Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
06-3260 (SFD) Title 24
VICE MAUIVEI) TITLE 24 ENERGY CALCULATIONS, INC. 7544 E. SADDLEHILL TRAIL, ORANGE, CA 92869 (714) 771-1507 August 15, 2006 Owner: Sun Vista Development Corp. 51-370 Avenida Bermudas, #6 La Quinta, CA 92253 Designer: Sun Vista Development Corp. 51-370 Avenida Bermudas, #6 La Quinta, CA 92253 Project: "Tradition" Lot #5 -- Tract #28470-1 La Quinta, California STATEMENT OF CONFORMANCE CITY OF LA QUINTA BUILDING & SAFETY DEPT. APPROVED FOR CONSTRUCTION DATeDJD�LV JL -- This Calculation contains all the building features and performance specifications required for compliance by the California Code of Regulations Title 24, Part 1, Administrative Requirements; Part 6, Building Energy Efficiency Standards; and portions of Title 20, Appliance Efficiency Standards. When these features are incorporated into the architectural plans the design will be in compliance with the 2005 Energy Efficiency Standards as they apply in Climate Zone 15, using MICROPAS7 Version 7.20, a California Energy Commission approved computer performance method program. Prepared By: Certified Energy Analyst //Z - r Rick Maurer r r NR05-90-722 RI Maurer r R05-90-632 C A B E C Energy Plans Examiner California Association of Building Energy Consultants Certificate No. R05-88-5129 and NR05-88-5581 0 �f1 California State License No. 502290 C20 F�' p 0 7 2006 ** SUMMARY SHEET ** Project: Sun Vista Development -- La Quinta, CA Zone: 15 "Tradition" Lot #5 Wall Insulation: R-19 (Min. 2X6 Exterior Walls Required) Ceiling Insulation: R-38 Radiant Foil Barrier: Not Required Raised Floor Insulation: N/A Slab Edge Insulation: None Glazing Type: All glass is DUAL PANE with High Performance Low -E Glass. (See Notes) Hard Surface Flooring: None Required Minimum Furnace AFUE: 80% AFUE Minimum Heating Capacity: 92,268 BTUH Minimum A/C SEER: 13.0 SEER/11.0 EER Rater Verified (TXV Required) A/C Tonnage: 14.0 Tons (Min.Sens.=81,590 @ 105°) Duct Insulation: R-6.0 For Ducts & Plenums in Unconditioned Spaces (Duct Leakage Test Required) Note(s): 1) All hot water recirculating lines will be insulated per . Sec. 150(J) with a minimum of 1 inch insulation (Typ.R-4). This is in addition to the insulation required by the mandatory requirements. 2) The water heaters for this house can have a recirculating pump with a thermostatic controller and time clock or a hot water demand type recirculating system. 3) All windows and glass doors will have wood frames with optional metal cladding and with an NFRC U -factor of .45 or less and a SHGC of .40 or less with high performance Low -E glass except the entry door and surround glass which can have clear dual pane glass and default values. MANDATORY MEASURES SUMMARY: RESIDENTIAL (Page I of 2) MF -1R Project Title Date Note: Low-rise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. More stringent compliance requirements from the Certificate of Compliance supersede the items marked with an asterisk (•) below. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. Instructions: Check or initial applicable boxes when completed or check NA if not applicable. DESCRIPTION NA DesiEner Enforce -Ment Building Envelope Measures: v • § 150(a): Minimum R-19 in wood me ceiling insulation or equivalent U -factor in metal frame ceiling. ❑ ® ❑ C -F §150(6): nose ill insulation manufacturer's labeled R-Value:4ON ❑ ® ❑ • §150(c): Minimum R-13 wall insulation in wood framed walls or equivalent U -factor in metal frame walls (does not apply to exterior mass walls). V E12l1:' f A LiERNATE R VALUES O cF-1Fl 11 ® ❑ V QX A N - 1�1 G • § 150(d): Minimum R-13 raised floor insu ation in framed floors or equivalent U -factor. ❑ 0 ❑ § 150(e): Installation of Fireplaces, Decorative Gas Appliances and Gas Logs. I. Masonry and factory -built fireplaces have: a. closeable metal or glass door covering the entire opening of the firebox ❑ ® ❑ b. outside air intake with damper and control, flue damper and control ❑ ® ❑ 2. No continuous burning gas pilot lights allowed. ❑ ® ❑ §150(1): Air retarding wrap installed to comply with §151 meets requirements specified in the ACM Residential Manual. N ❑ ❑ §I50(g): Vapor barriers mandatory in Climate Zones 14 and 16 only. ® ❑ ❑ § 150(1) : Slab edge insulation - water absorption rate for the insulation material alone without facings no greater than 0.3%, water vapor permeance rate no greater than 2.0 nm/inch. ❑ ❑ §118: Insulation specified or installed meets insulation installation quality standards. Indicate type and include CF -6R Form: ❑ ❑ §116-17: Fenestration Products, Exterior Doors, and Infiltration/Exfiltralion Controls. 1. Doors and windows between conditioned and unconditioned spaces designed to limit air leakage. ❑ N ❑ 2. Fenestration products (except field -fabricated) have label with certified U -factor, certified Solar Heat Gain Coefficient (SHGC), and infiltration certification. ❑ N ❑ ATT 3. Exterior doors and windows weatherstripped; all joints an penetrations ed. caulked and sea ❑ N ❑ Space Conditioning, Water Heating and Plumbing System Measures: §110+13: 113: HVAC equipment, water heaters, showerheads and faucets certified by the Energy Commission. ❑ N ❑ §150(h): Heating and/or cooling loads calculated in accordance with ASHRAE, SMACNA or ACCA. ❑ ® ❑ §150(i): Setback thermostat on all applicable heating and/or cooling systems. ❑ ® ❑ § 150(j): Water system pipe and tank insulation and cooling systems line insulation. ❑ N ❑ 1. Storage gas water heaters rated with an Energy Factor less than 0.58 must be externally wrapped with insulation having an installed thermal resistance of R-12 or greater. ❑ ® ❑ 2. Back-up tanks for solar system, unfired storage tanks, or other indirect hot water tanks have R-12 external insulation or R-16 internal insulation and indicated on the exterior of the tank showing the R -value. ❑ ® ❑ 3. The following piping is insulated according to Table 150-A/B or Equation 150-A Insulation Thickness: 1. First 5 feet of hot and cold water pipes closest to water heater tank, non -recirculating systems, and entire length of recirculating sections of hot water pipes shall be insulated to Table 150B. ❑ ❑ 2. Cooling system piping (suction, chilled water, or brine lines), piping insulated between heating source and indirect hot water tank shall be insulated to Table 150-B and Eq nation 150-A 3 n 6AG 5OGT10K LINE ❑ ® ❑ 4. Steam hydronic heating systems or hot water systems >15 psi, meet requirements of Table 123-A. ® ❑ ❑ Residential Compliance Forms April 2005 MANDATORY MEASURES SUMMARY: RESIDENTIAL (Page 2 of 2) MF -IR Space Conditioning, Water Heating and Plumbing System Measures: (continued) ✓ Enforce - NA Desi mer meat 5. Insulation must be protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind. ❑ ® ❑ 6. Insulation for chilled water piping and refrigerant suction piping includes a vapor retardant or is enclosed entirely in ❑ ® ❑ conditioned space. 7. Solar water -heating systems/collectors are certified by the Solar Rating and Certification Corporation. ® ❑ ❑ ' §150(m): Ducts and Fans 1. All ducts and plenums installed, sealed and insulated to meet the requirement of the CMC Sections 601, 602, 603, 604, 605 and Standard 6-5; supply -air and retum-air ducts and plenums are insulated to a minimum installed level of R-4.2 or enclosed entirely in conditioned space. Openings shall be sealed with mastic, tape or other duct -closure system that meets the applicable ❑ ® ❑ requirements of UL 181, UL 181 A, or UL 181 B or aerosol sealant that meets the requirements of UL 723. If mastic or tape is used to seal openings greater than 1/4 inch, the combination of mastic and either mesh or tape shall be used. 2. Building cavities, support platforms for air handlers, and plenums defined or constructed with materials other than sealed sheet metal, duct board or flexible duct shall not be used for conveying conditioned air. Building cavities and ❑ ® ❑ support platforms may contain ducts. Ducts installed in cavities and support platforms shall not be compressed to cause reductions in the cross-sectional area of the ducts. 3. Joints and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive duct tapes ❑ ® ❑ unless such tape is used in combination with mastic and draw bands. 4. Exhaust fan systems have back draft or automatic dampers. ❑ ® ❑ 5. Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operated 11® ❑ dampers. 6. Protection of Insulation. Insulation shall be protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind. Cellular foam insulation shall be protected as above or painted with a coating that is water ❑ ® ❑ retardant and provides shielding from solar radiation that can cause degradation of the material. 7. Flexible ducts cannot have porous inner cores. ❑ ® ❑ §114: Pool and Spa Heating Systems and Equipment. 1. A thermal efficiency that complies with the Appliance E[Ticiency Regulations, on-off switch mounted outside of the ® ❑ ❑ heater, weatherproof operating instructions, no electric resistance heating and no pilot light. 2. System is installed with: a. at least 36" of pipe between filter and heater for future solar heating ® ❑ ❑ b. cover for outdoor pools or outdoor spas ® ❑ ❑ 3. Pool system has directional inlets and a circulation pump time switch. ® ❑ §115: Gas fired fan -type central furnaces, pool heaters, spa heaters or household cooking appliances have no continuously ❑ ® ❑ buminp pilot light. (Exception: Non -electrical cooking appliances with pilot < 150 Btu/hr § 1 18(i): Cool Roof material meets specified criteria ® ❑ ❑ Residential Lighting Measures: § I50(k)1: HIGH EFFICACY LUMINAIRES OTHER THAN OUTDOOR HID: contain only high efficacy lamps as outlined in Table 150-C, and do not contain a medium screw base socket (E24/E26). Ballast for lamps 13 watts or greater ❑ ® ❑ are electronic and have an output frequency no less than 20 kHz §1 50(k)I: HIGH EFFICACY LUMINAIRES - OUTDOOR HID: contain only high efficacy lamps as outlined in Table ❑ ® ❑ 150-C, luminaire has factory installed HID ballast § I50(k)2: Permanently installed luminaires in kitchens shall be high efficacy luminaires. Up to 50 percent of the wattage, as determined in § 130 (c), of permanently installed luminaires in kitchens may be in luminaires that are riot high efficacy ❑ ® ❑ luminaires, provided that these luminaires are controlled by switches separate from those controlling the high efficacy luminaires. § I50(k)3: Permanently installed luminaires in bathrooms, garages, laundry rooms utility rooms shall be high efficacy luminaires. OR are controlled by an occupant sensor(s) certified to comply with Section 119(d) that does not tum on ❑ ® ❑ automatically or have an always ono tion. § I50(k)4: Permanently installed luminaires located other than in kitchens, bathrooms, garages, laundry rooms, and utility rooms shall be high efficacy luminaires (except closets less than 70ft): OR are controlled by a dimmer switch OR are ❑ ® ❑ controlled by an occupant sensor that complies with Section 119(d) that does not turn on automatically or have an always ono tion. § I50(k)5: Luminaires that are recessed into insulated ceilings are approved for zero clearance insulation cover (IC) and are ❑ ® El airtight to ASTM E283 and labeled as air tight A to less than 2.0 CFM at 75 Pascals. § I50(k)6: Luminaires providing outdoor lighting and permanently mounted to a residential building or to other buildings on the same lot shall be high efficacy luminaires (not including lighting around swimming poolstwater features or other ❑ ® 11Article 680 locations) OR are controlled by occupant sensors with integral photo control certified to comply with Section I19d. § 150(k)7: Lighting for parking lots for 8 or more vehicles shall have lighting that complies with Sec. 130, 132, and 147. ® ❑ ❑ Lighting for parking garages for 8 or more vehicles shall have lighting that complies with Sec. 130, 131, and 146. § 150(k)8: Permanently installed lighting in the enclosed, non -dwelling spaces of low-rise residential buildings with four or more dwelling units shall be high efficacy luminaires OR are controlled by occupant sensor(s) certified to comply with ® ❑ ❑ Section 119(d). Residential Compliance Forms April 2005 Q CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 1 Project Title.......... Sun Vista Devlp. - Lot #5 Date..08/15/06 16:56:33 Project Address........ Tradition - Tract#28470-1******* La Quinta, California *v7.20* Documentation Author... Rick Maurer ******* Building Permit Rick Maurer Title 24, Inc. 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field Check/ Date Climate Zone.. ..... 15 Compliance Method...... MICROPAS7 v7.20 for 2005 Standards by Enercomp, Inc. MICROPAS7 v7.20 File-SUNVST48 Wth-CTZ15S05 Program -FORM CF -1R User#-MP0357 User -Rick Maurer Title 24, Inc Run -Tradition - Lot #5 GENERAL INFORMATION HERS Verification.......... Conditioned Floor Area..... Building Type .............. Construction Type ......... Fuel Type ..... ..... ... Building Front Orientation. Number of Dwelling Units... Number of Building Stories. Weather Data Type.......... Floor Construction Type.... Number of Building Zones... Conditioned Volume......... Slab -On -Grade Area......... Glazing Percentage......... Average Glazing U -factor... Average Glazing SHGC....... Average Ceiling Height..... Required 4766 sf Single Family Detached New NaturalGas Front Facing 0 deg (N) 1 1 FullYear Slab On Grade 1 57192 cf 4766 sf 20.1 % of floor area 0.47 Btu/hr-sf-F 0.42 12 ft MICROPAS7 ENERGY USE SUMMARY Energy Use Standard Proposed Compliance (kTDV/sf-yr) Design Design Margin Space Heating.......... 2.54 2.41 0.13 Space Cooling.......... 74.10 69.65 4.45 Water Heating.......... 5.39 7.62 -2.23 Total 82.03 79.68 2.35 *** Building complies with Computer Performance *** *** HERS Verification Required for Compliance *** GENERAL INFORMATION HERS Verification.......... Conditioned Floor Area..... Building Type .............. Construction Type ......... Fuel Type ..... ..... ... Building Front Orientation. Number of Dwelling Units... Number of Building Stories. Weather Data Type.......... Floor Construction Type.... Number of Building Zones... Conditioned Volume......... Slab -On -Grade Area......... Glazing Percentage......... Average Glazing U -factor... Average Glazing SHGC....... Average Ceiling Height..... Required 4766 sf Single Family Detached New NaturalGas Front Facing 0 deg (N) 1 1 FullYear Slab On Grade 1 57192 cf 4766 sf 20.1 % of floor area 0.47 Btu/hr-sf-F 0.42 12 ft CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 2 Project Title.......... Sun Vista Devlp. - Lot #5 Date..08/15/06 16:56:33 MICROPAS7 v7.20 File-SUNVST48 Wth-CTZ15S05 Program -FORM CF -1R User#-MP0357 User -Rick Maurer Title 24, Inc Run -Tradition - Lot #5 Zone Type Residence BUILDING ZONE INFORMATION Floor # of # of Cond- Thermo - Area Volume Dwell Peop- it- stat (sf) (cf) Units le ioned Type 4766 57192 1.00 14.0 Yes Setback OPAQUE SURFACES Vent Vent Verified Height Area Leakage or (ft) (sf) Hous ewrap 2.0 Standard No U- Sheath- Solar Appendix Frame Area fact- Cavity ing Act Gains IV Location/ Surface Type (sf) or R-val R-val Azm Tilt Reference Comments 1 Wall Wood 280 0.074 19 0 0 90 Yes IV.9 A5 Attic KneeWall 2 Wall Wood 585 0.074 19 0 0 90 Yes IV.9 A5 Front 2x6 Wall 3 Wall Wood 286 0.074 19 0 0 90 No IV.9 A5 Gar. 2x6 Wall 4 Wall Wood 1217 0.074 19 0 90 90 Yes IV.9 A5 Left 2x6 Wall 5 Wall Wood 820 0.074. 19 0 180 90 Yes IV.9 A5 Back 2x6 Wall 6 Wall Wood 1306 0.074 19 0 270 90 Yes IV.9 A5 Right 2x6 Wall 7 Roof Wood 4766 0.025 38 0 n/a 0 Yes IV.1 A18 Vented Attic 8 Door Other 24 0.500 0 0 0 90 No IV.5 A4 Garage Door PERIMETER LOSSES Appendix Length F2 Insul Solar IV Location/ Surface (ft) Factor R-val Gains Reference Comments 9 S1abEdge 435 0.730 R-0 No IV.26 Al To Outside 10 S1abEdge 31 0.730 R-0 No IV.26 Al To Garage FENESTRATION SURFACES Exterior Area U- Act Shade Orientation (sf) factor SHGC Azm Tilt Type Location/Comments 1 Wind Front (N) 8.0 0.450 0.400 0 90 Standard FGLASSI 2 Wind Front (N) 6.0 0.450 0.400 0 90 Standard FGLASS2 3 Door Front (N) 66.5 0.670 0.650 0 90 Standard FGLASS3 4 Wind Front (N) 8.0 0.450 0.400 0 90 Standard FGLASS4 5 Wind Front (N) 37.5 0.450 0.400 0 90 Standard FGLASS5 6 Wind Front (N) 9.0 0.450 0.400 0 90 Standard FGLASS6 7 Door Left (E) 40.0 0.450 0.400 90 90 Standard LGLASSI 8 Door Left (E) 40.0 0.450 0.400 90 90 Standard LGLASS2 9 Wind Left (E) 25.0 0.450 0.400 90 90 Standard LGLASS3 10 Wind Left (E) 10.0 0.450 0.400 90 90 Standard LGLASS4 11 Wind Left (E) 8.0 0.450 0.400 90 90 Standard LGLASS5 12 Wind Left (E) 8.0 0.450 0.400 90 90 Standard LGLASS6 13 Wind Left (E) 25.0 0.450 0.400 90 90 Standard LGLASS7 14 Wind Left (E) 8.0 0.450 0.400 90 90 Standard LGLASS8 CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 3 Project Title.......... Sun Vista Devlp. - Lot #5 Date..08/15/06 16:56:33 MICROPAS7 v7.20 File-SUNVST48 Wth-CTZ15S05 Program -FORM CF -1R User#-MP0357 User -Rick Maurer Title 24, Inc Run -Tradition - Lot #5 FENESTRATION SURFACES Exterior Area U- Act Shade Orientation (sf) factor SHGC Azm Tilt Type Location/Comments 15 Door Left (E) 64.0 0.450 0.400 90 90 Standard LGLASS9 16 Wind Left (E) 8.0 0.450 0.400 90 90 Standard LGLASS10 17 Door Left (E) 40.0 0.450 0.400 90 90 Standard LGLASS11 18 Wind Left (E) 8.0 0.450 0.400 90 90 Standard LGLASS12 19 Wind Left (E) 6.0 0.450 0.400 90 90 Standard LGLASS13 20 Door Back (S) 40.0 0.450 0.400 180 90 Standard BGLASSI 21 Wind Back (S) 8.0 0.450 0.400 180 90 Standard BGLASS2 22 Wind Back (S) 8.0 0.450 0.400 180 90 Standard BGLASS3 23 Wind Back (S) 20.0 0.450 0.400 180 90 Standard BGLASS4 24 Wind Back (S) 20.0 0.450 0.400 180 90 Standard BGLASS5 25 Door Back (S) 180.0 0.450 0.400 180 90 Standard BGLASS6 26 Wind Back (S) 8.0 0.450 0.400 180 90 Standard BGLASS7 27 Wind Back (S) 8.0 0.450 0.400 180 90 Standard BGLASS8 28 Wind Back (S) 20.0 0.450 0.400 180 90 Standard BGLASS9 29 Wind Back (S) 20.0 0.450 0.400 180 90 Standard BGLASS10 30 Wind Right (W) 24.0 0.450 0.400 270 90 Standard RGLASSI 31 Wind Right (W) 8.0 0.450 0.400 270 90 Standard RGLASS2 32 Door Right (W) 80.0 0.450 0.400 270 90 Standard RGLASS3 33 Wind Right (W) 20.0 0.450 0.400 270 90 Standard RGLASS4 34 Wind Right (W) 8.0 0.450 0.400 270 90 Standard RGLASS5 35 Wind Right (W) 25.0 0.450 0.400 270 90 Standard RGLASS6 36 Wind Right (W) 8.0 0.450 0.400 270 90 Standard RGLASS7 37 Door Right (W) 20.0 0.450 0.400 270 90 Standard RGLASS8 38 Wind Right (W) 8.0 0.450 0.400 270 90 Standard RGLASS9 OVERHANGS Window ^verhang Area Left Right Surface (sf) Width Height Depth Height Extension Extension 1 Window 8.0 n/a 4.0 1.5 4.5 n/a n/a 2 Window 6.0 n/a 3.0 1.5 7.5 n/a n/a 3 Door 66.5 n/a 9.5 6.5 1.0 n/a n/a 4 Window 8.0 n/a 4.0 2.0 2.0 n/a n/a 5 Window 37.5 n/a 5.0 1.5 1.0 n/a n/a 6 Window 9.0 n/a 1.5 1.5 0.5 n/a n/a 7 Door 40.0 n/a 8.0 18. 3.0 n/a n/a 8 Door 40.0 n/a 8.0 1.5 4.0 n/a n/a 9 Window 25.0 n/a 5.0 1.5 6.5 n/a n/a 10 Window 10.0 n/a 2.0 1.5 4.5 n/a n/a 11 Window 8.0 n/a 4.0 2.0 2.0 n/a n/a 12 Window 8.0 n/a 4.0 2.0 2.0 n/a n/a 13 Window 25.0 n/a 5.0 2.0 2.0 n/a n/a 14 Window 8.0 n/a 4.0 5.0 2.0 n/a n/a 15 Door 64.0 n/a 8.0 2.0 2.5 n/a n/a 16 Window 8.0 n/a 4.0 2.0 2.5 n/a n/a 17 Door 40.0 n/a 4.0 2.0 2.5 n/a n/a 18 Window 8.0 n/a 4.0 2.0 2.5 n/a n/a CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 4 Project Title.......... Sun Vista Devlp. - Lot #5 Date..08/15/06 16:56:33 MICROPAS7 v7.20 File-SUNVST48 Wth-CTZ15S05 Program -FORM CF -1R User#-MP0357 User -Rick Maurer Title 24, Inc Run -Tradition - Lot #5 OVERHANGS Window Overhang Area Left Right Surface (sf) Width Height Depth Height Extension Extension 19 Window 6.0 n/a 4.0 2.0 2.5 n/a n/a 20 Door 40.0 n/a 8.0 4.0 0.0 n/a n/a 21 Window 8.0 n/a 2.0 3.0 7.0 n/a n/a 22 Window 8.0 n/a 2.0 3.0 7.0 n/a n/a 23 Window 20.0 n/a 5.0 3.0 2.0 n/a n/a 24 Window 20.0 n/a 5.0 3.0 2.0 n/a n/a 25 Door 180.0 n/a. 10. 21. 3.0 n/a n/a 26 Window 8.0 n/a 2.0 3.0 7.0 n/a n/a 27 Window 8.0 n/a 2.0 3.0 7.0 n/a n/a 28 Window 20.0 n/a 5.0 3.0 2.0 n/a n/a 29 Window 20.0 n/a 5.0 3.0 2.0 n/a n/a 30 Window 24.0 n/a 4.0 2.0 2.0 n/a n/a 31 Window 8.0 n/a 4.0 5.0 1.5 n/a n/a 32 Door 80.0 n/a 8.0 1.5 8.0 n/a n/a 33 Window 20.0 n/a 2.0 1.5 6.0 n/a n/a 34 Window 8.0 n/a 4.0 2.0 5.0 n/a n/a 35 Window 25.0 n/a 5.0 2.0 2.0 n/a n/a 36 Window 8.0 n/a 4.0 2.0 2.0 n/a n/a 37 Door 20.0 n/a 8.0 2.0 3.0 n/a n/a 38 Window 8.0 n/a 4.0 9.0 1.0 n/a n/a SLAB SURFACES Area Slab Type (sf) Standard Slab 4766 HVAC SYSTEMS Verified Number Verified Verified Verified Verified Maximum System of Minimum Refrig Charge Adequate Fan Watt Cooling Type Systems Efficiency EER or TXV Airflow Draw Capacity Furnace 4 0.800 AFUE n/a n/a n/a n/a n/a ACSplit 4 13.00 SEER 11.0 Yes No No No HVAC SIZING Verified Total Sensible Design Maximum Heating Cooling Cooling Cooling System Load Load Capacity Capacity Type (Btu/hr) (Btu/hr) (Btu/hr) (Btu/hr) Furnace 92268 n/a n/a n/a CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 5 Project Title.......... Sun Vista Devlp. - Lot #5 Date..08/15/06 16:56:33 MICROPAS7 v7.20 File-SUNVST48 Wth-CTZ15S05 Program -FORM CF -1R User#-MP0357 User -Rick Maurer Title 24, Inc Run -Tradition - Lot #5 Sizing Location... ........ LA QUINTA Winter HVAC SIZING 26 F Winter Inside Design....... 70 F Summer Verified Total Sensible Design Maximum Heating Cooling Cooling Cooling System Load Load Capacity Capacity Type (Btu/hr) (Btu/hr) (Btu/hr) (Btu/hr) ACSplit n/a 81590 101253 n/a Sizing Location... ........ LA QUINTA Winter Outside Design...... 26 F Winter Inside Design....... 70 F Summer Outside Design...... 111 F Sumer Inside Design....... 75 F Sumer Range ............... 