 CFM, 080-500 CFM, 100-700 CFM, 120-700 CFM t Use only listed jumper position combinations. NOTES: 1. A humidistat can be used to further reduce airflow when increased humidity is sensed. This feature reduces the selected airflow by 20%, but no lower than 280 CFM per ton. 2. Continuous -fan selections are 50%, 65%, or 100% of selected cooling airflow. 100% is not recommended for 2 -speed air conditioning or heat pumps.t • 3. See the following airflow curves for CFM versus ESP at 350 CFM per ton. —5— 0 0 0 The airflow performance charts for the model 333BAV and 333JAV Furnaces provide nominal airflow in cubic ft per minute (CFM) versus external static pressure (ESP) in in. water column (IWC) for gas heating, cooling, and heat pump operating modes. Each model has 2 chart pages: gas heating and single -speed cooling on the first page, and 2 -speed cooling on the second page. Gas heating airflow is shown with dashed lines for HIGH -GAS HEAT and with dot -dash lines for LOW -GAS HEAT for all 3 air temperature rise selections. Single -speed cooling airflow is shown with solid lines for all 4 size selections. Two -speed airflow is shown with solid lines for HIGH -COOLING and with dot -dash for lines LOW -COOLING for all 4 size selections. The curved, dotted lines are furnace -duct system characteristic curves. System curves can be used to predict the ESP imposed by a building's supply and return air duct system at any airflow, if a single actual airflow CFM versus ESP is known. Example: If CFM and ESP at point A in example below are known, the CFM and ESP at point B can be determined by following the system curve from A to B. If a point falls between 2 system curves, follow an imaginary system curve parallel to and between the 2 system curves. U W U) W 0.4 a U H Q h J Q Z W X W 0 EXAMPLE AIRFLOW (CFM versus ESP) ' I I ' 1 1 FURNACE AIRFLOWS ' 1 i / I / Z iQ A FURNACE -DUCT SYSTEMS i i / U / Q • ' C7 / / Z O / O / U / / B / I / i i 840 CFM —6- 1050 1300 0 A O O EXTERNAL STATIC PRESSURE (IWC) 0 0 0 0 0 0 0 0 0 O 0 (1-V2 TONS COOLING) • o 530 0 rn 0 0 J O O o HI (LOW -GAS HEAT 45°F AIR TEMP 0 ��,�, 0 615 •�•�"� r •� n 0 D T C, M -LO (2 TONS COOLING) 0 700 zO 0 0 O _.y,_._._._ -.-.-.-.-.-. 0 . ......... ........ ...... 0 730 .�• !•�•�'� 0 N m � �$ O HEAT 38'F AIR TEMP RISE)' O 0 m S w c o 0 EXTERNAL STATIC PRESSURE (IWC) 0 0 0 0 0 0 0 0 0 0 (1-V2 TONS COOLING) 530 0 HI (LOW -GAS HEAT 45°F AIR TEMP RISE ��,�, z 615 •�•�"� r •� 0 D M -LO (2 TONS COOLING) r 700 zO _.y,_._._._ -.-.-.-.-.-. . ......... ........ ...... Mm� o 730 .�• !•�•�'� m � �$ M -HI (LOW -GAS HEAT 38'F AIR TEMP RISE)' 0 m go zo> OCDC cn CDCM zz a_ S a D= 880 M -HI 2-1/2 TONS COOLING) r0 m n XZ2 0=!(n f7 0�0 Ohm 925 � ��` 1,�� H - HISIGHGAS HEAT 51 °F AIR TIS EMP R- - �� ' - - - - - - - - -� � F: C> MM HI (3 TONS COOLING) T 1050 -HI (HIGH -GAS HEAT 46°F AIR TEMP RISE)'...... . 1085 - - - - --M ..... �, m :0 a m MID (LOW -GAS HEAT 30°F AIR TEMP RISE)'� m 0 $o 1135 .rt.�.� ....... ................ ....... ...... .q...... ...... ID to m CY) '+ MID (HIGH -GAS HEAT 40°F AIR TEMP RISE)' Q R 1250 - - =� - - - - - - - - _ _ - EXTERNAL STATIC PRESSURE (IWC) in a) v 0) co it t 500, M—L 0 AND LO (2 AND 1-1/2 TONS LOW COOLING) C> Ln LO(1-1/2 TONS HIGH bOOLING) ---------- 510 . . . . . . . . . . . . 0) 0 M -HI (2-1/2 TONS LOW COOLING) 0 -4 0 0 co G) 0 0 680 HI (3 TONS LOW COOLING) . . . . . . . . . . . . . . . . . . .. T 117 0 M -LO (2 TONS HIGH COOLING) O cn 0 O O m . r n M ww O Omm cmc O 0 Zo coam EXTERNAL STATIC PRESSURE (IWC) in a) v 0) co it t 500, M—L 0 AND LO (2 AND 1-1/2 TONS LOW COOLING) 650 LO(1-1/2 TONS HIGH bOOLING) ---------- 510 . . . . . . . . . . . . 0 M -HI (2-1/2 TONS LOW COOLING) 0 G) 680 HI (3 TONS LOW COOLING) . . . . . . . . . . . . . . . . . . .. 117 0 M -LO (2 TONS HIGH COOLING) cn 0 735 m . r n M ww Omm cmc 0 Zo coam -0 --I x z DO c x> -0 E: =MO z M-4 (2"1/2 TONS HIGH 0O>M G) =!Ln mL) 0 Or x E: o m COOLING) 920 K:r Z >-n o m F r i < m O 0 -n K HI (3 TONS HIGH COOLING) _0 m --1100 0 o Z Ln EXTERNAL STATIC PRESSURE (IWC) Ln Q> -4 w co O0 -4 O O co 0 0 co 0 0 0 K) 0 0 W 0 0 en 0 0 HI (LOW -GAS HEAT 44°F AIR TEMP RISE)" . . - - - - - - - - - - - - - - - - - - - - - .. . . . . . .... 0 0 LO (2-1/2 TONS COOLING) r 875 VI -HI (LOW -GAS ......... HEAT 39°F AIR TEMP RISE)' ... L> 92� . . . . . . . . . . . . . . . . . . . . ...... ... . . . . . . ... 970\ - - HI (HIGH -GAS HEAT 58°F AIR RISE) - 0 (n:* - - - - - -- _____tet. - - - - - - - - - - - - -- - - - - - - - - - - 0 cn G) M r r- M 1050 m > 0 L) 0 M -LO (3 TONS COOLING) M M CD 5MG) 6 ca -n Z > HI (HIGH -GA SHEAT510FAIRTE PRISE) (n cDam 1140 _'�k - -- - - - - - - - - - - - - - - - - — — — — — Fno qxz ox cx> '7 -- >om mmo Or-> mZ2 0 o>m 4w m 1225 o0c) OEM L(:k - E: C) M M -HI (3-1/2 TONS COOLING) K =i :s z • > af --1 0 .,---MID (HIGH -GAS HEAT 45°F AIR TEMP RISE)* -n m F 1310 - - - - - - - - - - - < M M MID (LOW -GAS HEAT 29°F AIR TEMP RISE)* .—1395 1400 - — - — --- - — - — - — --- - — - — - — - — - — - — - — - n HI (4 TONS COOLING) - — - — - — - — -- m am > 0 z S2. CD 0 3 CD < rnCD N 0 EXTERNAL STATIC PRESSURE (IWC) 0 0 0 0 0 0 O CJt O LO (2-1/2 TONS LOW COOLING) O •—•—•—•—•—•—• 0 0 0 C> 0 595 ��.�.... .�•• N 0 EXTERNAL STATIC PRESSURE (IWC) 0 0 0 0 0 0 O CJt O LO (2-1/2 TONS LOW COOLING) O •—•—•—•—•—•—• rn C> 0 595 ��.�.... .�•• 0 0 w O 0 M -L (3 TONS LOW COOLING) 0 ----------------0 0 •� �.. �.�. � 0 —.—.—. .—.�•�. .�. :rte 0 Q n o � o 700 0 0 M -HI (3-1/2 TONS LOW COOLING) N O O w 805 tom.—.—: —.—.�..T�. 0 0 11 "1 A 0 M 0 91511% 0 • cn m M O _ O LO (2 1/2 TONS HIGH COOLING) n m O o 25 °�° O O N 0 EXTERNAL STATIC PRESSURE (IWC) 0 0 0 0 0 0 LO (2-1/2 TONS LOW COOLING) - - •—•—•—•—•—•—• 595 ��.�.... .�•• O M -L (3 TONS LOW COOLING) ----------------0 •� �.. �.�. � �..� —. —.—.—. .—.�•�. .�. :rte r Z 700 D M -HI (3-1/2 TONS LOW COOLING) rn O 805 tom.—.—: —.—.�..T�. 11 "1 T M 0 91511% HI (4 TONS LOW COOLING) • m M _ _ — _ 915 LO (2 1/2 TONS HIGH COOLING) n m O o 25 °�° an � O -4x z O C=D D c: mmo 1100 M -LO (3 TONS HIGH COOLING) COOLING) M0 0 g O Z N x� rG)m D= L)Z MC Mr � � M -HI (3-1/2 TONS HIGH COOLING) n 1275 M Z HI (4 TONS HIGH COOLING) 0 1470 N O Ln EXTERNAL STATIC PRESSURE (IWC) 0 0 0 0 0 0 0 0 0 rn 0 iv ca a Ln rn v bo io ca O 0 0 V --------------- . O O co O O (D O O 0 0 0 0 0 z 1035 0 44'F AIR TEMP RISE)` N m 0 0 w (3 TONS COOLING) 0 O m *z0 -HI HEAT 39°F AIR EMPRISE) A • mG- --I m 0 (LOW -GAS 2 - _ _ _ _-__ _.�._.�. o ��m 0 •�• 1225 p m G7 g CIDT O M -LO (3-1/2 TONS COOLING) 0 0 0 ZO>o-m (n w C 0 0 n _ j=Z noa 0 0 DOD MMO r 0 0 -HI (4 TONS COOLING) 0 HI (HIGH -GAS HEAT 51°F - - - - - AIR TEMP RISE)' — — 1. - — — — — — — - - - - - 0 0 1430 000 OZN Z O m 0 N O O O { m --4 MID (LOW -GAS HEAT 30°F AIR TEMP O ca O --------------- O 0 z 1035 HI (LOW -GAS HEAT 44'F AIR TEMP RISE)` m 1045 ' •LO T (3 TONS COOLING) p cn *z0 -HI HEAT 39°F AIR EMPRISE) • mG- --I m 1215 (LOW -GAS 2 - _ _ _ _-__ _.�._.�. o ��m _._. •�• 1225 p m G7 g CIDT M -LO (3-1/2 TONS COOLING) ZO>o-m (n w C n _ j=Z noa "M DOD MMO r 1400 -HI (4 TONS COOLING) -i 0 D M Z2 HI (HIGH -GAS HEAT 51°F - - - - - AIR TEMP RISE)' — — 1. - — — — — — — - - - - - - - - - - 1430 000 OZN Z O m D2� C)Z —i S rrr { m --4 MID (LOW -GAS HEAT 30°F AIR TEMP RISE)' o m 0 1630 - -•-• -•-•T•-r•-•-•-. :�.�.�. ....._........ �':�.•-•-._.-.-. M-H� TGH-GAS HEAT 45°F AIR TEMP RISE) 'n 1685 - - - _ _ _ _ _ _ _ _ _ _ _ = - _ _ _ _ _ � 1750 HI (5 TONS COOLING) �. m3 CD 0 mD z -a- 00 O < 1935 - I �MIDSHIGH-GAS HEAT 40°F AIR TEMP RISE '� - - - - �- N 2 w - - - - Q _ A � T O EXTERNAL STATIC PRESSURE (IWC) �4 bo io O O -4 755 O 00 LO (3 TONS LOW COOLING) M -LO (3-1/2 TONS LOW COOLINP) C) 830 CD (0 C) - — - — - — - --- O O 915- M -HI (4 TONS LOW COOLING) 0 - — 1\3 N) - —•—•— - — - — - — - — W 50 O 0 O (n logo 0 LO (3 TONS HIGH COOLING) m rn r m m 'm 'p 1150 HI (5 TONS LOW COOLING) C, 0 Fn 0 z 0 > 0 M -LO (3-1/2 TONS HIGH COOLING) EXTERNAL STATIC PRESSURE (IWC) �4 bo io --------------- 755 LO (3 TONS LOW COOLING) M -LO (3-1/2 TONS LOW COOLINP) 830 - — - — - — - --- 0 915- M -HI (4 TONS LOW COOLING) E: z - — .. . . ...—•—•—•—•—•— - —•—•— - — - — - — - — 50 0 logo LO (3 TONS HIGH COOLING) m r m m 'm 'p 1150 HI (5 TONS LOW COOLING) 0 zo Fn 0 z > 0 M -LO (3-1/2 TONS HIGH COOLING) r- :r 0 0 — m 1285 ------- -0 z 0 > X0 0 --1 Ln 0* 02N q E:C)m af Z_ Z M 1465 M -HI (4 TONS HIGH COOLING) -0 0 HI (5 TONS HIGH COOLING) con 1840 a 0 110 11 0 0 Heating a cooling The CDSA/CDSB are cased coils designed to fit BDP furnaces of the same width or the next smaller size. The CDSA/CDSB are available in sizes 018 through 070 (1-1/2-6 tons). The CDSA has a prepainted wrapper while the CDSB has an unpainted em- bossed galvanized steel wrapper. The CCSA is an uncased A -coil requiring a field -fabricated enclo- sure. It is available in sizes 018 through 060 (1-1/2-5 tons) FEATURES Coil Design—Our advanced manufacturing methods give a bet- ter bond of the fin to the grooved tubing. Contaminants are not introduced into the coil during manufactur- ing and all coils are shipped with a holding charge. This helps to prevent galvanic action. The coils are approved for air condition- ing or heat pump application in the vertical configuration, both upflow and downflow. Metering Device—The CDSA/CDSB and CCSA Coils include a Check -Flo -Rater® metering device which eliminates the potential serviceability requirements of check valves and expansion de- vices used in conventional coils. Condensate Pan—Each coil is equipped with a corrosion -resis- tant condensate drain pan with two 3/4 -in. female threaded brass insert connections. The thermoplastic drain pan is designed with a slope to help ensure proper drainage. Refrigerant Connections—Sweat-type connections are fur- nished for installation of the refrigerant tubes to ensure leak -free operation. Casing—The coil casing is fully insulated to minimize heating or cooling transfer, while maintaining quiet operation. Form No. PDS MA. 18AD 0 • E • 0 1 7/t6- J36.5) /t6(36.5) D SUCTION LINE 518-- 18 UNF-2A ' y 3/g" LIQUID LINE O (9.5) ' 0 9 1/2' 3/a" NPT PLUGGED (241.3) (19.1) DRAIN 1✓ 73/8- O (187.3) ° F _____________J,` 1 3/4^ NPT DRAIN (36.5) '3/16-) 11/1fi (20.6) (19.1 (17.4) 25/16 (58.7) (482.6) A FRONT RIGHT SIDE UNCASED COILS CC5AXA018, 024, 030, 036, 042, CC5AXW024, 030, CC5AXCO48 LEFT SIDE 17/16- (36.5) D SUCTION LINE C be" -18 UNF-2A 9 1/2 +' 15.88) (241.3) 1/8 LIQUID LINE .�, 9.5) 10 13/t6 7 3/B ��,IN (274.6) (187.3) 5 ___ i) (36.5) -13/1B 314- NPT DRAIN (17.4) 251'6 (20.6) (79.1) (56.7) A FRONT UNCASED COILS CC5AXW042. 048. 