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1132 & 1134 S Arapaho Dr - Plan (2)
SHEET CELL: 949-401-3370 INFO@YARDDES.COM SCALE SHANI KRISPIN PR O J E C T N A M E : 11 3 4 S A R A P A H O D R . SA N T A A N A DATE SH E E T T I T L E IRVINE, CA 92618 6 FOXCHASE YARD DESIGN PREPARED BY: CA L I F O R N I A 9 2 7 0 4 00-G-001 1/16" = 1'-0" TI T L E S H E E T VICINITY MAP SCOPE OF WORK: 12/13/2025 THIS PROJECT SHALL COMPLY WITH THE FOLLOWING CODES: 2022 CALIFORNIA RESIDENTIAL CODE 2022 CALIFORNIA MECHANICAL CODE 2022 CALIFORNIA ELECTRICAL CODE 2022 CALIFORNIA PLUMBING CODE 2022 CALIFORNIA ENERGY CODE 2022 CALIFORNIA BUILDING CODE ASSESSOR PARCEL NO. (APN): 109-675-15 LEGAL DESCRIPTION: N TR 3937 LOT 144 LOT SIZE: 6,900 SQ FT EXISTING BUILDING SIZE: 1,231 SQ FT NO. OF STORIES: 1 CITY ZONING DESIGNATION: R-1 CONSTRUCTION TYPE: V-B LOT COVERAGE: 1,231 / 6,900 = 17.84% FIRE SPRINKLER: NO PROPOSED BUILDING SIZE (ADU): 638 SQ FT PROPOSED LOT COVERAGE: 1,869 / 6,900 = 27.08% 2022 CALIFORNIA GREEN BUILDING STANDARDS CODE (N)SITE PLAN APPROVAL STAMP NOTES: - THE ADU SF / SFD SF RATIO IS FOR PARK & REC FEE PURPOSE ONLY. PRIMARY RESIDENCE; BUILDING SAFETY STAFF ARE NOT RESPONSIBLE FOR THE ACCURACY OF THE GIVEN “SFR SF” OF THE EXISTING RESIDENCE. PROJECT CONSULTANTS: PROPERTY OWNER: NAME: MARIA GUADALUPE BARRON PHONE: (714) 609-4458 STRUCTURAL ENGINEER: NAME: SPS ENGINEERING EMAIL: SHANT.SPS@GMAIL.COM PHONE: (818) 747-7269 NAME: NALSER ENGINEERING EMAIL: NALSERENGINEERING@GMAIL.COM PHONE: (818) 913-7525 ENERGY: THE APPLICANT IS RESPONSIBLE FOR THE GIVEN “SFR SF” OF THE EXISTING SHEET LIST SHEET NUMBER SHEET NAME 00-G-001 00-G-002 TITLE SHEET 01-A-001 01-A-002 EXISTING PLANS GENERAL NOTES GENERAL NOTES 00-G-003 GENERAL NOTES 02-GD-001 PROPOSED PLANS GENERAL NOTES02-GD-002 GENERAL DETAILS02-GN-001 GENERAL DETAILS02-GN-002 ROOF & FOUNDATION PLAN02-S1 02-S2 DETAIL TITLE 2403-T-001 TITLE 2403-T-002 00-G-004 GENERAL NOTES 00-G-005 GENERAL NOTES 01-A-003 ELEVATIONS PUBLIC TRANSPORTATION DISTANCE - ALL UTILITIES WILL BE UNDERGROUND PER SAMC SECTION 41-626. - SCE REVIEW AND APPROVAL IS REQUIRED PRIOR TO PERMIT FINAL. NO EXISTING EASEMENTS ON-SITE DESIGN: NAME: YARD DESIGN EMAIL: INFO@YARDDES.COM PHONE: (949) 401-3370 OCCUPANCY GROUP: R-3 SANTA ANA MUNICIPAL CODE FEMA DESIGNATED FLOOD ZONE: NO 00-G-006 GRADING ADU SF / SFD SF = 638 / 1,231 = 51.82% REVISION 2 TO PERMIT #101122778: - REPLACE MINI SPLIT AC TO 2 TON PACKAGE UNIT ON THE ROOF REVISION 1 TO PERMIT #101122778: - RELOCSTE ADU BY 3' TO COMPLY WITH SCE SETBACKS - DEMO 2 (E)PATIO COVERS 01-A-004 DETAILS · · · · · CONCRETE FOOTING EARTH OF 15# FELT BACKING. PROVIDE 2 LAYERS 7/8" EXTERIOR CEMENT PLASTER OVER WIRE FABRIC AND 1 LAYER AT PLYWD SHEAR WALLS GALVANIZED METAL BASE SCREED PAVED AREA 2X MUD SILL STUD FRAMING WIRE FABRIC 3 1 / 2 " NOTE: 1. MINIMUM 26 GA. CORROSION-RESITANT OR PLASTIC WEEP SCREED WITH A MINIMUM VERTICAL FLANGE OF 3 1/2" SHALL BE PROVIDED AT OR BELOW FOUNDATION PLATE LINE ON EXTERIOR WALL 2" M I N . 4" M I N . CONCRETE FOOTING EARTH OF 15# FELT BACKING. PROVIDE 2 LAYERS 7/8" EXTERIOR CEMENT PLASTER OVER WIRE FABRIC AND 1 LAYER AT PLYWD SHEAR WALLS GALVANIZED METAL BASE SCREED PAVED AREA 2X MUD SILL STUD FRAMING WIRE FABRIC 2" M I N . 4" M I N . 3 1 / 2 " NOTE: 1. MINIMUM 26 GA. CORROSION-RESITANT OR PLASTIC WEEP SCREED WITH A MINIMUM VERTICAL FLANGE OF 3 1/2" SHALL BE PROVIDED AT OR BELOW FOUNDATION PLATE LINE ON EXTERIOR WALL TYPICAL GUTTER DETAIL TYPICAL WALL SIDING TYVEKâ HOMEWRAPâ R-5 RIGID INSULATION 7/16" PLYWOOD SHEATHING 2"x4" WOOD/METAL STUDS w/ R-15 BATT INSULATION 1/2" GYPSUM BOARD TYPICAL WALL - R-15 INSULATION 3"=1'0" (N)FLOOR PLAN SHEET CELL: 949-401-3370 INFO@YARDDES.COM SCALE SHANI KRISPIN PR O J E C T N A M E : 11 3 4 S A R A P A H O D R . SA N T A A N A DATE SH E E T T I T L E IRVINE, CA 92618 6 FOXCHASE YARD DESIGN PREPARED BY: CA L I F O R N I A 9 2 7 0 4 01-A-002 1/4" = 1'-0" PR O P O S E D P L A N S 11/26/2025 APPROVAL STAMP (N)ROOF PLAN (N)UTILITY PLAN ATTIC VENT CALCULATIONS:: ROOF SPECIFICATIONS: SCREED DETAIL (NO SCALE) FOUNDATION PLAN SCALE: 1/4" = 1' 1. PROVIDE A WEEP SCREED FOR STUCCO AT THE FOUNDATION PLATE LINE A MINIMUM 4" ABOVE THE EARTH OR 2" ABOVE PAVED AREAS. 2. HOLD-DOWN HARDWARE MUST BE SECURED IN PLACE PRIOR TO FOUNDATION INSPECTION. 3. HOLD-DOWN CONNECTOR BOLTS INTO WOOD FRAMING REQUIRE APPROVED PLATE WASHERS; AND HOLD-DOWNS SHALL BE TIGHTENED JUST PRIOR TO COVERING THE WALL FRAMING. CONNECTOR BOLTS INTO WOOD FRAMING REQUIRE STEEL PLATE WASHERS IN ACCORDANCE WITH TABLE 2306.5 OF THE LABC. 4. FOUNDATION ANCHOR BOLTS IN WALLS WITH LATERAL LOADS GREATER THAN 300 POUNDS/FOOT SHALL HAVE AN APPROVED PLATE WASHER UNDER EACH NUT; AND THE NUTS SHALL BE TIGHTENED JUST PRIOR TO COVERING THE WALL FRAMING. 5. UNO THE FOUNDATION BOLTS SHALL BE 5/8" DIA. WITH 3"x3"x1/4" PLATE WASHERS EMBEDDED AT LEAST 9 INCHES INTO THE CONCRETE (OR) MASONRY FOUNDATION SPACED NOT MORE THAN 6 FEET APART. 6. MIN 2 BOLTS PER PIECE OF SILL PLATE AND ONE LOCATED WITHIN 12" AND NOT LESS THAN 7 BOLT DIAMETER OR 4-3/8" OF EACH END OF EACH SILL PLATE. 7. FOUNDATION SILLS SHALL BE NATURALLY DURABLE OR PRESERVATIVE-TREATED WOOD. 8. ALL BOLT HOLES SHALL BE DRILLED 1/32" TO 1/16" OVERSIZED. PLATE WASHERS ARE REQUIRED FOR ALL HOLDOWNS. 9. ALL FOUNDATION EXCAVATIONS MUST BE OBSERVED AND APPROVED BY THE PROJECT ENGINEERING GEOLOGIST AND/OR PROJECT GEOTECHNICAL ENGINEER PRIOR TO PLACEMENT OF REINFORCING STEEL. 10. IF ADVERSE SOIL CONDITIONS ARE IN ENCOUNTERED, A SOILS INVESTIGATION REPORT MAY BE REQUIRED. 11. PROVIDE LEAD HOLE 40%-70% OF THREADED SHANK DIAMETER AND FULL DIAMETER FOR SMOOTH SHANK PORTION. 12. FASTENERS IN PRESERVATIVE TREATED WOOD OR FIRE RETARDANT WOOD SHALL BE OF HOT DIPPED ZINC COATED GALVANIZED STEEL OR STAINLESS STEEL. NOTES: DENOTES NEW FOOTING LEGEND: ALL DIAPHRAGM AND SHEAR WALL NAILING SHALL UTILIZE JOINTS OCCURRING IN BRACED WALL PANELS SOLID BLOCKING SHALL BE PROVIDED AT ALL HORIZONTAL COMMON NAILS OR GALVANIZED BOX. 1" Ø BOLT - 3.5"x3.5"x3/8" b) 3 x STUDS AND BLOCKS BETWEEN ADJACENT PANELS c) 1/2" EDGE DISTANCE FOR PLYWOOD BOUNDARY NAILING d) ALL PANEL JOINT AND SILL PLATE NAILING SHALL BE STAGGERED. e) SQUARE PLATE WASHERS SHALL BE USED WITH ANCHOR BOLTS 5/8" Ø BOLT - 3"x3"x1/4" 7/8" Ø BOLT - 3"x3"x5/16" a) 3 x FOUNDATION SILL PLATES ALL SHEAR WALLS WITH A SHEAR VALUE GREATER THAN 300 lb/ft SHOULD BE PROVIDED: 3/4" Ø BOLT - 3"x3"x5/16" d) STAGGER NAILS IF NAIL SPACING IS LESS THAN 2" O.C. 2. DOUBLE JOISTS ARE REQUIRED UNDER PARALLEL BEARING PARTITIONS. 3. AN AITC CERTIFICATE OF INSPECTION FOR ALL GLU-LAM BEAMS INCLUDING PARALLAM BEAMS SHALL BE SUBMITTED TO THE BUILDING AND SAFETY DEPT. PRIOR TO ERECTION. 4. GLUE LAM BEAMS MUST BE FABRICATED IN A LADBS LICENSED SHOP. IDENTIFY GRADE SYMBOL AND LAMINATION SPECIES PER T 5A, 2005 NDS SUPP. 6. SHOP WELDS MUST BE PERFORMED IN A LADBS LICENSED FABRICATORS SHOP. 8. ALL WOOD MEMBERS MUST BE GRADE MARKED WITH GRADE AND SPECIES. 9. BEARING WALL STUDS CANNOT BE NOTCHED MORE THAN 25% OF THEIR WIDTH. BORED HOLES CANNOT HAVE A DIAMETER GREATER THAN 40% OF THE STUD WIDTH 10. PROVIDE LEAD HOLE 40%-70% OF THREADED SHANK DIAMETER AND FULL DIAMETER FOR SMOOTH SHANK PORTION. 11. STRUCTURAL OBSERVATION IS REQUIRED FOR ALL PLYWOOD SHEAR WALLS WITH A DESIGN LOAD OVER 300 PLF. 12. ALL DIAPHRAGM AND SHEAR WALL NAILING SHALL UTILIZE COMMON NAILS OR GALVANIZED BOX. 14. EXTERIOR STAIRS AND BALCONIES MUST BE POSITIVELY ATTACHED TO THE STRUCTURE WITHOUT THE USE OF TOE NAILS OR NAILS IN WITHDRAWAL. 16. CONTRACTORS RESPONSIBLE FOR THE CONSTRUCTION OF A WIND OR SEISMIC FORCE RESISTING SYSTEM/ COMPONENT LISTED IN THE "STATEMENT OF SPECIAL INSPECTION" SHALL SUBMIT A WRITTEN STATEMENT OF RESPONSIBILITY TO THE LADBS INSPECTORS AND THE OWNER PRIOR TO THE COMMENCEMENT OF WORK ON SUCH SYSTEM OR COMPONENT PER SEC 1706.1 17. CONTINUOUS SPECIAL INSPECTION REQUIRED BY A REGISTERED DEPUTY INSPECTOR IS REQUIRED FOR FIELD WELDING, CONCRETE STRENGTH f'c>2500 PSI, HIGH STRENGTH BOLTING, SPRAYED-ON FIREPROOFING, ENGINEERED MASONRY, HIGH-LIFT GROUTING, PRE-STRESSED CONCRETE, HIGH LOAD DIAPHRAGMS AND SPECIAL MOMENT-RESISTING CONCRETE FRAMES. 7. LADBS LICENSED FABRICATOR IS REQUIRED FOR STRUCTURAL STEEL. 18. PERIODIC SPECIAL INSPECTION IS REQUIRED FOR WOOD SHEAR WALLS, SHEAR PANELS, AND DIAPHRAGMS, INCLUDING NAILING, BOLTING, ANCHORING, AND OTHER FASTENING TO COMPONENTS OF THE SEISMIC FORCE RESISTING SYSTEM. SPECIAL INSPECTION BY A DEPUTY INSPECTOR IS REQUIRED WHERE THE FASTENER SPACING OF THE SHEATHING IS MORE THAN 4 INCHES ON CENTER. 13. ROOF DIAPHRAGM NAILING TO BE INSPECTED BEFORE COVERING. FACE GRAIN OF PLYWOOD SHALL BE PERPENDICULAR TO SUPPORTS. FLOOR SHALL HAVE TONGUE AND GROOVE OR BLOCKED PANEL EDGES. PLYWOOD SPANS SHALL CONFORM WITH TABLE 2304.7 15. ALL BOLT HOLES SHALL BE DRILLED 1/32" TO 1/16" OVERSIZED. 1. ALL WALLS OVER 10' IN HEIGHT TO BE 2x6 @16" O.C. FRAMING. NOTES: FRAMING BOUNDARY 4x4 POST INTERIOR WALL (U.N.O.) SHEAR WALL PER PLAN FRAMING MEMBERS LEGEND: POST FROM ABOVE ON TOP OF BEAM/HEADER ON TOP OF BEAM/HEADER POST W/STRAP OR HOLDOWN FROM ABOVE ON TOP OF POST BELOW POST FROM ABOVE W/STRAP OR HOLDOWN POST FROM ABOVE ON TOP OF POST BELOW ROOF SHEATHING: 5/8" CDX PLYWOOD STANDARD PS I-95 INDEX 32/16 DOUGLAS FIR-LARCH W/10d COMMON NAILS @ 6"_6"_10" O.C. 19. FASTENERS IN PRESERVATIVE TREATED WOOD OR FIRE RETARDANT WOOD SHALL BE OF HOT DIPPED ZINC COATED GALVANIZED STEEL OR STAINLESS STEEL. 20. FIELD WELDING TO BE DONE BY WELDERS CERTIFIED BY THE LADBS. CONTINUOUS INSPECTION IS REQUIRED, 21. A COPY OF THE LOS ANGELES RESEARCH REPORT AND/OR CONDITIONS OF LISTING SHALL BE MADE 4x6 POST EXTERIOR WALL (U.N.O.) ROOF FRAMING PLAN DENOTES EXISTING FOOTING 380 650 498 PLATE TO BLKG. REQUIREMENTS SDS 1/4"x 6 SDS 1/4"x 6 SDS 1/4"x 6 SHEAR WALL SCHEDULE 12" O.C. PANEL NAILING 12" O.C. 12" O.C. 12" O.C. 10d @215/32" PLYWOOD 15/32" PLYWOOD STRUCTURAL 1 STRUCTURAL 1 STRUCTURAL 1 15/32" PLYWOOD4 3 2" O.C. 10d @ 10d @ 3" O.C. 4" O.C. OF SHEAR STRUCTURAL 1 WALL MATERIAL 15/32" PLYWOOD DESCRIPTION TYPE 1 PERIMETER 6" O.C. 10d @ 10d @ 12" O.C. OR LPT4 @ 8" O.C. 8" O.C. OR 10" O.C. OR LPT4 @ 10" O.C. LPT4 @ 12" O.C. 10d @ 10d @ A35 @ A35 @ @ 4" O.C. @ 8" O.C. @ 6" O.C. REQUIREMENTS BLKG. TO PLATE 16" O.C. OR CONNECTION LPT4 @ 16" O.C. 10d @ FIELD A35 @ A35 @ CONNECTION @ 6" O.C. 20d NAILS OR 5/8" Ø @ 24" O.C. 3/4" Ø @ 32" O.C. 3/4" Ø @ 32" O.C. 5/8" Ø @ 32" O.C. 3/4" Ø @ 48" O.C. OR OR 9" 9" 9" 9" 9" 3/4" Ø @ 6'-0" O.C. 5/8" Ø @ 48" O.C. 5/8" Ø @ 32" O.C. ANCHOR BOLTS FOUND CONN. SILL PLATE TO OR 9" 255 ANCHOR EMB. BOLTS 9" 9" ALLOWABLE SHEAR LOAD PLF No DATE REVISIONS BY SEAL CITY APPROVAL SHEET DRAWN BY CHECKED DATE DRAWN DATE SCALE JOB # AD D R E S S : 11 3 4 S A R A P A H O D R . , SA N T A A N A , C A 9 2 7 0 4 OW N E R : 818 747 7269 | shant.sps@gmail.com 15445 Ventura Blvd. #63, Sherman Oaks,CA 91403 S.S. S.S. 24-1050 11/30/2024 12/24/2025 1/4” = 1’-0” S1 RO O F & F O U N D A T I O N PL A N No DATE REVISIONS BY SEAL CITY APPROVAL SHEET DRAWN BY CHECKED DATE DRAWN DATE SCALE JOB # AD D R E S S : 11 3 4 S A R A P A H O D R . , SA N T A A N A , C A 9 2 7 0 4 OW N E R : 818 747 7269 | shant.sps@gmail.com 15445 Ventura Blvd. #63, Sherman Oaks,CA 91403 S.S. S.S. 24-1050 11/30/2024 12/24/2025 N.T.S. S2 DE T A I L STRUCTURAL CALCULATIONS PROJECT: 1132 S Arapaho Dr., Santa Ana, CA 92704 JOB #24-1050 12-09-25 BY: Shant Shahbaz Roof: D.L (psf)20 L.L (psf)20 Floor:Wall: D.L (psf)16 L.L (psf)15 10 L.L (psf)40 15 D.L (psf) L.L (psf)60 L= Length wL = (T.A.i * L.L.i) L.L (psf) D.L (psf)16 D.L. =Dead Load T.A = Tributary Area L.L = Live Load wD = (T.A.i * D.L.i) ←wD, wL RR (1) L (ft)13'Cantilever 1' T.A. (ft)1.33 wD (lb/ft)27 wL (lb/ft)27 13' ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ←D, wL CJ (1) L (ft)11.5' T.A. (ft)1.33 wD (lb/ft)13 wL (lb/ft)20 2 x 6 @ 16" O.C. (No.2)↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 11.5' ←D, wL HDR(1) L (ft)2' T.A.roof (ft)8.5 ceilling (ft)0 wD (lb/ft)170 wL 170 4 x 6 (No. 2) ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 2' SPS ENGINEERING 818 747 7269 | shant.sps@gmail.com Roof Framing: ←wD, wL HDR(2) L (ft)5' T.A.roof (ft)9 (ft)0 wD (lb/ft)180 wL 180 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 5' ←D, wL HDR(3) L (ft)3' T.A.roof (ft)13 (ft)6 wD 320 wL (lb/ft)350 3' 4 x 6 (No. 2) ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ←D, wL HDR(4) L (ft)5' T.A.roof (ft)6.5 ceilling (ft)6 wD (lb/ft)190 wL (lb/ft)220 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 5' ←D, wL HDR(5) L (ft)2' T.A.roof (ft)3 (ft)0 wD (lb/ft)60 wL 60 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 2' ←D, wL HDR(6) L (ft)3' T.A.roof (ft)9 (ft)6 wD 240 wL (lb/ft)270 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 3' SPS ENGINEERING 818 747 7269 | shant.sps@gmail.com Roof Framing: ←wD, wL HDR(7) L (ft)3' T.A.roof (ft)9 (ft)6 wD (lb/ft)240 wL 270 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 3' ←D, wL HBM(1) L (ft)18.5'Cantilever 1.5' T.A.roof (ft)12 (ft)0 wD 240 wL (lb/ft)240 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 18.5' ←D, wL HBM(2) L (ft)18.5'Cantilever 1.5' T.A.roof (ft)12 ceilling (ft)0 wD (lb/ft)240 wL (lb/ft)240 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 18.5' ←D, wL HBM(3) L (ft)18.5'Cantilever 1.5' T.A.roof (ft)12 (ft)0 wD (lb/ft)240 wL 240 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 18.5' ←D, wL HBM(4) L (ft)18.5'Cantilever 1.5' T.A.roof (ft)12 (ft)0 wD 240 wL (lb/ft)240 ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 18.5' SPS ENGINEERING 818 747 7269 | shant.sps@gmail.com Roof Framing: ←wD, wL CBM(5) L (ft)19' T.A.roof (ft)11 (ft)11 wD (lb/ft)330 wL 385 (lbs)810 (lbs)810 (lbs)810 (lbs)810 3D (lbs)810 (lbs)810 (lbs)810 (lbs)810 From HBM (3) @ 14' From HBM (3) @ 14' From HBM (4) @ 14' From HBM (4) @ 14' From HBM (1) @ 12' From HBM (1) @ 12' From HBM (2) @ 12' From HBM (2) @ 12' ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ 19' SPS ENGINEERING 818 747 7269 | shant.sps@gmail.com Wood Beam LIC# : KW-06019339, Build:20.25.11.18 SPS Engineering (c) ENERCALC, LLC 1982-2025 DESCRIPTION:RR1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks Ca, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Referenced Design Standard(s) : NDS 2024* Load Combination Set : ASCE 7-16 Code References Governing Code : IBC 2021 *User-selected, not referenced by : IBC 2021 Material Properties Beam Bracing :Beam is Fully Braced against lateral-torsional buckling Repetitive Member Stress Increase Allowable Stress Design Douglas Fir-South No.2 850.0 850.0 1,350.0 520.0 1,200.0 440.0 180.0 525.0 28.720 Analysis Method : Eminbend - xx ksi Wood Species : Wood Grade : Fb + psi psi Fv psi Fb - Ft psi Fc - Prll psi psiFc - Perp E : Modulus of Elasticity Ebend- xx ksi Density pcf Load Combination :ASCE 7-16 2x10 Span = 12.0 ft 2x10 Span = 1.0 ft 1 2 3 L(0.2) D(0.0270) L(0.0270) .Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight NOT internally calculated and added Loads on all spans... Uniform Load on ALL spans : D = 0.0270, L = 0.0270 k/ft Load for Span Number 1 Point Load : L = 0.20 k @ 6.0 ft .DESIGN SUMMARY Design OK Maximum Bending Stress Ratio Maximum Shear Stress Ratio 2x10 0.232 Section used for this span2x10 : 10.815 =: 1 Load Combination +D+L+H, LL Comb Run (L*)+D+L+H, LL Comb Run (LL) Span # where maximum occurs Span # 1 Location of maximum on span 5.966 ft 41.78 psi= 1,075.25 psi Section used for this span Span # where maximum occurs Location of maximum on span Span # 1= Load Combination = = = 180.00 psi== 11.263 ft= = 876.22 psi Maximum Deflection 676 >=360 452 Ratio =292 >=240 Max Downward Transient Deflection 0.213 in 440 Ratio =>=360 Max Upward Transient Deflection -0.054 in Ratio = Max Downward Total Deflection 0.318 in Ratio =>=240 Max Upward Total Deflection -0.082 in fb: Actual F'b fv: Actual F'v Span: 1 : L Only, LL Comb Run (L*) Span: 2 : L Only, LL Comb Run (L*) Span: 1 : +D+L+H, LL Comb Run (L*) Span: 2 : +D+L+H, LL Comb Run (L*) NDS2018 NDS2018 .Maximum Forces & Stresses for Load Combinations Span #C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu +D+H 0.0 0.00 0.00.0 Length = 12.0 ft 1 0.278 0.096 0.90 1.100 1.151.00 1.00 0.48 268.9 967.7 0.14 162.015.5 Length = 1.0 ft 2 0.008 0.004 0.90 1.100 1.151.00 1.00 0.01 7.6 967.7 0.01 162.00.7 +D+L+H, LL Comb Run (*L)0.00.0 Wood Beam LIC# : KW-06019339, Build:20.25.11.18 SPS Engineering (c) ENERCALC, LLC 1982-2025 DESCRIPTION:RR1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks Ca, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu 1.00Length = 12.0 ft 1 0.247 0.087 1.00 1.100 1.151.00 1.00 0.47 265.1 1,075.3 0.14 180.01.00 15.61.00 1.00Length = 1.0 ft 2 0.014 0.008 1.00 1.100 1.151.00 1.00 0.03 15.1 1,075.3 0.01 180.01.00 1.41.00 1.00+D+L+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.815 0.231 1.00 1.100 1.151.00 1.00 1.56 876.2 1,075.3 0.39 180.01.00 41.71.00 1.00Length = 1.0 ft 2 0.007 0.004 1.00 1.100 1.151.00 1.00 0.01 7.6 1,075.3 0.01 180.01.00 0.71.00 1.00+D+L+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.811 0.232 1.00 1.100 1.151.00 1.00 1.56 872.5 1,075.3 0.39 180.01.00 41.81.00 1.00Length = 1.0 ft 2 0.014 0.008 1.00 1.100 1.151.00 1.00 0.03 15.1 1,075.3 0.01 180.01.00 1.41.00 1.00+D+Lr+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.200 0.069 1.25 1.100 1.151.00 1.00 0.48 268.9 1,344.1 0.14 225.01.00 15.51.00 1.00Length = 1.0 ft 2 0.006 0.003 1.25 1.100 1.151.00 1.00 0.01 7.6 1,344.1 0.01 225.01.00 0.71.00 1.00+D+Lr+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.200 0.069 1.25 1.100 1.151.00 1.00 0.48 268.9 1,344.1 0.14 225.01.00 15.51.00 1.00Length = 1.0 ft 2 0.006 0.003 1.25 1.100 1.151.00 1.00 0.01 7.6 1,344.1 0.01 225.01.00 0.71.00 1.00+D+Lr+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.200 0.069 1.25 1.100 1.151.00 1.00 0.48 268.9 1,344.1 0.14 225.01.00 15.51.00 1.00Length = 1.0 ft 2 0.006 0.003 1.25 1.100 1.151.00 1.00 0.01 7.6 1,344.1 0.01 225.01.00 0.71.00 1.00+D+S+H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.217 0.075 1.15 1.100 1.151.00 1.00 0.48 268.9 1,236.5 0.14 207.01.00 15.51.00 1.00Length = 1.0 ft 2 0.006 0.003 1.15 1.100 1.151.00 1.00 0.01 7.6 1,236.5 0.01 207.01.00 0.71.00 1.00+D+0.750Lr+0.750L+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.198 0.069 1.25 1.100 1.151.00 1.00 0.47 266.1 1,344.1 0.14 225.01.00 15.61.00 1.00Length = 1.0 ft 2 0.010 0.005 1.25 1.100 1.151.00 1.00 0.02 13.3 1,344.1 0.01 225.01.00 1.21.00 1.00+D+0.750Lr+0.750L+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.539 0.156 1.25 1.100 1.151.00 1.00 1.29 724.4 1,344.1 0.32 225.01.00 35.11.00 1.00Length = 1.0 ft 2 0.006 0.003 1.25 1.100 1.151.00 1.00 0.01 7.6 1,344.1 0.01 225.01.00 0.71.00 1.00+D+0.750Lr+0.750L+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.537 0.156 1.25 1.100 1.151.00 1.00 1.29 721.6 1,344.1 0.33 225.01.00 35.21.00 1.00Length = 1.0 ft 2 0.010 0.005 1.25 1.100 1.151.00 1.00 0.02 13.3 1,344.1 0.01 225.01.00 1.21.00 1.00+D+0.750L+0.750S+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.215 0.075 1.15 1.100 1.151.00 1.00 0.47 266.1 1,236.5 0.14 207.01.00 15.61.00 1.00Length = 1.0 ft 2 0.011 0.006 1.15 1.100 1.151.00 1.00 0.02 13.3 1,236.5 0.01 207.01.00 1.21.00 1.00+D+0.750L+0.750S+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.586 0.170 1.15 1.100 1.151.00 1.00 1.29 724.4 1,236.5 0.32 207.01.00 35.11.00 1.00Length = 1.0 ft 2 0.006 0.003 1.15 1.100 1.151.00 1.00 0.01 7.6 1,236.5 0.01 207.01.00 0.71.00 1.00+D+0.750L+0.750S+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.584 0.170 1.15 1.100 1.151.00 1.00 1.29 721.6 1,236.5 0.33 207.01.00 35.21.00 1.00Length = 1.0 ft 2 0.011 0.006 1.15 1.100 1.151.00 1.00 0.02 13.3 1,236.5 0.01 207.01.00 1.21.00 1.00+D+0.60W+H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.156 0.054 1.60 1.100 1.151.00 1.00 0.48 268.9 1,720.4 0.14 288.01.00 15.51.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 1.00+D+0.750Lr+0.750L+0.450W+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.155 0.054 1.60 1.100 1.151.00 1.00 0.47 266.1 1,720.4 0.14 288.01.00 15.61.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+D+0.750Lr+0.750L+0.450W+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.421 0.122 1.60 1.100 1.151.00 1.00 1.29 724.4 1,720.4 0.32 288.01.00 35.11.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 Wood Beam LIC# : KW-06019339, Build:20.25.11.18 SPS Engineering (c) ENERCALC, LLC 1982-2025 DESCRIPTION:RR1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks Ca, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu 1.00+D+0.750Lr+0.750L+0.450W+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.419 0.122 1.60 1.100 1.151.00 1.00 1.29 721.6 1,720.4 0.33 288.01.00 35.21.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+D+0.750L+0.750S+0.450W+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.155 0.054 1.60 1.100 1.151.00 1.00 0.47 266.1 1,720.4 0.14 288.01.00 15.61.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+D+0.750L+0.750S+0.450W+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.421 0.122 1.60 1.100 1.151.00 1.00 1.29 724.4 1,720.4 0.32 288.01.00 35.11.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 1.00+D+0.750L+0.750S+0.450W+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.419 0.122 1.60 1.100 1.151.00 1.00 1.29 721.6 1,720.4 0.33 288.01.00 35.21.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+0.60D+0.60W+0.60H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.094 0.032 1.60 1.100 1.151.00 1.00 0.29 161.3 1,720.4 0.09 288.01.00 9.31.00 1.00Length = 1.0 ft 2 0.003 0.001 1.60 1.100 1.151.00 1.00 0.01 4.5 1,720.4 0.00 288.01.00 0.41.00 1.00+D+0.70E+0.60H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.156 0.054 1.60 1.100 1.151.00 1.00 0.48 268.9 1,720.4 0.14 288.01.00 15.51.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 1.00+D+0.750L+0.750S+0.5250E+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.155 0.054 1.60 1.100 1.151.00 1.00 0.47 266.1 1,720.4 0.14 288.01.00 15.61.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+D+0.750L+0.750S+0.5250E+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.421 0.122 1.60 1.100 1.151.00 1.00 1.29 724.4 1,720.4 0.32 288.01.00 35.11.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 1.00+D+0.750L+0.750S+0.5250E+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.419 0.122 1.60 1.100 1.151.00 1.00 1.29 721.6 1,720.4 0.33 288.01.00 35.21.