34 F System Duct Type Location Furnace Attic ACSplit Attic DUCT SYSTEMS Verified Verified Verified Duct Duct Surface Buried R -value Leakage Area Ducts R-6 Yes No No R-6 Yes No No WATER HEATING SYSTEMS Number Tank Heater in Energy Size Tank Type Type Distribution Type System Factor (gal) 1 Storage Gas Recirc/TimeTemp External Insulation R -value 2 .62 50 R- n/a SPECIAL FEATURES AND MODELING ASSUMPTIONS *** Items in this section should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** This building incorporates a HERS verified Refrigerant Charge test or a HERS verified Thermostatic Expansion Valve (TXV). If a cooling system is not installed, then HERS verification is not necessary. This building incorporates HERS verified EER. This building incorporates HERS verified Duct Leakage. This building incorporates a non-standard Water Heating System. CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 6 Project Title.......... Sun Vista Devlp. - Lot #5 Date..08/15/06 16:56:33 MICROPAS7 v7.20 File-SUNVST48 Wth-CTZ15S05 Program -FORM CF -1R User#-MP0357 User -Rick Maurer Title 24, Inc Run -Tradition - Lot #5 HERS REQUIRED VERIFICATION *** Items in this section require field testing and/or *** *** verification by a certified home energy rater under *** *** the supervision of a CEC-approved HERS provider using *** *** CEC approved testing and/or verification methods and *** *** must be reported on the CF -4R installation certificate. *** This building incorporates a HERS verified Refrigerant Charge test or a HERS verified Thermostatic Expansion Valve (TXV). If a cooling system is not installed, then HERS verification is not necessary. This building incorporates HERS verified EER. This building incorporates HERS verified Duct Leakage. Target leakage is calculated and documented on the CF -4R. If the measured CFM is above the target, then corrective action must be taken to reduce the duct leakage and then must be retested. Alternatively, the compliance calculations could be redone without duct testing. If ducts are not installed, then HERS verification is not necessary. REMARKS 1) All hot water recirculating lines will be insulated per Sec. 150(J) with a minimum of 1 inch insulation (Typ.R-4). This is in addition to the insulation required by the mandatory requirements. 2) The water heaters for this house can have a recirculating pump with a thermostatic controller and time clock or a hot water demand type recirculating system. 3) All windows and glass doors will have wood frames with optional metal cladding and with an NFRC U -factor of .45 or less and a SHGC of .40 or less with high performance Low -E glass except the entry door and surround glass which can have clear dual pane glass and default values. i CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 7 Project Title.......... Sun Vista Devlp. - Lot #5 Date..08/15/06 16:56:33 COMPLIANCE STATEMENT 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. DESIGNER or OWNER Name.... Company. Sun Vista Development Address. 51-370 Avenida Bermudas#6 La Quinta, CA 92253 1 Phone... (760) 771-4722 License. Signed.. ate ENFORCEMENT AGENCY Name.... Title. . Agency.. Phone... Signed.. date DOCUMENTATION AUTHOR Name.... Rick Maurer Company. Rick Maurer Title 24, Inc. Address. 7544 E Saddlehill Trail Orange, CA 92869 Phone... 714-771-1507 Signed.. %S oto (fiat*-) iil HVAC SIZING HVAC Page 1 Project Title.......... Sun Vista Devlp. - Lot #5 Date..08/15/06 16:56:33 ******* Project Address........ Tradition - Tract#28470-1 La Quinta, California *v7.20* Documentation Author... Rick Maurer ******* Building Permit Rick Maurer Title 24, Inc. 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field Check/ Date Climate Zone. ..... 15 Compliance Method...... MICROPAS7 v7.20 for 2005 Standards by Enercomp, Inc. MICROPAS7 v7.20 File-SUNVST48 Wth-CTZ15S05 Program -HVAC SIZING User#-MP0357 User -Rick Maurer Title 24, Inc Run -Tradition - Lot #5 GENERAL INFORMATION Floor Area ................. Volume.. ............ Front Orientation.......... Sizing Location............ Latitude... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range........ ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 4766 sf 57192 cf Front Facing LA QUINTA 33.8 degrees 26 F 70 F 111 F 75 F 34 F Yes Yes Yes 0.24 HEATING AND COOLING LOAD SUMMARY 0 deg (N) Heating Cooling (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 42345 19823 Glazing Conduction and Solar..... 19612 32756 Infiltration ..................... 17945 10376 Internal Gain .................... n/a 4820 Ducts ............................ 12365 13815 Sensible Load .................... 92268 81590 Latent Load ...................... n/a 19663 Minimum Total Load 92268 101253 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. MICROPAS7 Chapter 2: INPUT REFERENCE Table 2-3. Standard U factors of Wood Frame Raised Floors Floor Table 2-2. Standard U factors of Wood Frame Roofs/Ceilings and Walls, Framing Reference Appendix IV Insulation Spacing Name U -Factor Table Cell Reference Roof/Ceiling Appendix IV Insulation Condition Name U -factor Table R-19 16" o.c. R_I9.2X8.16 0.049 IV.1 A4 A3 R- 19 24" o.c. R. 19.2X4.24 0.048 IV. I A 14 R-19 R-30 16" o.c. R.30.2X 10.16 0.032 IV. I A7 Crawlspace R-30 24" o.c. R.30.2X4.24 0.032 IV.I A17 FX.30.2X 10.16 R-38 16" o.c. R.38.2X12.16 0.026 IV.I A8 l� R-38 24" o.c. R.38.2X4.24 0.025 C IV.1 A18 R-49 16" o.c. R.49.2X4.16 0.020 Ml A9 R-49 24" o.c. R.49.2X4.24 0.020 IV. I A 19 Wall Insulation R-13 16" o.c. W. 13.2 X4.16 0.102 IV.9 A3 R-13 16" o.c. W.13.2X4.16.R4 0.068 IV.9 C3 R-15 16" o.c. W.I5.2X4.16 0.095 IV.9 A4 R-15 16" o.c. W.15.2X4.16.R4 0.064 IV.9 C4 R-19 16" o.c. W.19.2X6.16 0.074 IV.9 A5 R-19 16" o.c. W.19.2X6.16.R4 0.055 IV.9 C5 R-19 24" o.c. W. 19.2X6.24 0.071 IV.9 A23 R-19 24" o.c. W.19.2X6.24.R4 0.053 IV.9 C23 R-21 16" o.c. W.21.2X6.16 0.069 IV.9 A6 R-21 16" o.c. W.21.2X6.16.R4 0.051 IV.9 C6 R-21 24" o.c. W.21.2X6.24 0.066 IV.9 A24 R-21 24" o.c. W.21.2X6.24.R4 0.049 IV.9 C24 Solidcore wood DOOR 0.50 IV.28 A4 �,..•1 Slab Edge no insulation EDGE.EXT 0.73 IV.26 Al Slab Edge R7 insulation EDGE..EXT.R7 0.56 IV.26 C7 Table 2-3. Standard U factors of Wood Frame Raised Floors Floor Reference Appendix IV Insulation Condition Name U -factor Table Cell R-13 No crawlspace FX. 13.2X6.16 0.064 IV.21 A3 R-13 Crawlspace FC. 13.2X6.16 0.046 IV.20 A3 R-19 No crawlspace FX. 19.2X8.16 0.048 IV.21 A4 R-19 Crawlspace FC. 19.2X8.16 0.037 IV.20 A4 R-30 No crawlspace FX.30.2X 10.16 0.034 IV21 A7 R-30 Crawlspace FC.30.2XI0.16 0.028 IV.20 A7 © 2005 by Enercomp, Inc. 03/30!2005 COMPLIANCE Z -3 3 2-34 MICROPAS7 Chapter 2: INPUT REFERENCE Table 2-4. Default Fenestration Product U -Factors (this table to be used by manufacturer's to establish a U factor rating without performance testing) Single Pane Double Pane Frame Type t Product Type U -factor U-factor2 (Metal Operable 1.28 0.79 Metal Fixed 1.19 0.71 Metal Greenhouse/Garden window 2.26 1.40 Metal Doors 1.25 0.77 Metal Skylight 1.98 1.3 Metal, Thermal Break Operable 0.66 Metal, Thermal Break Fixed 0.55 Metal, Thermal Break Greenhouse/Garden window 1.12 Metal, Thermal Break Doors 0.59 Metal, Thermal Break Skylight 1.11 Non -Metal Operable 0.99 0.58 Non -Metal Fixed 1.04 0.55 Non -Metal Doors 0.99 0.53 Non -Metal Greenhouse/Garden windows 1.94 1.06 Non -Metal Skylight 1.47 0.84 1. Metal includes any field -fabricated product with metal cladding. Non-metal framed manufactured fenestration products with metal cladding 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 Btu-inch/hr/ft2rF, 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. Thermal break values shall not apply to field -fabricated fenestration products. The values for non-metal can be used for unframed windows. 2. Glass block may use the values for double pane windows of the same frame type used with the glass block. For all dual glazed fenestration products, adjust the listed U -factors as follows: a. Subtract 0.05 for spacers of 7/16" or wider. b. Subtract 0.05 for products certified by the manufacturer as low -E glazing. , c_ Add 0.05 for products with dividers between panes if spacer is less than 7/16" 0 wide. d. Add 0.05 to any product with true divided lite (dividers through the panes). 3) All windows and glass doors will have wood frames with optional metal cladding and with an NFRC U -factor of .45 or less and a SHGC of .40 or less with high performance Low -E glass except the entry door and surround glass which can have clear dual pane glass and default values. ,)MICROPAS7 NOTE - Labeling: As of January 1, 1993, all fenestration products used for new, retrofit or remodel construction, must display a label stating the window line's performance. Beginning in July 1999, the only exception to labeling is for field fabricated fenestration products. These are products constructed at the building site from materials not cut or formed with the intention of making a fenestration product. All other products must be labeled with a CEC Default or NFRC-rated U factor and solar heat gain coefficient (see Table 2-4 and Table 2-5). Table 2-5. Default Solar Heat Gain Coefficient Total Window SHGC Single Double Frame Type Product' Glazing Pane Pane -------------------------- 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 Metal, Thermal Break Operable Clear 0.63 Metal, Thermal Break Fixed Clear 0.69 Metal, Thermal Break Operable Tinted 0.53 Metal, Thermal Break Fixed Tinted 0.57 Non -Metal Operable Clear 0.74 0.65 Non -Metal Fixed Clear 0.76 0.67 Non -Metal Operable Tinted 0.60 0.53 Non -Metal Fixed Tinted 0.63 0.55 SHGC = Solar Heat Gain Coefficient 1. The values for non-metal can be used for unframed windows. Glass Block may use the values for double pane windows of the same frame type used with the glass block. Q �' NOTE — Low -e Glass Default SHGC: If you do not have an NFRC value for the SHGC, use the clear values from Table 2-5. Low -e glass is not a tinted product. Glazing Area The area for glazing or fenestration products is calculated from the nominal (e.g., 5030) or rough opening dimensions_ Doors: Any door having glass must be entered in MICROPAS as glazing area. For any door with an NFRC rating (doors with more than 50 percent of their surface area made up of glass), the entire area of the door must be entered in MICROPAS as glazing area, since the product rating is for the entire door. For doors with 50 percent or less of their surface area made up of glass enter either the entire door area as glazing or the actual area of glass plus a two inch frame extending on all sides (the remaining door area is modeled as an OPAQUE SURFACE. The U -factor and solar heat gain coefficient of the door is taken from Table 2-4 and Table 2-5 or manufacturer data. Greenhouse (garden) Windows: Greenhouse window glazing area is calculated using the rough opening for the unit (see Figure 2-23). The typically higher U -factor of greenhouse windows accounts for additional heat loss from the projecting top, sides and bottom of the unit. 3) All windows and glass doors will have wood frames with optional metal cladding and with an NFRC U -factor of .45 or less and a SHGC of .40 or less with high performance Low -E glass except the entry door and surround glass which can have clear dual pane glass and default values. tMICROPAS7 The INTERIOR/EXTERIOR SHADE NAME refers to the user -defined name for the combination of shading devices. Table 2-6 lists interior shading devices and the associated solar heat gain coefficients. Table 2-7 lists exterior shading devices. No devices other than those listed can be modeled for compliance credit.. G`' NOTE — Interior and Exterior Shading Types Solar Heat Gain Coefficients: By choosing either 'Standard' or None' as the shading device type, the CEC standard assumption for interior and exterior shading is modeled by MICROPAS (drapes and bug screens on glazing other than skylights, and no interior or exterior shading on skylights). Table 2-6. Solar Heat Gain Coefficients for Interior Shading Devices Standard: 1 Drapery ( 0.681 None (for Skylights only) I 1.00 1. 