060. CC5AXA060 A94091 UNIT SERIES A In. mm C In. mm In. D mm SHIPPING WEIGHT Lb. Kg. CC5AXA018 A 12-5/8 320.7 10-9/16 268.3 5/8 15.88 15 6.8 CC5AXA024 A 12-5/8 320.7 12-11/16 322.2 5/8 15.88 17 7.7 CC5AXW024 A 15-15/16 404.8 14-3/4 374.6 3/4 19.05 22 10.0 CC5AXA030 A 12-5/8 320.7 15-1/8 384.2 3/4 19.05 20 9.1 CC5AXW030 A 15-15/16 404.8 14-3/4 374.6 3/4 19.05 22 10.0 CC5AXA036 A 15-15/16 404.8 18-1/2 469.9 3/4 19.05 24 10.9 CC5AXA042 A 19-3/8 492.1 17-3/4 450.8 7/8 22.23 26 11.8 CC5AXW042 A 22-15/16 582.6 16-3/16 411.1 7/8 22.23 28 12.7 CC5AXW048 A 22-15/16 582.6 20.1/16 509.6 7/8 22.23 31 14.0 MAXC048 A 19-3/8 492.1 20-1/16 509.6 7/8 22.23 27 12.2 CCSAXA060 A 22-15/16 582.6 20-1/16 509.6 7/8 22.23 31 14.0 CC5AXW060 A 29-15/16 1 760.4 20-1/16 509.6 7/8 22.23 39 17.7 -4- 0 0 0 • a COOLING CAPACITIES (MBtuh) -Saturated suction leaving evaporator coil Refer to 38TN product literature for system performance when matched with 070 coil. BF—Bypass Factor SHC—Sensible Heat Capacities (1000 Btuh) shown in Italic type. SHC is based on 80°F db temperature of air entering the evaporator coil. Below 80°F db, subtract (torr factor x cfm) from SHC. Above 80°F db, add (correction factor x cfm) to SHC. See notes on page 6. -5- COIL REFRIGERANT TEMPERATURE' (°F) EVAP 35 40 145 150 55 UNIT SIZE AIR CFM Evaporator Air — Entering Wet Bulb Temperature (°F) BF 62 67 72 62 67 72 62 67 72 62 67 72 62 67 72 450 22 27 34 18 24 30 14 20 26 11 16 22 9 11 18 0.17 15 15 14 14 13 13 12 12 11 10 10 9 8 8 8 A018 600 26 33 41 22 29 37 18 24 32 14 19 27 12 13 21 0.22 19 18 17 17 16 15 15 14 13 12 12 11 10 10 10 750 30 38 47 25 33 42 20 28 1 37 17 1 22 30 14 15 1 24 0.25 22 21 20 20 19 17 17 17 15 14 1 14 13 11 12 11 600 28 36 44 24 31 39 19 26 34 15 21 29 13 15 23 0.12 20 20 18 18 17 16 16 15 14 13 13 12 11 11 10 A024 800 34 43 52 29 37 47 23 32 41 19 25 35 16 18 27 W024 0.16 25 1 24 22 22 21 20 19 19 17 16 16 15 13 14 13 1000 39 49 60 33 43 54 27 1 36 47 22 29 39 19 20 31 0.18 29 27 25 26 25 23 23 1 22 1 20 19 19 17 16 16 15 A030 750 37 46 57 31 41 52 25 34 45 19 27 38 14 16 1 25 0.13 26 25 24 24 23 22 21 20 19 17 17 16 14 14 13 1000 45 57 70 38 50 63 30 42 55 25 33 46 17 19 30 W030 0.17 33 1 31 29 29 28 26 26 25 23 21 22 20 17 18 19- 1250 52 66 81 44 57 73 35 48 63 29 38 53 20 22 34 0.20 39 36 34 35 23 30 30 29 27 25 25 23 20 21 19 A036 W036 900 42 52 63 35 46 57 28 39 50 22 31 42 19 22 33 0.10 34 32 30 30 29 27 27 26 24 22 22 21 19 19 18 1200 50 62 75 43 55 68 34 46 60 28 37 50 23 26 40 0.13 41 39 35 38 1 35 32 33 32 29 28 28 25 23 23 22 1500 57 70 84 49 62 76 39 52 67 33 42 57 27 30 45 0.16 48 44 40 44 41 37 39 1 37 33 33 33 29 27 28 25 1050 45 56 68 38 49 61 31 41 54 25 33 45 20 23 1 36 0.14 37 54 32 33 31 29 29 28 26 25 24 23 20 21 19 A042 1400 53 1 66 79 1 45 58 72 36 49 63 31 39 53 25 26 42 W042 0.17 45 41 37 41 38 34 36 34 31 31 30 27 25. 28 23 1750 60 73 87 51 65 80 42 55 70 36 44 60 30 32 47 0.20 52 47 42 47 44 38 42 40 35 1 36 35 31 30 30 27 1200 48 59 71 41 52 64 33 44 57 30 36 49 1 22 26 39 0.18 39 36 33 36 34 30 32 30 28 30 27 24 22 23 21 A048 1600 55 1 68 80 1 47 60 74 39 51 66 33 41 56 27 30 45 W048 0.22 47 43 38 43 40 35 38 36 32 33 32 29 27 28 25 2000 61 74 88 53 66 81 44 57 72 38 46 62 32 34 50 0.25 54 49 42 50 45 39 44 42 36 1 38 37 33 32 32 29 C048 1200 44 57 69 36 48 62 30 40 53 25 29 43 20 21 32 0.11 39 36 33 35 33 30 30 29 27 25 25 23 20 21 19 1600 52 1 65 78 1 43 56 71 37 46 61 31 35 50 25 25 37 0.15 48 44 38 42 40 35 37 36 32 31 31 28 25 25 24 2000 57 71 85 49 62 78 42 50 68 36 39 55 29 29 41 0.19 55 50* 42 49 46 40 42 41 36 36 37 32 29 29 27 1600 57 71 87 48 62 78 38 52 68 31 41 57 26 29 44 0.22 47 44 41 43 40 37 37 36 33 31 1 31 29 26 26 24 A060 2000 65 80 97 54 70 88 43 59 76 36 46 64 30 33 50 0.25 55 51 46 50 46 42 43 42 38 36 37 33 30 31 28 2400 71 88 105 60 77 95 48 65 83 41 51 70 34 36 55 0.28 62 57 50 56 52 1 46 48 47 42 41 41 37 34 34 31 1600 63 78 94 54 69 85 43 59 75 35 47 64 1 29 34 51 0.16 52 48 44 47 44 40 41 40 36 35 35 32 29 29 27 W060 2000 71 88 105 61 78 96 49 66 85 41 53 72 34 39 58 0.19 60 1 55 1 50 55 51 46 48 46 42 41 41 37 34 34 32 2400 78 96 114 67 85 104 55 73 93 46 58 79 39 43 64 0.21 68 62 54 62 57 1 51 1 54 1 52 46 46 46 41 39 39 36 -Saturated suction leaving evaporator coil Refer to 38TN product literature for system performance when matched with 070 coil. BF—Bypass Factor SHC—Sensible Heat Capacities (1000 Btuh) shown in Italic type. SHC is based on 80°F db temperature of air entering the evaporator coil. Below 80°F db, subtract (torr factor x cfm) from SHC. Above 80°F db, add (correction factor x cfm) to SHC. See notes on page 6. -5- INDOOR COIL PISTONS UNIT FACTORY -INSTALLED INDOOR KCAKC0101NDR PISTON SIZE CD5A/CD5BA018 52 CC5AA018 W030, A036 CD5A/CD5BA024, W024 59 CC5AA024, W024 W042, W048, A060 C05A/CD5BA030, W030 67 CC5AA030, W030 WO60, A070 CD5A/C05BA036, W036 70 CC5AA036 A042, C048 CD5A/C05BW042, A042 78 CC5AW042, A042, A043, W043 CD5A/C05BW048, C048 84 CC5AW048, C048 C05A/C05BA060 90 CC5AA060 CD5A/CD5BW060 90 CC5AW060 CD5A/CD5BA070 109 WRAPPER KIT PART NO. PART NO. COIL SIZE USED WITH KCAKC0101NDR A018, A024 KCAKC0106NDR' A030, W024 KCAKCO201NDR W030, A036 KCAKCO206NDR' KCAKC0301NDR W042, W048, A060 KCAKC0306NDR' KCAKC0401NDR WO60, A070 KCAKC0406NDR' KCAKC0501NDR A042, C048 KCAKC0506NDR' 'Can only be ordered in 6 packs. —7— NOTES: 1. Direct interpolation is permissible. Do not extrapolate. 2. Fan motor heat has not been deducted. 3. All data points are based on 10°F superheat leaving coil, and use of thermal expansion valve device. 4. All units have sweat suction tube connection and flare fitting liquid tube connection. For 1 -1/8 -in. system suction tube, 3/4- x 1.1/8 -in. suction tube connection adapter is available as accessory. 5. Check -Flo -Rater pistons (sized for matched cooling -only systems). Refer to outdoor unit installation instructions for pistons required for other systems. 6. The CD5A, CD5B, CC5A coils can be used in any properly designed system using refrigerant 22. 7. Before using maximum cfm shown in table, check coil static pressure drop to ensure system blower can provide necessary static pressure needed for coil and duct systems. 16 ' V r :0 Interpolation is permissible. Correction Factor = 1.09 x (1 - BF) x (db - 80) COIL STATIC PRESSURE DROP (IN. WC) ENTERING AIR DRY BULB TEMPERATURE (°F) 79 78 77 76 75 Under75 BYPASS 81 82 83 84 84 Above 85 FACTOR 900 1000 Correction Factor - - 0.10 0.98 1.96Fi(52 94 3.92 4.91 Use formula 0.20 0.87 1.74 0.13 0.18 0.24 0.31 - - 0.10 0.13 0.17 0.21 - - 3.49 4.36 shown below 0.30 0.76 1.53.29 900 3.05 3.82 1200 Interpolation is permissible. Correction Factor = 1.09 x (1 - BF) x (db - 80) COIL STATIC PRESSURE DROP (IN. WC) -6- UNIT SIZE AIR QUANTITY (CFM) A018 WET DRY 400 500 600 700 800 900 1000 0.09 0.13 0.19 0.26 - - 0.08 0.11 0.13 0.20 - - - - A024 WET DRY 600 700 800 900 1000 1100 1200 0.13 0.18 0.24 0.31 - - 0.10 0.13 0.17 0.21 - - - - A030 W030 WET DRY 700 800 900 1000 1100 1200 1300 0.12 0.16 0.19 0.24 0.28 0.34 0.09 0.12 0.15 0.18 0.22 0.26 - - A036 W036 WET DRY 900 1000 1100 1200 1300 1400 1500 0.16 0.20 0.24 0.28 0.33 - 0.14 0.17 0.21 0.24 0.28 - - - A042 W042 WET DRY 1000 1100 1200 1300 1400 1500 1600 0.15 0.18 0.22 0.26 0.30 0.34 0.13 0.15 0.17 0.20 0.23 0.26 - - A048 W048 WET DRY 1400 1500 1600 1700 1800 1900 2000 0.21 0.24 0.27 0.31 0.35 - 0.17 0.19 0.22 0.25 0.27 - - - C048 WET DRY 1200 1300 1400 1500 1600 1700 1800 0.18 0.22 0.26 0.30 0.34 - 0.15 0.17 0.20 0.23 0.26 - - - A060 WET DRY 1600 1700 1800 1900 2000 2100 2200 0.24 0.27 0.31 0.34 0.38 - 0.20 0.22 0.25 0.27 0.30 - - - W060 A070 WET DRY 1600 1700 1800 1900 2000 2100 2200 0.17 0.19 0.21 0.23 0.25 0.27 0.11 0.13 0.14 0.16 0.17 0.18 0.30 0.21 -6- [,J 7 0 0 a 4 U � r gating & cooling *stems TWO -SPEED ELECTRIC AIR CONDITIONER Model 598A Air Conditioners incorporate innovative 2 -speed compressor technology and an aerocoustic air delivery system to provide quiet, efficient cooling performance. Built into these units are features most desired by consumers today. SEER rat- ings of up to 16.0 can be reached when combined with specific Bryant equipment. All models are listed with UL, c -UL, ARI, CEC, and CSA-EEV. The 598A meets the Energy Stars"' guide- lines for energy efficiency. FEATURES COIL PROTECTION—The DuraGuard coil protector, made of a 12 gage coated steel wire grid with vertical 3/8 in. spacing, is designed to help protect the coil from inclement weather, vandal- ism, and incidental hits. It provides protection while not restrict- ing airflow and maintaining ease of coil inspection and cleaning. ELECTRICAL—All units are offered in 208/230v single phase. Simplified field -stripped lead wire connections facilitate ease of installation. RANGE OF SIZES—Available in 3 nominal sizes: 036, 048, and 060 to meet the needs of residential applications. WEATHER -PROTECTED CABINET—Steel is galvanized and coated with a layer of zinc phosphate. A modified polyester pow- der coating is then applied and baked on, providing. each unit with a hard, smooth finish that will last for many years. All screws on the cabinet exterior are ceramic coated for a long- lasting, rust -resistant, high-quality appearance. 598A,(60 HZ) Series D Sizes 036, 048, and 060 RELIABILITY BY DESIGN—The coil incorporates copper tub- ing and enhanced, aluminum fins for optimum heat transfer. Hol condenser air and sound are discharged vertically and awa-f from adjacent patio areas and foliage through the AeroMaf opening. A heat pump style basepan is used for easy removal of water, dirt, and debris. A permanent -split -capacitor fan motor is totally enclosed for greater reliability under rainy conditions and dependable perfor- mance for many years. Auto -reset high- and low-pressure switches continuously moni- tor system operation. Mechanical and electrical interlocks between the low- and high- speed contactors eliminate the potential for compressor motor burnout. A compressor crankcase heater, energized at the proper tem- perature during the compressor off cycle, helps to provide reli- able starting. AEROOUIET FAN SYSTEM—Allows air to move through the unit more easily which lowers sound levels and improves effi- ciency. APPLICATION VERSATILITY—This unit can be combined with a wide variety of evaporator coils and fan coils to provide quiet. dependable comfort. Unit can be installed on.a roof or at ground level on a slab. EXTERNAL SERVICE VALVES—Both service valves are brass. back seating type with sweat connections. Valves are externally located so refrigerant connections can be made quickly and eas- ily. Each valve has a service port for ease of checking operating refrigerant pressures. EASY SERVICEABILITY—Removal of access panel and con- trol box cover provides easy access to the compressor and all electrical controls. Removal of top provides access to fan motor and coil. A self-diagnostic indicator on the electronic control board informs the service technician of the failed component. COMPRESSOR PROTECTION—Each compressor is pro- tected with internal PTC -type overloads. An internal pressure relief valve provides high-pressure protection to the refrigerant system. STANDARD FEATURES—An electronic control eliminates excessive wiring, and features selectable second -stage latching, short cycle protector, and a malfunction output signal to the indoor thermostat. A compressor sound hood and discharge muffler provide improved sound levels as well as sound quality. COMPRESSOR START ASSIST—Capacitor and relay. EXPANSION VALVE—A hard shutoff, balance -port TXV. shipped with every unit for field installation, enhances system performance and reliability. LIMITED WARRANTY—One-year warranty on all parts with an extended second -year warranty on the control board and extended second -through -tenth -year warranty on the compres- sor. Refer to warranty certificate for specific details. . I Form No. PDS 598A.36.6 DIMENSIONS %-IN. DIA TIEDOWN KNOCKOUTS (2) PLACES IN BASEPAN - FIELD POWER SUPPLY CONN %-IN. DIA HOLE WITH 33" 1 '/s -IN. DIA KNOCKOUT 161/2" 21/2.. AND qF AIR IN AIR DISCHARGE I 1 pie -IN. DIA KNOCKC AIR DISCHARGE + \ / 1 9/16 5 1�16" FIELD CONTROL SUPPLY CONN 1611 Q� 718 -IN. DIA HOLE AIR IN LININ. DIA SUCTION 39 'i,s" •. LINE CONN _ � 3A � IN. DIA 9 11/16" NE CONN IOUID 27 15116 7 4 3/161 1 AIR DISCHARGE AIR IN ' 215/16- 8 3/16- t3/4 NOTES: 1. Allow 30 In. clearance to service side of unit, 48 In. above unit, 6 In. on one side, 12 In. on remaining side, and 24 In. between units for proper airflow. 