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+0.60D+0.70E+H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.094 0.032 1.60 1.100 1.151.00 1.00 0.29 161.3 1,720.4 0.09 288.01.00 9.31.00 1.00Length = 1.0 ft 2 0.003 0.001 1.60 1.100 1.151.00 1.00 0.01 4.5 1,720.4 0.00 288.01.00 0.41.00 . LocationLoad CombinationMax.LocationLoad CombinationSpan Max. Overall Maximum Deflections "-" Defl in Span in Span"+" Defl +D+L+H, LL Comb Run (L*)1 0.3180 6.034 0.0000 0.000 +D+L+H, LL Comb Run (L*)2 0.0000 6.034 -0.0820 1.000 . Load Combination Support 1 Support 2 Support 3 Vertical Reactions Support notation : Far left is #1 Values in KIPS Max Upward from all Load Conditions 0.423 0.480 Max Upward from Load Combinations 0.423 0.480 Max Upward from Load Cases 0.262 0.290 Max Downward from all Load Conditions (Resisting Uplift)-0.001 Max Downward from Load Cases (Resisting Uplift)-0.001 +D+H 0.161 0.190 +D+L+H, LL Comb Run (*L)0.160 0.218 +D+L+H, LL Comb Run (L*)0.423 0.452 +D+L+H, LL Comb Run (LL)0.422 0.480 +D+Lr+H, LL Comb Run (*L)0.161 0.190 +D+Lr+H, LL Comb Run (L*)0.161 0.190 +D+Lr+H, LL Comb Run (LL)0.161 0.190 +D+S+H 0.161 0.190 Wood Beam LIC# : KW-06019339, Build:20.25.11.18 SPS Engineering (c) ENERCALC, LLC 1982-2025 DESCRIPTION:RR1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks Ca, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Load Combination Support 1 Support 2 Support 3 Vertical Reactions Support notation : Far left is #1 Values in KIPS +D+0.750Lr+0.750L+H, LL Comb Run (*L)0.160 0.211 +D+0.750Lr+0.750L+H, LL Comb Run (L*)0.357 0.387 +D+0.750Lr+0.750L+H, LL Comb Run (LL)0.357 0.408 +D+0.750L+0.750S+H, LL Comb Run (*L)0.160 0.211 +D+0.750L+0.750S+H, LL Comb Run (L*)0.357 0.387 +D+0.750L+0.750S+H, LL Comb Run (LL)0.357 0.408 +D+0.60W+H 0.161 0.190 +D+0.750Lr+0.750L+0.450W+H, LL Comb Run (*L)0.160 0.211 +D+0.750Lr+0.750L+0.450W+H, LL Comb Run (L*)0.357 0.387 +D+0.750Lr+0.750L+0.450W+H, LL Comb Run (LL)0.357 0.408 +D+0.750L+0.750S+0.450W+H, LL Comb Run (*L)0.160 0.211 +D+0.750L+0.750S+0.450W+H, LL Comb Run (L*)0.357 0.387 +D+0.750L+0.750S+0.450W+H, LL Comb Run (LL)0.357 0.408 +0.60D+0.60W+0.60H 0.097 0.114 +D+0.70E+0.60H 0.161 0.190 +D+0.750L+0.750S+0.5250E+H, LL Comb Run (*L)0.160 0.211 +D+0.750L+0.750S+0.5250E+H, LL Comb Run (L*)0.357 0.387 +D+0.750L+0.750S+0.5250E+H, LL Comb Run (LL)0.357 0.408 +0.60D+0.70E+H 0.097 0.114 D Only 0.161 0.190 L Only, LL Comb Run (*L)-0.001 0.028 L Only, LL Comb Run (L*)0.262 0.262 L Only, LL Comb Run (LL)0.261 0.290 H Only Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:CJ1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 CODE REFERENCES Calculations per NDS 2018, IBC 2021, SDPWS 2021 Load Combination Set : ASCE 7-16 Material Properties Beam Bracing :Beam is Fully Braced against lateral-torsional buckling Repetitive Member Stress Increase Allowable Stress Design Douglas Fir-South No.2 850.0 850.0 1,350.0 520.0 1,200.0 440.0 180.0 525.0 28.720 Analysis Method : Eminbend - xx ksi Wood Species : Wood Grade : Fb + psi psi Fv psi Fb - Ft psi Fc - Prll psi psiFc - Perp E : Modulus of Elasticity Ebend- xx ksi Density pcf Load Combination :ASCE 7-16 .Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight NOT internally calculated and added Loads on all spans... Uniform Load on ALL spans : D = 0.0130, L = 0.020 k/ft .DESIGN SUMMARY Design OK Maximum Bending Stress Ratio 0.681: 1 Load Combination +D+L Span # where maximum occurs Span # 1 Location of maximum on span 5.750 ft 31.98 psi= = 1,270.75 psi 2x6Section used for this span Span # where maximum occurs Location of maximum on span Span # 1= Load Combination +D+L = = = 180.00 psi== Section used for this span 2x6 Maximum Shear Stress Ratio 0.178 : 1 0.000 ft= = 865.64 psi Maximum Deflection 435 <360 263 Ratio =0 <240 Max Downward Transient Deflection 0.317 in 0 Ratio =>=360 Max Upward Transient Deflection 0 in Ratio = Max Downward Total Deflection 0.523 in Ratio =>=240 Max Upward Total Deflection 0 in fb: Actual F'b fv: Actual F'v Span: 1 : L Only n/a Span: 1 : +D+L n/a .Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu D Only 0.0 0.00 0.00.0 1.00Length = 11.50 ft 1 0.298 0.078 0.90 1.300 1.151.00 1.00 0.21 341.0 1,143.7 0.07 162.01.00 12.61.00 1.00+D+L 1.300 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 11.50 ft 1 0.681 0.178 1.00 1.300 1.151.00 1.00 0.55 865.6 1,270.8 0.18 180.01.00 32.01.00 1.00+D+0.750L 1.300 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 11.50 ft 1 0.462 0.121 1.25 1.300 1.151.00 1.00 0.46 734.5 1,588.4 0.15 225.01.00 27.11.00 1.00+0.60D 1.300 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 11.50 ft 1 0.101 0.026 1.60 1.300 1.151.00 1.00 0.13 204.6 2,033.2 0.04 288.01.00 7.61.00 . Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:CJ1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 LocationLoad CombinationMax.LocationLoad CombinationSpan Max. Overall Maximum Deflections "-" Defl in Span in Span"+" Defl +D+L1 0.5234 5.792 0.0000 0.000 . Load Combination Support 1 Support 2 Vertical Reactions Support notation : Far left is #1 Values in KIPS Max Upward from all Load Conditions 0.190 0.190 Max Upward from Load Combinations 0.190 0.190 Max Upward from Load Cases 0.115 0.115 D Only 0.075 0.075 +D+L 0.190 0.190 +D+0.750L 0.161 0.161 +0.60D 0.045 0.045 L Only 0.115 0.115 Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:HDR1-2 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 CODE REFERENCES Calculations per NDS 2018, IBC 2021, SDPWS 2021 Load Combination Set : ASCE 7-16 Material Properties Beam Bracing :Beam is Fully Braced against lateral-torsional buckling Allowable Stress Design Douglas Fir-South No.2 850.0 850.0 1,350.0 520.0 1,200.0 440.0 180.0 525.0 28.720 Analysis Method : Eminbend - xx ksi Wood Species : Wood Grade : Fb + psi psi Fv psi Fb - Ft psi Fc - Prll psi psiFc - Perp E : Modulus of Elasticity Ebend- xx ksi Density pcf Load Combination :ASCE 7-16 .Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight NOT internally calculated and added Loads on all spans... Uniform Load on ALL spans : D = 0.180, L = 0.180 k/ft .DESIGN SUMMARY Design OK Maximum Bending Stress Ratio 0.692: 1 Load Combination +D+L Span # where maximum occurs Span # 1 Location of maximum on span 2.500 ft 57.33 psi= = 1,105.00 psi 4x6Section used for this span Span # where maximum occurs Location of maximum on span Span # 1= Load Combination +D+L = = = 180.00 psi== Section used for this span 4x6 Maximum Shear Stress Ratio 0.319 : 1 0.000 ft= = 765.05 psi Maximum Deflection 1372 <360 686 Ratio =0 <240 Max Downward Transient Deflection 0.044 in 0 Ratio =>=360 Max Upward Transient Deflection 0 in Ratio = Max Downward Total Deflection 0.087 in Ratio =>=240 Max Upward Total Deflection 0 in fb: Actual F'b fv: Actual F'v Span: 1 : L Only n/a Span: 1 : +D+L n/a .Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu D Only 0.0 0.00 0.00.0 1.00Length = 5.0 ft 1 0.385 0.177 0.90 1.300 1.001.00 1.00 0.56 382.5 994.5 0.37 162.01.00 28.71.00 1.00+D+L 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 5.0 ft 1 0.692 0.319 1.00 1.300 1.001.00 1.00 1.13 765.1 1,105.0 0.74 180.01.00 57.31.00 1.00+D+0.750L 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 5.0 ft 1 0.485 0.223 1.25 1.300 1.001.00 1.00 0.98 669.4 1,381.3 0.64 225.01.00 50.21.00 1.00+0.60D 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 5.0 ft 1 0.130 0.060 1.60 1.300 1.001.00 1.00 0.34 229.5 1,768.0 0.22 288.01.00 17.21.00 . Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:HDR1-2 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 LocationLoad CombinationMax.LocationLoad CombinationSpan Max. Overall Maximum Deflections "-" Defl in Span in Span"+" Defl +D+L1 0.0874 2.518 0.0000 0.000 . Load Combination Support 1 Support 2 Vertical Reactions Support notation : Far left is #1 Values in KIPS Max Upward from all Load Conditions 0.900 0.900 Max Upward from Load Combinations 0.900 0.900 Max Upward from Load Cases 0.450 0.450 D Only 0.450 0.450 +D+L 0.900 0.900 +D+0.750L 0.788 0.788 +0.60D 0.270 0.270 L Only 0.450 0.450 Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:HDR3 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 CODE REFERENCES Calculations per NDS 2018, IBC 2021, SDPWS 2021 Load Combination Set : ASCE 7-16 Material Properties Beam Bracing :Beam is Fully Braced against lateral-torsional buckling Allowable Stress Design Douglas Fir-South No.2 850.0 850.0 1,350.0 520.0 1,200.0 440.0 180.0 525.0 28.720 Analysis Method : Eminbend - xx ksi Wood Species : Wood Grade : Fb + psi psi Fv psi Fb - Ft psi Fc - Prll psi psiFc - Perp E : Modulus of Elasticity Ebend- xx ksi Density pcf Load Combination :ASCE 7-16 .Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight NOT internally calculated and added Loads on all spans... Uniform Load on ALL spans : D = 0.320, L = 0.350 k/ft .DESIGN SUMMARY Design OK Maximum Bending Stress Ratio 0.464: 1 Load Combination +D+L Span # where maximum occurs Span # 1 Location of maximum on span 1.500 ft 54.88 psi= = 1,105.00 psi 4x6Section used for this span Span # where maximum occurs Location of maximum on span Span # 1= Load Combination +D+L = = = 180.00 psi== Section used for this span 4x6 Maximum Shear Stress Ratio 0.305 : 1 0.000 ft= = 512.59 psi Maximum Deflection 3267 <360 1706 Ratio =0 <240 Max Downward Transient Deflection 0.011 in 0 Ratio =>=360 Max Upward Transient Deflection 0 in Ratio = Max Downward Total Deflection 0.021 in Ratio =>=240 Max Upward Total Deflection 0 in fb: Actual F'b fv: Actual F'v Span: 1 : L Only n/a Span: 1 : +D+L n/a .Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu D Only 0.0 0.00 0.00.0 1.00Length = 3.0 ft 1 0.246 0.162 0.90 1.300 1.001.00 1.00 0.36 244.8 994.5 0.34 162.01.00 26.21.00 1.00+D+L 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 3.0 ft 1 0.464 0.305 1.00 1.300 1.001.00 1.00 0.75 512.6 1,105.0 0.70 180.01.00 54.91.00 1.00+D+0.750L 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 3.0 ft 1 0.323 0.212 1.25 1.300 1.001.00 1.00 0.66 445.6 1,381.3 0.61 225.01.00 47.71.00 1.00+0.60D 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 3.0 ft 1 0.083 0.055 1.60 1.300 1.001.00 1.00 0.22 146.9 1,768.0 0.20 288.01.00 15.71.00 . Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:HDR3 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 LocationLoad CombinationMax.LocationLoad CombinationSpan Max. Overall Maximum Deflections "-" Defl in Span in Span"+" Defl +D+L1 0.0211 1.511 0.0000 0.000 . Load Combination Support 1 Support 2 Vertical Reactions Support notation : Far left is #1 Values in KIPS Max Upward from all Load Conditions 1.005 1.005 Max Upward from Load Combinations 1.005 1.005 Max Upward from Load Cases 0.525 0.525 D Only 0.480 0.480 +D+L 1.005 1.005 +D+0.750L 0.874 0.874 +0.60D 0.288 0.288 L Only 0.525 0.525 Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:HDR4-7 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 CODE REFERENCES Calculations per NDS 2018, IBC 2021, SDPWS 2021 Load Combination Set : ASCE 7-16 Material Properties Beam Bracing :Beam is Fully Braced against lateral-torsional buckling Allowable Stress Design Douglas Fir-South No.2 850.0 850.0 1,350.0 520.0 1,200.0 440.0 180.0 525.0 28.720 Analysis Method : Eminbend - xx ksi Wood Species : Wood Grade : Fb + psi psi Fv psi Fb - Ft psi Fc - Prll psi psiFc - Perp E : Modulus of Elasticity Ebend- xx ksi Density pcf Load Combination :ASCE 7-16 .Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight NOT internally calculated and added Loads on all spans... Uniform Load on ALL spans : D = 0.240, L = 0.270 k/ft .DESIGN SUMMARY Design OK Maximum Bending Stress Ratio 0.981: 1 Load Combination +D+L Span # where maximum occurs Span # 1 Location of maximum on span 2.500 ft 81.22 psi= = 1,105.00 psi 4x6Section used for this span Span # where maximum occurs Location of maximum on span Span # 1= Load Combination +D+L = = = 180.00 psi== Section used for this span 4x6 Maximum Shear Stress Ratio 0.451 : 1 0.000 ft= = 1,083.83 psi Maximum Deflection 914 <360 484 Ratio =0 <240 Max Downward Transient Deflection 0.066 in 0 Ratio =>=360 Max Upward Transient Deflection 0 in Ratio = Max Downward Total Deflection 0.124 in Ratio =>=240 Max Upward Total Deflection 0 in fb: Actual F'b fv: Actual F'v Span: 1 : L Only n/a Span: 1 : +D+L n/a .Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu D Only 0.0 0.00 0.00.0 1.00Length = 5.0 ft 1 0.513 0.236 0.90 1.300 1.001.00 1.00 0.75 510.0 994.5 0.49 162.01.00 38.21.00 1.00+D+L 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 5.0 ft 1 0.981 0.451 1.00 1.300 1.001.00 1.00 1.59 1,083.8 1,105.0 1.04 180.01.00 81.21.00 1.00+D+0.750L 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 5.0 ft 1 0.681 0.313 1.25 1.300 1.001.00 1.00 1.38 940.4 1,381.3 0.90 225.01.00 70.51.00 1.00+0.60D 1.300 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 5.0 ft 1 0.173 0.080 1.60 1.300 1.001.00 1.00 0.45 306.0 1,768.0 0.29 288.01.00 22.91.00 . Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:HDR4-7 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 LocationLoad CombinationMax.LocationLoad CombinationSpan Max. Overall Maximum Deflections "-" Defl in Span in Span"+" Defl +D+L1 0.1239 2.518 0.0000 0.000 . Load Combination Support 1 Support 2 Vertical Reactions Support notation : Far left is #1 Values in KIPS Max Upward from all Load Conditions 1.275 1.275 Max Upward from Load Combinations 1.275 1.275 Max Upward from Load Cases 0.675 0.675 D Only 0.600 0.600 +D+L 1.275 1.275 +D+0.750L 1.106 1.106 +0.60D 0.360 0.360 L Only 0.675 0.675 Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:HBM1-4 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 CODE REFERENCES Calculations per NDS 2018, IBC 2021, SDPWS 2021 Load Combination Set : ASCE 7-16 Material Properties Beam Bracing :Beam is Fully Braced against lateral-torsional buckling Allowable Stress Design Douglas Fir-South No.2 850.0 850.0 1,350.0 520.0 1,200.0 440.0 180.0 525.0 28.720 Analysis Method : Eminbend - xx ksi Wood Species : Wood Grade : Fb + psi psi Fv psi Fb - Ft psi Fc - Prll psi psiFc - Perp E : Modulus of Elasticity Ebend- xx ksi Density pcf Load Combination :ASCE 7-16 .Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight NOT internally calculated and added .DESIGN SUMMARY Design OK Maximum Bending Stress Ratio 0.817: 1 Load Combination +D+L Span # where maximum occurs Span # 1 Location of maximum on span 7.313 ft 47.32 psi= = 838.95 psi 6x14Section used for this span Span # where maximum occurs Location of maximum on span Span # 1= Load Combination +D+L = = = 180.00 psi== Section used for this span 6x14 Maximum Shear Stress Ratio 0.263 : 1 0.000 ft= = 685.79 psi Maximum Deflection 1121 >=360 560 Ratio =374 >=240 Max Downward Transient Deflection 0.182 in 750 Ratio =>=360 Max Upward Transient Deflection -0.048 in Ratio = Max Downward Total Deflection 0.364 in Ratio =>=240 Max Upward Total Deflection -0.096 in fb: Actual F'b fv: Actual F'v Span: 1 : L Only Span: 2 : L Only Span: 1 : +D+L Span: 2 : +D+L .Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu D Only 0.0 0.00 0.00.0 1.00Length = 17.0 ft 1 0.454 0.146 0.90 0.987 1.001.00 1.00 4.77 342.9 755.1 1.17 162.01.00 23.71.00 1.00Length = 1.50 ft 2 0.001 0.146 0.90 0.987 1.001.00 1.00 0.01 0.5 755.1 0.00 162.01.00 23.71.00 1.00+D+L 0.987 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 17.0 ft 1 0.817 0.263 1.00 0.987 1.001.00 1.00 9.55 685.8 838.9 2.34 180.01.00 47.31.00 1.00Length = 1.50 ft 2 0.001 0.263 1.00 0.987 1.001.00 1.00 0.01 1.0 838.9 0.00 180.01.00 47.31.00 1.00+D+0.750L 0.987 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 17.0 ft 1 0.572 0.184 1.25 0.987 1.001.00 1.00 8.35 600.1 1,048.7 2.05 225.01.00 41.41.00 1.00Length = 1.50 ft 2 0.001 0.184 1.25 0.987 1.001.00 1.00 0.01 0.9 1,048.7 0.00 225.01.00 41.41.00 1.00+0.60D 0.987 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:HBM1-4 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu 1.00Length = 17.0 ft 1 0.153 0.049 1.60 0.987 1.001.00 1.00 2.86 205.7 1,342.3 0.70 288.01.00 14.21.00 1.00Length = 1.50 ft 2 0.000 0.049 1.60 0.987 1.001.00 1.00 0.00 0.3 1,342.3 0.00 288.01.00 14.21.00 . LocationLoad CombinationMax.LocationLoad CombinationSpan Max. Overall Maximum Deflections "-" Defl in Span in Span"+" Defl +D+L1 0.3639 8.263 0.0000 0.000 +D+L20.0000 8.263 -0.0958 1.500 . Load Combination Support 1 Support 2 Support 3 Vertical Reactions Support notation : Far left is #1 Values in KIPS Max Upward from all Load Conditions 2.829 1.611 Max Upward from Load Combinations 2.829 1.611 Max Upward from Load Cases 1.415 0.805 D Only 1.415 0.805 +D+L 2.829 1.611 +D+0.750L 2.476 1.409 +0.60D 0.849 0.483 L Only 1.415 0.805 Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:CBM5 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 CODE REFERENCES Calculations per NDS 2018, IBC 2021, SDPWS 2021 Load Combination Set : ASCE 7-16 Material Properties Beam Bracing :Beam is Fully Braced against lateral-torsional buckling Allowable Stress Design iLevel Truss Joist Parallam PSL 2.2E 2,900.0 2,900.0 2,900.0 750.0 2,200.0 1,118.19 290.0 2,025.0 45.070 Analysis Method : Eminbend - xx ksi Wood Species : Wood Grade : Fb + psi psi Fv psi Fb - Ft psi Fc - Prll psi psiFc - Perp E : Modulus of Elasticity Ebend- xx ksi Density pcf Load Combination :ASCE 7-16 .Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight NOT internally calculated and added Loads on all spans... Uniform Load on ALL spans : D = 0.330, L = 0.3850 k/ft Point Load : D = 0.810, L = 0.810 k @ 12.0 ft Point Load : D = 0.810, L = 0.810 k @ 12.0 ft Point Load : D = 0.810, L = 0.810 k @ 14.0 ft Point Load : D = 0.810, L = 0.810 k @ 14.0 ft .DESIGN SUMMARY Design OK Maximum Bending Stress Ratio 0.781: 1 Load Combination +D+L Span # where maximum occurs Span # 1 Location of maximum on span 11.996 ft 137.73 psi= = 2,808.86 psi 7x16Section used for this span Span # where maximum occurs Location of maximum on span Span # 1= Load Combination +D+L = = = 290.00 psi== Section used for this span 7x16 Maximum Shear Stress Ratio 0.475 : 1 17.682 ft= = 2,193.14 psi Maximum Deflection 669 <360 350 Ratio =0 <240 Max Downward Transient Deflection 0.341 in 0 Ratio =>=360 Max Upward Transient Deflection 0 in Ratio = Max Downward Total Deflection 0.650 in Ratio =>=240 Max Upward Total Deflection 0 in fb: Actual F'b fv: Actual F'v Span: 1 : L Only n/a Span: 1 : +D+L n/a .Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu D Only 0.0 0.00 0.00.0 1.00Length = 19.0 ft 1 0.415 0.252 0.90 0.969 1.001.00 1.00 26.14 1,050.2 2,528.0 4.92 261.01.00 65.91.00 1.00+D+L 0.969 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 19.0 ft 1 0.781 0.475 1.00 0.969 1.001.00 1.00 54.58 2,193.1 2,808.9 10.28 290.01.00 137.71.00 Wood Beam LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:CBM5 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu 1.00+D+0.750L 0.969 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 19.0 ft 1 0.543 0.330 1.25 0.969 1.001.00 1.00 47.47 1,907.4 3,511.1 8.94 362.51.00 119.81.00 1.00+0.60D 0.969 1.001.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 19.0 ft 1 0.140 0.085 1.60 0.969 1.001.00 1.00 15.68 630.1 4,494.2 2.95 464.01.00 39.51.00 . LocationLoad CombinationMax.LocationLoad CombinationSpan Max. Overall Maximum Deflections "-" Defl in Span in Span"+" Defl +D+L1 0.6502 9.847 0.0000 0.000 . Load Combination Support 1 Support 2 Vertical Reactions Support notation : Far left is #1 Values in KIPS Max Upward from all Load Conditions 8.839 11.226 Max Upward from Load Combinations 8.839 11.226 Max Upward from Load Cases 4.681 5.874 D Only 4.158 5.352 +D+L 8.839 11.226 +D+0.750L 7.669 9.758 +0.60D 2.495 3.211 L Only 4.681 5.874 ASCE Hazards Report Address: 1132 S Arapaho Dr Santa Ana, California 92704 Standard:ASCE/SEI 7-16 Latitude:33.733258 Risk Category:II Longitude:-117.912597 Soil Class:D - Default (see Section 11.4.3) Elevation:0 ft (NAVD 88) Page 1 of 3https://ascehazardtool.org/Sat Nov 30 2024 SS : 1.311 S1 : 0.468 F a : 1.2 F v : N/A SMS : 1.574 SM1 : N/A SDS : 1.049 SD1 : N/A T L : 8 PGA : 0.56 PGA M : 0.672 F PGA : 1.2 Ie : 1 C v : 1.362 Seismic Site Soil Class: Results: Data Accessed: Date Source: D - Default (see Section 11.4.3) USGS Seismic Design Maps Ground motion hazard analysis may be required. See ASCE/SEI 7-16 Section 11.4.8. Sat Nov 30 2024 Page 2 of 3https://ascehazardtool.org/Sat Nov 30 2024 The ASCE Hazard Tool is provided for your convenience, for informational purposes only, and is provided “as is” and without warranties of any kind. The location data included herein has been obtained from information developed, produced, and maintained by third party providers; or has been extrapolated from maps incorporated in the ASCE standard. While ASCE has made every effort to use data obtained from reliable sources or methodologies, ASCE does not make any representations or warranties as to the accuracy, completeness, reliability, currency, or quality of any data provided herein. Any third-party links provided by this Tool should not be construed as an endorsement, affiliation, relationship, or sponsorship of such third-party content by or from ASCE. 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Page 3 of 3https://ascehazardtool.org/Sat Nov 30 2024 ASCE 7-16 Seismic Base Shear LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:Seismic Base Shear Analysis SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Risk Category ASCE 7-16, Page 4, Table 1.5-1 Calculations per ASCE 7-16 "II" : All Buildings and other structures except those listed as Category I, III, and IV Risk Category of Building or Other Structure : Seismic Importance Factor =1 ASCE 7-16, Page 5, Table 1.5-2 Specific Description: EARTHQUAKE USER DEFINED Ground Motion ASCE 7-16 11.4.2 Max. Ground Motions, 5% Damping : S =1.311 Longitude =0.000 deg West S Latitude =0.000 g, 0.2 sec response deg North S 0.46801 g, 1.0 sec response= Conforms to ASCE 7 Section 12.8.1.3: Regular structure with period of 0.5 s or less, SDS limited to max of 0.7*SDS or 1.0 for calculation of Cs. For the closest datapoint grid location . . . Site Class, Site Coeff. and Design Category Classification:ASCE 7-16 Table 20.3-1"D" : Shear Wave Velocity 600 to 1,200 ft/sec =D Site Coefficients Fa & Fv ASCE 7-16 Table 11.4-1 & 11.4-2 (using straight-line interpolation from table values) Fa =1.20 Fv =1.83 Maximum Considered Earthquake Acceleration ASCE 7-16 Eq. 11.4-1S = Fa * Ss 1.573=MS S = Fv * S1 =0.857M1 ASCE 7-16 Eq. 11.4-2 Design Spectral Acceleration ASCE 7-16 Eq. 11.4-3S = S * 2/3 =1.049DSMS =0.572 ASCE 7-16 Eq. 11.4-4S = S * 2/3D1M1 Seismic Design Category ASCE 7-16 Table 11.6-1 & -2=D (By Default per 11.4.3) Resisting System ASCE 7-16 Table 12.2-1 Basic Seismic Force Resisting System . . .Bearing Wall Systems 15.Light-frame (wood) walls sheathed w/wood structural panels rated for shear resistance. NOTE! See ASCE 7-16 for all applicable footnotes. Building height Limits :Response Modification Coefficient " R "=6.50 Category "A & B" Limit:No LimitSystem Overstrength Factor " Wo "=3.00 Category "C" Limit:No LimitDeflection Amplification Factor " Cd "=4.00 Category "D" Limit:Limit = 65 Category "E" Limit:Limit = 65 Category "F" Limit:Limit = 65 Lateral Force Procedure ASCE 7-16 Section 12.8.2 Equivalent Lateral Force Procedure The "Equivalent Lateral Force Procedure" is being used according to the provisions of ASCE 7-16 12.8 Use ASCE 12.8-7Determine Building Period Structure Type for Building Period Calculation :All Other Structural Systems " Ct " value 0.020= " x " value " hn " : Height from base to highest level =13.0 ft " Ta " Approximate fundemental period using Eq. 12.8-7 : 8.000"TL" : Long-period transition period per ASCE 7-16 Maps 22-14 -> 22-17 sec Ta = Ct * (hn ^ x) =0.137 0.75 sec = Building Period " Ta " Calculated from Approximate Method selected=0.137 ASCE 7-16 Seismic Base Shear LIC# : KW-06019339, Build:20.24.10.30 SPS Engineering (c) ENERCALC, LLC 1982-2024 DESCRIPTION:Seismic Base Shear Analysis SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks CA, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 " Cs " Response Coefficient ASCE 7-16 Section 12.8.1.1 S : Short Period Design Spectral Response 1.049 " R " : Response Modification Factor 6.50 " I " : Seismic Importance Factor =1 0.154From Eq. 12.8-2, Preliminary Cs = 0.642From Eq. 12.8-3 & 12.8-4 , Cs need not exceed = From Eq. 12.8-5 & 12.8-6, Cs not be less than =0.044 DS =Cs : Seismic Response Coefficient =0.1538User has selected ASCE 12.8.1.3 : Regular structure, Less than 5 Stories and with T <<= 0.5 sec, SO Ss <= 1.5 for Cs calculation = = Seismic Base Shear ASCE 7-16 Section 12.8.1 W ( see Sum Wi below ) =0.00 kCs =0.1538 from 12.8.1.1 Seismic Base Shear V = Cs * W =0.00 k Vertical Distribution of Seismic Forces ASCE 7-16 Section 12.8.3 " k " : hx exponent based on Ta =1.00 Table of building Weights by Floor Level... Wi : Weight Hi : Height (Wi * Hi^k)Cvx Fx=Cvx * V Sum Story Shear Sum Story MomentLevel # Sum Wi =0.00 k Total Base Shear =0.00 k Base Moment = 0.00 k-ftSum Wi * Hi = 0.0 k-ft Diaphragm Forces : Seismic Design Category "B" to "F"ASCE 7-16 12.10.1.1 Level #Wi Fi Fpx : MaxFpx : CalcdSum Fi Sum Wi Fpx Dsgn. ForceFpx : Min Wpx . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Weight at level of diaphragm and other structure elements attached to it. Fi . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Design Lateral Force applied at the level. Sum Fi . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Sum of "Lat. Force" of current level plus all levels above 0.20 * S * I * WpxMIN Req'd Force @ Level . . . . . . . . . .DS DSMAX Req'd Force @ Level . . . . . . . . . .0.40 * S * I * Wpx Fpx : Design Force @ Level . . . . . . . . . .Wpx * SUM(x->n) Fi / SUM(x->n) wi, x = Current level, n = Top Level LT i i r r r r r=1.3 5.40 psf Lateral Analysis: ENGINEERING 818 747 7269 | shant.sps@gmail.com Line A: LT s V =2024 (lbs)OM =1408 (lbs) OM = v * H ν =176 (lb/ft)v = V/L RM =1288 (lbs) RM = 14*Ls Line B: T s V =2024 (lbs)OM =925 (lbs) OM = v * H ν =116 (lb/ft)v = V/L RM =784 (lbs) RM = 14*Ls Line 1: T s V =2024 (lbs)OM =1472 (lbs) OM = v * H ν =184 (lb/ft)v = V/L RM =616 (lbs) RM = 14*Ls Line 2: T s V =2024 (lbs)OM =852 (lbs) OM = v * H ν =107 (lb/ft)v = V/L RM =2128 (lbs) RM = 14*Ls r r Roof Lateral Analysis: (1st Floor Walls) r ENGINEERING 818 747 7269 | shant.sps@gmail.com Wood Beam LIC# : KW-06019339, Build:20.25.11.18 SPS Engineering (c) ENERCALC, LLC 1982-2025 DESCRIPTION:RR1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks Ca, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Referenced Design Standard(s) : NDS 2024* Load Combination Set : ASCE 7-16 Code References Governing Code : IBC 2021 *User-selected, not referenced by : IBC 2021 Material Properties Beam Bracing :Beam is Fully Braced against lateral-torsional buckling Repetitive Member Stress Increase Allowable Stress Design Douglas Fir-South No.2 850.0 850.0 1,350.0 520.0 1,200.0 440.0 180.0 525.0 28.720 Analysis Method : Eminbend - xx ksi Wood Species : Wood Grade : Fb + psi psi Fv psi Fb - Ft psi Fc - Prll psi psiFc - Perp E : Modulus of Elasticity Ebend- xx ksi Density pcf Load Combination :ASCE 7-16 2x10 Span = 12.0 ft 2x10 Span = 1.0 ft 1 2 3 L(0.2) D(0.0270) L(0.0270) .Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight NOT internally calculated and added Loads on all spans... Uniform Load on ALL spans : D = 0.0270, L = 0.0270 k/ft Load for Span Number 1 Point Load : L = 0.20 k @ 6.0 ft .DESIGN SUMMARY Design OK Maximum Bending Stress Ratio Maximum Shear Stress Ratio 2x10 0.232 Section used for this span2x10 : 10.815 =: 1 Load Combination +D+L+H, LL Comb Run (L*)+D+L+H, LL Comb Run (LL) Span # where maximum occurs Span # 1 Location of maximum on span 5.966 ft 41.78 psi= 1,075.25 psi Section used for this span Span # where maximum occurs Location of maximum on span Span # 1= Load Combination = = = 180.00 psi== 11.263 ft= = 876.22 psi Maximum Deflection 676 >=360 452 Ratio =292 >=240 Max Downward Transient Deflection 0.213 in 440 Ratio =>=360 Max Upward Transient Deflection -0.054 in Ratio = Max Downward Total Deflection 0.318 in Ratio =>=240 Max Upward Total Deflection -0.082 in fb: Actual F'b fv: Actual F'v Span: 1 : L Only, LL Comb Run (L*) Span: 2 : L Only, LL Comb Run (L*) Span: 1 : +D+L+H, LL Comb Run (L*) Span: 2 : +D+L+H, LL Comb Run (L*) NDS2018 NDS2018 .Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu +D+H 0.0 0.00 0.00.0 1.00Length = 12.0 ft 1 0.278 0.096 0.90 1.100 1.151.00 1.00 0.48 268.9 967.7 0.14 162.01.00 15.51.00 1.00Length = 1.0 ft 2 0.008 0.004 0.90 1.100 1.151.00 1.00 0.01 7.6 967.7 0.01 162.01.00 0.71.00 1.00+D+L+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 Wood Beam LIC# : KW-06019339, Build:20.25.11.18 SPS Engineering (c) ENERCALC, LLC 1982-2025 DESCRIPTION:RR1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks Ca, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu 1.00Length = 12.0 ft 1 0.247 0.087 1.00 1.100 1.151.00 1.00 0.47 265.1 1,075.3 0.14 180.01.00 15.61.00 1.00Length = 1.0 ft 2 0.014 0.008 1.00 1.100 1.151.00 1.00 0.03 15.1 1,075.3 0.01 180.01.00 1.41.00 1.00+D+L+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.815 0.231 1.00 1.100 1.151.00 1.00 1.56 876.2 1,075.3 0.39 180.01.00 41.71.00 1.00Length = 1.0 ft 2 0.007 0.004 1.00 1.100 1.151.00 1.00 0.01 7.6 1,075.3 0.01 180.01.00 0.71.00 1.00+D+L+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.811 0.232 1.00 1.100 1.151.00 1.00 1.56 872.5 1,075.3 0.39 180.01.00 41.81.00 1.00Length = 1.0 ft 2 0.014 0.008 1.00 1.100 1.151.00 1.00 0.03 15.1 1,075.3 0.01 180.01.00 1.41.00 1.00+D+Lr+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.200 0.069 1.25 1.100 1.151.00 1.00 0.48 268.9 1,344.1 0.14 225.01.00 15.51.00 1.00Length = 1.0 ft 2 0.006 0.003 1.25 1.100 1.151.00 1.00 0.01 7.6 1,344.1 0.01 225.01.00 0.71.00 1.00+D+Lr+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.200 0.069 1.25 1.100 1.151.00 1.00 0.48 268.9 1,344.1 0.14 225.01.00 15.51.00 1.00Length = 1.0 ft 2 0.006 0.003 1.25 1.100 1.151.00 1.00 0.01 7.6 1,344.1 0.01 225.01.00 0.71.00 1.00+D+Lr+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.200 0.069 1.25 1.100 1.151.00 1.00 0.48 268.9 1,344.1 0.14 225.01.00 15.51.00 1.00Length = 1.0 ft 2 0.006 0.003 1.25 1.100 1.151.00 1.00 0.01 7.6 1,344.1 0.01 225.01.00 0.71.00 1.00+D+S+H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.217 0.075 1.15 1.100 1.151.00 1.00 0.48 268.9 1,236.5 0.14 207.01.00 15.51.00 1.00Length = 1.0 ft 2 0.006 0.003 1.15 1.100 1.151.00 1.00 0.01 7.6 1,236.5 0.01 207.01.00 0.71.00 1.00+D+0.750Lr+0.750L+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.198 0.069 1.25 1.100 1.151.00 1.00 0.47 266.1 1,344.1 0.14 225.01.00 15.61.00 1.00Length = 1.0 ft 2 0.010 0.005 1.25 1.100 1.151.00 1.00 0.02 13.3 1,344.1 0.01 225.01.00 1.21.00 1.00+D+0.750Lr+0.750L+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.539 0.156 1.25 1.100 1.151.00 1.00 1.29 724.4 1,344.1 0.32 225.01.00 35.11.00 1.00Length = 1.0 ft 2 0.006 0.003 1.25 1.100 1.151.00 1.00 0.01 7.6 1,344.1 0.01 225.01.00 0.71.00 1.00+D+0.750Lr+0.750L+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.537 0.156 1.25 1.100 1.151.00 1.00 1.29 721.6 1,344.1 0.33 225.01.00 35.21.00 1.00Length = 1.0 ft 2 0.010 0.005 1.25 1.100 1.151.00 1.00 0.02 13.3 1,344.1 0.01 225.01.00 1.21.00 1.00+D+0.750L+0.750S+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.215 0.075 1.15 1.100 1.151.00 1.00 0.47 266.1 1,236.5 0.14 207.01.00 15.61.00 1.00Length = 1.0 ft 2 0.011 0.006 1.15 1.100 1.151.00 1.00 0.02 13.3 1,236.5 0.01 207.01.00 1.21.00 1.00+D+0.750L+0.750S+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.586 0.170 1.15 1.100 1.151.00 1.00 1.29 724.4 1,236.5 0.32 207.01.00 35.11.00 1.00Length = 1.0 ft 2 0.006 0.003 1.15 1.100 1.151.00 1.00 0.01 7.6 1,236.5 0.01 207.01.00 0.71.00 1.00+D+0.750L+0.750S+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.584 0.170 1.15 1.100 1.151.00 1.00 1.29 721.6 1,236.5 0.33 207.01.00 35.21.00 1.00Length = 1.0 ft 2 0.011 0.006 1.15 1.100 1.151.00 1.00 0.02 13.3 1,236.5 0.01 207.01.00 1.21.00 1.00+D+0.60W+H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.156 0.054 1.60 1.100 1.151.00 1.00 0.48 268.9 1,720.4 0.14 288.01.00 15.51.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 1.00+D+0.750Lr+0.750L+0.450W+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.155 0.054 1.60 1.100 1.151.00 1.00 0.47 266.1 1,720.4 0.14 288.01.00 15.61.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+D+0.750Lr+0.750L+0.450W+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.421 0.122 1.60 1.100 1.151.00 1.00 1.29 724.4 1,720.4 0.32 288.01.00 35.11.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 Wood Beam LIC# : KW-06019339, Build:20.25.11.18 SPS Engineering (c) ENERCALC, LLC 1982-2025 DESCRIPTION:RR1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks Ca, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Maximum Forces & Stresses for Load Combinations Span # Moment ValuesLoad Combination C iCLx CCCMCF rt Shear ValuesMax Stress Ratios M CDV fbM fvF'b V F'vSegment Length Cfu 1.00+D+0.750Lr+0.750L+0.450W+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.419 0.122 1.60 1.100 1.151.00 1.00 1.29 721.6 1,720.4 0.33 288.01.00 35.21.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+D+0.750L+0.750S+0.450W+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.155 0.054 1.60 1.100 1.151.00 1.00 0.47 266.1 1,720.4 0.14 288.01.00 15.61.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+D+0.750L+0.750S+0.450W+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.421 0.122 1.60 1.100 1.151.00 1.00 1.29 724.4 1,720.4 0.32 288.01.00 35.11.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 1.00+D+0.750L+0.750S+0.450W+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.419 0.122 1.60 1.100 1.151.00 1.00 1.29 721.6 1,720.4 0.33 288.01.00 35.21.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+0.60D+0.60W+0.60H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.094 0.032 1.60 1.100 1.151.00 1.00 0.29 161.3 1,720.4 0.09 288.01.00 9.31.00 1.00Length = 1.0 ft 2 0.003 0.001 1.60 1.100 1.151.00 1.00 0.01 4.5 1,720.4 0.00 288.01.00 0.41.00 1.00+D+0.70E+0.60H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.156 0.054 1.60 1.100 1.151.00 1.00 0.48 268.9 1,720.4 0.14 288.01.00 15.51.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 1.00+D+0.750L+0.750S+0.5250E+H, LL Comb Run (*L)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.155 0.054 1.60 1.100 1.151.00 1.00 0.47 266.1 1,720.4 0.14 288.01.00 15.61.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+D+0.750L+0.750S+0.5250E+H, LL Comb Run (L*)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.421 0.122 1.60 1.100 1.151.00 1.00 1.29 724.4 1,720.4 0.32 288.01.00 35.11.00 1.00Length = 1.0 ft 2 0.004 0.002 1.60 1.100 1.151.00 1.00 0.01 7.6 1,720.4 0.01 288.01.00 0.71.00 1.00+D+0.750L+0.750S+0.5250E+H, LL Comb Run (LL)1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.419 0.122 1.60 1.100 1.151.00 1.00 1.29 721.6 1,720.4 0.33 288.01.00 35.21.00 1.00Length = 1.0 ft 2 0.008 0.004 1.60 1.100 1.151.00 1.00 0.02 13.3 1,720.4 0.01 288.01.00 1.21.00 1.00+0.60D+0.70E+H 1.100 1.151.00 1.00 0.0 0.00 0.01.00 0.01.00 1.00Length = 12.0 ft 1 0.094 0.032 1.60 1.100 1.151.00 1.00 0.29 161.3 1,720.4 0.09 288.01.00 9.31.00 1.00Length = 1.0 ft 2 0.003 0.001 1.60 1.100 1.151.00 1.00 0.01 4.5 1,720.4 0.00 288.01.00 0.41.00 . LocationLoad CombinationMax.LocationLoad CombinationSpan Max. Overall Maximum Deflections "-" Defl in Span in Span"+" Defl +D+L+H, LL Comb Run (L*)1 0.3180 6.034 0.0000 0.000 +D+L+H, LL Comb Run (L*)2 0.0000 6.034 -0.0820 1.000 . Load Combination Support 1 Support 2 Support 3 Vertical Reactions Support notation : Far left is #1 Values in KIPS Max Upward from all Load Conditions 0.423 0.480 Max Upward from Load Combinations 0.423 0.480 Max Upward from Load Cases 0.262 0.290 Max Downward from all Load Conditions (Resisting Uplift)-0.001 Max Downward from Load Cases (Resisting Uplift)-0.001 +D+H 0.161 0.190 +D+L+H, LL Comb Run (*L)0.160 0.218 +D+L+H, LL Comb Run (L*)0.423 0.452 +D+L+H, LL Comb Run (LL)0.422 0.480 +D+Lr+H, LL Comb Run (*L)0.161 0.190 +D+Lr+H, LL Comb Run (L*)0.161 0.190 +D+Lr+H, LL Comb Run (LL)0.161 0.190 +D+S+H 0.161 0.190 Wood Beam LIC# : KW-06019339, Build:20.25.11.18 SPS Engineering (c) ENERCALC, LLC 1982-2025 DESCRIPTION:RR1 SPS Engineering 15445 Ventura Blvd #63 Sherman Oaks Ca, 91403 818 747 7269 Project File: ARAPAHO DR 1132.ec6 Load Combination Support 1 Support 2 Support 3 Vertical Reactions Support notation : Far left is #1 Values in KIPS +D+0.750Lr+0.750L+H, LL Comb Run (*L)0.160 0.211 +D+0.750Lr+0.750L+H, LL Comb Run (L*)0.357 0.387 +D+0.750Lr+0.750L+H, LL Comb Run (LL)0.357 0.408 +D+0.750L+0.750S+H, LL Comb Run (*L)0.160 0.211 +D+0.750L+0.750S+H, LL Comb Run (L*)0.357 0.387 +D+0.750L+0.750S+H, LL Comb Run (LL)0.357 0.408 +D+0.60W+H 0.161 0.190 +D+0.750Lr+0.750L+0.450W+H, LL Comb Run (*L)0.160 0.211 +D+0.750Lr+0.750L+0.450W+H, LL Comb Run (L*)0.357 0.387 +D+0.750Lr+0.750L+0.450W+H, LL Comb Run (LL)0.357 0.408 +D+0.750L+0.750S+0.450W+H, LL Comb Run (*L)0.160 0.211 +D+0.750L+0.750S+0.450W+H, LL Comb Run (L*)0.357 0.387 +D+0.750L+0.750S+0.450W+H, LL Comb Run (LL)0.357 0.408 +0.60D+0.60W+0.60H 0.097 0.114 +D+0.70E+0.60H 0.161 0.190 +D+0.750L+0.750S+0.5250E+H, LL Comb Run (*L)0.160 0.211 +D+0.750L+0.750S+0.5250E+H, LL Comb Run (L*)0.357 0.387 +D+0.750L+0.750S+0.5250E+H, LL Comb Run (LL)0.357 0.408 +0.60D+0.70E+H 0.097 0.114 D Only 0.161 0.190 L Only, LL Comb Run (*L)-0.001 0.028 L Only, LL Comb Run (L*)0.262 0.262 L Only, LL Comb Run (LL)0.261 0.290 H Only SS-GPHM3 www.goodmanmfg.com 09/22 Standard Features • Energy-efficient scroll compressor • Multi-speed ECM indoor blower motor • Convertible airflow: horizontal or downflow • Copper tube/aluminum fin condenser coil • All-Aluminum evaporator coil • Electric heat kit available as a field-installed option • AHRI Certified; ETL Listed Cabinet Features • Heavy-gauge galvanized-steel cabinet with attractive Architectural Gray powder-paint finish • Aluminum foil-facing internal insulation reinforced with fiberglass scrim • Fully insulated air-handling compartment with convenient access panels • Meets cabinet air leakage requirements when tested in accordance with ASHRAE standard 193 • Louvered condenser coil protection • One footprint for all tonnages • When properly anchored, meets the 2020 Florida Building Code unit integrity requirements for hurricane-type winds (Anchor bracket kits available.) Contents Nomenclature ........................................2 Product Specifications ...........................3 Expanded Cooling Data .........................4 Expanded Heating Data .......................18 Airflow Data .........................................20 Heat Kit Electrical Specs ......................22 Dimensions ..........................................23 Wiring Diagrams .................................24 Accessories ..........................................26 GPHM3 * Complete warranty details available from your local dealer or at www.goodmanmfg.com. To receive the 10-Year Parts Limited Warranty, online registration must be completed within 60 days of installation. Online registration is not required in California or Quebec. The duration of warranty coverages in Texas differs in some cases. Packaged Heat Pump 13.4 SEER2 / 6.7 HSPF2 2 to 5 TONS 2 www.goodmanmfg.com SS-GPHM3 Nomenclature G P H M 3 36 4 1 A A 1 2 3 4 5 6,7 8 9 10 11 Brand Minor Revision G - Goodman® Brand A Major Revision Product Category A P - Packaged Unit Electrical 1 - 208/230V single-phase, 60 Hz Unit Type C - Air Conditioner Refrigerant H - Heat Pump 4 - R-410A Airflow H - Horizontal Nominal Capacity M - Multi-Position 24 - 2 tons 42 - 3½ tons 30 - 2½ tons 48 - 4 tons Efficiency 36 - 3 tons 60 - 5 tons 3 - 13.4 SEER2 5 - 15.2 SEER2 2www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 3 Specifications GPHM3 2441** GPHM3 3041** GPHM3 3641** GPHM3 4241** GPHM3 4841** GPHM3 6041** Cooling Capacity Total BTU/h 24,000 28,000 34,200 40,500 47,500 56,500 Sensible BTU/h 18,600 22,400 26,600 29,500 35,500 42,000 SEER2 / EER2 13.4/10.6 13.4/10.6 13.4/10.6 13.4/10.6 13.4/10.6 13.4/10.6 AHRI Numbers 210288029 210288030 210288031 210288032 210288033 210288034 Heating Capacity BTU/h (47°F)22,800 27,200 33,600 38,000 46,000 55,500 C.O.P. (47°F)3.46 3.58 3.58 3.54 3.54 3.38 BTU/h (17°F)13,200 14,800 18,800 21,500 26,500 33,000 C.O.P. (17°F)2.16 2.18 2.18 2.14 2.26 2.23 HSPF2 6.70 6.70 6.70 6.70 6.70 6.70 Evaporator Motor Type ECM ECM ECM ECM ECM ECM Wheel (D x W)10 x 9 10 x 9 10 x 9 10 x 9 10 x 9 10 x 9 Cooling CFM3 850 1,050 1,200 1,300 1,600 1,850 No. of Speeds 5 5 5 5 5 5 Horsepower - RPM 1/2 - 1050 1/2 - 1050 1/2 - 1050 3/4 - 1050 3/4 - 1050 1 - 1050 Evaporator Coil Face Area (ft2)4.55 4.55 4.55 6.2 6.2 6.2 Rows Deep 4 4 4 4 4 4 Fins per Inch 14 14 14 14 14 14 Metering Device Type Piston Piston Piston Piston Piston TXV Drain Size (NPT)¾”¾”¾”¾”¾”¾” Refrigerant Charge (oz.)128 119 115 139 163 170 Condenser Fan Horsepower - RPM ¼ - 830 ¼ - 830 ¼ - 830 ¼ - 1,075 ⅓ - 1,122 ⅓ - 1,122 Fan Diameter 22 22 22 22 22 22 # of Fan Blades 3 3 3 3 3 3 Condenser Coil Face Area (ft2)12.08 12.08 12.08 15.09 19.05 19.05 Rows Deep 2 2 2 2 2 2 Fins per Inch 16 16 16 16 16 16 Metering Device Type Piston Piston Piston Piston Piston TXV Compressor Quantity 1 1 1 1 1 1 Type Scroll Scroll Scroll Scroll Scroll Scroll Stage Single Single Single Single Single Two Sound Power dBA 76 76 81 80 79 80 Electrical Data Compressor RLA/LRA 12.8 / 58.3 14.1 / 73 15.4 / 83.9 17.9 / 112 19.6 / 130 22.8/ 147.4 Voltage/Phase (60 Hz)208-230/1 208-230/1 208-230/1 208-230/1 208-230/1 208-230/1 Indoor Blower FLA 3.8 3.8 3.8 5.4 5.4 7 Outdoor Fan FLA 1.3 1.3 1.3 1.4 2 2 M.C.A.1 21.4 23 24.4 29.2 31.9 37.5 M.O.P.2 30 35 35 45 50 60 Shipping Weights (lbs)380 390 400 485 495 495 ¹ Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. ² Must use time-delay fuses or HACR-type circuit breakers of the same size as noted. 3 Factory Always check the S&R plate for electrical data on the unit being installed. 4 www.goodmanmfg.com SS-GPHM3 Expanded Cooling Data — GPHM32441** Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 70 70 0 MB h 24 . 2 24 . 6 25 . 3 - 24 . 0 24 . 4 25 . 1 - 23 . 4 23 . 7 24 . 5 - 22 . 3 22 . 6 23 . 4 - 21 . 0 21 . 3 22 . 0 - 19 . 7 20 . 1 20 . 8 - S/ T 0. 5 7 0. 4 9 0. 3 5 - 0. 5 8 0. 5 0 0. 3 6 - 0. 6 0 0. 5 2 0. 3 8 - 1. 0 0 0. 5 4 0. 4 0 - 1. 0 0 0. 5 7 0. 4 3 - 1. 0 0 0. 6 2 0. 4 8 - ∆T 10 . 6 1 9. 6 6 7. 9 0 - 10 . 5 8 9. 6 4 7. 8 8 - 10 . 7 1 9. 7 7 8. 0 1 - 10 . 5 7 9. 6 3 7. 8 7 - 10 . 4 4 9. 5 0 7. 7 4 - 11 . 0 3 10 . 0 9 8. 3 3 - kW 1. 6 1 1. 6 1 1. 6 0 - 1. 8 1 1. 8 1 1. 8 0 - 2. 0 3 2. 0 3 2. 0 2 - 2. 2 7 2. 2 7 2. 2 6 - 2. 5 4 2. 5 4 2. 5 3 - 2. 8 5 2. 8 5 2. 8 5 - Am p s 6. 4 9 6. 4 8 6. 4 7 - 7. 4 0 7. 3 9 7. 3 8 - 8. 4 2 8. 4 1 8. 3 9 - 9. 5 1 9. 5 1 9. 4 9 - 10 . 7 4 10 . 7 3 10 . 7 2 - 12 . 1 8 12 . 1 7 12 . 1 6 - Hi P R 24 9 25 0 25 2 - 28 9 29 0 29 1 - 33 0 33 1 33 3 - 37 5 37 6 37 7 - 42 3 42 4 42 5 - 47 4 47 5 47 7 - Lo P R 12 4 12 5 12 8 - 13 1 13 3 13 6 - 13 8 13 9 14 3 - 14 4 14 5 14 8 - 14 9 15 1 15 4 - 15 6 15 8 16 1 - 80 0 MB h 24 . 5 24 . 9 25 . 6 - 24 . 3 24 . 6 25 . 4 - 23 . 7 24 . 0 24 . 7 - 22 . 6 22 . 9 23 . 6 - 21 . 2 21 . 6 22 . 3 - 20 . 0 20 . 3 21 . 1 - S/ T 0. 6 5 0. 5 7 0. 4 3 - 0. 6 5 0. 5 7 0. 4 3 - 0. 6 8 0. 6 0 0. 4 6 - 1. 0 0 0. 6 2 0. 4 8 - 1. 0 0 0. 6 4 0. 5 0 - 1. 0 0 0. 6 9 0. 5 6 - ∆T 10 . 0 1 9. 0 6 7. 3 0 - 9. 9 8 9. 0 4 7. 2 8 - 10 . 1 1 9. 1 7 7. 4 1 - 9. 9 7 9. 0 3 7. 2 7 - 9. 8 4 8. 9 0 7. 1 4 - 10 . 4 3 9. 4 9 7. 7 3 - kW 1. 6 2 1. 6 2 1. 6 2 - 1. 8 2 1. 8 2 1. 8 1 - 2. 0 4 2. 0 4 2. 0 4 - 2. 2 8 2. 2 8 2. 2 8 - 2. 5 5 2. 5 5 2. 5 4 - 2. 8 6 2. 8 6 2. 8 6 - Am p s 6. 5 4 6. 5 3 6. 5 2 - 7. 4 5 7. 4 4 7. 4 3 - 8. 4 6 8. 4 6 8. 4 4 - 9. 5 6 9. 5 6 9. 5 4 - 10 . 7 9 10 . 7 8 10 . 7 7 - 12 . 2 3 12 . 2 2 12 . 2 1 - Hi P R 25 1 25 2 25 4 - 29 1 29 2 29 3 - 33 2 33 3 33 5 - 37 7 37 8 37 9 - 42 5 42 6 42 8 - 47 6 47 7 47 9 - Lo P R 12 5 12 7 13 0 - 13 3 13 4 13 8 - 14 0 14 1 14 4 - 14 5 14 7 15 0 - 15 1 15 2 15 5 - 15 8 15 9 16 2 - 87 5 MB h 24 . 7 25 . 1 25 . 8 - 24 . 5 24 . 9 25 . 6 - 23 . 9 24 . 2 25 . 0 - 22 . 8 23 . 1 23 . 9 - 21 . 4 21 . 8 22 . 5 - 20 . 2 20 . 6 21 . 3 - S/ T 0. 6 8 0. 6 1 0. 4 7 - 0. 6 9 0. 6 1 0. 4 7 - 0. 7 2 0. 6 4 0. 5 0 - 1. 0 0 0. 6 6 0. 5 2 - 1. 0 0 0. 6 8 0. 5 4 - 1. 0 0 0. 7 3 0. 5 9 - ∆T 9. 6 3 8. 6 8 6. 9 2 - 9. 6 0 8. 6 6 6. 9 0 - 9. 7 3 8. 7 9 7. 0 3 - 9. 5 9 8. 6 5 6. 8 9 - 9. 4 7 8. 5 2 6. 7 6 - 10 . 0 6 9. 1 1 7. 3 5 - kW 1. 6 3 1. 6 3 1. 6 2 - 1. 8 3 1. 8 2 1. 8 2 - 2. 0 5 2. 0 5 2. 0 4 - 2. 2 9 2. 2 9 2. 2 8 - 2. 5 6 2. 5 5 2. 5 5 - 2. 8 7 2. 8 7 2. 8 6 - Am p s 6. 5 7 6. 5 7 6. 5 5 - 7. 4 8 7. 4 7 7. 4 6 - 8. 5 0 8. 4 9 8. 4 7 - 9. 5 9 9. 5 9 9. 5 7 - 10 . 8 2 10 . 8 1 10 . 8 0 - 12 . 2 6 12 . 2 5 12 . 2 4 - Hi P R 25 3 25 4 25 5 - 29 2 29 3 29 5 - 33 3 33 5 33 6 - 37 8 37 9 38 1 - 42 6 42 7 42 9 - 47 7 47 8 48 0 - Lo P R 12 7 12 8 13 1 - 13 4 13 6 13 9 - 14 1 14 2 14 6 - 14 6 14 8 15 1 - 15 2 15 4 15 7 - 15 9 16 0 16 4 - 75 70 0 MB h 24 . 3 24 . 6 25 . 3 26 . 5 24 . 0 24 . 4 25 . 1 26 . 2 23 . 4 23 . 8 24 . 5 25 . 6 22 . 3 22 . 7 23 . 4 24 . 5 21 . 0 21 . 3 22 . 0 23 . 2 19 . 7 20 . 1 20 . 8 21 . 9 S/ T 0. 7 0 0. 6 2 0. 4 9 0. 3 0. 7 1 0. 6 3 0. 4 9 0. 3 1. 0 0 0. 6 6 0. 5 2 0. 4 1. 0 0 0. 6 8 0. 5 4 0. 4 1. 0 0 0. 7 0 0. 5 6 0. 4 1. 0 0 1. 0 0 0. 6 1 0. 5 ∆T 12 . 6 8 11 . 7 4 9. 9 7 8. 2 12 . 6 5 11 . 7 1 9. 9 5 8. 1 12 . 7 9 11 . 8 4 10 . 0 8 8. 3 12 . 6 4 11 . 7 0 9. 9 4 8. 1 12 . 5 2 11 . 5 7 9. 8 1 8. 0 13 . 1 1 12 . 1 6 10 . 4 0 8. 6 kW 1. 6 1 1. 6 1 1. 6 0 1. 6 1. 8 1 1. 8 1 1. 8 0 1. 8 2. 0 3 2. 0 3 2. 0 2 2. 0 2. 2 7 2. 2 7 2. 2 6 2. 3 2. 5 4 2. 5 3 2. 5 3 2. 5 2. 8 5 2. 8 5 2. 8 5 2. 9 Am p s 6. 4 9 6. 4 8 6. 4 6 6. 5 7. 3 9 7. 3 9 7. 3 7 7. 4 8. 4 1 8. 4 0 8. 3 9 8. 5 9. 5 1 9. 5 0 9. 4 8 9. 6 10 . 7 3 10 . 7 3 10 . 7 1 10 . 8 12 . 1 7 12 . 1 7 12 . 1 5 12 . 2 Hi P R 24 9 25 0 25 2 25 6 . 5 28 9 29 0 29 2 29 6 . 0 33 0 33 1 33 3 33 7 . 4 37 5 37 6 37 8 38 2 . 0 42 3 42 4 42 6 43 0 . 0 47 4 47 5 47 7 48 1 . 3 Lo P R 12 4 12 5 12 8 13 3 . 8 13 1 13 3 13 6 14 1 . 4 13 8 14 0 14 3 14 8 . 0 14 4 14 5 14 8 15 3 . 6 14 9 15 1 15 4 15 9 . 1 15 6 15 8 16 1 16 6 . 1 80 0 MB h 24 . 5 24 . 9 25 . 6 26 . 7 24 . 3 24 . 7 25 . 4 26 . 5 23 . 7 24 . 0 24 . 7 25 . 9 22 . 6 22 . 9 23 . 6 24 . 8 21 . 2 21 . 6 22 . 3 23 . 4 20 . 0 20 . 4 21 . 1 22 . 2 S/ T 0. 7 8 0. 7 0 0. 5 6 0. 4 0. 7 8 0. 7 1 0. 5 7 0. 4 1. 0 0 0. 7 3 0. 5 9 0. 4 1. 0 0 0. 7 5 0. 6 1 0. 5 1. 0 0 0. 7 7 0. 6 4 0. 5 1. 0 0 1. 0 0 0. 6 9 0. 5 ∆T 12 . 0 8 11 . 1 4 9. 3 8 7. 6 12 . 0 5 11 . 1 1 9. 3 5 7. 5 12 . 1 9 11 . 2 4 9. 4 8 7. 7 12 . 0 4 11 . 1 0 9. 3 4 7. 5 11 . 9 2 10 . 9 7 9. 2 1 7. 4 12 . 5 1 11 . 5 7 9. 8 0 8. 0 kW 1. 6 2 1. 6 2 1. 6 1 1. 6 1. 8 2 1. 8 2 1. 8 1 1. 8 2. 0 4 2. 0 4 2. 0 3 2. 0 2. 2 8 2. 2 8 2. 2 7 2. 3 2. 5 5 2. 5 5 2. 5 4 2. 6 2. 8 6 2. 8 6 2. 8 6 2. 9 Am p s 6. 5 4 6. 5 3 6. 5 1 6. 6 7. 4 4 7. 4 4 7. 4 2 7. 5 8. 4 6 8. 4 5 8. 4 4 8. 5 9. 5 6 9. 5 5 9. 5 3 9. 6 10 . 7 8 10 . 7 8 10 . 7 6 10 . 8 12 . 2 2 12 . 2 2 12 . 2 0 12 . 3 Hi P R 25 1 25 2 25 4 25 8 . 5 29 1 29 2 29 4 29 8 . 1 33 2 33 3 33 5 33 9 . 5 37 7 37 8 38 0 38 4 . 0 42 5 42 6 42 8 43 2 . 1 47 6 47 7 47 9 48 3 . 4 Lo P R 12 5 12 7 13 0 13 5 . 4 13 3 13 4 13 8 14 3 . 0 14 0 14 1 14 4 14 9 . 6 14 5 14 7 15 0 15 5 . 2 15 1 15 2 15 5 16 0 . 8 15 8 15 9 16 2 16 7 . 7 87 5 MB h 24 . 8 25 . 1 25 . 8 26 . 9 24 . 5 24 . 9 25 . 6 26 . 7 23 . 9 24 . 2 25 . 0 26 . 1 22 . 8 23 . 1 23 . 9 25 . 0 21 . 5 21 . 8 22 . 5 23 . 6 20 . 2 20 . 6 21 . 3 22 . 4 S/ T 0. 8 2 0. 7 4 0. 6 0 0. 5 1. 0 0 0. 7 4 0. 6 1 0. 5 1. 0 0 0. 7 7 0. 6 3 0. 5 1. 0 0 0. 7 9 0. 6 5 0. 5 1. 0 0 0. 8 1 0. 6 7 0. 5 1. 0 0 1. 0 0 0. 7 3 0. 6 ∆T 11 . 7 0 10 . 7 6 9. 0 0 7. 2 11 . 6 8 10 . 7 3 8. 9 7 7. 1 11 . 8 1 10 . 8 6 9. 1 0 7. 3 11 . 6 7 10 . 7 2 8. 9 6 7. 1 11 . 5 4 10 . 6 0 8. 8 4 7. 0 12 . 1 3 11 . 1 9 9. 4 3 7. 6 kW 1. 6 3 1. 6 2 1. 6 2 1. 6 1. 8 2 1. 8 2 1. 8 2 1. 8 2. 0 5 2. 0 4 2. 0 4 2. 1 2. 2 9 2. 2 8 2. 2 8 2. 3 2. 5 5 2. 5 5 2. 5 5 2. 6 2. 8 7 2. 8 7 2. 8 6 2. 9 Am p s 6. 5 7 6. 5 6 6. 5 4 6. 6 7. 4 8 7. 4 7 7. 4 5 7. 5 8. 4 9 8. 4 8 8. 4 7 8. 5 9. 5 9 9. 5 8 9. 5 7 9. 6 10 . 8 1 10 . 8 1 10 . 7 9 10 . 9 12 . 2 5 12 . 2 5 12 . 2 3 12 . 3 Hi P R 25 3 25 4 25 6 26 0 . 0 29 2 29 3 29 5 29 9 . 5 33 4 33 5 33 7 34 0 . 9 37 8 37 9 38 1 38 5 . 5 42 6 42 7 42 9 43 3 . 5 47 8 47 9 48 0 48 4 . 8 Lo P R 12 7 12 8 13 1 13 6 . 7 13 4 13 6 13 9 14 4 . 2 14 1 14 2 14 6 15 0 . 9 14 6 14 8 15 1 15 6 . 5 15 2 15 4 15 7 16 2 . 0 15 9 16 0 16 4 16 8 . 9 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A C C A ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 4www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 5 Expanded Cooling Data — GPHM32441** (cont.) Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 80 70 0 MB h 24 . 4 24 . 7 25 . 5 26 . 6 24 . 2 24 . 5 25 . 2 26 . 4 23 . 5 23 . 9 24 . 6 25 . 7 22 . 4 22 . 8 23 . 5 24 . 6 21 . 1 21 . 4 22 . 2 23 . 3 19 . 9 20 . 2 20 . 9 22 . 1 S/ T 1. 0 0 0. 7 5 0. 6 1 0. 5 1. 0 0 0. 7 6 0. 6 2 0. 5 1. 0 0 0. 7 9 0. 6 5 0. 5 1. 0 0 1. 0 0 0. 6 7 0. 5 1. 0 0 1. 0 0 0. 6 9 0. 5 1. 0 0 1. 