0.68 is the default value used when there is no interior shading device installed on vertical fenestration products. Table 2-7. Solar Heat Gain Coefficients for Exterior Shading Devices 1. Exterior operable awnings (canvas, plastic or metal) except those that roll vertically down and cover the entire window, should be treated as overhangs. 2. Standard bug screens are assumed for all vertical glazing unless replaced by other exterior shade screens. The SHGC for bug screens is an area -weighted value that assumes that the screens are only on operable windows. The SHGC of exterior shade screens that are applied to some of the window areas is area -weighted with the SHGC o bug screens for the remainder of the glazing. 3. Reference glass for SHGCs is 1/8 inch double strength sheet (DSS) glass. Values from the Residential Manual. Form S It i� not necessary to fill out Form S when using MICROPAS. When the solar heat gain coefficient values and fenestration type are entered into the MICROPAS program, MICROPAS internally computes the solar heat gain coefficient that would otherwise be calculated using Form S. Enter the solar heat gain coefficient for the fenestration product and shading devices shown in Table 2-5, Table 2-6 and Table 2-7. 2-4000MPLIANCE 03/30/2005 © 2005 by Enercomp, Inc i w/ Single Pane Shading Dev1ce2 Clear Glass3 ----------------------------------------------------------------- ------------- Standard (Bug Screens) 0.76 Woven Exterior Shadescreens (53x16/inch weave) 0.30 Louvered Shadescreens w/louvers as wide as openings 0.27 Low Sun Angle (LSA) Louvered Shadescreens 0.13 Roll down (awnings, blinds, or slats) 0.13 None (for skylights only) 1.00 None (for vertical glazing surfaces) 0.76 Substantially Shaded/Building Shade 0.20 1. Exterior operable awnings (canvas, plastic or metal) except those that roll vertically down and cover the entire window, should be treated as overhangs. 2. Standard bug screens are assumed for all vertical glazing unless replaced by other exterior shade screens. The SHGC for bug screens is an area -weighted value that assumes that the screens are only on operable windows. The SHGC of exterior shade screens that are applied to some of the window areas is area -weighted with the SHGC o bug screens for the remainder of the glazing. 3. Reference glass for SHGCs is 1/8 inch double strength sheet (DSS) glass. Values from the Residential Manual. Form S It i� not necessary to fill out Form S when using MICROPAS. When the solar heat gain coefficient values and fenestration type are entered into the MICROPAS program, MICROPAS internally computes the solar heat gain coefficient that would otherwise be calculated using Form S. Enter the solar heat gain coefficient for the fenestration product and shading devices shown in Table 2-5, Table 2-6 and Table 2-7. 2-4000MPLIANCE 03/30/2005 © 2005 by Enercomp, Inc i F'A- G E . ..... ......... W. - rp--_.:.._.� II GLAZING AREAII n,obi::�- s -y S =y0 (te) F-0 0W"WL5k8-V0r�� o nom/'` b\A/ll r 0 `^ "_A- nn . ✓3,4, S X S s t S s^/ Dom• fix? 9 �41� )5 S,y 8= V D f� I Del V. L 2-1/ 4 = S, �Ves-r- 2--r- 3 - t - v @,;r. s � - � o ``i P�d "'o V-- 4'f` I rr-, \-I ? co 6 513I,F,-, 4933 +333= �- %1F79 o Zo X -L- _ b\A/ll r S KYLIQ4TS 0 urTi"nom I --AV = zy 13 ) m.6A. L. -Y3 = k, � vip.5T. vPjT. 1`°"X S = 3-),5(}) rzjpv. �()Q5T- cDxI b = 9 F,rc-�- GARACaE z- >rV-�- TOTAL G>_AMI NCS = Cl 5- �. 1 X %1F79 � � N Zo X -L- _ �4 �. o A S s^/ . Z b ,>I 8 : ?.O m.6A. L. -Y3 = k, � vip.5T. vPjT. 1`°"X S = 3-),5(}) rzjpv. �()Q5T- cDxI b = 9 F,rc-�- GARACaE z- >rV-�- TOTAL G>_AMI NCS = Cl 5- �. 1 X I EQUIP ENT (.oiz F-CP.uAt-) sow V).STA VF-vp. RHESM WATE9 HF-Al'ErZS 712-.&Vrnoo".. L-07 S Co. HEATIt'le, 4 -AIC, L-.&. p Q I QTA- I C. & , -------- -- krrw4sw W"V- M, I -t Shim SvITF -UPFLO.W..Cj,&-s.FAV -- &- - - -- % �nia n FAU. 55-SmAIDUL. el v F: ST ,s,v ITE .A-FUE. 50,1510 ... 'BOO/O PTU 1►,APUT SlE510-00 6.51,000 H%003 eTu OUTPUT 5 5-1 oo.o.... -1., loov.- -.71 -1-1 V-0 0 35,000 1720 645 Coll- 5va �Vf-5 5VIe H—aiz vz. Loot.% LoiL-�F-F-WA -'54PF-r,,-,1D 5PECI'0, 15PPECIV. TXV iMP-O.J. 29940....", i2eigo. REV60, GONVEWS,l NA UNIT `.14AC43t®O 21itan345- sEE��EE���,��a)13.o J».. 0 13.o J It.013.o J �t. 0 13.0 J�l.o- ow, a cl 5,> - 5-1) 000 Likes - 3LA1000 Z311000 -.5ew5. & 115 0 L4 71,0310-33, 2%. 0 7, S, 3) a 3 017.._ WATF-P. qs,&mrZ... CTW O) a O aTu" 1w9u-r LAID, -E 'ER FACTDQ .-L-- .. . ....... ItYl HVAC, DUCT TEST 00. "VA- C-DUCT.ANSNA, W14 -HT Se-T-WNc W-,- THM12 MoSi-TA-r-tv- Avas-9--apul-m-ED. *-VE12IFY SOUND ORDlKlA,.NCE REQ. (IF &V4y) PjZjO[Z.TO-- AX SET. 58STA/STX 4 -Way. Multipoise Induced -Combustion- .- ..-:C arr er. Gas Furnace Input Capacities: 45,000 thru 155,000 Btuh Product Data Curr A04039 THE CARRIER 58STA/STX GASFURNACE The 58STA/STX 4 -way Multipoise Gas Furnaces feature Carriers QuieTechTM noise reduction system for incredibly quiet induced draft operation. Applications are easy with 4 -way multipoise design, through - the -furnace downflow venting, 13 dif- ferent venting options, and a door designed for easy service access. An inner blower door is provided for tighter sealing in sensitive applica- tions. The 58STA/STX furnaces are approved for use with natural or pro- pane gas, and the 58STX is approved for use in Low NOx Air Management Districts. STANDARD FEATURES — QuieTechTM system noise reduc- tion system — Microprocessor based control center LED diagnostics and self test feature Adjustable heating air temperature rise Adjustable cooling airflow — 4 -way Multipoise furnace, 13 vent applications — Compact design — only 33-1/3 in. tall — Power HeatTM Igniter — Draft safeguard switch to ensure proper furnace venting — Inner door for tighter sealing — Hybrid HeatTM compatible — All models are chimney friendly when used with accessory vent kit — Twinning in Upflow, Downflow and Horizontal — Residential installations eligible for consumer financing through the Retail Credit Program LIMITED WARRANTY — 20 -year warranty on "Super STM" heatexchanger — 5 -year parts warranty on all other components D Curr A04039 THE CARRIER 58STA/STX GASFURNACE The 58STA/STX 4 -way Multipoise Gas Furnaces feature Carriers QuieTechTM noise reduction system for incredibly quiet induced draft operation. Applications are easy with 4 -way multipoise design, through - the -furnace downflow venting, 13 dif- ferent venting options, and a door designed for easy service access. An inner blower door is provided for tighter sealing in sensitive applica- tions. The 58STA/STX furnaces are approved for use with natural or pro- pane gas, and the 58STX is approved for use in Low NOx Air Management Districts. STANDARD FEATURES — QuieTechTM system noise reduc- tion system — Microprocessor based control center LED diagnostics and self test feature Adjustable heating air temperature rise Adjustable cooling airflow — 4 -way Multipoise furnace, 13 vent applications — Compact design — only 33-1/3 in. tall — Power HeatTM Igniter — Draft safeguard switch to ensure proper furnace venting — Inner door for tighter sealing — Hybrid HeatTM compatible — All models are chimney friendly when used with accessory vent kit — Twinning in Upflow, Downflow and Horizontal — Residential installations eligible for consumer financing through the Retail Credit Program LIMITED WARRANTY — 20 -year warranty on "Super STM" heatexchanger — 5 -year parts warranty on all other components Physical data UNIT SIZE 045 08,.' : 12.- ... .08 O.ZO 12' _. .16- .. - .:090: 14. .' :W 16 OUTPUT CAPACITY BTUH' (Nonweatherized ICS) t 58STX Upflow; all 58STA 35,000 36,000 53,000 54,000 53,000 71,000 71,000 58STX Downflow/Horizontal 34,000 34,000 51,000 51,000 51,000 68,000 68,000 INPUT BTUH' 58STX Upfiow; all 58STA 44,000 44,000 66,000 66,000 66,000 88,000 88,000 58STX Downflow/Horizontal 42,000 42,000 63,000 63,000 63,000 84,000 84,000 AFUE%' Nonweatherized ICS 80.0 80.0 80.0 80.0 80.0 80.0 80.0 SHIPPING WEIGHT (LBS.) 104 107 111 115 126 127 140 CERTIFIED TEMP RISE RANGE (°F) 30-60 20-50 40-70 30-60 25-55 40-70 30-60 CERTIFIED EXT STATIC PRESSURE Heating Cooling 0.10 0.50 0.10 0.50 0.12 0.50 0.12 0.50 0.12 0.50 0.15 0.50 0.15 0.50 AIRFLOW CFM# Heating Cooling 920 845 1 1250 1 1160 1 720 1 900 1 1195 1200 1450 1530 1375 1385 1505 1720 LIMIT CONTROL SPST HEATING BLOWER CONTROL Solid -State Time Operation BURNERS(Monoport) 2 1 2 1 3 1 3 1 3 1 4 1 4 GAS CONNECTION SIZE 1/2 -in. NPT GAS VALVE (Redundant) Manufacturer White -Rodgers Minimum inlet Pressure (In. wc) 4.5 (Natural Gas) Maximum Inlet Pressure (In. wc) 13.6 (Natural Gas) IGNITION DEVICE Hot Surface Gas input ratings are certified for elevations to 2000 ft. For elevations above 2000 ft, reduce ratings 4 percent for each 1000 ft above sea level. Refer to National Fuel Gas code Table F4 or furnace Installation Instructions. In Canada, derate the unit 10 percent for elevations 2000 to 4500 ft above sea level. t Capacity in accordance with U.S. Government DOE test procedures. t Airflow shown is for bottom only return -air supply. For air delivery above 1800 CFM, see Air Delivery Table for other options. A filter is required for each return -air supply. An airflow reduction of up to 7 percent may occur when using a Carrier 4-5/16 in. high efficiency media filter. ICS - Isolated Combustion System Blower performance data UNIT SIZE - 045 08 12 08 070 12 16 14 090 r 16 DIRECT -DRIVE MOTOR Hp (PSC) 1/5 1/3 1/5 1/3 1/2 1/3 1/2 MOTOR FULL LOAD AMPS 2.9 5.2 2.9 5.2 7.9 5.2 7.9 RPM (Nominal) - Speeds 1075-3 1075-3 1075-3 1075.3 1075-3 1075-3 1075-3 BLOWER WHEEL DIAMETER x WIDTHS (IN.) 10 x 6 10 x 6 10 x 6 10 x 6 11 x 8 10 x 8 lox 10 6 Physical data UNIT SIZE 090 20, 12 110 " .16 22 135: 16. ::..: ,.,22 .. 155 `20 OUTPUT CAPACITY BTUH' (Nonweatherized ICS) t ATX Uptlow; all 58STA 71,000 89,000 89,000 89,000 107,000 107,000 125,000 58STX Downflow/Horizontal 68,000 85,000 85,000 85,000 102,000 102,000 119,000 INPUT BTUH' 58STX Upflow; all 58STA 88,000 110,000 110,000 110,000 132,000 132,000 154,000 58STX Downflow/Horizontal 84,000 105,000 105,000 105,000 126,000 126,000 147,000 AFUE%' Nonweatherized ICS 80.0 80.0 80.0 80.0 80.0 80.0 60.0 SHIPPING WEIGHT (LBS,) 146 135 146 152 149 163 170 CERTIFIED TEMP RISE RANGE ('F) 25-55 50-80 40-70 30-60 50-80 40-70 45-75 CERTIFIED EXT STATIC Heating PRESSURE Cooling 0.15 0.50 0.20 0.50 0.20 0.50 0.20 0.80 0.20 0.50 0.20 0.50 0.20 0.50 AIRFLOW CFM$ Heating Cooling 1990 2025 1335 1355 1515 1680 1900 2220 1 1525 1710 1850 2110 1790 2230 LIMIT CONTROL SPST HEATING BLOWER CONTROL Solid -State Time Operation BURNERS (Monoport) 4 1 5 5 5 1 6 6 7 GAS CONNECTION SIZE 1/2 -in. NPT GAS VALVE (Redundant) Manufacturer White -Rodgers Minimum Inlet Pressure (In. wc) 4.5 (Natural Gas) Maximum Inlet Pressure (In. wc) 13.6 (Natural Gas) IGNITION DEVICE Hot Surface Gas input ratings are certified for elevations to 2000 ft. For elevations above 2000 ft, reduce ratings 4 percent for each 1000 ft above sea level. Refer to National Fuel Gas code Table F4 or furnace Installation Instructions. In Canada, derale the unit 10 percent for elevations 2000 to 4500 ft above sea level t Capacity in accordance with U.S- Government DOE test procedures. t Airflow shown is for bottom only retum-air supply. For air delivery above 1800 CFM, see Air Delivery Table for other options. A filter is required for each return -air supply. An airflow reduction of up to 7 percent may occur when using a Carrier 4-5/16 in. high efficiency media filter. ICS - Isolated Combustion System Blower performance data PSC -Permanent Split Capacitor 090 110 135: 155 UNIT SIZE 20 12 16 22 16 22 20 DIRECT -DRIVE MOTOR Hp (PSC) 314 1/3 1/2 3/4 1/2 3/4 3/4 MOTOR FULL LOAD AMPS 11.1 5.2 7.9 11-1 7.9 11.1 11.1 RPM (Nominal) - Speeds 1075-3 1075-3 1075-3 1075-3 1075-3 1075-3 1075-3 BLOWER WHEEL DIAMETER x WIDTHS (IN.) l l x l l 10 x 8 10 x 10 11 x 11 lox 10 11 x 11 11 x 11 PSC -Permanent Split Capacitor AIR DELIVERY—CFM (With Filter)' A filter is required for each retum-air supply. Airflow performance includes 1 in. washable filter media such as contained in factory -authorized accessory fitter rack. To determine airflow, performance without this fitter, assume an additional .1 available extemal static pressure. Indicates unstable operating conditions. 