2. Minimum outdoor operating ambient in cooling mode is 55°F, max. 125°F. 3. Series designation is the 14th position of the unit model number. 4. Center of gravity&. ;6 -01 1 DIMENSIONS (IN.) UNIT SIZE SERIES MINIMUM MOUNTING PAD DIMENSIONS 036 D 26 x 32 048 D 26 x 32 060 D 26 x 32 SOUND POWER L- 1 1/4^ UNIT SIZE OCTAVE BAND CENTER FREQUENCY (Hz) 125 250 500 1 1000 1 2000 4000 8000 High Speed 036 61.0 65.0 67.5 68.0 63.5 56.0 55.5 048 64.0 63.5 68.5 70.5 66.5 60.0 57.5 060 62.0 66.0 71.5 73.0 69.0 64.5 60.0 Low Speed 036 58.5 63.0 65.5 67.0 61.0 54.5 47.5 048 54.5 62.5 65.5 66.0 61.0 54.5 51.5 060 60.5 65.5 70.5 71.0 67.5 64.0 55.0 -2- A97087 r • • 0 �u 0 ® SPECIFICATIONS UNIT SIZE -SERIES OPERATING WEIGHT (Lb) .. 290 ,. 290 060-D 291 ELECTRICAL Unit Volts—Hertz—Phase 208/230--60--1 208/230--60-1 208/230--60-1 Operating Voltage Range' 187-253 187-253 187-253 Compressor— Rated Load Amps 17.6 23.6 30.8 Locked Rotor Amps 90.0 120.0 141.0 Condenser Fan Motor—Full Load Amps 1.1 1.1 1.4 Min Unit Ampacity for Wire Sizing 22.9 30.4 39.9 Min Wire Size (60°C Copper) AWGt 12 8 8 Min Wire Size (75°C Copper) AWGt 12 10 8 Max Wire Length (60°C) (Ft)$ 55 100 78 Max Wire Length (75°C) (Ft)# 52 61 74 Max Branch Circuit Fuse Size" COMPRESSOR A, REFRIGERANT Compressor— Manufacturer Type RPM (High/Low) 40 50 Copeland 2 -Speed Reciprocating 3500/1750 60 Temperature and Current Protection Internal PTC Type Refrigerant— Type Amount (Lb) Metering Device CONDENSER • • FAN 5.56 R-22 1 5.17 TXV 5.45 Coil --Face Area (Sq Ft) 18.0 18.0 18.0 Fins per In.—Rows-Circuits 20-2-3 20-2-4 20-2-5 Fan Motor—HP and RPM (PSC Type) 1/5 and 825 1/5 and 825 1/4 and 1100 Volts—Hertz—Phase 208/230-60-1 Condenser Airflow (CFM) OPTIONAL EQUIPMENT 2800 2800 3200 Support Feet KSASF0101AAA Coastal Filter KAACF0201 MED Filter Drier P502 -8163S (RCD) Thermostat, Auto Changeover, Non -Programmable, °F/'C, 2 -stage heat 2 -stage cool in AC mode, 3 -stage heat/ 2 -stage cool in HP mode TSTATBBN2S01-B Thermostat, Auto Changeover, 7 -Day Programmable, °F/°C, 2 -stage heat 2 -stage cool in AC mode, 3 -stage heat 2 -stage cool in HP mode TSTATBBP2S01-B Thermidistat Control, Programmable/Non- Programmable Thermostat with Humidity Control TSTATBBPRH01-B Outdoor Air Temperature Sensor TSTATXXSEN01-B Backplate for Non -Programmable Thermostat TSTATXXNBP01 Backplate for Programmable Thermostat TSTATXXPBP01 Thermostat Conversion Kit (4 to 5 wire) -10 Pack TSTATXXCNV10 Permissible limits of the voltage range at which the unit will operate satisfactorily. Operation outside these limits may result in unit failure. t If wire is applied at ambient greater than 30°C (86°F), consult Table 310-16 of the NEC (ANSI/NFPA 70). The ampacity of nonmetallic -sheathed cable (NM), trade name ROMEX, shall be that of 60°C (140°F) conductors, per the NEC (ANSI/NFPA 70) Article 336-26. If other than uncoated (non -plated), 60 or 75°C (140 or 167°F) insulation, copper wire (solid wire for 10 AWG and smaller, stranded wire for larger than 10 AWG) is used, consult applicable tables of the NEC (ANSI/NFPA 70). t Length shown is as measured 1 way along wire path between unit and service panel for a voltage drop not to exceed 2%. Time -delay fuse or circuit breaker. NOTES: 1. Copper wire must be used from service disconnect to unit. 2. All motors and compressors contain internal overload protection. 3. This product may not be used in low -ambient applications below 55°F outdoor ambient. —11 0 0 0 0 COMBINATION RATINGS UNIT INDOOR INDOOR AIR CFM TOT. CAP. BTUH SOUND LEVEL Hih/Low High Low High Low SIZE SECTION SEER EER ?dBA) FK4CNB006' 1100 745 40,000 22,400 16.00 12.00 74/72 CC5A/CD5AA036 1400 850 37,400 20,600 13.00 10.05 74/72 CC5A/CD5AW048 1400 850 37,400 20,600 13.00 10.10 74/72 CC5A/CD5AW060 1400 850 38,000 20,800 13.20 10.30 74/72 CD5AA048 1400 850 37,400 20,600 13.00 10.05 74/72 CD5AW036 1400 850 37,400 20,600 13.00 10.05 74/72 CE3AA036 1400 850 37,000 20.200 12.80 9.90 74/72 CE3AA042 1400 850 37,400 20,600 13.00 10.10 74/72 CE3AA048 1400 850 37,400 20,600 13.00 10.10 74/72 CE3AA060 1400 850 38,000 20,400 13.20 10.40 74/72 CF5AA036 1400 850 37,000 20,200 12.70 10.00 74/72 CJ5A/CK5A/CK5BA036 1400 850 38,000 22,000 13.00 10.40 74/72 CJ5A/CK5A/CK5BA042 1400 850 38,000 22,000 13.00 10.40 74/72 CJ5A/CK5A/CK58N042 1400 850 38,000 22,000 13.00 10.40 74/72 CJ5A/CK5A/CK5BN060 1400 850 38,000 22,400 13.40 10.70 74/72 CJ5A/CK5A/CK5BW036 1400 850 38,000 22,000 13.00 10.40 74/72 CK3BA036 1400 850 38,000 22,000 13.00 10.40 74/72 CK3BA042 1400 850 38,000 22,000 13.00 10.40 74/72 FK4CNF001 1100 680 36,000 21,000 14.00 10.40 74/72 FK4CNF002 1100 680 36,200 21,200 14.40 10.40 74/72 FK4CNF003 1100 680 36800 21,200 14.90 10.90 74/72 FK4CNF005 1100 680 38.500 22.000 15.50 11.40 74/72 COILS + 333(B,J)AV036060 VARIABLE SPEED FURNACE 1 ® CC5A/CD5AA036 1120 660 37,000 21,000 14.50 10.55 74/72 CC5A/CD5AA042 1115 660 37,000 21,000 14.50 10.60 74/72 CC5A/CD5AW042 1115 660 37,000 21,000 14.50 10.55 74/72 CD5AW036 1120 660 37,000 21,000 14.50 10.55 74/72 CE3AA036 1120 660 36,000 20,600 14.20 10.50 74/72 CE3AA042 1115 660 37,000 21,000 14.50 10.70 74/72 CJ5A/CK5A/CK5BA036 1125 660 37,000 21,000 14.50 10.90 74/72 CK3BA036 1 1125 1 660 1 37,000 1 21,000 1 14.50 10.90 74/72 COILS + 333(B,J)AV048080 VARIABLE SPEED FURNACE CC5A/CD5AA036 1130 755 38.000 21,800 14.90 10.70 74/72 CC5A/CD5AA042 1125 760 37,000 21,000 14.80 10.75 74/72 CC5A/CD5AW042 1125 760 37,000 21,000 14.80 10.70 74/72 036-D CD5AW036 CE3AA036 1130 1130 755 750 37,000 36,000 21,000 20,600 14.80 14.50 10.70 10.60 74/72 74/72 CE3AA042 1125 760 37,000 21,000 14.80 10.80 74/72 CJ5A/CK5A/CK5BA042 1125 755 37,000 21,000 15.00 11.10 74/72 CJ5A/CK5A/CK5BW036 1125 755 37,000 21,000 15.00 11.10 74/72 CK36AO36 1130 750 37,000 21,000 15.00 11.10 74/72 CK3BA042 1125 755 37,000 21,000 15.00 11.10 74/72 COILS + 333(B,J)AV060100 VARIABLE SPEED FURNACE CC5A/CD5AA036 1090 795 37,000 21,000 15.00 10.85 74/72 CC5A/CD5AA042 1090 790 37,000 21,000 14.80 10.95 74/72 CC5A/CD5AW042 1090 790 37,000 21,000 14.80 11.25 74/72 CD5AW036 1090 795 37,000 21,000 15.00 10.85 74/72 CE3AA036 1090 800 36,000 20,600 14.50 10.80 74/72 CE3AA042 1090 790 37,000 21,000 14.80 11.00 74/72 CJ5A/CK5A/CK5BA042 1090 795 37,000 21,000 15.00 11.30 74!72 CJ5A/CK5A/CK5BW036 1090 795 37,000 21,000 15.00 11.30 74/72 CK3BA036 1090 800 37,000 21,000 15.00 11.30 74/72 CK3BA042 1090 795 37,000 21,000 15.00 11.30 74/72 COILS + 333(B,J)AV060120 VARIABLE SPEED FURNACE CC5A/CD5AA036 1080 810 37,000 21,000 15.00 10.85 74/72 CC5A/CD5AA042 1060 810 37,000 21,000 15.00 10.90 74/72 CC5A/CD5AW042 1060 810 37,000 21,000 15.00 10.80 74/72 CD5AW036 1080 810 37,000 21,000 15.00 10.85 74/72 CE3AA036 1085 815 36,000 20,600 14.70 10.80 74/72 CE3AA042 1065 810 37,000 21,000 15.00 11.00 74/72 CJ5A/CK5A/CK5BA042 1070 810 37,000 21,000 15.00 11.30 74/72 CJ5A/CK5A/CK5BW036 1070 810 37,000 21,000 15.00 11.30 74172 CK3BA036 1090 815 37,000 21,000 15.00 11.30 74/72 CK3BA042 1070 810 37,000 21,000 15.00 11.30 74/72 COILS + 355MAV042060 VARIABLE SPEED FURNACE CC5A/CD5AA036 1200 800 37,000 21,000 14.40 10.30 74/72 CC5A/CD5AA042 1200 800 37,000 21,000 14.40 10.30 74/72 CC5A/CD5AA060 1200 800 36,800 21,000 14.50 10.50 74!72 CC5A/CD5AW042 1200 800 36,600 21,000 14.30 10.30 74/72 CC5A/CD5AW048 1200 800 36,800 21,000 14.50 10.50 74/72 CC5A/CD5AW060 1200 800 37,400 21,800 14.80 10.80 74/72 See notes on page 9. J- DETAILED COOLING CAPACITIES' See notes on page 17. 0 6' -10- CONDENSER ENTERING AIR TEMPERATURES °F EVAPORATOR a5 95 105 115 AIR Capacity Total Capacity Total Capacity Total Capacity Total MBtuht System MBtuht System MBtuht System MBtuht System Total Sens$ Total Sens$ Total I Sens$ Total Sens$ CFM EWB KW** Kw** Kw" Kw" • 1 Outdoor Secti•n (High Speed): r r • Indoor Section 72 43.5 20.7 3.12 41.219.7 3.33 38.7 18.8 3.54 36.3 17.8 3.74 67 39.3 24.7 3.02 37.1 23.7 3.22 34.9 22.8 3.41 32.7 21.8 3.59 800 63 36.3 24.0 2.95 34.2 23.0 3.13 32.2 22.1 3.31 30.0 21.1 3.48 62 35.4 28.6 2.93 33.4 27.6 3.11 31.4 26.6 3.28 29.3 25.6 3.45 57 32.2 32.2 2.84 30.7 30.7 3.02 29.3 29.3 3.20 27.7 27.7 3.37 72 44.8 21.6 3.16 42.3 20.6 3.38 39.7 19.6 3.59 37.1 18.6 3.79 67 40.6 26.2 3.07 38.3 25.2 3.27 35.9 24.1 3.46 33.5 23.1 3.64 900 63 37.5 25.4 2.99 35.3 24.4 3.18 33.1 23.4 3.36 30.9 22.4 3.53 62 36.6 30.6 2.97 34.5 29.5 3.16 32.4 28.5 3.33 30.2 27.5 3.50 57 33.9 1 33.9 2.90 32.4 32.4 1 3.09 30.7 30.7 3.27 29.1 1 29.1 3.45 72 45.8 22.4 3.19 43.1 21.3 3.41 40.5 20.3 3.63 37.8 19.3 3.83 67 41.5 27.4 3.10 39.1 26.4 3.30 36.6 25.3 3.50 34.1 24.3 3.68 990 63 38.4 26.6 3.03 36.1 25.5 3.22 33.8 24.5 3.40 31.5 23.5 3.57 62 37.5 32.3 3.01 35.3 31.2 3.19 33.1 30.2 3.37 30.9 29.1 3.54 57 35.3 35.3 2.95 33.6 33.6 3.14 31.9 31.9 3.33 30.2 30.2 3.52 72 46.7 23.2 3.23 44.0 22.2 3.45 41.2 21.2 3.67 38.4 20.2 3.87 67 42.5 28.8 3.14 40.0 27.8 3.34 37.3 26.7 3.54 34.7 25.7 3.73 1100 63 39.3 28.0 3.06 36.9 26.9 3.25 34.6 25.9 3.44 32.2 24.8 3.61 62 38.5 34.3 3.04 36.2 33.2 3.23 33.9 32.1 3.42 31.7 31.0 3.59 57 36.8 1 36.8 3.00 35.1 35.1 1 3.20 33.3 33.3 3.39 31.4 1 31.4 3.58 72 47.624.2 3.26 44.7 23.2 3.49 41.9 22.1 3.71 38.9 21.1 3.91 67 43.4 30.4 3.17 40.7 29.4 3.38 38.1 28.3 3.58 35.5 27.3 3.77 1225 63 40.1 29.5 3.10 37.7 28.4 3.30 35.2 27.3 3.48 32.7 26.3 3.65 62 39.4 36.5 3.08 37.0 35.3 3.28 34.7 34.2 3.47 32.5 32.5 3.65 57 38.3 38.3 3.05 36.4 36.4 3.26 1 34.6 1 34.6 3.46 32.6 32.6 3.65 Multipliers for Determining the Performance With Other Indoor Sections Cooling Cooling Indoor Indoor Section Size Capacity Sensiblett Power Section Size Capacity Sensiblett Power FK4CNB 006 1.00 1.00 1.00 CJ5A/CK5A/CK5BW 036 0.93 0.93 1.01 CC5A/CD5AA 036 048 0.94 0.94 0.94 0.94 1.07 1.08 CK3BA 036 0.93 0.93 1.01 CC5A/CD5AW 042 0.93 0.93 1.01 060 0.95 0.95 1.09 COILS + 333(B,J)AV060100 VARIABLE SPEED FURNACE CD5AA 048 0.94 0.94 1.07 CC5A/CD5AA 060 0.93 0.88 0.96 CD5AW 036 0.94 0.94 1.07 CC5A/CD5AC 048 0.91 0.86 0.96 CE3AA 036 0.93 0.93 1.07 CC5A/CD5AW 048 0.91 0.87 0.96 042 0.94 0.94 1.08 060 0.93 0.91 0.97 048 0.94 0.94 1.08 CD5AA 048 0.91 0.87 0.96 060 036 0.95 0.95 0.93 0.93 1 1.09 1.07 CE3AA 048 060 0.91 0.91 1 0.93 0.93 0.97 0.97 CF5AA CJ5A/CK5A/CK5BA 036 0.95 0.95 1.09 CJ5A/CK5A/CK5BA 042 0.93 0.93 0.99 042 0.95 0.95 1.09 CJ5A/CKSA/CK5BW 036 0.93 0.93 0.99 CJ5A/CK5A/CK5BN 042 0.95 0.95 1.09 CK3BA 036 0.93 0.93 1 1.00 060 0.95 0.95 1.11 042 0.93 1 0.93 1 0.99 CJ5A/CKSA/CK5BW 036 0.95 0.95 1.09 COILS + 333(B,J)AV060120 VARIABLE SPEED FURNACE CK3BA 036 0.95 0.95 1.09 CC5A/CD5AA 060 0.93 0.88 0.97 042 0.95 0.95 1 1.09 CC5A/CD5AC 048 0.91 0.86 0.97 FK4CNF 001 0.90 0.90 1.02 CC5A/CD5AW 048 0.91 0.87 0.97 002 0.91 0.91 1.02 060 0.93 0.90 0.98 003 0.92 0.92 0.99 CD5AA 048 0.91 0.87 0.97 005 0.96 0.96 1.01 CE3AA 048 0.91 1 0.91 0.98 COILS + 333(B,J)AV036060 VARIABLE SPEED FURNACE 060 0.93 0.93 0.98 CJ5A/CK5A/CK5BA 036 1 0.93 1 0.93 1 1.03 CJ5A/CK5A/CK5BA 042 0.93 0.93 0.99 CK3BA 036 1 0.93 1 0.93 1 1.03 CJ5A/CK5A/CK5BW 036 0.93 0.93 0.99 COILS + 333(B,J)AV048080 VARIABLE SPEED FURNACE CK38A 036 0.93 0.93 1.00 CJ5A/CK5A/CK5BA 1 042 1 0.93 1 0.93 1 1.01 042 1 0.93 0.93 1 0.99 See notes on page 17. 