0 0 0. 7 4 0. 6 ∆T 14 . 7 7 13 . 8 2 12 . 0 6 10 . 2 14 . 7 4 13 . 8 0 12 . 0 4 10 . 2 14 . 8 7 13 . 9 3 12 . 1 7 10 . 3 14 . 7 3 13 . 7 9 12 . 0 3 10 . 2 14 . 6 0 13 . 6 6 11 . 9 0 10 . 1 15 . 2 0 14 . 2 5 12 . 4 9 10 . 7 kW 1. 6 1 1. 6 1 1. 6 0 1. 6 1. 8 1 1. 8 1 1. 8 0 1. 8 2. 0 3 2. 0 3 2. 0 2 2. 0 2. 2 7 2. 2 7 2. 2 6 2. 3 2. 5 4 2. 5 4 2. 5 3 2. 5 2. 8 5 2. 8 5 2. 8 5 2. 9 Am p s 6. 4 9 6. 4 8 6. 4 7 6. 5 7. 4 0 7. 3 9 7. 3 8 7. 4 8. 4 1 8. 4 1 8. 3 9 8. 5 9. 5 1 9. 5 0 9. 4 9 9. 6 10 . 7 4 10 . 7 3 10 . 7 2 10 . 8 12 . 1 8 12 . 1 7 12 . 1 6 12 . 2 Hi P R 25 0 25 1 25 3 25 6 . 9 28 9 29 0 29 2 29 6 . 5 33 1 33 2 33 3 33 7 . 9 37 5 37 6 37 8 38 2 . 4 42 3 42 4 42 6 43 0 . 5 47 5 47 6 47 7 48 1 . 8 Lo P R 12 4 12 6 12 9 13 4 . 3 13 2 13 3 13 7 14 1 . 9 13 9 14 0 14 3 14 8 . 6 14 4 14 6 14 9 15 4 . 2 15 0 15 1 15 4 15 9 . 7 15 7 15 8 16 1 16 6 . 6 80 0 MB h 24 . 7 25 . 0 25 . 7 26 . 8 24 . 4 24 . 8 25 . 5 26 . 6 23 . 8 24 . 1 24 . 9 26 . 0 22 . 7 23 . 0 23 . 8 24 . 9 21 . 4 21 . 7 22 . 4 23 . 5 20 . 1 20 . 5 21 . 2 22 . 3 S/ T 1. 0 0 0. 8 3 0. 6 9 0. 5 1. 0 0 0. 8 3 0. 7 0 0. 5 1. 0 0 0. 8 6 0. 7 2 0. 6 1. 0 0 1. 0 0 0. 7 4 0. 6 1. 0 0 1. 0 0 0. 7 6 0. 6 1. 0 0 1. 0 0 0. 8 2 0. 7 ∆T 14 . 1 7 13 . 2 2 11 . 4 6 9. 6 14 . 1 4 13 . 2 0 11 . 4 4 9. 6 14 . 2 7 13 . 3 3 11 . 5 7 9. 7 14 . 1 3 13 . 1 9 11 . 4 3 9. 6 14 . 0 1 13 . 0 6 11 . 3 0 9. 5 14 . 6 0 13 . 6 5 11 . 8 9 10 . 1 kW 1. 6 2 1. 6 2 1. 6 2 1. 6 1. 8 2 1. 8 2 1. 8 1 1. 8 2. 0 4 2. 0 4 2. 0 4 2. 1 2. 2 8 2. 2 8 2. 2 8 2. 3 2. 5 5 2. 5 5 2. 5 4 2. 6 2. 8 6 2. 8 6 2. 8 6 2. 9 Am p s 6. 5 4 6. 5 3 6. 5 2 6. 6 7. 4 5 7. 4 4 7. 4 3 7. 5 8. 4 6 8. 4 6 8. 4 4 8. 5 9. 5 6 9. 5 5 9. 5 4 9. 6 10 . 7 9 10 . 7 8 10 . 7 7 10 . 8 12 . 2 3 12 . 2 2 12 . 2 0 12 . 3 Hi P R 25 2 25 3 25 5 25 9 . 0 29 1 29 2 29 4 29 8 . 5 33 3 33 4 33 6 33 9 . 9 37 7 37 8 38 0 38 4 . 5 42 5 42 6 42 8 43 2 . 6 47 7 47 8 47 9 48 3 . 9 Lo P R 12 6 12 7 13 1 13 5 . 9 13 3 13 5 13 8 14 3 . 5 14 0 14 2 14 5 15 0 . 2 14 6 14 7 15 0 15 5 . 8 15 1 15 3 15 6 16 1 . 3 15 8 16 0 16 3 16 8 . 2 87 5 MB h 24 . 9 25 . 2 26 . 0 27 . 1 24 . 7 25 . 0 25 . 7 26 . 8 24 . 0 24 . 4 25 . 1 26 . 2 22 . 9 23 . 3 24 . 0 25 . 1 21 . 6 21 . 9 22 . 7 23 . 8 20 . 4 20 . 7 21 . 4 22 . 5 S/ T 1. 0 0 0. 8 7 0. 7 3 0. 6 1. 0 0 0. 8 7 0. 7 3 0. 6 1. 0 0 0. 9 0 0. 7 6 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 1. 0 0 1. 0 0 0. 8 0 0. 7 1. 0 0 1. 0 0 0. 8 6 0. 7 ∆T 13 . 7 9 12 . 8 5 11 . 0 8 9. 3 13 . 7 6 12 . 8 2 11 . 0 6 9. 2 13 . 9 0 12 . 9 5 11 . 1 9 9. 4 13 . 7 5 12 . 8 1 11 . 0 5 9. 2 13 . 6 3 12 . 6 8 10 . 9 2 9. 1 14 . 2 2 13 . 2 7 11 . 5 1 9. 7 kW 1. 6 3 1. 6 3 1. 6 2 1. 6 1. 8 3 1. 8 2 1. 8 2 1. 8 2. 0 5 2. 0 5 2. 0 4 2. 1 2. 2 9 2. 2 9 2. 2 8 2. 3 2. 5 6 2. 5 5 2. 5 5 2. 6 2. 8 7 2. 8 7 2. 8 6 2. 9 Am p s 6. 5 7 6. 5 6 6. 5 5 6. 6 7. 4 8 7. 4 7 7. 4 6 7. 5 8. 4 9 8. 4 9 8. 4 7 8. 5 9. 5 9 9. 5 9 9. 5 7 9. 6 10 . 8 2 10 . 8 1 10 . 8 0 10 . 9 12 . 2 6 12 . 2 5 12 . 2 4 12 . 3 Hi P R 25 3 25 4 25 6 26 0 . 5 29 3 29 4 29 6 30 0 . 0 33 4 33 5 33 7 34 1 . 4 37 9 38 0 38 2 38 5 . 9 42 7 42 8 43 0 43 4 . 0 47 8 47 9 48 1 48 5 . 3 Lo P R 12 7 12 9 13 2 13 7 . 2 13 5 13 6 13 9 14 4 . 8 14 1 14 3 14 6 15 1 . 4 14 7 14 9 15 2 15 7 . 1 15 3 15 4 15 7 16 2 . 6 15 9 16 1 16 4 16 9 . 5 85 70 0 MB h 24 . 8 25 . 1 25 . 9 27 . 0 24 . 6 24 . 9 25 . 7 26 . 8 23 . 9 24 . 3 25 . 0 26 . 1 22 . 8 23 . 2 23 . 9 25 . 0 21 . 5 21 . 9 22 . 6 23 . 7 20 . 3 20 . 6 21 . 4 22 . 5 S/ T 1. 0 0 0. 8 6 0. 7 2 0. 6 1. 0 0 0. 8 6 0. 7 2 0. 6 1. 0 0 1. 0 0 0. 7 5 0. 6 1. 0 0 1. 0 0 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 7 9 0. 6 1. 0 0 1. 0 0 1. 0 0 0. 7 ∆T 16 . 6 2 15 . 6 7 13 . 9 1 12 . 1 16 . 5 9 15 . 6 5 13 . 8 9 12 . 1 16 . 7 2 15 . 7 8 14 . 0 2 12 . 2 16 . 5 8 15 . 6 4 13 . 8 8 12 . 1 16 . 4 6 15 . 5 1 13 . 7 5 11 . 9 17 . 0 5 16 . 1 0 14 . 3 4 12 . 5 kW 1. 6 1 1. 6 1 1. 6 1 1. 6 1. 8 1 1. 8 1 1. 8 1 1. 8 2. 0 3 2. 0 3 2. 0 3 2. 0 2. 2 7 2. 2 7 2. 2 7 2. 3 2. 5 4 2. 5 4 2. 5 4 2. 6 2. 8 6 2. 8 5 2. 8 5 2. 9 Am p s 6. 5 1 6. 5 0 6. 4 9 6. 6 7. 4 2 7. 4 1 7. 3 9 7. 5 8. 4 3 8. 4 2 8. 4 1 8. 5 9. 5 3 9. 5 2 9. 5 1 9. 6 10 . 7 6 10 . 7 5 10 . 7 3 10 . 8 12 . 2 0 12 . 1 9 12 . 1 7 12 . 2 Hi P R 25 1 25 2 25 4 25 8 . 1 29 0 29 2 29 3 29 7 . 6 33 2 33 3 33 5 33 9 . 0 37 6 37 7 37 9 38 3 . 6 42 4 42 6 42 7 43 1 . 7 47 6 47 7 47 9 48 3 . 0 Lo P R 12 6 12 8 13 1 13 6 . 2 13 4 13 5 13 8 14 3 . 8 14 0 14 2 14 5 15 0 . 4 14 6 14 8 15 1 15 6 . 0 15 2 15 3 15 6 16 1 . 6 15 8 16 0 16 3 16 8 . 5 80 0 MB h 25 . 1 25 . 4 26 . 1 27 . 3 24 . 8 25 . 2 25 . 9 27 . 0 24 . 2 24 . 6 25 . 3 26 . 4 23 . 1 23 . 5 24 . 2 25 . 3 21 . 8 22 . 1 22 . 8 24 . 0 20 . 5 20 . 9 21 . 6 22 . 7 S/ T 1. 0 0 0. 9 3 0. 7 9 0. 6 1. 0 0 1. 0 0 0. 8 0 0. 7 1. 0 0 1. 0 0 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 16 . 0 2 15 . 0 8 13 . 3 1 11 . 5 15 . 9 9 15 . 0 5 13 . 2 9 11 . 5 16 . 1 3 15 . 1 8 13 . 4 2 11 . 6 15 . 9 8 15 . 0 4 13 . 2 8 11 . 5 15 . 8 6 14 . 9 1 13 . 1 5 11 . 3 16 . 4 5 15 . 5 0 13 . 7 4 11 . 9 kW 1. 6 2 1. 6 2 1. 6 2 1. 6 1. 8 2 1. 8 2 1. 8 2 1. 8 2. 0 4 2. 0 4 2. 0 4 2. 1 2. 2 8 2. 2 8 2. 2 8 2. 3 2. 5 5 2. 5 5 2. 5 5 2. 6 2. 8 7 2. 8 6 2. 8 6 2. 9 Am p s 6. 5 6 6. 5 5 6. 5 3 6. 6 7. 4 7 7. 4 6 7. 4 4 7. 5 8. 4 8 8. 4 7 8. 4 6 8. 5 9. 5 8 9. 5 7 9. 5 6 9. 6 10 . 8 1 10 . 8 0 10 . 7 8 10 . 9 12 . 2 4 12 . 2 4 12 . 2 2 12 . 3 Hi P R 25 3 25 4 25 6 26 0 . 2 29 2 29 4 29 5 29 9 . 7 33 4 33 5 33 7 34 1 . 1 37 8 38 0 38 1 38 5 . 7 42 7 42 8 42 9 43 3 . 7 47 8 47 9 48 1 48 5 . 0 Lo P R 12 8 12 9 13 2 13 7 . 8 13 5 13 7 14 0 14 5 . 4 14 2 14 4 14 7 15 2 . 0 14 8 14 9 15 2 15 7 . 7 15 3 15 5 15 8 16 3 . 2 16 0 16 2 16 5 17 0 . 1 87 5 MB h 25 . 3 25 . 6 26 . 4 27 . 5 25 . 1 25 . 4 26 . 1 27 . 3 24 . 4 24 . 8 25 . 5 26 . 6 23 . 3 23 . 7 24 . 4 25 . 5 22 . 0 22 . 3 23 . 1 24 . 2 20 . 8 21 . 1 21 . 8 23 . 0 S/ T 1. 0 0 0. 9 7 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 4 0. 7 1. 0 0 1. 0 0 0. 8 6 0. 7 1. 0 0 1. 0 0 0. 8 8 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 15 . 6 4 14 . 7 0 12 . 9 4 11 . 1 15 . 6 1 14 . 6 7 12 . 9 1 11 . 1 15 . 7 5 14 . 8 0 13 . 0 4 11 . 2 15 . 6 0 14 . 6 6 12 . 9 0 11 . 1 15 . 4 8 14 . 5 4 12 . 7 7 11 . 0 16 . 0 7 15 . 1 3 13 . 3 7 11 . 5 kW 1. 6 3 1. 6 3 1. 6 3 1. 6 1. 8 3 1. 8 3 1. 8 2 1. 8 2. 0 5 2. 0 5 2. 0 5 2. 1 2. 2 9 2. 2 9 2. 2 9 2. 3 2. 5 6 2. 5 6 2. 5 5 2. 6 2. 8 7 2. 8 7 2. 8 7 2. 9 Am p s 6. 5 9 6. 5 8 6. 5 7 6. 6 7. 5 0 7. 4 9 7. 4 7 7. 5 8. 5 1 8. 5 1 8. 4 9 8. 6 9. 6 1 9. 6 0 9. 5 9 9. 7 10 . 8 4 10 . 8 3 10 . 8 1 10 . 9 12 . 2 8 12 . 2 7 12 . 2 5 12 . 3 Hi P R 25 4 25 6 25 7 26 1 . 6 29 4 29 5 29 7 30 1 . 1 33 5 33 6 33 8 34 2 . 5 38 0 38 1 38 3 38 7 . 1 42 8 42 9 43 1 43 5 . 2 47 9 48 0 48 2 48 6 . 5 Lo P R 12 9 13 1 13 4 13 9 . 1 13 7 13 8 14 1 14 6 . 7 14 3 14 5 14 8 15 3 . 3 14 9 15 0 15 4 15 8 . 9 15 4 15 6 15 9 16 4 . 5 16 1 16 3 16 6 17 1 . 4 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A H R I ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 6 www.goodmanmfg.com SS-GPHM3 Expanded Cooling Data — GPHM33041** Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 70 87 5 MB h 28 . 6 29 . 0 29 . 8 - 28 . 3 28 . 7 29 . 6 - 27 . 6 28 . 0 28 . 8 - 26 . 3 26 . 7 27 . 5 - 24 . 7 25 . 1 26 . 0 - 23 . 3 23 . 7 24 . 5 - S/ T 0. 6 2 0. 5 3 0. 3 9 - 0. 6 2 0. 5 4 0. 4 0 - 0. 6 5 0. 5 7 0. 4 2 - 1. 0 0 0. 5 9 0. 4 4 - 1. 0 0 0. 6 1 0. 4 7 - 1. 0 0 0. 6 7 0. 5 2 - ∆T 16 . 2 9 14 . 8 1 12 . 0 6 - 16 . 2 5 14 . 7 7 12 . 0 2 - 16 . 4 5 14 . 9 8 12 . 2 3 - 16 . 2 3 14 . 7 6 12 . 0 0 - 16 . 0 3 14 . 5 6 11 . 8 1 - 16 . 9 6 15 . 4 8 12 . 7 3 - kW 1. 9 0 1. 9 0 1. 8 9 - 2. 1 3 2. 1 3 2. 1 2 - 2. 3 9 2. 3 9 2. 3 8 - 2. 6 7 2. 6 7 2. 6 6 - 2. 9 8 2. 9 8 2. 9 8 - 3. 3 5 3. 3 5 3. 3 5 - Am p s 7. 4 5 7. 4 4 7. 4 2 - 8. 5 2 8. 5 1 8. 4 9 - 9. 7 1 9. 7 0 9. 6 8 - 10 . 9 9 10 . 9 8 10 . 9 7 - 12 . 4 3 12 . 4 2 12 . 4 0 - 14 . 1 2 14 . 1 1 14 . 0 9 - Hi P R 25 4 25 5 25 7 - 29 4 29 6 29 7 - 33 7 33 8 34 0 - 38 2 38 3 38 5 - 43 1 43 2 43 4 - 48 3 48 4 48 6 - Lo P R 12 5 12 7 13 0 - 13 3 13 4 13 7 - 13 9 14 1 14 4 - 14 5 14 7 15 0 - 15 1 15 2 15 5 - 15 8 15 9 16 2 - 10 5 0 MB h 29 . 1 29 . 5 30 . 3 - 28 . 8 29 . 2 30 . 1 - 28 . 1 28 . 5 29 . 3 - 26 . 8 27 . 2 28 . 0 - 25 . 2 25 . 6 26 . 5 - 23 . 8 24 . 2 25 . 0 - S/ T 0. 7 1 0. 6 3 0. 4 8 - 0. 7 1 0. 6 3 0. 4 9 - 0. 7 4 0. 6 6 0. 5 2 - 1. 0 0 0. 6 8 0. 5 4 - 1. 0 0 0. 7 0 0. 5 6 - 1. 0 0 0. 7 6 0. 6 1 - ∆T 15 . 0 5 13 . 5 8 10 . 8 3 - 15 . 0 1 13 . 5 4 10 . 7 9 - 15 . 2 2 13 . 7 5 10 . 9 9 - 15 . 0 0 13 . 5 2 10 . 7 7 - 14 . 8 0 13 . 3 3 10 . 5 7 - 15 . 7 2 14 . 2 5 11 . 5 0 - kW 1. 9 1 1. 9 1 1. 9 1 - 2. 1 5 2. 1 4 2. 1 4 - 2. 4 1 2. 4 0 2. 4 0 - 2. 6 9 2. 6 9 2. 6 8 - 3. 0 0 3. 0 0 3. 0 0 - 3. 3 7 3. 3 7 3. 3 6 - Am p s 7. 5 3 7. 5 2 7. 5 0 - 8. 5 9 8. 5 8 8. 5 7 - 9. 7 8 9. 7 7 9. 7 6 - 11 . 0 7 11 . 0 6 11 . 0 4 - 12 . 5 1 12 . 5 0 12 . 4 8 - 14 . 1 9 14 . 1 8 14 . 1 7 - Hi P R 25 7 25 8 26 0 - 29 7 29 8 30 0 - 34 0 34 1 34 2 - 38 5 38 6 38 8 - 43 4 43 5 43 7 - 48 6 48 7 48 9 - Lo P R 12 8 12 9 13 2 - 13 5 13 7 14 0 - 14 2 14 3 14 7 - 14 8 14 9 15 2 - 15 3 15 5 15 8 - 16 0 16 2 16 5 - 11 2 5 MB h 29 . 3 29 . 7 30 . 6 - 29 . 1 29 . 5 30 . 3 - 28 . 3 28 . 7 29 . 6 - 27 . 0 27 . 4 28 . 3 - 25 . 4 25 . 9 26 . 7 - 24 . 0 24 . 4 25 . 3 - S/ T 0. 7 3 0. 6 5 0. 5 1 - 0. 7 4 0. 6 6 0. 5 1 - 0. 7 6 0. 6 8 0. 5 4 - 1. 0 0 0. 7 0 0. 5 6 - 1. 0 0 0. 7 3 0. 5 8 - 1. 0 0 0. 7 8 0. 6 4 - ∆T 14 . 6 1 13 . 1 4 10 . 3 8 - 14 . 5 7 13 . 1 0 10 . 3 4 - 14 . 7 8 13 . 3 0 10 . 5 5 - 14 . 5 6 13 . 0 8 10 . 3 3 - 14 . 3 6 12 . 8 9 10 . 1 3 - 15 . 2 8 13 . 8 1 11 . 0 6 - kW 1. 9 2 1. 9 2 1. 9 1 - 2. 1 5 2. 1 5 2. 1 5 - 2. 4 1 2. 4 1 2. 4 1 - 2. 6 9 2. 6 9 2. 6 9 - 3. 0 1 3. 0 1 3. 0 0 - 3. 3 8 3. 3 7 3. 3 7 - Am p s 7. 5 6 7. 5 5 7. 5 3 - 8. 6 2 8. 6 1 8. 5 9 - 9. 8 1 9. 8 0 9. 7 8 - 11 . 1 0 11 . 0 9 11 . 0 7 - 12 . 5 3 12 . 5 2 12 . 5 1 - 14 . 2 2 14 . 2 1 14 . 1 9 - Hi P R 25 8 25 9 26 1 - 29 9 30 0 30 1 - 34 1 34 2 34 4 - 38 6 38 7 38 9 - 43 5 43 6 43 8 - 48 7 48 8 49 0 - Lo P R 12 9 13 0 13 3 - 13 6 13 8 14 1 - 14 3 14 5 14 8 - 14 9 15 0 15 3 - 15 4 15 6 15 9 - 16 1 16 3 16 6 - 75 87 5 MB h 28 . 6 29 . 0 29 . 9 31 . 2 28 . 3 28 . 7 29 . 6 30 . 9 27 . 6 28 . 0 28 . 9 30 . 2 26 . 3 26 . 7 27 . 6 28 . 9 24 . 7 25 . 1 26 . 0 27 . 3 23 . 3 23 . 7 24 . 5 25 . 9 S/ T 0. 7 5 0. 6 7 0. 5 3 0. 4 0. 7 6 0. 6 8 0. 5 3 0. 4 1. 0 0 0. 7 1 0. 5 6 0. 4 1. 0 0 0. 7 3 0. 5 8 0. 4 1. 0 0 0. 7 5 0. 6 1 0. 5 1. 0 0 1. 0 0 0. 6 6 0. 5 ∆T 19 . 5 3 18 . 0 5 15 . 3 0 12 . 4 19 . 4 9 18 . 0 1 15 . 2 6 12 . 4 19 . 7 0 18 . 2 2 15 . 4 7 12 . 6 19 . 4 7 18 . 0 0 15 . 2 5 12 . 4 19 . 2 8 17 . 8 0 15 . 0 5 12 . 2 20 . 2 0 18 . 7 3 15 . 9 7 13 . 1 kW 1. 9 0 1. 8 9 1. 8 9 1. 9 2. 1 3 2. 1 3 2. 1 2 2. 1 2. 3 9 2. 3 9 2. 3 8 2. 4 2. 6 7 2. 6 7 2. 6 6 2. 7 2. 9 8 2. 9 8 2. 9 8 3. 0 3. 3 5 3. 3 5 3. 3 5 3. 4 Am p s 7. 4 4 7. 4 4 7. 4 2 7. 5 8. 5 1 8. 5 0 8. 4 8 8. 6 9. 7 0 9. 6 9 9. 6 7 9. 8 10 . 9 9 10 . 9 8 10 . 9 6 11 . 0 12 . 4 2 12 . 4 1 12 . 4 0 12 . 5 14 . 1 1 14 . 1 0 14 . 0 8 14 . 2 Hi P R 25 4 25 6 25 7 26 1 . 8 29 5 29 6 29 8 30 2 . 0 33 7 33 8 34 0 34 4 . 2 38 2 38 3 38 5 38 9 . 6 43 1 43 2 43 4 43 8 . 5 48 3 48 4 48 6 49 0 . 7 Lo P R 12 5 12 7 13 0 13 5 . 2 13 3 13 4 13 8 14 2 . 9 13 9 14 1 14 4 14 9 . 6 14 5 14 7 15 0 15 5 . 2 15 1 15 2 15 5 16 0 . 8 15 8 15 9 16 2 16 7 . 7 10 5 0 MB h 29 . 1 29 . 5 30 . 3 31 . 7 28 . 8 29 . 2 30 . 1 31 . 4 28 . 1 28 . 5 29 . 3 30 . 6 26 . 8 27 . 2 28 . 1 29 . 4 25 . 2 25 . 6 26 . 5 27 . 8 23 . 8 24 . 2 25 . 0 26 . 3 S/ T 0. 8 5 0. 7 6 0. 6 2 0. 5 1. 0 0 0. 7 7 0. 6 3 0. 5 1. 0 0 0. 8 0 0. 6 5 0. 5 1. 0 0 0. 8 2 0. 6 7 0. 5 1. 0 0 1. 0 0 0. 7 0 0. 5 1. 0 0 1. 0 0 0. 7 5 0. 6 ∆T 18 . 3 0 16 . 8 2 14 . 0 7 11 . 2 18 . 2 6 16 . 7 8 14 . 0 3 11 . 2 18 . 4 6 16 . 9 9 14 . 2 4 11 . 4 18 . 2 4 16 . 7 7 14 . 0 1 11 . 2 18 . 0 4 16 . 5 7 13 . 8 2 11 . 0 18 . 9 7 17 . 4 9 14 . 7 4 11 . 9 kW 1. 9 1 1. 9 1 1. 9 1 1. 9 2. 1 5 2. 1 4 2. 1 4 2. 2 2. 4 0 2. 4 0 2. 4 0 2. 4 2. 6 9 2. 6 8 2. 6 8 2. 7 3. 0 0 3. 0 0 2. 9 9 3. 0 3. 3 7 3. 3 7 3. 3 6 3. 4 Am p s 7. 5 2 7. 5 1 7. 4 9 7. 6 8. 5 9 8. 5 8 8. 