10 EXTERNAL STATIC PRESSURE (In. wc) RETURN -AIR 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 UNIT SIZE SUPPLY SPEED Bottom High 1085 1035 975 915 845 675 565 390 195 045 08 or Med-High 920 875 830 770 710 640 555 440 250 — Side(s) Med-Low 820 775 730 680 620 555 470 360 190 — Bottom High 1450 1375 1305 1225 1145 1050 955 845 705 510 045-12 or Med-High 1360 1300 1240 1175 1115 1040 950 850 725 575 Side(s) Med-Low 1250 1210 1160 1100 1040 965 885 790 670 520 Bottom High 1030 1010 980 945 900 845 775 680 490 335 070-08 or Med-High 835 815 790 760 720 675 610 490 375 265 Side(s) Med-Low 725 700 675 645 600 555 475 390 300 — Bottom High 1425 1375 1320 1265 1200 1125 1035 940 830 655 070-12 or Med-High 1320 1280 1240 1205 1140 1075 995 905 790 620 Side(s) Med-Low 1200 1175 1145 1105 1050 990 920 840 725 555 Bottom High 1805 1740 1670 1600 1530 1445 1360 1280 1180 1075 070-16 or Med-High 1630 1585 1530 1470 1405 1 1255 1170 1080 990 Side(s) Med-Low 1460 1420 1385 1325 1280 1155 1080 995 910 Bottom High 1650 1600 1535 1465 1385 1285 1175 1055 895 645 90 14 or Med-High 1515 1485 1440 1380 1300 122 1115 990 830 600 Side(s) Med-Low 1385 1360 1 1320 1260 1195 IR01610 1025 915 710 565 Bottom High 2060 1985 1915 1820 1720 1490 1340 1135 925 090 16 or Med-High 1790 1765 1715 1645 1560 1470 1345 1195 1010 820 Side(s) Med-Low 1505 1505 1480 1440 1375 1300 1190 1045 890 740 High 2405 2310 2220 2130 2025 1920 1790 1660 1530 1350 Bottom Med-High 2225 2155 2080 1995 1895 1785 1675 1565 1420 1260 Only Med-Low 2020 1955 1880 1805 1730 1630 1535 1420 1275 1135 High 2530 2450 2365 2270 2165 2065 1940 1805 1670 1505 090-20 Both Sides or Med-High 2285 2215 2150 2075 1985 1890 1780 1660 1525 1360 1 Side &Bottom Med-Low 1995 1945 1900 1840 1770 1685 1600 1480 1350 1180 High 2475 2395 2300 2200 2090 1985 1865 1730 1585 1425 1 Side Only Med-High 2260 2190 2110 2035 1940 1845 1735 1620 1475 1325 Med-Low 1950 1910 1855 1795 1730 1650 1555 1445 1310 1150 Bottom High 1625 1575 1515 1445 1355 1260 1165 990 785 — 110-12 or Med-High 1510 1470 1415 1355 1285 1185 1070 890 725 — Side(s) Med-Low 1360 1335 1295 1250 1180 1100 985 810 — — Bottom High 2035 1965 1880 1790 1680 1495 1365 1215 1075 875 110-16 or Med-High 1745 1710 1650 1560 1450 134QOt 1205 1090 955 750 1 Side Med-Low 1530 1515 1470 1400 1370 1095 990 830 670 High 2530 2470 2400 2320 2220 115 2000 1865 1730 1590 Bottom Med-High 2230 2205 2165 2110 2035 1950 1855 1740 1615 1485 Only -Low 1920 1900 1880 1845 1795 1730 1650 1555 1460 1340 110 110-22 Both Sides or 1 Side & Bottom High Med-High — 2235 — 2200 2415 2155 2350 2100 2250 2040 2145 1955 2015 1850 1875 1740 1715 1595 1560 1470 High 2540 2495 2430 2355 2265 2175 2065 1935 1785 1650 1 Side Only Med-High 2125 2120 2105 2060 2010 1940 1840 1730 1615 1485 Med-Low 1790 1795 1790 1765 1720 1650 1585 1500 1390 1280 Bottom High 2090 2010 1930 1835 1710 1590 1470 1335 1025 835 135-16 or Med-High 1790 1755 1705 1640 1550 1465 1360 1210 945 785 1 Side Med-Low 1545 1525 1500 1450 1380 1315 1215 1005 855 670 High 2485 2400 2310 2215 2110 2000 1880 1725 1535 1355 Bottom Med-High 2195 2150 2090 2000 1920 1825 1720 1565 1405 1255 Only Med-Low 1880 1850 1820 1780 1715 1635 1540 1415 1290 1160 Both Sides or High — — 2385 2305 2195 2085 1960 1825 1670 1465 135-22 1 Side & Bottom Med-High 2180 2145 2060 2010 1945 1865 1765 1660 1515 1325 High — — 2245 2155 2055 1940 1825 1695 1555 1385 1 Side Only Med-High 2135 2085 2035 1975 1895 1795 1685 1565 1445 1265 Med-Low 1880 1850 1820 1780 1715 1635 1540 1415 1290 1160 High 2465 2430 2375 2305 2230 2110 2000 1865 1725 1545 Bottom Med-High 2115 2105 2075 2030 1980 1910 1830 1725 1590 1425 Only Med-Low 1800 1790 1770 1735 1695 1640 1570 1465 1345 1225 155-20 Both Sides or High — — 2375 2285 2200 2105 1995 1870 1730 1570 1 Side & Bottom Med9 igh 2155 2135 2095 2040 1975 1895 1790 1685 1550 1400 High — — 2260 2180 2085 1975 1865 1740 1605 1455 1 Side Only Med9 igh 2140 2095 2040 1975 1890 1810 1705 1595 1480 1325 Med-Low 1800 1790 1770 1735 1695 1640 1570 1465 1345 1225 A filter is required for each retum-air supply. Airflow performance includes 1 in. washable filter media such as contained in factory -authorized accessory fitter rack. To determine airflow, performance without this fitter, assume an additional .1 available extemal static pressure. Indicates unstable operating conditions. 10 1� 1 Dimensions 216/g7. IvfNt�tpMECTM) 25.11' 27.9116' JUNCTION 80X LOCATION 718- DIAL 1(P DDA THERMOSTAT WIRE ENTRY 115116' LEFT HAND GAS ENTRY 715!16- p. ......... .. _.. 71-718' 718' DIA. ACCESSORY It'. .. e Ifi 11116• 6,p• OMINLET 7 1-11(16' BOTTOM 7e• (CASING) F_ 1(18 L 22.1116- __J L 11.1H. SIDE INLET A03060 58STA/STX UNIT SIZE 045-08 1.9(16' 7.9116' AIRFLOW t9' 13116' a1](16. OUTLET 67(16' 14-3/16 DIA, 11!16' 9-5/16 4 RIGHT HAND 14-3/16 12-9/16 12-11/16 GAS ENTRY 4 070-12 14-3/16 112' Du, THERMOSTAT 12.11/16 1-7(16' 4 WIRE ENTRY 17-1/2 ALTERNATE 16-1/8 .. .. .. .. _. . 4 090-14 JUNCTION BOX 15-7/8 16-1/8 LOCATION (TYP) 4 090-16 21 VENT OUTLET 19-1/2 13-5/16 4 5 PLACES (TYP) 21 19-3/8 fy,71 131<' 4 718' DIA. ACCESSORY 17-1/2 15.7/8 16-1/8 11-9/16 4 1(18 L 22.1116- __J L 11.1H. SIDE INLET A03060 58STA/STX UNIT SIZE 045-08 A CABINET WIDTH (IN.) 14-3116 D SUPPLY WIDTH ON.) 12-9/16 E _ BOTTOM RETURN WIDTH (IN.) 12-11/16 F TOP VENT OUTLET (IN.) 9-5/16 VENT . CONNECTION SIZE . (see note.! & 2), 4 045-12 14-3/16 12-9/16 12-11/16 9-5/16 4 070-08 14-3/16 12-9/16 12-11/16 9-5/16 4 070-12 14-3/16 12-9/16 12.11/16 9-5/16 4 070-16 17-1/2 15-7/8 16-1/8 11-9/16 4 090-14 17-1/2 15-7/8 16-1/8 11-9/16 4 090-16 21 19-3/8 19-1/2 13-5/16 4 090-20 21 19-3/8 19-1/2 13-5/16 4 110-12 17-1/2 15.7/8 16-1/8 11-9/16 4 110.16 21 19-3/8 19-1/2 13.51/6 4 110-22 21 19-3/8 19-1/2 13-5/16 4 135-16 21 19-3/8 19-1/2 13-5/16 4 (note 1) 135.22 1 24-1/2 22-7/8 23 1 5-1/16 4 (note 1) 155-20 1 24-1/2 22-7/8 23 1 15-1/16 4 (note 1) Notes: 1)135 and 155 size furnaces require 5 -in. vents. Use a 4-5 in. vent adapter between furnace and vent stack. 2)See Installation Instructions for complete installation requirements. It 24ABR3 Base ..Series 13 Air Conditioner Carrier. Sizes 18 to 60 :.. .1-1/2 to 5 Nominal Tons ' Product Data A05341 INDUSTRY LEADING FEATURES / BENEFITS Efficiency • 13 SEER/11 EER (Nominal) • Microtube Technology'" refrigeration system • Indoor air quality accessories available Sound • Sound level as low as 76 dBA • As low as 73 dBA with optional accessory sound hoodfor Comfort • System supports Thermidistat— or standard thermostat controls Reliability • Front -seating service valves • Scroll compressor • Internal pressure relief valve • Internal thermal overload • Filter drier • Balanced refrigeration system for maximum reliability Durability WeatherArmor- protection package: • Solid, Durable sheet metal construction • Wire coil guard • Baked -on, complete coverage, powder paint Applications • Long -line - up to 250 feet total equivalent length, up to 200 feet condenser above evaporator, or up to 80 fL evaporator above condenser (See Longline Guide for more information.) • Low ambient (down to -20°F) with accessory kit Warranty Single Phase • 5 year limited compressor warranty • 5 year limited parts warranty Three Phase • 5 year limited compressor warranty • 1 year limited parts warranty COMBINATION RATINGS Unit Size -Indoor Voltage' Series Total Cap. Factory SEER Furnace Model BTUH Supplied Standard TDRt EER Model Enhancement Rating I • *CAR**1814A** 17,300 TXV I 13.00 11.00 CAR**1814A** 17,000 TDR&TXV 14.00 11.50 58CV(AX)070-12 CAR**2414A** 17,700 TXV 13.00 11.00 CAR**2414A** 17,400 TDR&TXV 14.00 11.50 58CV(AX)070-12 CAR -'2417A" 17,700 TXV 13.00 11.00 CAR**2417A** I , 7,400 TDR&TXV 14,00 11,50 58MVB060-14 CAR**2417A** 17,400 TDR&TXV 14.00 11.50 58CV(AX)090-16 CNRV*1814A** 17,300 TXV 13.00 11.00 CNRV*1814A** 17,000 TDR&TXV 14.00 11.50 58CV(AX)070-12_ CNRV*2414A** 17,700 TXV 13.00 11.00 CNRV*2414A** 17,400 TDR&TXV 14.00 11.50 58CV(A,X)070-12 Yt04,'- CNRV*2417A** 17,700 TXV 13.00 11.00 CNRV-2417A-- 17,400 TDR&TXV 14.00 11.50 58MVBD60-14 CNRV*2417A" 17,400 TDR&TXV 14.00 11.50 58CV(A,X)090-16 CNRH*2417A** 17,700 TXV 13.00 11.00 CNRH*2417A** 17,400 TDR&TXV 14.00 11.50 58MVB040-14 18-30 --- CNRH*2417A** 17,400 TDR&TXV 14.00 11.50 58MVB060-14 CNRH*2417A** 17,400 TDR&TXV 14.00 11.50 58MVB080-14 CNRH*2417A** 17,400 TDR&TXV 14.00 11.50 58CV(AX)070-12 CNRH*2417A** 17,400 TDR&TXV 14.00 11.50 58 CV(AA09 0- 1 6 "I CNRF-2418A" 17,700 TXV 1300 11.00 CSRH*2412A** 17,700 TXV 13.00 11.00 CSRH*2412A** 17,400 TDR&TXV 14.00 11.50 58MVB040-14 CSRH*2412A** 17.400 TDR&TXV 14.00 11.50 58MVB060-14 CSRH*2412A** 17,400 TDR&TXV 14.00 11.50 58MVB080-14 CSRH*2412A** 17,400 TDR&TXV 14.00 11.50 58CV(A)Q070-12 CSRH*2412A** 17,400 TDR&TXV 14.00 11.50 58CV(AA090-16 FA4CN(F,C)018 17,400 TDR&TXV 13.00 11.00 FA4CN(F,C)024 17,400 TDR&TXV 13.00 11.00 FC4DNF018 17,700 TDR&TXV 14.00 11.50 FC4DNF024' 17,800 TDR&TXV 14.00 11.50 FRENE018 17,400 TDR&TXV 13.20 11.00 FFiENE024 17,600 TDR&TXV 13.20 11,00 FK4DNF001 17,500 TDR&TXV 14.00 11.50 FK4DNF002 17,800 TDR&TXV 1 14.00 1 1 11.50 0 23,000 TXV --mmm..wsm w 13.00 11.00 -*CAR*'2414A** CAR**2414A** 22,800 TDR&TXV 14.00 11.50 58CV(A,X)070-12 CAR**2417A** 23,200 TXV 13.00 11.00 CAR**2417A** 23,000 TDR&TXV 14.00 11.50 58MVB060-14 CAR**2417A** 23,000 TDR&TXV 14.00, 11.50 58CV(AX090-16- CAR**3014A** 23,400 TXV 1 13.00 11.00 CAR --3014A-* 23,000 TDR&TXV 14.00 11.50 58CV(AA070-12 CAR**3017A** 23,400:::] TXV 13.00 11.00 CAR**3017A** 23,000 TDR&TXV 14.00 11.50 58MVB060-14 24-31 CAR**3017A** 23,000 TDR&TXV 14.00 11.50 58CV(AX)090-16_ CNRV*2414A.; 23,000 TXV 13.00 11.00 CNRV*2414A** 22.800 TDR&TXV 14.00 11.50 58CV(AA070-12 CNRV*2417A** 23,200 TXV 13.00 im)o CNRV*2417A** 23,000 TDR&TXV 14.00 11.50 1 58MVB060-14 CNM.-2417A*- 23,000 TDR&TXV 14.00 11.50 1 58CV(A)Q090-16 EA CNRV*3014A;.;.'! 