0 6' -10- 0 0 0 0 0 0 COMBINATION RATINGS Continued UNIT SIZE INDOOR SECTION INDOOR AIR CFM TOT. CAP. BTUH SEER EER SOUND LEVEL High/Low, (dBA) High Low High Low CD5AA048 1200 800 36,800 21,000 14.50 10.50 74/72 CD5AW036 1200 800 37,000 21,000 14.40 10.30 74/72 CE3AA036 1200 800 36,400 21,000 14.00 10.20 74/72 CE3AA042 1200 800 36.800 21,000 14.50 10.50 74/72 CE3AA048 1200 800 36,800 21,000 14.50 10.50 74!72 CE3AA060 1200 800 37,600 21,400 14.80 10.80 74/72 CJ5A/CK5A/CK58A036 1200 800 37,000 22,000 14.30 10.70 74/72 CJ5A/CK5A/CK5BN042 1200 800 37.000 22,000 14.30 10.70 74/72 CK3BA036 1200 800 37,000 22,000 14.30 10.10 74/72 CK3BA042 1200 800 37,000 22,000 14.50 10.70 74/72 CK3BA048 1200 800 37,000 22,000 14.80 11.70 74/72 COILS + 355MAV042080 VARIABLE SPEED FURNACE CC5A/CD5AA036 1200 800 37,000 21,000 14.60 10.45 74/72 CC5A/CD5AA042 1200 800 37,000 21,000 14.60 10.50 74/72 CC5A/CD5AA060 1200 800 37,200 21,200 14.80 10.75 74/72 CC5A/CD5AW042 1200 800 37,000 21,000 14.50 10.45 74/72 CC5A/CD5AW048 1200 800 37,200 21,200 14.80 10.70 74/72 CC5A/CD5AW060 1200 800 37,600 21,600 15.00 11.05 74/72 CD5AA048 1200 800 37,200 21,200 14.80 10.70 7472 CD5AW036 1200 800 37,000 21,000 14.60 10.45 74/72 CE3AA036 1200 800 36,800 21,000 14.40 10.40 74/72 CE3AA042 1200 800 37,200 21,200 14.60 11.30 74/72 CE3AA048 1200 800 37,200 21,200 14.70 10.60 74!72 CE3AA060 1200 800 37,600 21,400 15.00 11.00 74/72 036-D CJ5A/CK5A/CK5BA042 CJ5A/CK5A/CK5BW036 1200 1200 800 800 37,000 37,000 22,000 22,000 14.70 14.60 10.80 10.80 74/72 74/72 CK3BA036 1200 800 37,000 22,000 14.60 10.80 74/72 CK3BA042 1200 800 37,000 22,000 14.70 10.80 74/72 CK3BA048 1200 800 37,000 22,000 14.80 11.00 74/72 COILS + 355MAV060100 VARIABLE SPEED FURNACE CC5A/CD5AA036 1200 800 37,000 21,000 14.60 10.50 74/72 CC5A/CD5AA042 1200 800 37,000 21,000 14.60 10.55 74/72 CC5A/CD5AA060 1200 800 37,400 21,200 14.70 10.75 74/72 CC5A/CD5AW042 1200 800 37,000 21,000 14.50 10.55 74/72 CC5A/CD5AW048 1200 800 37,400 21,200 14.70 10.75 74/72 CC5A/CD5AW060 1200 800 37,600 21,600 15.00 11.05 74/72 CD5AA048 1200 800 37,400 21,200 14.70 10.75 74/72 CD5AW036 1200 800 37,000 21,000 14.60 10.50 74/72 CE3AA036 1200 800 36,800 21,000 14.40 10.40 74/72 CE3AA042 1200 800 37,400 21,200 14.60 1.0.70 74/72 CE3AA048 1200 800 37,400 21,200 14.70 10.70 74172 CE3AA060 1200 800 37,600 21,400 15.00 11.00 74/72 CJ5A/CK5A/CK5BA042 1200 800 37,000 22,000 14.70 11.00 74/72 CJ5A/CK5A/CK5BN060 1200 800 37,800 22,400 15.00 11.40 74/72 CJ5A/CK5A/CK58W036 1200 800 37,000 22,000 14.60 11.00 74/72 CJ5A/CK5A/CK5BX060 1200 800 37,800 22,400 15.20 11.50 74172 CK3BA036 1200 800 37,000 22,000 14.60 11.00 74!72 CK3BA042 1200 800 37,400 22,200 14.70 11.00 74/72 CK3BA048 1200 800 37,400 22,200 14.80 11.20 74/72 CK3BA060 1200 800 37,800 22,400 15.00 11.30 74/72 FK4CNB006' 1470 995 51,500 29,000 14.50 10.50 78/76 CC5A/CD5AA060 1800 1050 48,500 27,000 12.00 9.55 76/72 CC5A/CD5AW048 1800 1050 48,000 27,000 12.00 9.50 76172 CC5A/CD5AW060 1800 1050 50,000 28,000 12.00 9.80 76/72 CD5AA048 1800 1050 48,000 27,000 12.50 9.60 76/72 CE3AA048 1800 1050 48,500 27,000 12.00 9.65 76/72 CE3AA060 1800 1050 50,500 28,000 12.00 9.80 7672 CF5AA048 1800 1050 48,500 27,000 12.60 9.70 76/72 CJ5A/CK5A/CK5BA048 1850 1050 48,000 27,400 12.50 9.35 76/72 CJ5A/CK5A/CK5BA060 1850 1050 49,000 27,600 12.70 9.50 76/72 048-D CJ5A/CK5A/CK5BNo60 1850 1050 49,000 28,000 12.80 9.65 76!72 CJ5A/CK5A/CK5BW048 1850 1050 48,000 27,400 12.50 9.35 76/72 CJ5A/CK5A/CK5BX060 1850 1050 49,000 28,000 12.80 9.65 76172 CK3BA048 1850 1050 48,000 27,400 12.50 9.35 76/72 CK3BA060 1850 1050 49,000 27,600 12.70 9.50 76/72 FK4CNF005 1470 910 48,000 27.400 14.00 10.40 78!76 COILS + 333(B,J)AV048080 VARIABLE SPEED FURNACE CC5A/CD5AA060 CC5A/CD5AC048 1505 1505 950 950 48,000 47,000 27,800 27,400 13.50 13.50 9.95 9.75 76/72 76/72 ® CC5A/CD5AW048 1505 950 47,000 27,600 13.60 9.80 76/72 CC5A/CD5AW060 1505 950 48,000 27,800 14.00 10.05 76/72 See notes on page 9. -7- 0 41 0 0 to s DETAILED COOLING CAPACITIES* Continued EVAPORATOR CONDENSER ENTERING AIR TEMPERATURES `F AIR a5 95 105 115 CFM EWB Capacity MBtuht Total System KW" Capacity MBtuht Total System Kw••Total CapacityCapacity MBtuht Total System Kw** M ut Total System Kw" Total I Sens* Total I Sens# Sens* Total Sens* 72 67 63 62 55.9 50.9 47.3 46.3 1 Outdoor 26.8 32.6 31.8 38.3 4.57 4.42 4.31 4.28 Secti•n 53.4 48.6 45.2 44.2 (High Speed)C 25.8 31.6 30.8 37.3 4.90 4.74 4.61 4.57 50.9 46.3 42.9 42.0 1 1 . Indoor 24.8 30.6 29.8 36.3 Section 5.24 5.05 4.89 4.85 48.4 43.9 40.5 39.7 23.8 29.6 28.7 35.1 5.58 5.34 5.15 5.10 1070 57 42.9 42.9 4.18 41.3 41.3 4.46 39.6 39.6 4.73 37.8 37.8 4.98 72 57.2 27.9 4.64 54.6 26.9 4.98 52.1 25.9 5.32 49.4 24.9 5.66 1200 67 63 52.2 48.5 34.4 33.5 4.49 4.38 49.8 46.2 33.4 32.5 4.81 4.68 47.4 43.9 32.4 31.4 5.13 4.97 44.9 41.5 31.3 30.3 5.42 5.23 62 47.5 40.8 4.35 45.3 39.7 4.65 43.1 38.7 4.93 40.6 37.5 5.19 57 44.8 44.8 1 4.27 43.2 43.2 1 4.56 41.4 41.4 1 4.85 39.5 39.5 5.12 72 58.3 28.9 4.70 55.5 27.8 5.04 52.9 26.9 5.39 50.2 25.9 5.73 1325 67 63 53.1 49.4 36.0 35.1 4.55 4.44 50.7 47.1 35.0 34.0 4.87 4.74 48.2 44.7 34.0 33.0 5.19 5.04 45.6 42.2 32.9 31.9 5.50 5.31 62 48.5 43.0 4.41 46.3 42.0 4.71 43.9 40.9 5.00 41.5 39.7 5.27 57 1 46.5 46.5 4.35 44.7 44.7 4.65 42.9 42.9 4.95 40.8 40.8 5.23 72 59.3 30.0 4.76 56.4 28.9 5.10 53.7 28.0 5.45 50.9 27.0 5.80 1470 67 63 54.1 50.3 37.9 36.8 4.61 4.50 51.5 47.9 36.8 35.7 4.94 4.81 49.0 45.5 35.8 34.7 5.26 5.11 46.3 42.9 34.8 33.6 5.57 5.38 62 57 49.5 48.1 45.6 48.1 1 4.48 4.44 47.2 46.3 44.5 46.3 4.78 1 4.75 44.8 44.3 43.3 44.3 1 5.08 5.06 42.4 42.3 42.0 1 42.3 5.36 5.35 1625 72 67 63 60.2 54.9 51.1 31.1 39.8 38.6 4.82 4.67 4.56 57.1 52.3 48.6 30.1 38.7 37.5 5.16 5.00 4.87 54.3 49.7 46.1 29.1 37.7 36.5 5.52 5.33 5.18 51.5 46.9 43.5 28.1 36.6 35.3 5.87 5.64 5.46 62 50.4 48.1 4.54 48.0 46.9 4.85 45.8 45.6 5.16 43.6 43.6 5.46 57 1 49.7 49.7 4.52 47.7 47.7 4.84 1 45.7 45.7 5.16 43.5 43.5 5.46 Multipliers for Determining the Performance With Other Indoor Sections Indoor Cooling Indoor I Cooling I Capacity I Sensiblett I Power Section Size Capacity Sensiblett Power Section Size FK4CNB 006 1.00 1.00 1.00 COILS + 333(B,J)AV060100 VARIABLE SPEED FURNACE CC5A/CD5AA 060 0.94 0.94 1.04 CJ5A/CK5A/CK56A 060 0.93 0.93 0.99 CC5A/CD5AW 048 0.93 0.93 1.03 CJ5A/CK5A/CK5BW 048 0.91 0.91 0.99 060 0.97 0.97 1.05 CJ5A/CK5A/CK5BX 060 0.93 0.93 0.99 CD5AA 048 0.93 0.93 1.03 CK36A 048 0.91 0.91 0.99 CE3AA 048 0.94 0.92 1.01 060 0.93 0.93 0.99 060 0.98 0.98 1.07 COILS + 333(B,J)AV060120 VARIABLE SPEED FURNACE CF5AA 048 0.94 0.88 1.00 CJ5A/CK5A/CK5BA 060 0.93 0.93 0.99 CJ5A/CK5A/CK5BA 048 0.93 0.93 1.06 CJ5A/CK5A/CK5BW 048 0.91 0.91 0.99 060 0.95 0.95 1.07 CJ5A/CK5A/CK5BX 060 0.93 0.93 1.05 CJ5A/CK5A/CK56N 060 0.95 0.95 1.08 CK38A 048 0.91 0.91 0.99 CJ5A/CK5A/CK5BW 048 0.93 0.93 1.06 060 0.93 0.93 0.99 CJ5A/CK5A/CK5BX 060 0.95 0.95 1.08 COILS + 355MAV060100 VARIABLE SPEED FURNACE CK36A 048 0.93 0.93 1.06 CC5A/CD5AA 060 0.94 0.89 1.01 048 0.90 0.87 1.01 060 1 0.95 0.95 1.07 CC5A/CD5AC FK4CNF 005 0.93 0.93 1.01 CC5A/CD5AW 048 0.90 0.88 1.01 COILS + 333(B,J)AV048080 VARIABLE SPEED FURNACE 060 0.95 0.93 1.02 CC5A/CD5AA 060 0.93 0.88 0.99 CD5AA 048 0.91 0.89 1.00 CC5A/CDSAC 048 0.91 0.86 0.99 CE3AA 048 0.93 0.92 1.02 CC5A/CD5AW 048 0.91 0.87 0.99 1 060 0.95 0.95 1.02 060 0.93 0.91 1.00 CJ5A/CK5A/CK5BA 048 0.91 0.91 1.04 CD5AA 048 0.91 0.87 0.99 060 0.94 0.94 1.04 CE3AA 048 0.91 0.90 1.00 CJ5A/CK5A/CK5BN 060 0.94 0.94 1.05 060 0.93 0.93 1.00 CJ5A/CK5A/CK5BX 060 0.95 0.95 1.04 CJ5A/CK5A/CK5BA 048 0.91 0.91 1.02 CK3BA 048 0.91 0.91 1.04 CK36A 048 0.91 0.91 1.02 060 0.94 0.94 1.04 See notes on page 17. D Ll 0 ►.J r� 0 0 i 0 COMBINATION RATINGS Continued See notes on page 9. F-1 INDOOR AIR CFM TOT. CAP. BTUH SOUND LEVEL High/Low UNIT SIZE INDOOR SECTION SEER EER (dBA) High Low High Low CD5AA048 1505 955 47,000 27,600 13.50 9.80 76/72 CE3AA048 1505 955 47,000 27,600 13.50 9.85 76/72 CE3AA060 1505 950 48,000 27,800 14.00 10.20 76/72 CJ5A/CK5A/CK5BA048 1505 950 47,000 27,600 13.50 9.60 76/72 CK3BA048 1505 950 47,000 27,600 13.50 9.60 76/72 COILS + 333(B,J)AV060100 VARIABLE SPEED FURNACE CC5A/CD5AA060 1465 920 48.000 27,800 13.80 10.30 76/72 CC5A/CD5AC048 1475 925 47,000 27,400 13.80 10.10 76/72 CC5A/CD5AW048 1465 920 47,000 27,600 14.00 10.20 76/72 CC5A/CD5AW060 1460 915 48,000 27,800 14.00 10.50 76/72 CD5AA048 1465 920 47,000 27,600 13.80 10.20 76/72 CE3AA048 1475 930 47,000 27,600 13.80 10.30 76/72 CE3AA060 1460 920 48,000 27,800 14.00 10.60 76/72 CJ5A/CK5A/CK5BA060 1470 935 48,000 28,000 13.80 10.10 76/72 CJ5A/CK5A/CK5BW048 1470 930 47,000 27,600 14.00 9.95 76/72 CJ5A/CK5A/CK5BX060 1460 925 48,000 28,400 14.00 10.30 76/72 CK3BA048 1470 930 47,000 27,600 13.80 9.95 76/72 CK3BA060 1470 935 48,000 28.000 13.80 10.10 76/72 COILS + 333(B,J)AV060120 VARIABLE SPEED FURNACE CC5A/CD5AA060 1470 995 48,000 27,800 13.80 10.20 76/72 CC5A/CD5AC048 1490 1000 47,000 27,600 13.80 10.05 76/72 048-D CC5A/CD5AW048 1475 1000 47,000 27,600 13.60 10.10 76/72 CC5A/CD5AW060 1482 995 48,000 27,800 14.00 10.40 76/72 CD5AA048 1475 1000 47,000 27,600 13.80 10.10 76/72 CE3AA048 1490 1015 47,000 27,600 13.80 10.20 76/72 CE3AA060 1465 995 48,000 27,800 14.00 10.50 76/72 CJ5A/CK5A/CK5BA060 1455 1000 48,000 28,200 13.80 10.10 76/72 CJ5A/CK5A/CK5BW048 1485 1000 47,000 28,000 13.80 9.85 76!72 CJ5A/CK5A/CK5BX060 1465 995 48,000 28,600 14.00 9.75 76/72 CK3BA048 1485 1000 47,000 28,000 13.80 9.85 76/72 CK3BA060 1460 1000 48,000 28,200 13.80 10.10 76/72 COILS + 355MAV060100 VARIABLE SPEED FURNACE CC5A/CD5AA060 1600 1000 48,500 27,000 13.70 9.70 76/72 CC5A/CD5AC048 1600 1000 46,500 27,000 13.20 9.45 76/72 CC5A/CDSAW048 1600 1000 46,500 27,600 13.60 9.55 76/72 CC5A/CD5AW060 1600 1000 49,000 28,000 14.10 9.95 76/72 CD5AA048 1600 1000 47,000 27,600 13.70 9.65 78/76 CE3AA048 1600 1000 48,000 27,400 13.60 9.60 76/72 CE3AA060 1600 1000 49,000 28,000 14.00 9.90 76/72 CJ5A/CK5A/CK5BA048 1600 1000 47,000 27,800 13.70 9.40 76172 CJ5A/CK5A/CK5BA060 1600 1000 48,500 28.000 13.70 9.60 76/72 CJ5A/CK5A/CK5BN060 1600 1000 48,500 28,000 14.10 9.75 76172 CJ5A/CK5A/CK5BX060 1600 1000 49,000 28,600 14.10 9.80 76/72 CK3BA048 1600 1000 47,000 27,600 13.70 9.40 76172 CK3BA060 1600 1000 48,500 28,000 13.70 9.60 76172 FK4CNB006' 1835 1240 58,000 33,000 14.00 9.65 78/76 CC5A/CD5AA060 2100 1200 55,000 31,000 12.00 9.50 78/76 CC5A/CD5AW060 2100 1200 56,500 32,000 12.30 9.70 78/76 CE3AA060 2100 1200 57,500 32,000 12.30 9.75 78/76 CJ5A/CK5A/CK5BA060 2100 1200 55,000 30,600 12.00 9.65 78176 CJ5A/CK5A/CK5BN060 2100 1200 56,500 31,200 12.30 9.80 78/76 CJ5A/CK5A/CK5BX060 2100 1200 56,500 31,200 12.30 9.80 78/76 CK3BA060 1 2100 1200 1 56,500 1 31,600 1 12.00 9.65 78/76 COILS + B,J)AV060100 VARIABLE SPEED FURNACE CC5A/AC5AA060 1880 1165 55,000 31,000 13.00 9.70 78/76 060_D CC5A/CD5AW060 1870 1155 56,000 31,600 13.50 9.95 78/76 CE3AA060 1880 1165 56,500 31,600 13.50 9.95 78/76 CJ5A/CK5A/CK5BA060 1875 1175 55,000 31,200 13.00 9.80 78176 CJ5A/CK5A/CK5BX060 1875 1165 56,000 31,800 13.30 9.90 78/76 CK3BA060 1875 1175 55,000 31,200 13.00 9.80 78/76 COILS + 333(8,J)AV060120 VARIABLE SPEED FURNACE CC5A/CD5AA060 1840 1135 55,000 31,000 13.00 9.55 78176 CC5A/CD5AW060 1825 1135 56,000 31,600 13.50 9.80 78/76 CE3AA060 1840 1135 56,500 31,600 13.50 9.80 78/76 CJ5A/CK5A/CK56A060 1830 1135 55,000 31,000 13.00 9.65 78/76 CJ5A/CK5A/CK513X060 1835 1135 56,000 31,600 13.50 9.60 78/76 CK3BA060 1830 1135 55,000 31,000 13.00 9.65 78/76 See notes on page 9. F-1 0 9 0 0 0 E 0 0 DETAILED COOLING CAPACITIES* Continued EVAPORATOR CONDENSER ENTERING AIR TEMPERATURES °F AIR 85 95 105 1 115 Capacity Total Capacity TORI Capacity Total Capacity Total MBtuht System MBtuht System MBtuht System MBtuht system Total Sens= Total Sens* I Sens# Sens* CFMEEW KW Kw -Total Kw--L-Total Kw" 598AO60-D Outdoor Secti•n (High Speed): I t • Indoor Section 72 6.38 3.07 5.54 6.06 2.95 5.92 5.73 2.82 6.27 5.40 2.70 6.60 67 5.81 3.79 5.35 5.51 3.66 5.69 5.20 3.53 6.00 4.90 3.41 6.30 1325 63 5.40 3.70 5.20 5.11 3.56 5.51 4.82 3.43 5.80 4.53 3.30 6.07 62 5.28 4.50 5.16 5.00 4.36 5.46 4.72 4.23 5.74 4.44 4.09 6.01 57 4.96 4.96 5.04 4.75 4.75 5.34 4.53 4.53 5.64 4.31 4.31 5.93 72 6.52 3.21 5.65 6.19 3.08 6.03 5.84 2.95 6.39 5.49 2.83 6.72 67 5.95 4.02 5.45 5.63 3.89 5.80 5.31 3.75 6.12 4.99 3.62 6.42 1500 63 5.53 3.91 5.30 5.22 3.77 5.62 4.92 3.64 5.92 4.61 3.50 6.19 62 5.42 4.80 5.27 5.12 4.67 5.58 4.83 4.53 5.87 4.54 4.39 6.14 57 1 5.18 5.18 1 5.18 4.96 4.96 1 5.50 4.73 4.73 5.81 1 4.49 4.49 6.11 72 6.62 3.32 5.73 6.27 3.19 6.12 5.92 3.06 6.48 5.56 2.94 6.81 67 6.04 4.20 5.54 5.72 4.07 5.89 5.39 3.94 6.21 5.05 3.80 6.52 1650 63 5.61 4.08 5.39 5.30 3.94 5.71 4.99 3.81 6.01 4.68 3.67 6.28 62 5.51 5.06 5.35 5.21 4.91 5.68 4.92 4.77 5.97 4.63 4.61 6.25 57 5.35 5.35 5.29 5.11 5.11 5.63 4.87 4.87 5.94 4.62 4.62 6.25 72 6.71 3.44 5.82 6.36 3.32 6.21 5.99 3.19 6.58 5.63 3.06 6.92 67 6.13 4.42 5.63 5.80 4.29 5.99 5.46 4.15 6.32 5.12 4.02 6.62 1835 63 5.70 4.28 5.48 5.38 4.15 5.81 5.06 4.01 6.11 4.74 3.87 6.39 62 5.62 5.35 5.45 5.32 5.02 5.78 5.02 5.02 6.09 4.76 4.76 6.40 57 5.53 5.53 1 5.42 5.27 5.27 5.77 5.02 5.02 1 6.09 4.76 1 4.76 6.40 72 6.79 3.57 5.91 6.43 3.45 6.31 6.06 3.32 6.68 5.68 3.19 7.02 67 6.21 4.64 5.72 5.87 4.50 6.08 5.52 4.37 6.42 5.17 4.23 6.72 2025 63 5.77 4.49 5.57 5.45 4.35 5.91 5.12 4.21 6.21 4.79 4.07 6.49 62 5.71 5.62 5.55 5.42 5.42 5.89 5.16 5.16 6.23 4.88 4.88 6.55 57 5.69 5.69 5.54 5.42 5.42 5.89 5.15 5.15 6.23 4.88 4.88 6.55 Multipliers for Determining the Performance With Other Indoor Sections Cooling Cooling Indoor Indoor I Capacity I Sensiblett I Power Section Size Capacity Sensiblett Power Section Size FK4CNB 006 1.00 1.00 1.00 COILS + 333(B,J)AV060120 VARIABLE SPEED FURNACE CC5A/CD5AA 060 0.95 0.93 1.01 CC5A/CD5AA 060 0.95 0.88 0.99 CC5A/CD5AW 060 0.97 0.97 1.02 CC5A/CD5AW 060 0.97 0.91 • 0.99 CE3AA 060 0.99 0.99 1.02 CE3AA 060 0.97 0.95 1.00 CJ5A/CK5A/CK5BA 060 0.95 0.95 1.01 CJ5A/CK5A/CK5BA 060 0.95 0.94 1.00 CJSA/CK5A/CK5BN 060 0.97 0.97 1.02 CJ5A/CK5A/CK5BX 060 0.97 0.96 1.02 CJ5A/CK5A/CK5BX 060 0.97 0.97 1.02 CK3BA 1 060 0.95 1 0.94 1.00 CK3BA 060 0.97 0.97 1.01 COILS + 355MAV060100 VARIABLE SPEED FURNACE -: COILS+ 333(8,J)AV060100 VARIABLE SPEED FURNACE. •: =:. ' CC5A/CD5AA 060 0.91 0.83 0.96 CC5A/CD5AA 060 0.95 0.89 0.98 CC5A/CD5AW 060 0.95 0.86 0.96 CC5A/CD5AW 060 0.97 0.92 0.98 CE3AA 060 0.95 0.89 0.97 CE3AA 060 0.97 0.96 1.00 CJ5A/CK5A/CK5BA 060 0.91 0.88 0.97 CJ5A/CK5A/CK5BA 060 0.95 0.95 0.99 1 CJ5A/CK5A/CK5BN 060 0.95 0.90 0.98 CJSA/CK5A/CK5BX 060 0.97 0.97 1.00 CJ5A/CK5A/CK5BX 060 0.95 0.90 0.97 CK3BA 1 060 1 0.95 1 0.95 0.99 CK313A 060 1 0.91 1 0.88 0.97 See notes on page 17. -16- F] • 0 0 L • *I$ 0 0 ff REA ZCTST -FRE LIT SYSTEM JVVY a0ou The Ideal Complement to Your Ducted System When It Is Impractical or Prohibitively Expensive to Use Ductwork • cooling and heating duty • choice of 3 compact, attractive fan coil types for ultimate flex- ibility in any room decor • wide range of accessories available to meet a variety of instal- lation requirements • year-round comfort control FEATURES/BENEFITS AN INEXPENSIVE AND CREATIVE SOLUTION TO DESIGN PROBLEMS — Heat pump duct -free split systems are a matched combination of an outdoor heat pump unit and a dec- orative indoor fan coil unit connected only by refrigerant tubing and wires. One of the 3 fan coil choices will fit any application you might encounter. The fan coils can be mounted on the wall, at the ceiling, or in the ceiling. This selection of fan coils permits inexpensive and cre- ative solutions to design problems such as: • add-ons to current space (an office or family room addition) • special space requirements (a computer room) V 17V I 619E 619F • when changes in the cooling or heating load cannot be handled by the existing system (when adding heat -generating equipment to a currently conditioned space) • historical renovations or any application where preserving the looks of the original structure is essential These compact indoor fan coil units take up very little space in the room and will not obstruct windows. The fan coils are attrac- tively styled to blend with most room decors. Advanced system components incorporate innovative technol- ogy to provide reliable cooling and heating performance at high efficiencies and low sound levels. Duct -free split systems offer the solution of choice. The com- pressor is outdoors, linked by refrigerant lines to an indoor fan coil located directly in the room it will cool or heat. These sys- tems have minimal impact on the existing structure, and the de- sign and interior of the conditioned space is not compromised by bulky ductwork. Because of these features, Duct -free split systems can be installed in places where conventional ducted cooling and heating units simply cannot go. 0 1 Form No. PDS 538B,D.09.1 Bryant DUGT FREE MEAT PUMP MOCK@IS. 538B,D PAYNE Payne Air Conditioning, SYSTEMSY _ Saes. 009 t4° 060 , n .. . �r s Nominal 5 Tons REA ZCTST -FRE LIT SYSTEM JVVY a0ou The Ideal Complement to Your Ducted System When It Is Impractical or Prohibitively Expensive to Use Ductwork • cooling and heating duty • choice of 3 compact, attractive fan coil types for ultimate flex- ibility in any room decor • wide range of accessories available to meet a variety of instal- lation requirements • year-round comfort control FEATURES/BENEFITS AN INEXPENSIVE AND CREATIVE SOLUTION TO DESIGN PROBLEMS — Heat pump duct -free split systems are a matched combination of an outdoor heat pump unit and a dec- orative indoor fan coil unit connected only by refrigerant tubing and wires. One of the 3 fan coil choices will fit any application you might encounter. The fan coils can be mounted on the wall, at the ceiling, or in the ceiling. This selection of fan coils permits inexpensive and cre- ative solutions to design problems such as: • add-ons to current space (an office or family room addition) • special space requirements (a computer room) V 17V I 619E 619F • when changes in the cooling or heating load cannot be handled by the existing system (when adding heat -generating equipment to a currently conditioned space) • historical renovations or any application where preserving the looks of the original structure is essential These compact indoor fan coil units take up very little space in the room and will not obstruct windows. The fan coils are attrac- tively styled to blend with most room decors. Advanced system components incorporate innovative technol- ogy to provide reliable cooling and heating performance at high efficiencies and low sound levels. Duct -free split systems offer the solution of choice. The com- pressor is outdoors, linked by refrigerant lines to an indoor fan coil located directly in the room it will cool or heat. These sys- tems have minimal impact on the existing structure, and the de- sign and interior of the conditioned space is not compromised by bulky ductwork. Because of these features, Duct -free split systems can be installed in places where conventional ducted cooling and heating units simply cannot go. 0 1 Form No. PDS 538B,D.09.1 ,• MODEL NUMBER NOMENCLATURE HEAT PUMP OUTDOOR UNITS 5388 N X 024 000 Model 5388,D — Air -Cooled Heat Heat Pump Units Voltage Designation A — 115-1-60 E — 460-3-60* r N — 208/230-1-60 Nominal Capacity P — 208/230-3-60* 009 — 3/4 Ton 012 = 1 Ton A Current Series Code A —All Models 000 — All Models X — All Models *Size 036-060 units only. Model 619C — Ceiling -Suspended, Sizes 018, 024, 036, 048, 060 619E = High Wall, Sizes 009, 012, 018, 024 619E In -Ceiling Cassette, Sizes 024. 036, 048 Voltage Designation A — 115-1-60 N — 208/230-1-60 619E 018 — 1-1/2 Tons 024 — 2 Tons HEAT PUMP FAN COIL UNITS 030 — 2 1/2 Tons 036 — 3 Tons* 048 — 4 Tons* 060 — 5 Tons* N X 012 0wo A Current Series Code A —All Models Heating OWO —Heat Pump Nominal Capacity 009 — 3/4 Ton 036 — 2-1/2 Tons 012 — 1 Ton 048 — 3 Tons 018 — 1-1/2 Tons 060 — 5 Tons 024 — 1-1/2 Tons Type of Fan Coil X — All Models 0 FEATURES/BENEFITS (cont) LIGHTWEIGHT, COMPACT SIZE — The small footprint of these units provides additional benefits. Exclusive aero - acoustics make these units the most compact in the industry. 40Because they require minimal service and airflow clearances, outdoor units can be located virtually anywhere — on the 0 ground, roof, balcony, under a deck, or even mounted to an out- side wall. 0 0 0 * 16 00 0 9 0 41 The outdoor unit can be mounted on any type or weight roof, and the indoor units take up little valuable, rentable space. Because they are duct -free, not having to run large ductwork leaves additional space to be rented or utilized, making the building even more profitable. In addition, the small size makes these units easily moveable. When floor plans change, the units can be quickly reinstalled. EASY-TO-USE CONTROLS — The microprocessor -based control in the high -wall unit is easy to use, permitting quick changes for maximum comfort. The microprocessor offers the ultimate in comfort and efficiency. All units automatically restart and retain their memories after a power failure, eliminating unnecessary service calls and service disruption. High -wall units are equipped with a wireless remote controller. Under - ceiling and in -ceiling cassette units feature standard 24v con- trols with new solid-state multifeatured electronic thermostats. All units can be easily integrated into most building control sys- tems, and offer auto -changeover from heating to cooling mode and back. 3 WIDE RANGE OF ACCESSORIES — Customizing the duct - free split systems to your application is easily accomplished through the many accessories available. Low -ambient tempera- ture capability (permitting cooling operation down to –20 F out- door ambient) is easily added on all units. Accessories for the high -wall and ceiling -suspended fan coils include an internal condensate pump to provide installation flex- ibility. Condensate pumps are standard on in -ceiling cassettes. Ventilation -air capability is available as an accessory on ceiling suspended units and in -ceiling cassettes. In addition, limited ducting capability is available to connect in -ceiling cassettes (for example, to duct to an adjacent room). AGENCY LISTINGS — All systems are listed with ARI (Air Con- ditioning & Refrigeration Institute), UL (Underwriters' Labor- atories), CSA (Canadian Standards Association), and