23,40,0 TXV 13.00 11.00 CNRV-3014A-- 23,000 TDR&TXV 14.00 11.50 58CV(AA070-12 CNRV-3017A-- 23,400 TXV 13.00 11.00 See notes on pg. 17 COMBINATION RATINGS CONTINUED Unit Size - Voltage, Series Indoor Model Factory Total Ca BTUHp Supplied Enhancement SEER Standard TDRt Rating EER Furnace Model CSRH'3012A" 27,800 TDR&TXV 14.00 11.50 58MVB120-20 CSRH'3012A" 27,800 TDR&TXV 14.00 11.50 58CV(A))070-12 CSRH'3012A" 27,800 TDR&TXV 14.00 11.50 58CV(A,X)090-16 CSRH'3012A" 27,800 TDR&TXV - 14.00 11.50 58CV(A X)110-20 CSRH-3012A" 27,800 TDR&TXV 14.00 11.50 58CV(A,X)135-22 CSRH'3012A" 27,800 TDR&TXV 14.00 11.50 58CV(A,X)155-22 _ .. .-.. '•-. .�^ art- s,:,. e. .r r. ` CSRH'3612A" 28,200 TXV 13.00 11.00 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58MV8040-14 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58MVB060-14 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58MVB080-14 CSRH'36/2A" 28,000 TDR&TXV 14.00 11.50 58MVB0BO-20 ' CSRH'3612A" 28,000 TDA&TXV 14A0 11.50 58MVB100-20 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58MVB120-20 30-31 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58CV(A,X)070-12 30-51 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58CV(A))090-16 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58CV(AA110-20 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58CV(A,X)135-22 CSRH'3612A" 28,000 TDR&TXV 14.00 11.50 58CV(A X)155-22 FA4CN(F,C)030 28,000 TDR&TXV 13.00 11.00 FA4CN(F,C)036 27,800 TDR&TXV 13.00 10.70 FC4DNF030 28,400 TDR&TXV 13.50 11.20 FC4DN(F,8)036 28,600 TDR&TXV 14.00 11.50 FFlENE030 27,800 TDR&TXV 13.00 11.00 FFIENE036 28,200 TDR&TXV 13.00 11.00 FK4DNF001 28,000 TDR&TXV 14.00 11.50 FK4DNF002 28,400 TDR&TXV 14.00 11.50 FK4DNF003 28,400 TDR&TXV 14.00 11.50 FK4DNF005 29,200 TDR&TXV 14.00 11.50 6 'CAR"3617A" 34,000 TXV 13.00 40011.00 CAR"3614A" 33,000 TXV 13.00 1 11.00 CAR"3614A" 33,000 TDR&TXV 13.50 11.20 58CV(A,X)070-12 CAR"3617A" 34,000 TDR&TXV 1 13.50 1120 58MVB060-14 CAR"3617A" 34,200 TDR&TXV 1 13.50 11.20 58CV(A,X)090-16 CAR"3621A" 34,200 TXV 13.00 11.00 CAR -36521A" 34,000 TDR&TXV 13.50 11.20 58MVB080-14 CAR"3621A" 34,000 TDR&T)(V 13.50 11.20 58MVB080-20 CAR"3621A" 34,200 TDR&TXV 13.50 11.20 58MVB100-20 CAR"362/A" 34,200 TDR&TXV 14.00 11.50 58CV(A,X)110-20 ;. CAR"4221A" 34,600 TXV 13.00 11.00 CAR"4221A" 34,200 TDR&TXV 13.50 11.20 58MVB080-14 CAR"4221A" 34,400 TDR&TXV 13.50 11.20 58MVB080-20 CAR"4221A" 34,400 TDR&TXV 14.00 11.50 58MVB100-20 CAR"4221A" 34,600 TDR&TXV 14.00 11.50 5BCV(A,X)110-20 36-31 _ 36-51 36-61 CAR"4224A" 34,600 TXV 13.00 11.00 CAR"4224A" 34,200 TDR&TXV 13.50 11.20 58MVB040-14 CAR"4224A" 34,400 TDR&TXV 14.00 11.50 58MVB120-20 CAR"4224A" 34,600 TDR&TXV 14.00 11.50 58CV(A,X)135-22 CAR"4224A" 34,600 TDR&TXV 14.00 11.50 58CV(A))155-22 ._::.:. CNRV-3617A•- 34,000 TXV 13.00 11.00 CNRV'3617A" 34,000 TDR&TXV 13.50 11.20 58MVB060-14 CNRV'3617A•• 34,000 TDR&TXV 13.50 11.20 58CV(A,X)090-t6 CNRV'3621A" 34200 TXV 13.00 11.00 CNRV'3621A" 33,800 TDR&TXV 1 13.50 1 1120 58MVB0BO-14 CNRV'3621A•- 33.800 TDR&TXV 1 1350 1 11.20 SBMVB0BO-20 f n m 12 1 COMBINATION RATINGS CONTINUED Unit Size - Voltage, Series Indoor Model Total Ca BTUHp Factory Supplied Enhancement SEER EER Furnace Model Standard Rating TDRt ..... s .s ..: .._:-,..-... ...... ..... .. .. _._w`: �_._•,.::^ - ...1- ,?,,d--X55'.+Sfi- - - <:63 CNRF•4818A•• 40,500 TXV 13.00 11.00 CSRH'4212A" 40,500 TXV 13.00 11.00 CSRH'4212A" 40,000 TDR&TXV 13.50 1120 58MV8040-14 CSRH'4212A" 40,000 TDR&TXV 13.50 11.20 58MVB060-14 CSRH'4212A'• 40,000 TDR&TXV 13.50 11.20 58MVB080-14 CSRH'4212A•' 40,000 TDR&TXV 13.50 11.20 58MVB080-20 CSRH'4212A'• 40,000 TDR&TXV 14.00 11.50 58MVB100-20 CSRH'4212A" 40,000 TDR&TXV 14.00 11.50 58MVB120-20 CSRH•4212A" 40,000 TDR&TXV 13.50 11.20 58CV(A X)070-12 CSRH'4212A" 40,000 TDR&TXV 14.00 11.50 58CV(AX)090-16 CSRH'4212A•• 40,000 TDR&TXV 14.00 11.50 58CV(A,X)110-20 CSRH'4212A•• 40,000 TDR&TXV 14.00 11.50 58CV(A,X)135-22 CSRH'4212A" 40,000 TDR&TXV 14.00 11.50 58CV(A,X)155-22 CSRH'4812A'• 41,000 TXV 13.00 11.00 42-30 42-50 CSRH'4812A•• 40,500 TDR&TXV 13.50 1120 58MVB040-14 42-60 CSRH'4812A" 40,500 TDR&T)(V 13.50 11.20 58WBO60-14 CSRH'4812A'• 40,500 TDR&TXV 13.50 11.20 58MVB0BO-14 CSRH'4812A'• 40,500 TDR&TXV 13.50 11.20 58MVB080-20 CSRH'4812A'• 40,500 TDR&TXV 14.00 11.50 58MVB100-20 CSRH'48t2A•• 40,500 TDR&TXV t4.00 11.50 58MVBt20-20 CSRH'4812A'• 40,500 TDR&TXV 13.50 11.20 58CV(A,X)070-12 CSRH'4812A'• 40,500 TDR&TXV 14.00 11.50 58CV(AA090-16 CSRH'4812A" 40,500 TDR&TXV 14.00 11.50 58CV(A,X)110-20 CSRH'4812A•' 40,500 TDR&TXV 14.00 11.50 58CV(A,X)135-22 CSRH'4812A" 40,500 TDR&TXV 14.00 11.50 58CV(A,X)155-22 z i i FA4CN(F,C)042 41,000 TDR&TXV 13.00 11.00 FA4CN(F,C)048 41,500 TDR&TXV 13.00 11.00 FC4DN(F,B)042 41,500 TDR&TXV 13.50 11.20 FC4DN(F,B)048 42,500 TDR&TXV 14.00 11.50 FK41)NF003 40,000 TDR&TXV 14.00 11.50 FK41)NF005 42,000 TDR&TXV 14.00 11.50 FK4DNB006 42,500 TDR&TXV 14.00 11.50 48-31 'CAR"4821A'• fWw 46,000 1wow TXV 13.00 'v 11.00 -.,.._.....,-,.....::..:,..,...::...:; ........:......:....... 48-51 CAR"4817A'• 45000 TXV 13.00 11.00 48-61 CAR•'4817A•' 44,500 TDR&TXV 13.20 11.00 58CV(A,X)090-16 CAR"4821A'• 45,000 TDR&TXV 13.20 11.00 58MVB080-20 CAR"4821A" 45,500 TDR&TXV 13.20 11.80 58MVB100-20 CAR"4821A'• 45,500 TDR&TXV 13.20 11.00 58CV(A,X)110-20 CAR"4824A" 46,500 TXV 13.00 11.00 CAR"4824A" 45,000 TDR&TXV 13.20 11.00 58MVB120-20 CAR"4824A" 45,500 TDR&TXV 13.50 11.20 58CV(A,X)135-22 CAR"4824A" 45,500 TDR&TXV 14.00 11.50 58CV(A,X)155-22 c.; a CAR'•6021A•• 47,500 TXV 13.00 11.00 CAR"6021A" 46,500 TDR&TXV 13.50 11.20 58MVB0BO-20 CAR"6021A•• 46,500 TDR&TXV 13.50 11.20 58MVB100-20 CAR"6021A'• 46,500 TDR&TXV 13.50 11.20 58CV(A,X)110-20 _ - CAR••6024A'• 47,500 TXV 13.00 11.00 CAR"6024A" 46,500 TDR&TXV 13.50 11.20 58W!3120-20 CAR"6024A" 46,500 TDR&TXV 13.50 1120 1 58CV(A,X)135-22 CAR"6024A" 47,000 TDR&TXV 14.00 11.50 58CV(A X)155-22 ,1:•4:,,'!t'Yc: ,C..F ,ms:; y':'S.`- '!i CNRV•4821A•• 46,000 TXV 13.00 11.00 CNRV'4821A•' 45,000 TDR&TXV 1 13.20 11.00 1 58MVB080-20 CNRV'4821A•• 45,000 TDR&TXV 13.20 11.00 58MVB100-20 CNRV'4821A•• 45,000 TDR&TXV 13.50 1120 58CV(A,X)110-20 CNRV•4824A'• 46,500 TXV 13.00 11.00 CNRV•4824A•' 45,500 TDR&TXV 13.20 11.00 58MVB120-20 CNRV'4824A•• 45,500 TDR&TXV 13.50 11.20 58CV(A,X)135-22 CNRV•4824A'• 46,000 TDR&TXV 13.50 11.20 58CV(A,X)155-22 CNRV-6024A'• 47,500 TXV 13.00 11.00 See notes on pg. 17 15 COMBINATION RATINGS CONTINUED Unit Size- Voltage, Series Indoor Model Total Ca BTUHp Factory Supplied Enhancement SEER Standar TDRt Rating EER Furnace Model CNRV•6024A" 46,500 TDR&TXV 13.50 11.20 58MVB120-20 CNRV'6024A" 46,500 TDR&TXV 13.50 11.20 58CV(A,X)135-22 48-31 CNRV'6024A" 47,000 TDR&TXV 14.00 11,50 1 58CV(A,X)155-22 48-51 CNRH'4821A" 46,000 TXV 13.00 11.00 48-61 CNRH'4821A" 45,000 TDR&TXV 13.20 11.00 58MVB080-20 CNRH'4821A" 45,000 TDR&TXV 13.20 11.00 58MVB100-20 CNRH'4821A" 45,000 TDR&TXV 13.20 11.00 58MVB120-20 CNRH•4821A" 45,000 TDR&TXV 13.50 11.20 58CV(AX)090-16 CNRH'4821A" 45,000 TDR&TXV 13.50 11.20 58CV(A X)110-20 CNRH'4821A" 45,000 TDR&TXV 13.50 11.20 58CV(A X)135-22 CNRH'4821A" 45,500 TDR&TXV 13.50 11.20 58CV(AA155-22 m. ,.:- .:.. ._ -_. .: _..: ..:'s S. ... ..i?x�-_. its • -d��t- - CNRH'6024A" 47,500 TXV 13.00 11.00 CNRH'6024A" 46,500 TDR&TXV 13.50 11.20 58MVBDW-20 CNRH'6024A" 46,500 TDR&TXV 13.50 11.20 58MVB100-20 CNRH'6024A" 46,500 TDR&TXV 13.50 11.20 58MVB120-20 CNRH'6024A'• 46,500 TDR&TXV 13.50 11.20 58CV(A,X)090-16 CNRH'6024A'- 46,500 TDR TXV 13.50 11.20 58CV(A)Q110-20 CNRH'6024A'- 46,500 TDR&TXV 13.50 11.20 58CV(A,X)135-22 CNRH-6024A-' 47,000 TDR&TXV 14.00 1 11.50 1 58CV(A,X)155-22 .. •:•:::� ". ::.::ei..... x.42. CNRF'4818A'• 45,000 TXV 13.00 11.00 C c > CSRH'4812A'• 46,000 TXV 13.00 11.00 CSRH'4812A" 45,000 TDR&TXV 13.20 11.00 58MVB080-20 CSRH'4812A" 45,000 TDR&TXV 13.20 11.00 58MVB100-20 CSRH'4812A" 45,000 TDR&TXV 13.20 11.00 58MV8120-20 CSRH'4812A" 45,000 TDR&TXV 13.50 11.20 58CV(A,X)090-16 CSRH'4812A" 45,000 TDR TXV 13.50 11.20 58CV(A X)110-20 CSRH'4812A" 45,000 TDR&TXV 13.50 11.20 58CV(A,X)135-22 CSRH'4812A" 45,000 TDR&TXV 13.50 11.20 58CV(A,X)155-22 CSRH'6012A" 47,500 TXV 13.00 11.00 CSRH'6012A" 46,500 TDR&TXV 13.50 11.20 58MVB080-20 CSRH'6012A" 46,500 TDR&TXV 13.50 11.20 58MVB100-20 CSRH'6012A" 46,500 TDR&TXV 13.50 11.20 58MVB120-20 CSRH'6012A" 46,500 TDR&TXV 13.50 11.20 58CV(AX)090-16 CSRH'6012A" 46,500 TDR&TXV 13.50 11.20 58CV(A))110-20 CSRH'6012A" 46,500 TDR&TXV 14.00 11.50 58CV(A,X)135-22 CSRH'6012A" 46,500 TDR&TXV 14.00 11.50 58CV(A,X)155-22 FA4CN(F,C)048 47,000 TDR&TXV 13.00 11.00 FA4CN(F,C)060 48,000 TDR&TXV 13.00 11.00 FC4DN(F,B)048 47,500 TDR&TXV 13.50 11.20 FC4DN(F,B)060 48,500 TDR&TXV 14.00 11.50 FK4DNF005 47,000 TDR&TXV 14.00 11.50 FK4DN13006 47,500 TDR&TXV 14.00 11.50 0 'CAR"6024A" 57,000 TXV 13.00 11.00 CAR -6021A.. 56,000 TXV 13.00 11.00 - CAR"6024A" 56,000 TDR&TXV 1 13.20 11.00 58CV(AA135-22 60-32/33 CAR"6024A•' 56,000 TDR&TXV 13.20 11.00 58CV(AX)155-22 60-52/53 60-62/63 CNRV•6024A'• 57,000 TXV 13.00 11.00 CNRV'6024A• 56,000 TDR&TXV 13.20 11.00 58CV(AX)135-22 CNRV'6024A'• 56,000 TDR&TXV 13.20 11.00 SSCV(A))155-22 - - CNRH'6024A" 57,000 TXV 13.00 11.00 CNRH'6024A•' 56,000 TDR&TXV 13.20 11.00 58CV(A,X)135-22 CNRH'6024A" 56,000 TDR&TXV 1 13.20 11.00 58CV(A 155-22 See notes on pg. 17 16 DETAILED COOLING CAPACITIES EVAPORA- Capacity Power Furnace Model 'CAR"2414A'• CONDENSER ENTERING AIR TEMPERATURES deg F 1.00 58MVB040-14 CAR"2417A" 1.01 TOR AIR 75 CAR"3014A" 85 1.02 95 CAR"3017A•' 1D5 115 58MVB040-14 125 1.00 CFM E11.31 Capacity MBtuht Se Sens Total 3 Total Sys- tem KW' Capacity MBtuht Sem Total = Total Sys- tem KW • Capaelty MBtuht Ser. Total ; Total Sys- tem KW' Capacity MBtuht Sens Total = --2414A** Indoor Total Sys- tem KW" Capacity MB"t Sans Toto ; Total Sys- tem KW'• Capacity MBtuht Serra Total ; Total Sys- yr tem KW' 700 72 27.45 14.58 1.73 24ABR324(A.G)31 26.33 14.15 1.88 Outdoor Section 25.24 13.74 With CAR 2.05 24.15 13.34 Section 225 23.07 12.95 2.48 21.97 1255 2.73 67 24.61 117.791 1.72 23.57 17.36 1.87 22.55 16.94 203 21.54 16.52 2.23 20.52 16.11 2.44 19.47 15.69 2.68 62 22.31 121.001 1.71 21.38 20.54 1.85 20.47 20.08 2.02 19.60 19.60 2.20 18.85 18.85 2.41 18.06 18.06 264 57 21.90 121.901 1.71 21.13 21.13 1.85 20.38 20.38 2.01 19.62 19.62 2.20 18.85 18.85 241 18.06 18.06 2.64 800 72 28.01 JIS.351 1.77 26.65 14.92 1.92 25.71 14.50 2.09 24.59 14.10 2.29 23.47 13.69 2.52 22.33 13.29 2.78 67 25.14 19.01 1.76 24.06 18.57 1.91 23.00 18.14 2.08 21.95 17.72 2.27 20.91 17.30 2.48 19.84 16.87 2.73 62 22.97 22.58 1.75 2206 2206 1.89 21.28 2.06 20.48 2.25 19.67 2.46 18.84 18.84 2.70 57 22.89 22.89 1.75 122.09 122.091 1.89 12128 121.281 2.06 120.48 120.481 2.25 119.67 119.671 2.46 118.84 118.841 2.70 900 72 28.43 16.07 1.80 27.23 15.64 1 1.96 126.05 115.221 2.13 24.90 1 14.81 1 2.33 23.75 114.401 256 122.58 13.99 282 67 25.54 20.17 1.80 24.43 19.73 1.95 23.35 19.29 212 22.28 18.86 2.31 21.21 18.43 2.53 20.13 17.99 2.77 62 23.72 23.72 1.79 22.88 22.68 1.84 22.04 22.04 2.11 21.20 21.20 2.30 2036 20.38 2.51 19.49 19.49 2.78 57 23.73 23.73 1.79 122.88 122.881 1.94 12ZO4 122.041 211 12120 121.201 2.30 120.36 120.361 2.51 119.49 119.491 2.76 Multipliers for Determining the Performance With Other Indoor Sections Cooling Indoor Model Capacity Power Furnace Model 'CAR"2414A'• 1.00 1.00 58MVB040-14 CAR"2417A" 1.01 1.01 58MVB040-14 CAR"3014A" 1.02 1.02 58MVBD40-14 CAR"3017A•' 1.02 1.02 58MVB040-14 CNRF'2418A" 1.00 1.00 58MVB060-14 CNRH'2417A" 1.01 1.01 58MV8060-14 CNRH'3017A" 1.02 