CEC (California Energy Commission). UNIT SHOWN IS 538B HEAT PUMP LEGEND 1 — Start Capacitor and Relay 2 — Lockout 3 — 3 -Pole Contactor 4 — High -Voltage Terminal Block 5 — Time Temperature Solid --State Defrost Board (Not used with 619E fan coil units) 6 — Low -Voltage Terminal Block 7 — Accumulator 8 — Liquid Line Low -Pressure Switch 9 — High -Pressure Switch 10 — Acoustic Lining 11 — Crankcase Heater 12 — Isolated Compressor/Control Area 13 — Discharge and Suction Pressure Gage Ports 14 — Reversing Valve UNIT SHOWN IS 538B HEAT PUMP 0 0 U L 0 9 0 0 FEATURES/BENEFITS (cont) LOW SOUND LEVELS — When noise is a concern, the duct - free split systems are the answer because you do not have to worry about duct design. There are no compressors indoors, either in the conditioned space or directly over it, and there is none of the noise usually generated by air being forced through ductwork. These indoor units are whisper quiet. The outdoor units operate at sound levels as low as 65 decibels, and are the perfect answer to sound level ordinances. When sound ordinances and proximity to neighbors demand ultra -quiet operation, the 538B and 538D are the right choice: The advanced, horizontal airflow design distributes air more evenly over the coil. On the 5388 unit and 538DO18 and 024 units, the coil acts as an extra sound -muffling device before the air is discharged at a very low velocity. HIGH EFFICIENCY —With SEERs (seasonal energy efficiency ratios) up to 11.5 and HSPFs (heating seasonal performance factors) up to 7.6, these duct -free split systems save energy and may qualify for utility company rebates in some areas. SECURE OPERATION — If security is an issue, outdoor and in- door units are connected only by refrigerant piping and wiring to prevent intruders from crawling through ductwork. In addition, since 538B units can be installed 6 in. away from outside walls, coils are protected from vandals and severe weather. FAST INSTALLATION — These compact duct -free split sys- tems take just a few hours to install, since only wire and piping need to be run. The fast and easy installation permits minimal disruption to customers in the home or workplace. This is an added advantage of these duct -free split systems, especially in retrofit situations. Features like mounting brackets and templates make the unit very easy to install. In fact, the ceiling -suspended units are even furnished with indoor -to -outdoor connecting cables. SIMPLE SERVICING AND MAINTENANCE — Removing a single panel on outdoor units provides immediate access to the isolated compressor and control compartment; allowing a serv- ice technician access to check unit operation without a loss of condenser airflow. In addition, on 538B units, the blow-thru de- sign of the outdoor section means that dirt accumulates on the inside surface of the coil. Coils can be cleaned quickly from the outside using a pressure hose and detergent without removing grilles or using fin combs. On indoor units, service and maintenance expense is reduced due to easy -to -change cleanable filters on all units. In addition, the high wall systems have extensive self -diagnostics to assist in troubleshooting. All units have easy -access coils and clean- able condensate pans to assist in meeting indoor air quality standards. Both refrigerant service valves are brass, back -seating type with sweat (5388 and 538D018,024) or flare (538D009,012) connec- tions. The valves are externally located so refrigerant tube con- nections can be made quickly and easily. Each valve has a service port for ease of checking operating refrigerant pressures (538B and 538D018,024 units). Internal service ports (538B and 538D018,024) are also pro- vided to make servicing even easier, and the heating refrigerant metering device is conveniently located in the liquid -line service valve (5388 and 538D018,024 only). BUILT-IN RELIABILITY — These duct -free split system indoor and outdoor units are designed to provide years of trouble-free operation. The high wall indoor units include freeze-up protection, high temperature protection, and self diagnostics. Other indoor units are protected by outdoor unit controls and have limited diagnos- tics available through standard or accessory 24v thermostats. 2 The 538B and 538D018,024 outdoor units are the only dedi- cated commercial units with all safety features standard to en- sure high performance and lasting reliability under the most 1 demanding situations. For example, an accumulator safeguards the compressor against loss of lubrication, while start capacitors and relays (non -scroll units) assure dependable start-ups, espe- cially during low voltage conditions down to 187 v. High- and low-pressure safety switches, crankcase heater (non -scroll units), bi-flow liquid line filter drier, and lockout protection are standard on most sizes and Time Guard'a compressor protec- tion can be included. NOTE: Time delay compressor protection is provided by the microprocessor or 24v thermostat when outdoor unit is matched with 619C or 619F fan coil units. The totally -enclosed outdoor -fan motor means greater reliability under rain conditions, ensuring dependable performance for many years. INDIVIDUAL ROOM COMFORT — Maximum comfort is pro- vided because each space can have individual set points and may be controlled based on actual usage. The air sweep feature provided on high wall and ceiling -suspended systems permits optimal room air mixing to eliminate hot and cold spots and en- hance occupant comfort. Heat pumps with booster heat mode (cassette and ceiling sus- pended units) provide even greater comfort in heat pump opera- tion. With the high wall unit, warm -start features mean occupants are never subjected to cold drafts on start-up or defrost. ECONOMICAL OPERATION — The duct -free split system de- sign allows individual room cooling and heating only where re- quired. There is no need to run large supply -air fans or chilled water pumps to handle a few spaces with unique load patterns. In addition, because air is moved only in the space required, no 1 energy is wasted moving air through ducts. Features like the permanent split -capacitor type motors provide more economical operation, and the rifled copper tube with lou- vered aluminum plate fin coil provides maximum heat transfer. When demand defrost is used with high wall units, only the mini- mum amount of energy is used to defrost the coil. In addition, the blow-thru design of the 5388 units results in even lower en- ergy usage in defrost mode. TABLE OF CONTENTS Page Features/Benefits ............................... 1-4 Model Number Nomenclature ..................... 5,6 ARI Capacities ................................. 6 Accessories ................................... 7-10 Physical Data .................................. 11-17 Base Unit Dimensions ........................... 18-24 Selection Procedure ............................. 25 Performance Data .............................. 26-58 Electrical Data ................................. 59 Typical Piping and Wiring ........................ 60-63 Application Data ................................ 64-71 Typical Wiring Schematics ........................ 72-76 Controls......................................77-81 Guide Specifications ............................. 82-87 FEATURES/BENEFITS (cont) HIGH WALL FAN COILS_ - 619E (3✓4 - 2 Tons) High wall systems are the most cost-effective duct -free split systems. They can be used for simple add-ons and retrofits where wall space is available. • CEILING -SUSPENDED FAN COILS — 619C (11/2 - 5 Tons) Use ceiling -suspended systems for office and retrofit applications where there is little or no wall space. IN -CEILING CASSETTE FAN COILS — 619F (2 - 4 Tons) Cassette systems are ideal for retrofit and modernization projects with standard 2 -ft x 4 -ft hung ceilings. 000 0 a. .0 0 0 4 1 J 0 0 n u n r-7 L MODEL NUMBER NOMENCLATURE (cont) SYSTEM AND COMPONENT AVAILABILITY SYSTEM OR COMPONENT 009 012 018 024 SIZE 030 036 048 060 High Wall System X X X X COIL INDOOR OUTDOOR STANDARD Ceiling Suspended System TOTAL SEER X' X Xt X X X In -Ceiling Cassette System TYPE SECTION X' Xt Xt X" 538D X X X X RATING 5388 X X X X X X 619E X X X X 252 8,700 0.95 10.0 619C 9,000 3.20 X X 2.2 X X X 619F 302 12,500 1.28 X 9.8 X X 6.80 'Uses an 024 size indoor unit. tUses an 036 size indoor unit. "Uses an 048 size indoor unit. NOTE: See Systems Index Index table, page 26 for a complete list of systems including components used for each. ARI* CAPACITIES FAN NET HIGH HIGH HIGH HEAT HEAT OUTDOOR COIL INDOOR OUTDOOR STANDARD COOLING TOTAL SEER EER HEAT HEAT HEAT LOW LOW SOUND TYPE SECTION SECTION CFM (Btuh) kW CAP COP HSPF CAP COP RATING (Btuh) (Btuh) (Decibels) 619EO09 538DO09 252 8,700 0.95 10.0 9.2 9,000 3.20 6.80 5,120 2.2 65 High Wall 619EO12 538DO12 302 12,500 1.28 10.5 9.8 12,500 3.00 6.80 7,190 2.3 65 619EO18 I 538DO18 455 17,300 1.71 11.5 10.1 16,900 2.85 1 6.80 10,100 2.05 1 68 619EO24 538DO24 525 23,200 2.23 11.0 10.4 21,400 2.90 6.80 12,700 2.20 68 619CO24 538BO18 500 19,000 1.90 11.00 10.0 17,000 3.20 7.20 9,800 2.1 70 619CO24 538BO24 525 24,000 2.40 11.00 10.0 22,600 3.00 7.30 12,500 2.0 68 619CO36 538BO30 870 30,000 2.94 11.00 10.2 28,000 3.30 7.40 15,600 2.2 68 538BO36 Ceiling- 619CO36 Single -Phase 870 34,600 3.39 11.50 10.2 33,000 3.30 7.15 19,000 2.2 68 Suspended Unit 538BO36 619CO36 3 -Phase 870 36,000 3.67 11.00 9.8 34,400 3.00 6.80 19,800 2.0 74 Unit 6190048 5388048 1100 48,000 5.00 10.20 9.6 45,500 3.20 7.30 28,200 2.2 76 619C060 , 538BO60 1600 58,000 5.85 11.00 9.9 57,500 3.15 7.40 32,000 2.2 72 619FO24 538BO18 525 18,000 2.00 10.00 9.0 17,600 3.04 6.80 11,000 2.0 68 619FO36 538BO24 1 980 25,000 2.44 10.70 10.2 23,800 3.34 7.60 13,400 2.3 68 619FO36 538BO30 980 29,000 2.61 11.50 11.1 27,000 3.27 7.60 15,900 2.3 68 In -Ceiling 538BO36 Cassette 619FO48 Single -Phase 1100 33,000 3.47 10.50 9.5 33,000 3.30 6.80 20,000 2.2 70 Unit 5388036 619FO48 3 -Phase 1100 34,400 3.65 10.00 9.2 34,000 3.00 6.80 21,000 2.0 74 Unit LEGEND ARI 210/240 ARI 270 COP - Coefficient of Performance db - Dry -Bulb EER - Energy Efficiency Ratio HSPF - Heating Seasonal Performance Factor �� • SEER - Seasonal Energy Efficiency Ratio wb - Wet -Bulb (When used with matching unit.) 'Air Conditioning & Refrigeration Institute. NOTES: 1. Ratings are net values reflecting the effects of circulating fan heat. Supplemental elec- tric heat is not included. Ratings are based on: Cooling Standard: 80 F db, 67 F wb indoor entering air temperature and 95 F db air entering outdoor unit. High -Temperature Heating Standard: 70 F db indoor entering air temperature and 47 F db, 43 F wb air entering outdoor unit. Low -Temperature Heating Standard: 70 F db indoor entering air temperature and 17 F db, 15 F wb air entering outdoor unit. 2. Ratings are based on 15 ft of interconnecting refrigerant line. 3. The total kW is for the total system, including compressor and indoor and outdoor fans. R • 0, . r" LA 0 0 0 7 E 0 PHYSICAL DATA - CEILING -SUSPENDED UNITS UNIT 619C018' E19CO24 619C036 619CO48 619C060 NOMINAL CAPACITY (Tons) 1112 2 3 4 5 NOMINAL SIZE (Btuh) 18,000 24,000. 36,000 48,000 60,000 OPERATING WEIGHT (lb) 110 110 119 151 181 MOISTURE REMOVAL RATE (Pints/hr) FINISH 5.8 7.1 9.5 13.4 GM Motorhome White with Black Trim R-22 AccuRater® Piston in Fan Coil 15.1 REFRIGERANT Control (Cooling) Control (Heating) AccuRater Piston in Fan Coil Charge Required (Ib) Single Phase/3 Phaset 4.3/— 6.3/— 1 7.5/8.7 1 10.0% 11.9/— D••• FAN Direct Drive Centrifugal Rpm/Cfm High 900/480 1050/550 1275/870 1435/1130 1275/1600 Rpm/Cfm Medium 862/400 900/480 972/750 1388/975 972/1220 Rpm/Cfm Low 770/320 862/400 830/630 1315/820 830/1040 High Speed Watts 92 92 282 425 564 Motor Quantity... Hp 1...1/16 1...1/16 1...1/6 1...1/16, 1...1/6 2...'/s Blowers Quantity... Size (in.) 2...6 x 8 2...6 x 8 2...6 x 8 3...6 x 8 4...6 x 8 INDOOR COIL Copper Face Area (sq ft) 2.2 2.2 2.6 3.0 4.0 No. of Rows 4 4 4 4 4 Fins/in. 14.9 14.9 14.9 14.9 14.9 Circuits FILTERS 4 4 4 Cleanable 8 8 Quantity ...Size (in.) 4...12 x 83/4 4...12 x 83/4 5...105/6 x 83/4 4...105/6 x 83/4 2...12 x 83/4 6...12 x 83/4 AIRSWEEP Horizontal — Vertical Automatic HEATER kW 2.0 2.0 3.0 4.0 5.0 CONTROLS Remote Controller Options Hard -Wired Diagnostics Yes (with Optional Thermostat) Defrost Method I Time/Temperature Timer Mode Yes (with Optional Thermostat) Freeze Protection Yes Test Mode Yes Auto. Changeover Yes Auto. Restart Yes Fan Mode High/Medium/Low/Auto Booster Heat Mode Yes Control Voltage 24 v (provided) REFRIGERANT LINES Connection Type Flare Liquid Line OD (in.) 3/6 Vapor Line OD (in.) 5/e ( 5/6 3/4 '/6" '/s" Maximum Length (ft) 200 Maximum Lift (Fan Coil Above) (ft) 65 Maximum Lift (Fan Coil Below) (ft) 150 CONDENSATEDRAIN CONNECTION `The 619C018 fan coil is a 619CO24 fan coil, but uses a different motor spied fan tap plug than the 619CO24. Refer to unit installation instructions for more details. tOutdoor unit is shipped with a holding charge. The amount of charge listed is determined based on 25 ft of line. See Application Data section on page 64 for information on longer line lengths and out- door unit combinations. "Valve connection size is 3/4 inch. Recommended line size is 7/6 inch. ttFlexible tubing (5/e in.) is required when the accessory condensate pump its used. 1 E- 11 • 0 0'-10' CONTROL BOX F 11/I6 (254) HIGH VOLTAGE KNOCKOUT 0'-2 11/16• .-<• +1 0'-I 1681 11021 0'-1 5/8- (42), I (121 0'-4 1/2' 11141 O' -S /16 1/B' O'-8 7' 7 11 (21, (190) 1164) 0'-6 /16 ( ` \ / 1 11 r 1 REAR VIEW 0 -7 7/16 ' 0'-4' (1021 A ft -in. REFRIGERANT PIPING CONN. (L IOUID SIDE) LOOSEN BOLTS AND SLIDE CONDENSATE 0 -4 3/4' 1 112) _ 3i8 MALE FLARE PLUG CONN. FOR WIRED CONTROLLERVIREI 048,060 ONLY CONDENSATE PUMP ACCESSORY120' MAX. LIFT) 018,024 (961 5/8' VOLTAGE TAGEUAND TNERMISIOR CONNECTION(93).0'-4 ISS)- -- --- 510E VIEW OUTDOOR ACCURATER 1/8 REFIGERANT PIPING CONN.(VAPOR SIDE)(104) 036 0' -3 S/ 16' (841 �� S/8 MALEFLARE(OIB,024) L AIR ACCESSORY 0'-4 7/B' 3/4 MALE FLARE(036,04B4O6o) 6' DUCT RING 11231 REVERSE BRACKETS 0'-5 1/B' DRAIN PIPING CONN.(3/4 MALE NPT) 648 FOR OP110NAL MOUNTING r --O'-10' OIRECTIONrTO REMOVE (1311 0'-1 1/8' 12541 , FRESH AIR ACCE55ORY (4)MOUNTING 801.1 HOLES 0'-7/B' 1291 0'-4' 0'-2 11/16 MINIMUM 0'-3' (761 CLEARANCE 1/2 DIA % 1 LONG 122) (102) (691 TOP ACCE55 FOR WIRING. REOUIREO IN BACK OF 511111 INLET AIR DRAINAGE REFRIGERANT ACCESSORY t ' ) (OPTIONAL) CONDENSATE R �AINAGE 0'T-4 I}/4, (1091 � 0':4' (10�L,' ALTERNATE TOP POWER I ENTRANCE KNOCKOUT I I I 1— _ _ _ ' ACCESS TO CONDENSATE PUMP THRU SIDE PANEL r TOP VIEW (2791 1/8 (see) 0'-5/I (B) O'-9 FRONT VIEW B E NOTES: 1. Dimensions in ( ) are millimeters. 2. 0 Direction of airflow. 3. Facing unit discharge, unit clearances are as follows: 0 in. on top and rear 3 in. on left side 12 in. on right side 36 in. on bottom 1'-6 9/16'- (4721 0'-9 5) (245) UNIT 619C 0'-S 3/16' A ft -in. 11321. LOOSEN BOLTS AND SLIDE CONDENSATE 0 -4 3/4' 1 112) MOUNTING BRACKET THIS PUMP DIRECTION+TO REMOVE ACCE55ORY 0'-3 13/16' 018,024 (961 0'-2 1/8' 1294 ISS)- -- --- 510E VIEW 4- 1% ACCURATER — — 1- 95/8 REFRIGERANT DEVICE 036 0' -3 S/ 16' (841 4-1013/,e r I 4- 57/e t r I DISCHARGE AIR - - - — — — 2- 11/2 648 SLIDE 510E PANEL THIS 37125) 77,5 OIRECTIONrTO REMOVE 3/8' PIPING CONN. RIGHT SIDE (L OU10 510E) PIPING KNOCKOVT- PIPING CONN. DRAIN CONN. WIRING. REFRIGERANT 9 (VAPOR SIDE) CONDENSATE REMOVEABLE AIR FILTER INLET AIR DRAINAGE 7- 3 (OPTIONAL) OVERRIDE SWITCH 2302 UNIT 619C WEIGHT (lb) A ft -in. mm 8 ft -in. mm E ft -in. mm F G ft -in. mm ft -in. mm 018,024 110 4- 215/le 1294 3-10 1169 4- 1% 1260 — — 1- 95/8 549 036 119 4-1013/,e 1493 4- 57/e 1368 4- 9'h 1459 — — 2- 11/2 648 048 151 5-118/18 1817 5- 6% 1692 5-101/4 1783 1- 97/8 555 3- 31/,e 992 060 181 7- 8 2336 7- 3 2211 7- 65/8 2302 T 1-11 We 1 601 1 4.118/,8 1512 4 0 4-0 0 a 6 TYPICAL WIRING SCHEMATIC - CEILING SUSPENDED SYSTEM 5388 9 TAllO gscow Y i00•:]Or �y y�'�4 ' 71� TI.E 3EL.1 Xl_A' NIo SEO.00E Co"ESSM I SEC -9r.-4UI TIle TI -TZ SILACC DENOTES C175E0 COMACTS ftw OELAI T -EL., 30 npn T -n ftf:� ' I_COAE5UP_j +'00 XC " •I1E BLACK OEWES 0.05E0 CONTAC'5 ASM — Air Sweep Motor ASR — Air Sweep Relay C — Contactor CAP — Capacitor CH — Crankcase Heater CKT BD — -Circuit Board CLO — Compressor Lockout COMP — Compressor CR — Control Relay CT — Current Transformer DFB — Defrost Board Terminal (Unmarked) (Outdoor Unit) DFT — Defrost Thermostat OR — Defrost Relay EQUIP — Equipment Ground GND RIOTS ac ,. ,fAT nw sm,vi N.1 ro I NOTES: I. If any of the original wire furnished must be replaced. it must be replaced with type 90' C wire or its equivalent. 2. Wire In accordance with National Electrical Code (NEC) and all local codes. 3. Transformer is thermally protected and will reset automatically. 4. IFM(S), OFM, and COMP have internal thermal protection. 5. The CLO locks out the compressor to prevent short cycling on compressor overloads and safety devices. Be- fore replacing CLO, check these devices. Minimum one amp turn required to hold contacts closed. 75 RELAY CHART LEGEND HIGH FR2 INDOOR FAN FL — Fuse Link OL — Overload ® Terminal (Marked) FPT — Freeze Protection PDR — Pump Delay Relay FR — Thermostat Fan Relay PL PM — Plug — Pump Motor O Terminal (Unmarked) FU — Fuse PSS — Pump Shut -Off Switch Splice HP — Heat Pump RIOTS — Remote Indoor Temp. Sensor HPS — High -Pressure Switch RSI — Indoor Remote Sensor ® Terminal Block HR — Heater Relay RS2 — Not Used HTR — Heater RS+V — Remote Sensor Common Factory Wiring HTT IFM — Heater Temp. Thermostat — Indoor -Fan Motor RVS SC — Reversing Valve Solenoid — Start Capacitor -- _ Field Control Wiring 9 LED — Light -Emitting Diode SR TB — Start Relay Terminal — — — — Field Power Wiring LLPS — Liquid Low - Pressure Switch — Block Printed Circuit Board N.C. — Normally Closed TDR — Time Delay Relay N.O. — Normally Open TP — Test Point _ _ _ Accessory or Optional OFM — Outdoor -Fan Motor TRAN — Transformer Wiring NOTES: I. If any of the original wire furnished must be replaced. it must be replaced with type 90' C wire or its equivalent. 2. Wire In accordance with National Electrical Code (NEC) and all local codes. 3. Transformer is thermally protected and will reset automatically. 4. IFM(S), OFM, and COMP have internal thermal protection. 5. The CLO locks out the compressor to prevent short cycling on compressor overloads and safety devices. Be- fore replacing CLO, check these devices. Minimum one amp turn required to hold contacts closed. 75 RELAY CHART INDOOR FAN HIGH FR2 INDOOR FAN MED FRI, FR2 INDOOR FAN LOW FRI 0 0 0 0 U, 0 0 0 r_1 CONTROLS — SYSTEMS USING CEILING -SUSPENDED OR CASSETTE FAN COILS Remote Thermostat AUTOMATIC AIR SWEEP — All 619C units are equipped with an automatic air sweep feature which automatically directs the airflow louvers up and down to provide optimum room air cir- culation. If the auto sweep feature is not desired, temporarily start the auto sweep using the remote thermostat (press Air Sweep button). When the louvers are in the desired position, turn auto sweep off (press Air Sweep button again) to hold them in that position. an OPERATING MODE MEMORY — After the system is turned off or after a power failure, the system remains in the last operating mode selected. When the system is turned back on, or when power is automatically restored, operation continues in the same operating mode as when the system shut down. AUTOMATIC OPERATION (AUTO) MODE — If auto mode is selected, the system automatically switches over the operating mode from heating to cooling, or from cooling to heating de- pending on the selected temperature. Auto mode also controls fan speed if not manually overridden. NOTE: Between the cooling cycle and the heating cycle there is a neutral zone of approximately 2° F above and 2° F below the selected temperature when only the fan is operating. OPERATING SEQUENCE — Ceiling -suspended fan coil units have a relay board which controls system operation in response to the room thermostat. The user may manually select any one of 3 fan speeds for unit operation. Ceiling -suspended systems may be equipped with an accessory power ventilation kit and/or condensate pump. Fan Operation — Fan speed can be selected by pressing the fan button (high, medium, or low speed choices). The fan(s) is capable of operation when unit mode is set on either cooling, heating, or auto mode. When the fan(s) is operating in medium or high speed and the unit is equipped with the power ventilation kit, the ventilation fan will operate to provide fresh air. If the mode is set to the AUTO position, then the fan will operate with the outdoor unit compressor. Cooling Mode Operation — When the room thermostat senses a demand for cooling, the fan coil relay board is ener- gized. The indoor fan(s) will start in the selected speed (if it is not already operating). The reversing valve will energize and switch to the cooling position. The internal condensate pump (if so equipped) runs whenever the reversing valve is energized and/or the unit is in cooling. As long as the condensate float switch and freeze protection ther- mostat are closed, the cooling relays in the fan coil unit will close. This energizes the compressor and outdoor fan in the outdoor unit. The compressor will continue to operate until the room thermo- stat is satisfied. When the cooling demand is satisfied, the com- pressor and outdoor fan will stop. If the system is in the AUTO mode, the indoor fan will stop with the compressor. If the unit has the accessory ventilation kit, the ventilation fan will operate whenever the indoor fan is set for medium or high speed. Heat Pump Operation — When the room thermostat senses a demand for heating, the fan coil relay board is energized. The indoor fan will start in the selected speed (if not already oper- ating), and the reversing valve will not be energized. The inter- nal condensate pump (if supplied) and freeze protection thermostat are not operated during heating operation. The con- trol relay (CR2) closes, and the compressor and outdoor fan are energized through the defrost board (DFB), which is located in the outdoor unit. The microprocessor logic in the DFB is ener- gized when the compressor starts, and the defrost timer runs. Once every 90 minutes (factory default setting) of compressor run time, the DFB logic checks the defrost thermostat (DFT). If the DFT is open, the unit continues in heating operation. If the DFT is closed, the DFB switches the unit to defrost mode. The timing on the DFB may be set at either 30, 50, or 90 