1.02 58MVB060-14 CNRV'2414A'• 1.00 1.00 58MVB060-14 CNRV'2417A" 1.01 1.01 58MVB060-14 CNRV'3014A" 1.02 1.02 SBMVB060-14 CNRV•3017A•• 1.02 1.02 58MVB060-14 CSRH'2412A'• 1.00 1.00 58MVB060-14 CSRH'3012A•' 1.02 1.02 58MVBOSO-14 FA4CN(F,C)024 0.99 0.99 58MVB080-14 FA4CN (F,C)030 1.00 1.00 58MV8080-14 FC4DNF024 1.01 0.99 58MV8080-14 FC4DNFO30 1.02 0.97 58MVBGBO-20 FF10NA024 0.97 0.99 58MVB080-20 FFIENE024 0.98 0.98 58MVB080-20 FFIENE030 1.01 1.01 58MV8080-20 FK4DNF001 1.00 0.96 58MVB100-20 FK4DNF002 1.02 0.97 58MVBIOO-20 FK4DNF003 1.01 0.96 58WB100-20 CAR"2414A'• 0.99 0.95 58CV(A,X)070-12 CAR'•3014A•• 1.00 0.96 58CV(A,X)070-12 CNRH•2417A•• 1.00 0.96 58CV(A,X)070-12 CNRH•3017A•' 1.00 0.96 58CV(A,X)070-12 CNRV•2414A" 0.99 0.95 58CV(A,X)070-12 CNRV'3014A'• 1.00 0.96 58CV(A)Q070-12 CSRH•2412A" 0.99 0.95 58CV(A,X)070-12 CSRH•3012A" 1.00 0.96 58CV(A,X)070-12 CAR"2417A•' 1.00 0.96 58CV(A,X)090-16 CAR"3017A" 1.00 0.96 58CV(AX)090-16 CNRH'2417A" 1.00 0.96 58CV(A,X)090-16 CNRH•3017A" 1.00 0.96 58CV(A)Q090-16 CNRV•2417A" 1.00 0.96 58CV(A,X)090-16 CNRV•3017A" 1.00 0.96 58CV(A,X)090-16 CSRH'2412A'• 0.99 0.95 58CV(A,X)090-16 CSRH•3012A" 1.00 0.96 58CV(A,X)090-16 CNRH'2417A" 1.00 0.96 58CV(A,)Q110-20 CNRH'3017A" 1.00 0.96 58CV(A,X)110-20 CSRH'2412A" 0.99 0.95 58CV(A))110-20 CSRH'3012A'• 1.00 0.96 58CV(A)QIIO-20 CNRH•2417A" 1.00 0.96 58CV(A,X)135-22 CNRH'3017A•' 1.00 0.96 SBCV(AX)135-22 CSRH'2412A'• 0.99 0.95 58CV(A,)Q135-22 CSRH'3012A•• I.00 0.96 58CV(A,X)135-22 CNRH'2417A" 1-00 0.96 58CV(A X)155-22 CNRH'3017A'• 1.00 0.96 58CV(A,)Q155-22 CSRH'2412A'• 0.99 0.95 58CV(A,X)155-22 CSRH'3012A" 1.00 0.96 58CV(A)QI55-22 See notes on pg. 24 19 Cooling Indoor Model Capacity Power Fumace Model CNRH'2417A" 1.00 0.96 58MVB040-14 CNRH'3017A'• 1.00 0.96 58MVB040-14 CSRH'2412A'• 0.99 0.95 58MVBD40-14 CSRH'3012A" 1.00 0.96 58MVB040-14 CAR"2417A" 1.00 0.96 58MVB060-14 CAR•'3017A- 1.00 1 0.96 58MV8060-14 CNRH'2417A" 1.00 0.96 58MVB060-14 CNRH'3017A" 1.00 0.96 58MVB060-14 CNRV'2417A" 1.00 0.96 58MVB060-14 CNFW3017A" 1.00 0.96 SBMVB060-14 CSRH'2412A" 0.99 0.95 58MVB060-14 CSRH'3012A'• 1.00 0.96 58MVB060-14 CNRH'2417A'• 1.00 0.96 58MVBOSO-14 CNRH'3017A•' 1.00 0.96 58MVB080-14 CSRH'2412A" 0.99 0.95 58MV8080-14 CSRH'3012A" 1.00 0.96 58MV8080-14 CNRH'2417A'• 1.00 0.96 58MVBGBO-20 CNRH•3017A•' 1.00 0.96 58MVB080-20 CSRH'2412A'• 0.99 0.95 58MVB080-20 CSRH•3012A" 1.00 0.96 58MV8080-20 CNRH'2417A" 1.00 0.96 58MVB100-20 CNRH•3017A•' 1.00 0.96 58MVBIOO-20 CSRH'2412A'• 0.99 0.95 58WB100-20 CSRH'3012A'• 1.00 0.96 58MVB100-20 CNRH'2417A•• 1.00 0.96 58MVB120-20 CNRH'3017A" 1.00 0.96 58MVB120-20 CSRH•2412A" 0.99 0.95 58MVB120-20 CSRH'3012A•• 1.00 0.96 58MV8120-20 DETAILED COOLING CAPACITIES EVAPORA- Capacity Power Fumace Model •CAR**3617A•* CONDENSER ENTERING AIR TEMPERATURES deg F 1.00 58MVB040-14 CAR'*36/4A•• 0.97 TOR AIR 75 CAR'*3621A** 85 1.01 95 CAR'•4221A** 105 115 58MVB040-14 125 1.02 CFM EWB Capacity MBtuh1 Sons Total = Total Sys- tem KW** Capacity MBtuht Sena Total 1 Total Sys- tem KW' Capacity MBtuh1 Sens Total 1 Total Sys. tem KW** Capacity MBtuhi Sans Total = Total Sys- tam KW Indoor Section Capacity MBtuht Sana Total = Total Sys- tem KW Capacity MBtvhi Serra Total = Total Sys - lam KW 72 39.90 21.09 2.60 24ASR336(A.G)31.51.61 38.51 20.56 2.84 Outdoor 37.08 20.02 Section With 3.10 CAR**3617A-- 35.60 19.47 3.40 34.07 18.90 3.73 3247 18.32 4.10 1000 67 36.23 25.87 2.56 34.96 25.33 2.80 33.65 24.79 3.07 32.29 24.23 3.37 30.88 23.65 3.70 29.42 23.06 4.08 62 33.18 30.64 2.53 3205 30.08 2.77 30.87 29.50 3.04 29.68 28.88 3.34 28.47 28.21 3.67 27.32 27.32 4.04 57 32.42 32.42 2.53 31.48 31.48 2.77 30.51 30.51 3.D4 29.49 29.49 3.34 28.43 28.43 3.67 27.32 27.32 4.04 72 40.59 22.14 2.66 39.13 21.60 2.90 37.65 21.05 3.17 36.12 20.49 3.47 34.52 19.92 3.80 32.87 19.33 4.16 1150 67 36.89 27.56 2.63 35.56 27.02 2.87 34.20 26.47 3.13 32.80 25.90 3.43 31.34 25.31 3.76 29.83 24.71 4.13 62 34.02 32.89 2.60 32.87 32.27 2.84 31.68 3.11 30.64 3.41 29.51 3.74 28.33 28.33 4.11 57 133.77 133.771 2.60 132.77 132.77 2.84 31.73 31.73 3.11 30.65 30.65 3.41 29.52 29.52 3.74 28.33 28.33 4.11 72 41.08 23.11 2.72 39.58 22.56 2.96 38.05 22.01 3.23 36.47 21.45 3.53 34.83 20.87 3.86 33.14 20.27 4.22 1300 67 37.38 129.161 2.69 36.01 28.61 2.93 34.61 28.05 3.20 33.17 27.47 3.49 31.68 26.87 3.82 30.14 26.25 4.19 0.99 62 34.84 34.84 2.67 33.82 33.82 2.91 3272 3.18 31.58 3.48 30.39 3.81 29.14 29.14 4.18 58CV(A,X)135-22 57 134.88 134.881 2.67 33.82 133.82 1 2.91 3272 3272 3.18 31.58 31.58 3.48 30.39 30.39 3.81 29.14 29.14 4.18 Multipliers for Determining the Performance With Other Indoor Sections Cooling Indoor Model Capacity Power Fumace Model •CAR**3617A•* 1.00 1.00 58MVB040-14 CAR'*36/4A•• 0.97 0.97 58WBO40-14 CAR'*3621A** 1.01 1.01 58MV8040-14 CAR'•4221A** 1.02 1.02 58MVB040-14 CAR**4224A** 1.02 1.02 58MVB040-14 CNRF*3618A** 1.00 1.00 58MVB060-14 CNRH*3617A** 1.00 1.00 58MVB060-14 CNRH*4221A•* 1.02 1.02 58MVB060-14 CiNAV*3617A*• 1.00 1.00 58MVB060-14 CNRV•3621A*• 1.01 1.01 58MVB060-14 CNRV*4221A** 1.02 1.02 58MVB060-14 CSRH*3612A** 1.00 1.00 58MVBDW-14 CSRH•4212A•* 1.02 1.02 58MVB080-14 FA4CN(F,C)036 0.99 0.99 58MVB080-14 FA4CN (F,C)042 1.02 1.02 58MVB080-14 F C 4 D N (F, B) 036 1.02 1.00 58MVB080-14 FC4 DN(F,B)042 1.04 1.00 58MVB080-14 FFIENE036 1.01 1.01 58MVB080-14 FK4DNB006 1.06 1.02 58MVBOSO-14 FK4DNF001 0.99 0.98 58MVBOBO-20 FK4DNF002 1.01 0.99 58MV8080-20 FK4DNF003 1.01 0.97 58MVBOBO-20 FK40NF005 1.05 1.01 58MVBOBO-20 CAR**3614A*• 0.97 0.95 58CV(A,X)070-12 CNRH*3617A•• 0.99 0.98 58CV(AA070-12 CNRH'4221A** 1.01 0.96 58CV(AX)070-12 CSRH•3612A•• 0.99 0.95 58CV(AX)070-12 CSRH*4212A** 1.01 0.96 1 58CV(A,X)070-12 CAR•*3617A** 1.01 0.99 58CV(AA090-16 CNRH*3617A** 0.99 0.98 56CV(A,)Q090-16 CNRH•4221A*• 1.01 0.96 58CV(AA090-16 CNRV*3617A•• 1.00 0.98 58CV(AA090-16 CSRH'3612A** 0.99 0.95 58CV(AA090-16 CSRH•4212A•• 1.01 0.96 58CV(AA090-16 CAR**3621A•* 1.01 0.96 1 58CV(AA110-20 CAR**4221A** 1.02 0.97 SBCV(AA110-20 CNRH*3617A** 0.99 0.98 58CV(A)()110-20 CNRH*4221A•* 1.01 0.96 SBCV(AA110-20 CNRV*3621A•• 0.99 0.98 58CV(A,X)110-20 CNRV*4221A** 1.01 0.96 58CV(AA110-20 CSRH•3612A*• 0.99 0.95 58CVJAA110-20 CSRH•4212A** 1.01 0.96 SBCV(A)t)110-20 CAR••4224A*• 1.02 0.97 58CV(AA135-22 CiNRH*3617A** 0.99 0.98 58CV(A,X)135-22 CNRH•4221A•• 1.01 0.96 58CV(AA135-22 CSRH•3612A*• 0.99 0.95 58CV(AA135-22 CSRH•4212A*• 1.01 0.96 58CV(A,)0135-22 CAR*'4224A** 1.02 0.97 SBCV(A,)t)155-22 CNRH•3617A*• 0.99 0.95 SSCV(A X)155-22 CNRH*4221A** 1.01 0.96 58CV(A)155-22 CSRH•3612A** 0.99 0.95 58CV(AX)155-22 CSRH*4212A** 1.01 0.96 58CV(A 155-22 gee notes on pg. 24 21 Cooling Indoor Model Capacity Power Fumace Model CAR*•4224A•• 1.01 0.99 58MVB040-14 CNRH*3617A•* 0.99 0.98 58WBO40-14 CNRH*4221A*' 1.01 0.96 58MV8040-14 CSRH•3612A•' 0.99 0.98 58MVB040-14 CSRH*4212A•* 1.01 0.96 58MVB040-14 CAR'*3617A** 1.00 0.98 58MVB060-14 CNRH*3617A** 0.99 0.98 58MVB060-14 CNRH'4221A•' 1.01 0.96 58MVB060-14 CNRV*3617A** 1.00 0.98 58MVB060-14 CSRH*3612A•• 0.99 0.95 58MVB060-14 CSRH•4212A** 1.01 0.96 58MVB060-14 CAR**3621A•• 1.00 0.98 58MVBDW-14 CAR*•4221A'• 1.01 0.99 58MVB080-14 CNRH*3617A•' 0.99 0.98 58MVB080-14 CNRH*4221A*• 1.01 0.96 58MVB080-14 CNRV*3621A•* 0.99 0.98 58MVB080-14 CNRV*4221A'* 1.01 0.96 58MVB080-14 CSRH•3612A** 0.99 0.98 58MVB080-14 CSRH*4212A*• 1.01 0.96 58MVBOSO-14 CAR*•3621A•* 1.00 0.98 58MVBOBO-20 CAR••4221A*• 1.01 0.99 58MV8080-20 CNRH*3617A•• 0.99 0.98 58MVBOBO-20 CNRH*4221A** 1.01 0.96 58MVBOBO-20 CNRV*3621A** 0.99 0.98 58MVB080-20 CNRV*4221A*• 1.01 0.96 58MVB080-20 CSRH*3612A•• 0.99 0.95 58MVB080-20 CSRH*4212A** 1.01 0.96 58MVB080-20 CAR'•3621A•* 1.01 0.99 SBMVB100-20 CAR**4221A** 1.01 1 0.97 58MVBIOO-20 CNRH*3617A'• 0.99 0.98 58MVB100-20 CNRH*4221A•* 1.01 0.96 58MVBIOO-20 CNRV*3621A•• 0.99 0.98 58MVB100-20 CNRV•4221A•* 1.01 0.96 58MVB100-20 CSRH*3612A*• 0.99 0.95 58MVBIOD-20 CSRH*4212A** 1.01 0.96 58MVBIOO-20 CAR•*4224A*• 1 1.01 0.97 58MVB120-20 CNRH'3617A'• i 0.99 0.98 58MVB120-20 CNRH•4221A•• 1.01 0.96 58MVB120-20 CSRH*3612A•* 0.99 0.95 58MV8120-20 CSRH*4212A•• 1.01 0.96 58MVB120-20 DETAILED COOLING CAPACITIES EVAPORA- Capacity Power Furnace Model 'CAR"4821A'• CONDENSER ENTERING AIR TEMPERATURES deg F 1.00 58MVB080-20 CAR•'4817A•' 0.98 TOR AIR 75 CAR"4824A" 85 1.01 95 CAR"6021 A' • t05 1.03 115 CAR••6024A'• 125 CFM EWB CapacBy MBtuht Sem Total = Total Sya- tem KVr'• Capaclry MBtuh1 Sans Total 3 Total Sys- tem KW•S Capacity MEnuht Total tena Total Sys- tem KW Capacity M91uht Serra Total ; CAR**4821A** Total Sys- ternKW • Seclion Capacity MBtuht Sem Total ; Total Sys- em tKW Capacity MBtuhi Sena Total ; Total Sys - tam KW 72 54.29 28.34 3.42 24ABR348(A.G)31.51,61 5213 27.51 3.71 Outdoor 49.95 28.68 Section With 4.04 47.78 25.86 Indoor 4.41 4558 25.04 4.82 43.34 24.21 5.27 1400 67 49.26 34.53 3.38 47.24 33.67 3.67 45.19 32.81 3.99 43.16 31.97 4.35 41.28 31.12:4.68 1.02 38.98 30.27 5.18 62 44.79 40.67 3.34 42.95 39.78 3.63 41.11 38.89 3.94 39.27 37.98 4.29 37.48 37.03 58MVB120-20 35.80 35.60 5.1157 0.99 43.36 43.36 3.33 41.90 41.90 3.61 40.41 40.41 3.93 38.91 38.91 4.28 37.37 37.37 CNRH•4821A•• 35.80 35.80 5.1172 SBCV(A,X)090-16 55.34 29.69 3.50 53.08 28.85 3.80 50.82 28.01 4.13 48.57 27.18 4.50 46.28 26.35 1.01 43.96 25.51 5.3867 CAR"4821A" 50.23 36.68 3.46 48.13 35.81 3.75 46.00 34.94 4.07 43.90 34.09 4.43 41.76 33.24 0.96 39.60 32.37 5.2762 1.01 45.90 43.58 3.43 44.03 42.64 3.71 42.18 4.03 4047 4.38 38.85 58CV(AA110-20 37.19 37.19 5.22 57 45.23 45.23 3.42 43.66 43.66 3.71 42.08 42.08 4.03 40.48 40.48 4.39 138.156 138.86 4.78 37.19 37.19 5.22 72 56.11 30.96 3.56 53.78 30.10 3.88 51.45 29.25 4.21 49.13 28.41 1 4.58 46.79 27.581 4.99 44.41 126.73 5.44 1600 67 50.96 38.71 3.54 14879 37.84 3.83 46.61 36.97 4.16 44.45 36.10 4.52 42.27 35.24 4.92 40.06 34.38 5.36 62 46.90 46.19 3.51 45.07 45.07 3.80 0.3.45 4.12 41.77 4.48 40.08 4.88 38.32 38.32 5.32 57 46.76 46.76 3.51 45.12 45.12 3.80 43.45 43.45 4.12 41.77 41.77 4.48 40.07 40.07 1 4.88 38.33 138.331 5.32 Multipliers for Determining the Performance With Other Indoor Sections Cooling Indoor Model Capacity Power Furnace Model 'CAR"4821A'• 1.00 1.00 58MVB080-20 CAR•'4817A•' 0.98 0.98 58MVB080-20 CAR"4824A" 1.01 1.01 58MVB080-20 CAR"6021 A' • 1.03 1.03 58MVBOBO-20 CAR••6024A'• 1.03 1.03 58MVBOBO-20 CNRF•4818A" 0.98 0.98 58MVB080-20 CNRH'4821A•' 1.00 1.00 58MVB080-20 CNRH•6024A'• 1.03 1.03 58MVBIDO-20 CNRV'4821A•' 1.00 1.00 58MVBIOO-20 CNRV•4824A" 1.01 1.01 58MVBlDO-20 CNRV•6024A" 1.03 1.03 58MVB100-20 CSRH•4812A'• 1.00 1.00 58MVB100-20 CSRH'6012A" 1.03 1.03 58MVBIOO-20 FA4CN (F,C)048 1.02 1.02 58MVB100-20 FA 4 C N (F, C) 060 1.04 1.04 58MVB120-20 FC4DN(F, B)048 1.03 1.01 58MVB120-20 FC4DN (F,B)060 1.05 1.01 58MVB120-20 FK4DNB006 1.03 0.99 58MVB120-20 FK4DNF005 1.02 0.98 56MVB120-20 CAR"4817A'• 0.97 0.97 58CV(AX)090-16 CNRH•4821A•• 0.98 0.96 SBCV(A,X)090-16 CNRH•6024A•• 1.01 0.99 58CV(A,X)090-16 CSRH'4812A•• 0.98 0.96 58CV(A,X)090-16 CSRH'6012A'• 1.01 0.99 58CV(A,X)090-16 CAR"4821A" 0.99 0.99 58CV(A,)n110-20 CAR•'6021A'• 1.01 0.99 58CV(A,X)110-20 CNRH'4821A'• 0.98 0.96 58CV(A,)n110-20 CNRH'6024A'• 1.01 0.99 58CV(A,X)110-20 CNRV•4821A•' 0.98 0.96 58CV(A,X)110-20 CSRH•4812A•• 0.98 0.96 58CV(AA110-20 CSRH'6012A" 1.01 0.99 58CV(A )()110-20 CAR'•4824A" 0.99 0.97 58CV(A,X)135-22 CAR•'6024A" 1.01 0.99 