minutes. • 0 0 0 0 0 0 0 PERFORMANCE DATA (cont) COOLING CAPACITIES (cont) SYSTEM 6' - CEILING -SUSPENDED SYSTEM (538B024 WITH 619CO24) Q Rating condition. Not recommended for long-term operation. AIR ENTERING INDOOR UNIT - CFM/BF TEMP (F) AIR ENTERNG 400/0.02 480/0.02 55010.03 Air Entering Indoor Unit - Ewb (F) OUTDOOR UNIT (Edb) 57 62 67 72 57 62 67 72 57 62 67 72 TC TCG 23T 1 25.4 26.4 27 2 249 26.3 27.1 27.6 2* 5 26.6 27.6 28.1 SHG �s 19.1 16.0 131ki5 20.5 16.8 13.4 �25t 21.2 17.4 13.7 55 TC kW 3 #� .. - 25.0 1.73 26.1 1.75 26.9 1.77 ?tf 25.9 1.77 26.7 1.79 1.50 27.2 1.80 1.52 X7.5 26.1 1.80 1.49 27.1 1.82 1.52 27.6 1.83 1.53 CMP1.46 ' 1.49 1.51 _ 1.49 1$7 . LDB <3:i ' 39.3 46.0 52.4 43.8 50.5 56.6 47.3 53.3 51.4 59.1 58.0 LWB 38.4 45.1 521;M 42.3 49.0 55.9$ 45.1 TCG Y 24.7 26.4 27.5 23.9 25.7 27.0 28.2 24.8 26.4 27.7 28.7 SHG - 18.8 16.0 13.1 23.2 20.2 16.8 13.6 24.7 21.5 17.7 14.0 TC 1 24.4 26.0 27.1 23.5 25.2 26.6 27.7 24.3 25.9 27.2 28.2 65 kW :• 'a 8 1.87' 1.90 1.93 1.87 1.58 1.90 1.62 1.94 1.65 1.97 1.69 1.90 1.60 1.94 1.64 1.98 1.67 2.00 1.70 CMP 1.60 1.64 1.67 LDB39.3 4�m 45.4 51.8 38.1 43.6 49.8 55.8 41.1 46.3 52.4 58.3 LWB 38.6 44.7 51.5 36.9 42.5 48.7 55.1 39.1 44.9 51.0 57.3 TCG 21.1 23.2 25.3 26.9 22.4 24.3 26.2 27.7 23.5 25.2 26.9 28.3 SHG 20.0 17.9 15.5 12.8 22.1 19.5 16.5 13.3 23.5 20.9 17.4 13.8 TC 20.7 22.9 24.9 26.5 22.0 23.9 25.7 27.2 23.0 24.7 26.4 27.8 75 kW 1.92 1.98 2.04 2.08 1.97 2.03 2.08 2.13 2.03 2.07 2.12 2.17 CMP 1.65 1.72 1.78 1.82 1.69 1.75 1.80 1.84 1.72 1.77 1.82 1.87 LDB 35.8 40.5 46.0 52.0 39.4 44.2 50.0 55.8 42.4 46.7 52.4 58.2 LWB 35.0 39.9 45.4 51.6 37.9 43.3 49.0 55.1 39.9 45.5 51.2 57.3 TCG 19.7 21.8 24.1 26.3 21.0 23.0 25.3 27.1 22.2 23.9 26.1 27.9 SHG 19.1 17.1 14.9 12.5 21.0 18.8 16.1 13.1 22.2 20.3 17.1 13.7 TC 19.3 21.4 23.8 26.0 20.6 22.6 24.9 26.7 21.8 23.4 25.6 27.4 85 kW 2.01 2.09 2.18 2.24 2.08 2.16 2.23 2.28 2.15 2.21 2.27 2.33 CMP 1.75 1.83 1.91 1.98 1.80 1.88 1.94 2.00 1.85 1.91 1.97 2.03 LDB 37.2 41.8 46.7 52.2 40.7 44.9 50.1 55.8 43.8 47.0 52.3 58.0 LWB 36.3 41.1 46.1 51.7 39.0 44.1 49.3 55.2 40.6 46.1 51.4 1 57.2 TCG 18.3 20.2 22.5 24.9 19.7 21.3 23.7 25.9 20.8 22.1 ' 24.5s 26.5 13.1 SHG 18.1 16.1 14.1 11.9 19.7 17.8 15.3 12.6 20.8 19.3 16.4`, TC 17.9 19.9 22.1 24.5 19.3 20.9 23.3 25.5 20.4 21.7 x , 24 W*Q, 26.0 95 kW 2.11 2.19 2.29 2.38 2.19 2.26 2.36 2.43 2.25 2.31 2.40'e 2.47 CMP 1.85 1.93 2.03 2.11 1.91 1.98 2.07 2.15 1.96 2.01 2.10 •9 2.17 LDB 38.7 43.2 48.0 53.1 42.6 46.1 51.0 56.3 45.5 48.1 ".53.0 58.5 LWB 37.6 42.5 47.4 52.6 40.0 45.3 50.3 55.7 41.5 47.2 °52.2 57.8 TCG 16.9 18.7 20.8 23.2 18.4 19.7 21.9 24.2 19.4 20.4 22.6 24.9 SHG 16.9 15.2 13.2 11.1 18.4 16.9 14.5 11.9 19.4 18.3 15.5 12.5 TC 16.6 18.3 20.5 22.8 18.0 19.3 21.5 23.8 19.0 19.9 22.2 24.5 105 kW 2.20 2.29 2.39 2.50 2.29 2.36 2.46 2.57 2.36 2.41 2.52 2.61 CMP 1.94 2.03 2.13 2.24 2.01 2.08 2.18 2.29 2.07 2.11 2.22 2.31 LDB 40.6 44.6 49.4 54.4 44.4 47.3 52.2 57.2 47.2 49.2 54.0 59.2 LWB 38.9 43.9 48.8 53.8 41.0 46.5 51.5 56.6 42.4 48.2 53.2 58.5 TCG 15.8 17.2 19.2 21.4 17.1 18.0 20.1 22.4 18.1 18.7 20.8 23.1 SHG 15.8 14.4 12.4 10.4 17.1 16.0 13.6 11.2 18.1 17.3 14.6 11.8 TC 15.4 16.8 18.8 21.0 16.7 17.6 19.7 22.0 17.6 18.2 20.3 22.6 115 kW 2.30 2.38 2.49 2.61 2.40 2.45 2.56 2.69 2.47 2.50 2.62 2.74 CMP 2.04 2.12 2.24 2.35 2.12 2.17 2.29 2.41 2.17 2.21 2.32 2.44 LDB 42.6 46.0 50.8 55.7 46.3 48.6 53.3 58.3 49.0 50.3 55.1 60.0 LWB 40.0 45.3 50.1 55.1 41.9 47.7 52.6 57.7 43.3 49.3 54.3 59.4 TCG 14.6 15.7 17.6 19.6 15.8 16.5 18.4 NoxSA%16.7 17.0 18.9 2r � SHG 14.6 13.5 11.6 9.63 15.8 15.1 12.81T4 18.0 %12 16.7 16.3 16.3 16.6 13.7 18.5 0 ' TC 14.3 15.3 17.2 19.3 2.72 15.5 2.50 16.1 2.54 2.662 79 2.57 2.60 2.71 285 125 kW 2.40 2.47 2.59 2.46 2.22 2.26 2.38 2 2 €' 2.28 2.30 2.42 MZZ CMP 2.15 2.21 2.33 50.8 51.5 56.1 CID LDB 44.7 47:4 52.1 57.0 48.2 49.7 54.5593 53.75813 44.2 50.3 55.3 60 3 LWB 41.1 46.6 51.5 56.4 42.9 48.8 Q Rating condition. Not recommended for long-term operation. -Refer to Systems Index Table on page 26. NOTES: 1. Direct interpolation is permissible. Do not extrapolate. 2. The SHG is based on 80 F edb temperature of air entering indoor coil. Below 80 F edb, subtract (corr factor x cfm) from SHG. Above 80 F edb, add (corr /actor x cfm) to SHG. Correction Factor = 1.10 x (1 - BF) x (edb - 80). it 0 LEGEND BF - Bypass Factor CMP - Compressor Edb - Entering Dry Bulb Ewb - Entering Wet Bulb kW - Total Power LDB - Leaving Dry Bulb LWB - Leaving Wet Bulb SHG - Gross Sensible Capacity (1000 Btuh) TC - Total Net Cooling Capacity (1000 Btuh) TCG - Gross Cooling Capacity (1000 Btuh) -Refer to Systems Index Table on page 26. NOTES: 1. Direct interpolation is permissible. Do not extrapolate. 2. The SHG is based on 80 F edb temperature of air entering indoor coil. Below 80 F edb, subtract (corr factor x cfm) from SHG. Above 80 F edb, add (corr /actor x cfm) to SHG. Correction Factor = 1.10 x (1 - BF) x (edb - 80). it 0 n u • � j 0 r1 u • PERFORMANCE DATA (cont) COOLING CAPACITIES (cont) SYSTEM 5' - CEILING -SUSPENDED SYSTEM (5388018 WITH 619CO24) 0 Rating condition. Not recommended for long-term operation. LEGEND BF - Bypass Factor CMP - Compressor Edb - Entering Dry Bulb Ewb - Entering Wet Bulb kW - Total Power LDB - Leaving Dry Bulb LWB - Leaving Wet Bulb SHG - Gross Sensible Capacity (1000 Btuh) TC - Total Net Cooling Capacity (1000 Btuh) TCG - Gross Cooling Capacity (1000 Btuh) 31 'Refer to Systems Index Table on page 26. NOTES: 1. Direct interpolation is permissible. Do not extrapolate. 2. The SHG is based on 80 F edb temperature of air entering indoor coil. Below 80 F edb, subtract (corr factor x cfm) from SHG. Above 80 F edb, add (corr factor x cfm) to SHG. Correction Factor = 1.10 x (1 - BF) x (edb - 80). AIR ENTERING INDOOR UNIT - CFM/BF TEMP (F) AIR ENTERING 320/0.01 400/0.02 480!0.02 Air Entering Indoor Unit - Ewb (F) OUTDOOR UNIT (Edb) 57 62 67 72 57 62 67 72 57 62 67 1 72 TCG 36.5 40.6 44.6 47.2 38.9 42.7 46.4 49.2 41.3 44.9 48.2 51.1 SHG 33.6 30.1 26.6 22.2 37.4 33.3 28.6 23.4 41.2 36.5 30.7 24.7 TC 35.9 40.1 44.1 46.7 38.2 42.1 45.7 48.5 40.5 44.1 47.4 50.3 55 kW 2.67 2.74 2.79 2.82 2.75 2.81 2.86 2.90 2.83 2.88 2.93 2.98 CMP 2.17 2.25 2.29 2.33 2.22 2.28 2.32 2.36 2.26 2.31 2.35 2.40 LDB 33.1 38.1 43.4 49.8 36.7 41.5 47.0 53.2 40.3 44.9 50.7 56.5 LWB 32.9 37.7 43.0 49.5 35.8 40.9 46.4 52.6 38.7 44.0 49.7 55.8 TCG 30.3 34.0 37.5 40.3 32.5 35.8 39.1 42.0 34.7 37.6 40.8 43.7 SHG 28.8 25.5 22.5 18.9 31.7 28.3 24.4 20.1 34.7 31.1 26.3 21.3 TC 29.8 33.5 37.0 39.9 31.9 35.2 38.5 41.4 34.0 36.9 40.1 43.0 65 kW 2.47 2.55 2.61 2.66 2.55 2.62 2.68 2.73 2.63 2.69 2.74 2.80 CMP 2.04 2.12 2.18 2.23 2.09 2.15 2.21 2.27 2.13 2.19 2.24 2.30 LDB 34.2 39.5 44.6 50.5 38.0 42.7 47.9 53.7 41.9 45.8 51.3 56.9 LWB 34.4 39.1 44.2 50.1 37.0 42.0 47.3 53.1 39.6 45.0 50.4 56.2 TCG 24.1 27.3 30.4 33.5 26.2 28.8 31.9 34.9 28.2 30.3 33.3 36.3 SHG 23.9 20.8 18.3 15.7 26.1 23.2 20.1 16.7 28.2 25.7 21.9 17.8 TC 23.7 26.9 30.0 33.1 25.7 28.3 31.4 34.4 27.6 29.7 32.7 35.7 75 kW 2.27 2.35 2.44 2.50 2.35 2.42 2.50 2.56 2.44 2.49 2.56 2.63 CMP 1.91 1.99 2.07 2.13 1.96 2.03 • 2.10 2.17 2.01 2.07 2.13 2.20 LDB 35.3 41.0 45.8 51.2 39.4 43.9 48.8 54.2 43.5 46.8 51.8 57.2 LWB 35.9 40.4 45.4 50.7 38.2 43.2 48.3 53.7 40.5 46.0 51.1 56.6 TCG 19.0 21.4 23.8 26.4 20.6 22.5 24.9 27.6 22.2 23.6 26.1 28.7 SHG 19.0 16.5 14.5 12.4 20.6 18.5 16.0 13.3 22.2 20.5 17.5 14.2 TC 18.6 21.1 23.4 26.1 20.2 22.1 24.5 27.1 21.7 23.1 25.6 28.2 85 kW 1.99 2.07 2.15 2.23 2.07 2.13 2.21 2.28 2.15 2.19 2.27 2.33 CMP 1.69 1.77 1.85 1.93 1.75 1.81 1.88 1.95 1.80 1.84 1.92 1.98 LDB 37.1 42.4 47.3 52.4 41.2 45.1 50.1 55.2 45.2 47.8 52.8 58.0 LWB 37.1 41.8 46.8 51.9 39.2 44.4 49.4 54.6 41.3 47.0 52.1 57.4 TCG 14.3 15.9 17.7 19.7 15.5 16.7 18.6 20.6 16.7 17.5 119'74:1-' 21.5 SHG 14.3 12.6 11.0 9.29 15.5 14.1 12.1 10.0 16.7 15.7 ~ 13.3: 10.8 TC 14.0 15.6 17.5 19.4 15.2 16.4 18.2 20.3 16.3 17.1 ';19.0... 21.1 95 kW 1.67 1.73 1.80 1.87 1.74 1.78 1.85 1.92 1.80 1.83 '.' 1.90 ;. 1.97 CMP 1.43 1.50 1.56 1.63 1.48 1.53 1.59 1.66 1.53 1.56 1.62 ;; 1.69 LDB 39.1 43.8 48.7 53.8 43.0 46.3 51.3 56.3 46.8 48.9 53.8;<:. 58.9 LWB 38.2 43.3 48.1 53.2 40.2 45.7 50.6 55.8 42.2 48.0 '53;1,-.. 58.3 TCG 9.95 10.9 12.2 13.6 10.8 11.5 12.8 14.2 11.6 12.0 13.3 14.8 SHG 9.95 8.86 7.68 6.47 10.8 9.98 8.51 7.01 11.6 11.1 9.35 7.54 TC 9.75 10.7 12.0 13.4 10.5 11.2 12.5 14.0 11.3 11.7 13.0 14.5 105 kW 1.29 1.34 1.39 1.45 1.34 1.37 1.43 1.49 1.39 1.41 1.47 1.53 CMP 1.12 1.16 1.22 1.28 1.16 1.19 1.24 1.30 1.19 1.21 1.27 1.32 LDB 41.3 45.2 50.1 55.1 44.9 47.6 52.5 57.5 48.6 50.0 54.9 59.9 LWB 39.3 44.6 49.5 54.6 41.2 46.9 51.8 56.9 43.1 49.1 54.2 59.2 TCG 5.98 6.47 7.28 8.12 6.47 6.79 7.58 8.44 6.97 7.11 7.88 8.76 SHG 5.98 5.41 4.66 3.90 6.47 6.10 5.18 4.23 6.97 6.78 5.71 4.56 TC 5.85 6.35 7.16 7.99 6.32 6.63 7.43 8.28 6.78 6.92 7.70 8.58 115 kW 0.860 0.886 0.925 0.966 0.894 0.911 0.950 0.991 0.929 0.936 0.974 1.02 CMP 0.750 0.776 0.815 0.856 0.775 0.792 0.831 0.872 0.801 0.808 0.846 0.888 LDB 43.4 46.5 51.4 56.4 46.9 48.9 53.7 58.7 50.4 51.2 55.9 60.9 LWB 40.5 46.0 50.8 55.9 42.2 48.1 53.0 58.1 44.0 50.1 55.2 60.2 TCG SHG 2.37 2.37 2.53 2.21 2.88322 1.89 a�?7 5g 2.58 2.58 2.66 2.492 299 S3` ��iF7f 2.78 2.78 2.80 2.7723$, > 125 TC kW 2.32 0.378 2.47 0.386 2.83 ��3L> "" 2.51 2.60 sx 2 9328 2.70 2.723;033 ,.. CMP 0.332 0.340 0.359x378 52.8 7 0.343 49.1 0.3470385'03 50.2 0.354 52.3 0.355377 52.4 56 9� '7X04, St LDB 46.0 48.0 52.2 572 43.4 493 "v;`2R°592 44.9 51 1 LWB 41.8 47.6 0 Rating condition. Not recommended for long-term operation. LEGEND BF - Bypass Factor CMP - Compressor Edb - Entering Dry Bulb Ewb - Entering Wet Bulb kW - Total Power LDB - Leaving Dry Bulb LWB - Leaving Wet Bulb SHG - Gross Sensible Capacity (1000 Btuh) TC - Total Net Cooling Capacity (1000 Btuh) TCG - Gross Cooling Capacity (1000 Btuh) 31 'Refer to Systems Index Table on page 26. NOTES: 1. Direct interpolation is permissible. Do not extrapolate. 2. The SHG is based on 80 F edb temperature of air entering indoor coil. Below 80 F edb, subtract (corr factor x cfm) from SHG. Above 80 F edb, add (corr factor x cfm) to SHG. Correction Factor = 1.10 x (1 - BF) x (edb - 80). TYPICAL PIPING AND WIRING - IN -CEILING CASSETTE SYSTEMS HEATING ACCURATER DEVICE' FILTER DRIER' (BIFLOW) r MOISTURE INDICATOR SIGHT GLASS" CONTROL CONNECTIONS AIRFLOW 6 WIRES " OUTDOOR I UNIT 2 WIRES 10 COIL 3 WIRES 30 I(+) GROUND INSULATED WEATHERPROOF SUPPLY AIR 6 -IN. FUSED DISCONNECT TO ADJACENT DUCT** UOUID UNE SUCTION LINE PER NEC" SPACE (OPTION) VENT KIT I FILTERt 24 V CONTROL POWER POWER VENTILATION PROVIDED 6 -IN. ACCESSORYt INSIDE LIN R DUCT** 20*LIFT POWER \ . •� VENTILATION 8 WIRES I, Oil 21 IMO.STAT' LEGEND 'Standard. NEC — National Electrical Code tAccessory item. — Phase Field supplied: Piping ' Une Voltage 24 V ACCURATER METERING DEVICE' 63 CONDENSATE UDRAIN DRAIN LINE FROM PUMP' 2 WIRES (+) GROUND FUSED DISCONNECT' PER NEC NOTES: 1. All piping must follow standard refrigerant techniques. 2. All wiring must comply with applicable local and national codes. 3. Liquid line need not be insulated. 4. Accessory cooling AccuRater® kit is required. 5. Wiring and piping shown are general points -of -connection guides only and are not intended for a specific installation. 6. Insulate condensate line if installed in a conditioned space.