58CV(A)Q135-22 CNRH•4821A•' 0.98 0.96 58CV(AX)135-22 CNRH'6024A•• 1.01 0.99 SBCV(AX)135-22 CNRV•4824A'• 0.99 0.97 58CV(A,X)135-22 CNRV•6024A" 1.01 0.99 58CV(A,X)135-22 CSRH'4812A•• 0.98 0.96 58CV(AA135-22 CSRH'6012A•' 1.01 0.97 58CV(A )()135-22 CAR"4824A" 0.99 0.95 58CV(A X)155-22 CAR'•6024A•' 1.02 0.98 58CV(A,X)155-22 CNRH•4821A•• 0.99 0.97 58CV(A,X)155-22 CNRH•6024A" 1.02 0.98 SBCV(AX)155-22 CNRV•4824A" 1.00 0.98 58CV(A X)155-22 CNRV•6024A'• 1.02 0.98 SBCV(A)QI55-22 CSRH'4812A" 0.98 0.96 58CV(A X)155-22 CSRH'6012A'• 1.01 0.97 58CV(A X)155-22 See notes on pg. 24 23 Cooling Indoor Model Capacity Power Furnace Model CAR••,IWlA•• 0.98 0.98 58MVB080-20 CAR•'6021A" 1.01 0.99 58MVB080-20 CNRH•4821A'• 0.98 0.98 58MVB080-20 CNRH'6024A•• 1.01 0.99 58MVBOBO-20 CNRV•4821A" 0.98 0.98 58MVBOBO-20 CSRH•48/2A•' 0.98 0.98 58MVB080-20 CSRH•6012A•• 1.01 0.99 58MVB080-20 CAR'•4821A" 0.99 0.92 58MVBIDO-20 CAR"6021A•' 1.01 0.99 58MVBIOO-20 CNRH'4821A'• 0.98 0.98 58MVBlDO-20 CNRH'6024A•• 1.01 0.99 58MVB100-20 CNRV•4821A" 0.98 0.98 58MVB100-20 CSRH'4812A•' 0.98 0.98 58MVBIOO-20 CSRH•6012A'• 1.01 0.99 58MVB100-20 CAR"4824A" 0.98 0.98 58MVB120-20 CAR' -6024A" 1.01 0.99 58MVB120-20 CNRH'4821A'• 0.98 0.98 58MVB120-20 CNRH'6024A•• 1.01 0.99 58MVB120-20 CNRV'4824A•• 0.99 0.99 56MVB120-20 CNRV'6024A•' 1.01 0.99 58MV8120-20 CSRH'4812A'• 0.98 0.98 58MVB120-20 CSRH'6012A•' 1.01 0.99 58MVB120-20 ' DETAILED COOLING CAPACITIES EVAPORA- Capacity Power Fumace Model •CAR••6024A•• CONDENSER ENTERING AIR TEMPERATURES deg F 1.00 CAR••6021A•• 0.98 TOR AIR 75 85 85 95 95 105 105 115 115 CSRH•6012A•• 125 EWB CFM EWB Capacity MBtuht Sens Total ; To,. Total Sys- tem KW Capacity MBtuht Sero Total ; Total Sys- tem KW MBtuht Sens Total ; Total Sys- tem ICW" With Capacity MBtuht Sens Total 1 CAR -16024A** Total Sys. tem KW** Indoor Section. Capacity MBtuht Total 3 Total ys- Total Sys- tem Kw -Sero CaPacitY MBtuht Total = Total Sys - tem KW 66.53 35:15. 72 66.68 35.26 4.16 24ASR360(A.G)32.52.62 64.21 34.32 4.58 Outdoor 61.64 33.35 Section 5.04 58.95 3235 5.55 56.14 31.31 6.10 53.18 30.23 6.59 1750 67 60.79 43.36 4.12 58.51 42.40 4.54 56.12 41.41 5.00 53.64 40.39 5.50 51.03 39.33 6.05 48.29 38.22 6.63 55.68 51.26 62 55.74 51.41 4.10 53.68 50.41 4.51 51.54 49.35 4.97 49.34 48.22 5.47 47.05 47.05 8.00 44.99 44.99 8.58 54.31 54.31 57 54.40 54.40 4.09 52.72 52.72 4.51 50.94 50.94 4.96 49.07 49.07 5.46 47.10 47.10 6.00 44.99 44.99 6.58 67.63 36.85 72 67.110 36.97 4.26 65.22 36.02 4.68 6255 35.04 5.14 59.77 34.02 5.65 56.85 32.97 6.20 53.79 31.88 6.80 2000 67 61.85 46.12 422 59.47 45.15 4.64 57.00 44.15 5.10 54.43 43.11 5.61 51.74 4203 6.15 48.92 40.90 6.74 56.95 54.90 62 57.03 55.06 4.20 54.95 53.96 4.61 52.81 5.07 50.87 5.58 48.77 8.12 46.54 46.54 6.70 56.44 56.44 57 56.54 56.54 4.19 54.74 54.741 4.61 15Z85 15165 5.07 150.88 50.88 5.58 148.78 148.781 6.12 46.55 146.551 6.70 68.43 38.46 72 68.61 38.59 4.35 65.94 37.62 4.77 63.2036.63 5.24 60.34 35.61 5.75 57.34 34.54 6.30 54.20 33.44 6.90 2250 67 62.64 48.76 4.32 60.19 47.77 4.74 57.65 46.75 5.20 55.02 45.69 5.71 52.27 44.59 625 49.39 43.43 6.84 58.13 58.13 62 58.24 58.24 4.30 56.40 56.40 4.72 54.41 54.41 5.16 5233 52.33 5.68 50.12 50.12 623 47.79 47.79 6.82 58.18 158.18 57 58.29 158.29 4.30 56.40 156.401 4.72 154.42 154.421 5.18 1 5233 ISZ331 5.68 150.13 150.131 623 47.80 47.80 6.82 EVAPORA- Capacity Power Fumace Model •CAR••6024A•• CONDENSER ENTERING AIR TEMPERATURES deg F 1.00 CAR••6021A•• 0.98 TOR AIR 75 85 1.00 95 105 1.00 115 125 CSRH•6012A•• CFM EWB Capacity MBtuht Sens Total ; Total Sys- tem KW' Capacity MBtuht Sens 7ota1 ; Total Sys- tem KW Capacity MBtuht Sem Total = Total Sys- tam KVY•• With Capacity MBtuht Sero Total 1 CAR*16024A** Total Syr tem KW- Indoor Section Capacity MBtuht Sena Total t Total Sys- tem KW**Serra Capacity MBtuht Total t Total Sys- tem KW 72 66.53 35:15. 4.08 24ABR360(A,G)33.53,63 64.10 34.23 0.54 Outdoor 61.58 33.28 Section 5.08 58.96 32.30 5.63 5621 31.28 6.25 53.33 30.23 6.92 1750 67 60.70 43.23 4.06 58.47 42.29 4.53 56.13 41.32 5.04 53.71 40.33 5.60 51.17 39.29 6.22 48.50 38.22 6.88 58CV(AA155-22 62 55.68 51.26 4.05 53.67 50.29 4.51 51.58 49.26 5.02 49.44 48.17 5.58 4723 46.96 6.19 45.15 45.15 6.85 57 54.31 54.31 4.05 52.67 52.67 4.51 50.94 50.94 5.02 49.13 49.13 5.58 47.20 47.20 6.19 45.16 45.16 6.B5 72 67.63 36.85 4.18 65.10 35.91 4.64 62.47 34.95 5.16 59.76 33.96 5.73 56.91 32.93 6.35 53.93 31.87 7.02 2000 67 61.74 45.97 4.16 59.42 45.03 4.63 57.00 44.04 5.14 54.50 43.03 5.71 51.88 41.98 6.32 49.13 40.88 6.98 62 56.95 54.90 4.15 54.92 53.83 4.61 52.79 5279 5.13 50.91 50.91 5.69 48.87 48.87 6.30 46.70 46.70 6.96 57 56.44 56.44 4.15 54.69 54.69 4.61 152.84 152.841 5.13 50.92 150.921 5.69 148.87 148.871 6.30 146,71 146.71 6.96 72 68.43 38.46 4.28 65.81 37.51 4.74 63.11 36.53 5.26 160.32 35.53 5.83 57.40 34.50 6.45 54.34 33.42 1 7.12 2250 67 62.52 48.60 4.26 60.13 7.63 4.73 57.64 46.63 5.24 55.08 45.60 5.81 52.40 44.53 6.42 49.59 43.40 7.09 62 58.13 58.13 4.25 56.33 56.33 IL 4.72 54.39 54.39 5.23 52.36 5236 5.79 50.21 50.21 6.41 147.94 47.94 1 7.07 57 58.18 158.18 4.25 156.34 156.34 1 4.72 154.39 154.391 5.23 152.37 152.37 1 5.79 150.22 150.221 6.41 147.95 47.95 7.07 Multipliers for Determining the Performance With Other Indoor Sections Cooling Indoor Model Capacity Power Fumace Model •CAR••6024A•• 1.00 1.00 CAR••6021A•• 0.98 0.98 CNRH•6024A•• 1.00 1.00 CNRV•6024A•• 1.00 1.00 CSRH•6012A•• 1.00 1.00 FA4CN(F,C)060 0.99 0.99 FC4DN(F,B)060 1.01 1.01 FK4DN8006 1.00 0.98 CAR••6024A•• 0.98 0.98 58CV(AA135-22 CNRH'6024A•• 0.98 0.98 58CV(A)Q135-22 CNRV•6024A•• 0.98 0.98 58CV(AA135-22 CSRH•6012A•• 0.99 0.99 58CV(A,)()135-22 CAR••6024A•• 0.98 0.98 58CV(AA155-22 CNRH•6024A•• 0.98 0.98 58CV(AAlS5-22 CNRV•6024A•• 0.98 0.98 58CV(AA155-22 NOTE: When the required data fall between the published data, interpolation may be performed. Extrapolation is not an acceptable practice. Detailed cooling capacities are based on indoor and outdoor unit at the same elevation per ARI standard 210/240-94. If additional tubing length and/or indoor unit is located above outdoor unit, a slight variation in capacity may occur. •• Total system kW is total of indoor and outdoor unit kilowatts. t Total and sensible capacities are net capacities. Blower motor heat has been subtracted. t Sensible capacities shown are based on 80'F (27'C) entering air at the indoor coil. For sensible capacities at other than 80'F (27'C), deduct 835 Btuh (245 kW) per 1000 CFM (480 US) of indoor coil air for each degree below 80•F (27•C), or add 835 Btuh (245 kW) per 1000 CFM (480 LIS) of indoor coil air per degree above 80'F (27'C). When the required data fall between the published data, interpolation may be perforated. 24 r- Fu r/® Gas Water Heaters Available in 30, 38, 40 and 50 Gallon Tall — 30 and 40 Gallon Short Gas Models 6 -Year Limited Tank and Parts Warranty' With ProtectionPlus" the 6 -Year Limited Tank Warranty Becomes 10 Years! Guardian System" Longer Life • One -of -a -kind air/fuel shut-off device offers double • Patented magnesium anode rod design protection incorporates a special resistor that protects the • Maintenance free — no filter to clean tank from rust • Standard replacement parts Plus... Environmentally Friendly Burner • Brass drain valve and temperature and pressure • Low NOx design for low nitrous oxide emissions relief valve are included mSelf-Cleaning • Meets or exceeds National Appliance Energy • Eved(leen- patented system fights sediment build-up Conservation Act (NAECA) requirements • Reduces fuel costs ® High Efficiency Models Feature: • Provides more hot water • High performance and lower operating cost =- Easy to Light • Compfiant with many gas utility incentive `�; • No matches required programs Energy Efficient • More Prot water at low operating cost '� warranty Warranty >bn &«mule cmpfe warrar>tr . High Altitude Compliant EnergpFadvandAverage ArrwalOperating Costs • ATI models are certified for applications up to cased on aO.E- (Deparunent or Energy) test procedures j O.O.E nacord average tud rate natural gas ; 6,000 feet above sea level 6a.orro,en>rer9e3ougaoon •.-�: 42VR50-40F 83 1 62-1/41 58341 23 1 14-12 1 3 1 8 1 52.121 34 1 165 1 0.62 1 S146 T 38 4ZV38.40F 40 1 34 40.4 34.3 68 61-1/4 1 57-3/4 19-3/4 1 14-12 1 3 B 1 52-1/4 314 1 125 0.60 5150 A 40 42V4044DF 40 34 40.4 1 34.3 70 62-t2 59 19.3/4 14-12 3 8 5312 3r4 1 130 0.59 $152 L L 50 42V50 -40F 40 36 40.4 36.4 83 61.12 58 21-34 14.12 3 8 52.12 3'4r133 0.58 $155 SO 42V5450F SO - 50.6 - 83 fit 58 213/4 1412 0 6 52.12E 4 0.58 5155 30 22V30S-30F 30 - 30.3 - s0 493/4 461/4 19-3/4 14-12 3 8 40.1/44 0.61 $147 N _ 40 42V40S-40F a0 36 40.4 36.4 70 53 49.12 21-3'4 14-12 3 8 a4 3'4 0.59 $152 SPECIFY LP GAS WHEN ORDERING. AddP` suffix to the model number: Example: 42VR40-40PF. For high altitude applications of 6.OD0 to 10,000 lees above sea level, add -H- suffix to the model number. Example- 42VR50-40HF (available in 40 and 50 gallon models.) Rheem Guardian System Features... FLUE ANODE ROD 't H O H HOT F" C .._ ..... WATER WATER COLD ti CONNECTION CONNECTION Exclusive Combustion = ` ' '' - F Shut -oft System Flame Arrestor Plate Maintenance Free F9 Should a indent ocan• the A spedafll desi¢ted Ogre arrestor Superior air titration prevents the 3J4' N.P.T. Guarclan System shuts on the gas REILIEF prever0.s ignition d =outside Che Oarne arrestor from boom" cogged VALVE supply and the air supply preverrang combustion chamber. by fnt• dust and oil. OPENING a sustained yap" burn in the combustion dtarrtber. These units are designed to meet or exceed ANSI -c - (American National Standards Institute) requirements 67BECOMES ( 1 A I and have been tested acoordmg to D.O.E. test proce- dures and meet or exceed the energy efficiency tri- G requirements of NAECA• ASHRAE standard 90, BOCA Code and at state energy efficiency pertor.K WARRANTY mance criteria for energy consuming appliances. O D Before purchasing this appliance, read important energy cost and efficiency information available from For.more details, see form 101-7. your supplier. Rheem Water Heaters • 101 Bet! Road, Montgomery, Alabama 36117-4305 • www.rheem.com PRINTED IN U.S.A 04/04 WP FORM NO. 101.6 Rev. 4 Rheem & Ruud GUARDIAN SYSTEM Gas Water Heater Specifications Osaorlpilon features Roughing In Olmenalone Energy Info Jv II ....... z a " C z � b oq log o 3•g �� o�C r I 8 q of y a 4r cc CL CL AhearnRuud !a .b C) .- 1 z 2 V j S Sw 41 > ' 2 �y $ LS v v A 77 Professional Tell 40 IRHOPRO40I0P RUOPR040.40F 4 ee 597741 21 1d1/2 J_I 8 572/4 7l4 1J5 0.62 E14B os tres o s4 I dQ.4 7<.7 I ee *7114 Fury, Pacemaker Pacemaker Toll 1 40 141V40� 64.8 Tell 50 41V60•r 0.58 0.5.4 7711 64.5 6J.5 18.4 20.5 I JO 121V309 0.59 ;hon 40 141V408 ExCIVelve airAvel shut-off system Main1*n&n0e lite Ouerdlan System Easy to light: No match*& required n.va•.u� Y 40 1 36 1 40.4 EverKleen self-cleaning device Bru& drain valva Enviromnentaily friendly LowNOx burner design T&P valve Included LP models, add $40.00 Canon 01menslone (Inches) .... ................................ � m i C G v 0. I 3 v LL � ci I 21.5 18.4 ' 27.s 20.5 0.62 $140 H 64.8 27.s 27.7 1 0.58 0.5.4 $181 f187 64.5 6J.5 18.4 20.5 I 22.1 24.1 0.59 1 $156 51.9 18.a 22.1 0.56 $161 55.0 20.5 24.1