5 6 8. 6 9. 7 8 9. 7 7 9. 7 5 9. 8 11 . 0 6 11 . 0 5 11 . 0 4 11 . 1 12 . 5 0 12 . 4 9 12 . 4 7 12 . 6 14 . 1 9 14 . 1 8 14 . 1 6 14 . 2 Hi P R 25 7 25 8 26 0 26 4 . 7 29 8 29 9 30 1 30 5 . 0 34 0 34 1 34 3 34 7 . 1 38 5 38 6 38 8 39 2 . 5 43 4 43 5 43 7 44 1 . 4 48 6 48 7 48 9 49 3 . 7 Lo P R 12 8 12 9 13 2 13 7 . 7 13 5 13 7 14 0 14 5 . 3 14 2 14 3 14 7 15 2 . 0 14 8 14 9 15 2 15 7 . 7 15 3 15 5 15 8 16 3 . 2 16 0 16 2 16 5 17 0 . 2 11 2 5 MB h 29 . 3 29 . 7 30 . 6 31 . 9 29 . 1 29 . 5 30 . 3 31 . 6 28 . 3 28 . 7 29 . 6 30 . 9 27 . 0 27 . 4 28 . 3 29 . 6 25 . 5 25 . 9 26 . 7 28 . 0 24 . 0 24 . 4 25 . 3 26 . 6 S/ T 0. 8 7 0. 7 9 0. 6 4 0. 5 1. 0 0 0. 7 9 0. 6 5 0. 5 1. 0 0 0. 8 2 0. 6 8 0. 5 1. 0 0 0. 8 4 0. 7 0 0. 5 1. 0 0 1. 0 0 0. 7 2 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 ∆T 17 . 8 5 16 . 3 8 13 . 6 3 10 . 8 17 . 8 1 16 . 3 4 13 . 5 9 10 . 7 18 . 0 2 16 . 5 5 13 . 7 9 10 . 9 17 . 8 0 16 . 3 2 13 . 5 7 10 . 7 17 . 6 0 16 . 1 3 13 . 3 7 10 . 5 18 . 5 3 17 . 0 5 14 . 3 0 11 . 4 kW 1. 9 2 1. 9 2 1. 9 1 1. 9 2. 1 5 2. 1 5 2. 1 5 2. 2 2. 4 1 2. 4 1 2. 4 1 2. 4 2. 6 9 2. 6 9 2. 6 9 2. 7 3. 0 1 3. 0 0 3. 0 0 3. 0 3. 3 7 3. 3 7 3. 3 7 3. 4 Am p s 7. 5 5 7. 5 4 7. 5 2 7. 6 8. 6 1 8. 6 1 8. 5 9 8. 7 9. 8 0 9. 7 9 9. 7 8 9. 9 11 . 0 9 11 . 0 8 11 . 0 6 11 . 1 12 . 5 3 12 . 5 2 12 . 5 0 12 . 6 14 . 2 1 14 . 2 0 14 . 1 9 14 . 3 Hi P R 25 9 26 0 26 1 26 5 . 9 29 9 30 0 30 2 30 6 . 2 34 1 34 2 34 4 34 8 . 3 38 6 38 7 38 9 39 3 . 7 43 5 43 6 43 8 44 2 . 6 48 8 48 9 49 0 49 4 . 9 Lo P R 12 9 13 0 13 3 13 8 . 8 13 6 13 8 14 1 14 6 . 4 14 3 14 5 14 8 15 3 . 1 14 9 15 0 15 3 15 8 . 8 15 4 15 6 15 9 16 4 . 4 16 1 16 3 16 6 17 1 . 3 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A C C A ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 6www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 7 Expanded Cooling Data — GPHM33041** (cont.) Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 80 87 5 MB h 28 . 7 29 . 1 30 . 0 31 . 3 28 . 5 28 . 9 29 . 7 31 . 1 27 . 7 28 . 1 29 . 0 30 . 3 26 . 4 26 . 9 27 . 7 29 . 0 24 . 9 25 . 3 26 . 1 27 . 4 23 . 4 23 . 8 24 . 7 26 . 0 S/ T 1. 0 0 0. 8 1 0. 6 6 0. 5 1. 0 0 0. 8 1 0. 6 7 0. 5 1. 0 0 0. 8 4 0. 6 9 0. 5 1. 0 0 1. 0 0 0. 7 1 0. 6 1. 0 0 1. 0 0 0. 7 4 0. 6 1. 0 0 1. 0 0 0. 7 9 0. 6 ∆T 22 . 7 9 21 . 3 2 18 . 5 7 15 . 7 22 . 7 5 21 . 2 8 18 . 5 3 15 . 7 22 . 9 6 21 . 4 9 18 . 7 3 15 . 9 22 . 7 4 21 . 2 6 18 . 5 1 15 . 7 22 . 5 4 21 . 0 7 18 . 3 1 15 . 5 23 . 4 6 21 . 9 9 19 . 2 4 16 . 4 kW 1. 9 0 1. 9 0 1. 8 9 1. 9 2. 1 3 2. 1 3 2. 1 2 2. 1 2. 3 9 2. 3 9 2. 3 8 2. 4 2. 6 7 2. 6 7 2. 6 6 2. 7 2. 9 8 2. 9 8 2. 9 8 3. 0 3. 3 5 3. 3 5 3. 3 5 3. 4 Am p s 7. 4 5 7. 4 4 7. 4 2 7. 5 8. 5 2 8. 5 1 8. 4 9 8. 6 9. 7 0 9. 7 0 9. 6 8 9. 8 10 . 9 9 10 . 9 8 10 . 9 6 11 . 0 12 . 4 3 12 . 4 2 12 . 4 0 12 . 5 14 . 1 1 14 . 1 1 14 . 0 9 14 . 2 Hi P R 25 5 25 6 25 8 26 2 . 3 29 5 29 6 29 8 30 2 . 5 33 7 33 8 34 0 34 4 . 7 38 3 38 4 38 6 39 0 . 0 43 2 43 3 43 5 43 9 . 0 48 4 48 5 48 7 49 1 . 2 Lo P R 12 6 12 7 13 0 13 5 . 8 13 3 13 5 13 8 14 3 . 4 14 0 14 2 14 5 15 0 . 1 14 6 14 7 15 0 15 5 . 8 15 1 15 3 15 6 16 1 . 3 15 8 16 0 16 3 16 8 . 3 10 5 0 MB h 29 . 2 29 . 6 30 . 5 31 . 8 29 . 0 29 . 4 30 . 2 31 . 5 28 . 2 28 . 6 29 . 5 30 . 8 26 . 9 27 . 3 28 . 2 29 . 5 25 . 4 25 . 8 26 . 6 27 . 9 23 . 9 24 . 3 25 . 2 26 . 5 S/ T 1. 0 0 0. 9 0 0. 7 5 0. 6 1. 0 0 0. 9 0 0. 7 6 0. 6 1. 0 0 0. 9 3 0. 7 9 0. 6 1. 0 0 1. 0 0 0. 8 1 0. 7 1. 0 0 1. 0 0 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 9 0. 7 ∆T 21 . 5 6 20 . 0 9 17 . 3 3 14 . 5 21 . 5 2 20 . 0 5 17 . 2 9 14 . 4 21 . 7 3 20 . 2 5 17 . 5 0 14 . 6 21 . 5 1 20 . 0 3 17 . 2 8 14 . 4 21 . 3 1 19 . 8 3 17 . 0 8 14 . 2 22 . 2 3 20 . 7 6 18 . 0 0 15 . 2 kW 1. 9 1 1. 9 1 1. 9 1 1. 9 2. 1 5 2. 1 4 2. 1 4 2. 2 2. 4 1 2. 4 0 2. 4 0 2. 4 2. 6 9 2. 6 9 2. 6 8 2. 7 3. 0 0 3. 0 0 3. 0 0 3. 0 3. 3 7 3. 3 7 3. 3 6 3. 4 Am p s 7. 5 3 7. 5 2 7. 5 0 7. 6 8. 5 9 8. 5 8 8. 5 7 8. 6 9. 7 8 9. 7 7 9. 7 5 9. 8 11 . 0 7 11 . 0 6 11 . 0 4 11 . 1 12 . 5 0 12 . 5 0 12 . 4 8 12 . 6 14 . 1 9 14 . 1 8 14 . 1 6 14 . 2 Hi P R 25 8 25 9 26 1 26 5 . 2 29 8 29 9 30 1 30 5 . 4 34 0 34 1 34 3 34 7 . 6 38 6 38 7 38 9 39 3 . 0 43 5 43 6 43 7 44 1 . 9 48 7 48 8 49 0 49 4 . 1 Lo P R 12 8 13 0 13 3 13 8 . 2 13 6 13 7 14 1 14 5 . 9 14 2 14 4 14 7 15 2 . 6 14 8 15 0 15 3 15 8 . 2 15 4 15 5 15 8 16 3 . 8 16 1 16 2 16 5 17 0 . 7 11 2 5 MB h 29 . 5 29 . 9 30 . 7 32 . 1 29 . 2 29 . 6 30 . 5 31 . 8 28 . 5 28 . 9 29 . 7 31 . 0 27 . 2 27 . 6 28 . 4 29 . 8 25 . 6 26 . 0 26 . 9 28 . 2 24 . 2 24 . 6 25 . 4 26 . 7 S/ T 1. 0 0 0. 9 2 0. 7 8 0. 6 1. 0 0 0. 9 3 0. 7 8 0. 6 1. 0 0 0. 9 5 0. 8 1 0. 7 1. 0 0 1. 0 0 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 0. 9 1 0. 8 ∆T 21 . 1 2 19 . 6 4 16 . 8 9 14 . 0 21 . 0 8 19 . 6 0 16 . 8 5 14 . 0 21 . 2 9 19 . 8 1 17 . 0 6 14 . 2 21 . 0 6 19 . 5 9 16 . 8 4 14 . 0 20 . 8 7 19 . 3 9 16 . 6 4 13 . 8 21 . 7 9 20 . 3 2 17 . 5 6 14 . 7 kW 1. 9 2 1. 9 2 1. 9 1 1. 9 2. 1 5 2. 1 5 2. 1 5 2. 2 2. 4 1 2. 4 1 2. 4 1 2. 4 2. 6 9 2. 6 9 2. 6 9 2. 7 3. 0 1 3. 0 1 3. 0 0 3. 0 3. 3 8 3. 3 7 3. 3 7 3. 4 Am p s 7. 5 5 7. 5 5 7. 5 3 7. 6 8. 6 2 8. 6 1 8. 5 9 8. 7 9. 8 1 9. 8 0 9. 7 8 9. 9 11 . 0 9 11 . 0 9 11 . 0 7 11 . 1 12 . 5 3 12 . 5 2 12 . 5 1 12 . 6 14 . 2 2 14 . 2 1 14 . 1 9 14 . 3 Hi P R 25 9 26 0 26 2 26 6 . 4 29 9 30 0 30 2 30 6 . 6 34 1 34 3 34 4 34 8 . 8 38 7 38 8 39 0 39 4 . 2 43 6 43 7 43 9 44 3 . 1 48 8 48 9 49 1 49 5 . 3 Lo P R 12 9 13 1 13 4 13 9 . 4 13 7 13 8 14 2 14 7 . 0 14 4 14 5 14 8 15 3 . 7 14 9 15 1 15 4 15 9 . 4 15 5 15 6 16 0 16 4 . 9 16 2 16 3 16 7 17 1 . 9 85 87 5 MB h 29 . 2 29 . 6 30 . 5 31 . 8 29 . 0 29 . 4 30 . 2 31 . 5 28 . 2 28 . 6 29 . 5 30 . 8 26 . 9 27 . 3 28 . 2 29 . 5 25 . 4 25 . 8 26 . 6 27 . 9 23 . 9 24 . 3 25 . 2 26 . 5 S/ T 1. 0 0 0. 9 1 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 1. 0 0 1. 0 0 0. 8 0 0. 7 1. 0 0 1. 0 0 0. 8 2 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 7 ∆T 25 . 6 9 24 . 2 1 21 . 4 6 18 . 6 25 . 6 5 24 . 1 7 21 . 4 2 18 . 6 25 . 8 6 24 . 3 8 21 . 6 3 18 . 8 25 . 6 3 24 . 1 6 21 . 4 1 18 . 6 25 . 4 4 23 . 9 6 21 . 2 1 18 . 4 26 . 3 6 24 . 8 9 22 . 1 3 19 . 3 kW 1. 9 0 1. 9 0 1. 9 0 1. 9 2. 1 3 2. 1 3 2. 1 3 2. 1 2. 3 9 2. 3 9 2. 3 9 2. 4 2. 6 7 2. 6 7 2. 6 7 2. 7 2. 9 9 2. 9 9 2. 9 8 3. 0 3. 3 6 3. 3 6 3. 3 5 3. 4 Am p s 7. 4 7 7. 4 6 7. 4 4 7. 5 8. 5 4 8. 5 3 8. 5 1 8. 6 9. 7 2 9. 7 2 9. 7 0 9. 8 11 . 0 1 11 . 0 0 10 . 9 8 11 . 1 12 . 4 5 12 . 4 4 12 . 4 2 12 . 5 14 . 1 4 14 . 1 3 14 . 1 1 14 . 2 Hi P R 25 6 25 7 25 9 26 3 . 5 29 6 29 7 29 9 30 3 . 7 33 9 34 0 34 1 34 5 . 9 38 4 38 5 38 7 39 1 . 2 43 3 43 4 43 6 44 0 . 2 48 5 48 6 48 8 49 2 . 4 Lo P R 12 8 12 9 13 2 13 7 . 7 13 5 13 7 14 0 14 5 . 3 14 2 14 3 14 7 15 2 . 0 14 8 14 9 15 2 15 7 . 7 15 3 15 5 15 8 16 3 . 2 16 0 16 2 16 5 17 0 . 2 10 5 0 MB h 29 . 7 30 . 1 31 . 0 32 . 3 29 . 5 29 . 9 30 . 7 32 . 0 28 . 7 29 . 1 30 . 0 31 . 3 27 . 4 27 . 8 28 . 7 30 . 0 25 . 8 26 . 3 27 . 1 28 . 4 24 . 4 24 . 8 25 . 7 27 . 0 S/ T 1. 0 0 1. 0 0 0. 8 6 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 0. 8 9 0. 7 1. 0 0 1. 0 0 0. 9 1 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 24 . 4 6 22 . 9 8 20 . 2 3 17 . 4 24 . 4 2 22 . 9 4 20 . 1 9 17 . 3 24 . 6 2 23 . 1 5 20 . 3 9 17 . 5 24 . 4 0 22 . 9 3 20 . 1 7 17 . 3 24 . 2 0 22 . 7 3 19 . 9 8 17 . 1 25 . 1 3 23 . 6 5 20 . 9 0 18 . 0 kW 1. 9 2 1. 9 2 1. 9 1 1. 9 2. 1 5 2. 1 5 2. 1 4 2. 2 2. 4 1 2. 4 1 2. 4 0 2. 4 2. 6 9 2. 6 9 2. 6 9 2. 7 3. 0 1 3. 0 0 3. 0 0 3. 0 3. 3 7 3. 3 7 3. 3 7 3. 4 Am p s 7. 5 5 7. 5 4 7. 5 2 7. 6 8. 6 1 8. 6 0 8. 5 9 8. 7 9. 8 0 9. 7 9 9. 7 7 9. 9 11 . 0 9 11 . 0 8 11 . 0 6 11 . 1 12 . 5 3 12 . 5 2 12 . 5 0 12 . 6 14 . 2 1 14 . 2 0 14 . 1 8 14 . 3 Hi P R 25 9 26 0 26 2 26 6 . 4 29 9 30 0 30 2 30 6 . 6 34 1 34 3 34 4 34 8 . 8 38 7 38 8 39 0 39 4 . 2 43 6 43 7 43 9 44 3 . 1 48 8 48 9 49 1 49 5 . 3 Lo P R 13 0 13 2 13 5 14 0 . 1 13 8 13 9 14 2 14 7 . 7 14 4 14 6 14 9 15 4 . 4 15 0 15 2 15 5 16 0 . 1 15 6 15 7 16 0 16 5 . 7 16 3 16 4 16 7 17 2 . 6 11 2 5 MB h 30 . 0 30 . 4 31 . 2 32 . 5 29 . 7 30 . 1 31 . 0 32 . 3 29 . 0 29 . 4 30 . 2 31 . 5 27 . 7 28 . 1 28 . 9 30 . 2 26 . 1 26 . 5 27 . 4 28 . 7 24 . 7 25 . 1 25 . 9 27 . 2 S/ T 1. 0 0 1. 0 0 0. 8 8 0. 7 1. 0 0 1. 0 0 0. 8 9 0. 7 1. 0 0 1. 0 0 0. 9 2 0. 8 1. 0 0 1. 0 0 0. 9 4 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 9 ∆T 24 . 0 1 22 . 5 4 19 . 7 9 16 . 9 23 . 9 7 22 . 5 0 19 . 7 5 16 . 9 24 . 1 8 22 . 7 1 19 . 9 5 17 . 1 23 . 9 6 22 . 4 8 19 . 7 3 16 . 9 23 . 7 6 22 . 2 9 19 . 5 3 16 . 7 24 . 6 8 23 . 2 1 20 . 4 6 17 . 6 kW 1. 9 2 1. 9 2 1. 9 2 1. 9 2. 1 6 2. 1 5 2. 1 5 2. 2 2. 4 2 2. 4 1 2. 4 1 2. 4 2. 7 0 2. 7 0 2. 6 9 2. 7 3. 0 1 3. 0 1 3. 0 1 3. 0 3. 3 8 3. 3 8 3. 3 7 3. 4 Am p s 7. 5 7 7. 5 7 7. 5 5 7. 6 8. 6 4 8. 6 3 8. 6 1 8. 7 9. 8 3 9. 8 2 9. 8 0 9. 9 11 . 1 1 11 . 1 1 11 . 0 9 11 . 2 12 . 5 5 12 . 5 4 12 . 5 3 12 . 6 14 . 2 4 14 . 2 3 14 . 2 1 14 . 3 Hi P R 26 0 26 1 26 3 26 7 . 6 30 0 30 2 30 3 30 7 . 8 34 3 34 4 34 6 35 0 . 0 38 8 38 9 39 1 39 5 . 4 43 7 43 8 44 0 44 4 . 3 48 9 49 0 49 2 49 6 . 5 Lo P R 13 1 13 3 13 6 14 1 . 2 13 9 14 0 14 4 14 8 . 9 14 5 14 7 15 0 15 5 . 6 15 1 15 3 15 6 16 1 . 2 15 7 15 8 16 1 16 6 . 8 16 4 16 5 16 8 17 3 . 8 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A H R I ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 8 www.goodmanmfg.com SS-GPHM3 Expanded Cooling Data — GPHM33641** Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 70 10 5 0 MB h 34 . 8 35 . 3 36 . 3 - 34 . 5 35 . 0 36 . 0 - 33 . 6 34 . 1 35 . 1 - 32 . 0 32 . 5 33 . 5 - 30 . 1 30 . 6 31 . 6 - 28 . 4 28 . 8 29 . 9 - S/ T 0. 6 2 0. 5 5 0. 4 1 - 0. 6 3 0. 5 5 0. 4 1 - 0. 6 6 0. 5 8 0. 4 4 - 1. 0 0 0. 6 0 0. 4 6 - 1. 0 0 0. 6 2 0. 4 8 - 1. 0 0 0. 6 7 0. 5 3 - ∆T 19 . 7 5 17 . 9 2 14 . 5 1 - 19 . 7 0 17 . 8 7 14 . 4 6 - 19 . 9 5 18 . 1 3 14 . 7 2 - 19 . 6 8 17 . 8 5 14 . 4 4 - 19 . 4 3 17 . 6 1 14 . 2 0 - 20 . 5 8 18 . 7 5 15 . 3 4 - kW 2. 2 9 2. 2 9 2. 2 8 - 2. 5 8 2. 5 8 2. 5 7 - 2. 9 0 2. 9 0 2. 8 9 - 3. 2 4 3. 2 4 3. 2 4 - 3. 6 3 3. 6 3 3. 6 3 - 4. 0 9 4. 0 8 4. 0 8 - Am p s 8. 9 5 8. 9 3 8. 9 1 - 10 . 2 6 10 . 2 5 10 . 2 3 - 11 . 7 3 11 . 7 2 11 . 6 9 - 13 . 3 1 13 . 3 0 13 . 2 8 - 15 . 0 9 15 . 0 8 15 . 0 5 - 17 . 1 7 17 . 1 6 17 . 1 3 - Hi P R 26 7 26 9 27 1 - 31 0 31 1 31 3 - 35 4 35 5 35 7 - 40 2 40 3 40 5 - 45 3 45 4 45 6 - 50 8 50 9 51 1 - Lo P R 12 5 12 6 13 0 - 13 2 13 4 13 7 - 13 9 14 1 14 4 - 14 5 14 6 14 9 - 15 0 15 2 15 5 - 15 7 15 9 16 2 - 12 0 0 MB h 35 . 3 35 . 7 36 . 8 - 34 . 9 35 . 4 36 . 5 - 34 . 0 34 . 5 35 . 6 - 32 . 5 33 . 0 34 . 0 - 30 . 6 31 . 0 32 . 1 - 28 . 8 29 . 3 30 . 3 - S/ T 0. 6 9 0. 6 1 0. 4 7 - 0. 6 9 0. 6 1 0. 4 7 - 0. 7 2 0. 6 4 0. 5 0 - 1. 0 0 0. 6 6 0. 5 2 - 1. 0 0 0. 6 8 0. 5 4 - 1. 0 0 0. 7 4 0. 6 0 - ∆T 18 . 6 4 16 . 8 2 13 . 4 1 - 18 . 5 9 16 . 7 7 13 . 3 6 - 18 . 8 5 17 . 0 2 13 . 6 1 - 18 . 5 7 16 . 7 5 13 . 3 4 - 18 . 3 3 16 . 5 0 13 . 0 9 - 19 . 4 7 17 . 6 5 14 . 2 4 - kW 2. 3 1 2. 3 0 2. 3 0 - 2. 5 9 2. 5 9 2. 5 9 - 2. 9 1 2. 9 1 2. 9 1 - 3. 2 6 3. 2 6 3. 2 5 - 3. 6 5 3. 6 5 3. 6 4 - 4. 1 0 4. 1 0 4. 0 9 - Am p s 9. 0 1 9. 0 0 8. 9 8 - 10 . 3 3 10 . 3 2 10 . 2 9 - 11 . 7 9 11 . 7 8 11 . 7 6 - 13 . 3 8 13 . 3 7 13 . 3 5 - 15 . 1 5 15 . 1 4 15 . 1 2 - 17 . 2 4 17 . 2 3 17 . 2 0 - Hi P R 27 0 27 1 27 3 - 31 2 31 3 31 5 - 35 6 35 7 35 9 - 40 4 40 5 40 7 - 45 5 45 6 45 8 - 51 0 51 1 51 3 - Lo P R 12 7 12 8 13 1 - 13 4 13 6 13 9 - 14 1 14 2 14 6 - 14 7 14 8 15 1 - 15 2 15 4 15 7 - 15 9 16 1 16 4 - 13 5 0 MB h 35 . 8 36 . 3 37 . 3 - 35 . 5 36 . 0 37 . 0 - 34 . 6 35 . 1 36 . 1 - 33 . 0 33 . 5 34 . 5 - 31 . 1 31 . 6 32 . 6 - 29 . 4 29 . 9 30 . 9 - S/ T 0. 7 2 0. 6 4 0. 5 0 - 0. 7 3 0. 6 5 0. 5 1 - 0. 7 5 0. 6 7 0. 5 4 - 1. 0 0 0. 6 9 0. 5 6 - 1. 0 0 0. 7 2 0. 5 8 - 1. 0 0 0. 7 7 0. 6 3 - ∆T 17 . 7 1 15 . 8 9 12 . 4 8 - 17 . 6 6 15 . 8 4 12 . 4 3 - 17 . 9 2 16 . 0 9 12 . 6 8 - 17 . 6 5 15 . 8 2 12 . 4 1 - 17 . 4 0 15 . 5 8 12 . 1 7 - 18 . 5 4 16 . 7 2 13 . 3 1 - kW 2. 3 2 2. 3 2 2. 3 1 - 2. 6 0 2. 6 0 2. 6 0 - 2. 9 3 2. 9 2 2. 9 2 - 3. 2 7 3. 2 7 3. 2 7 - 3. 6 6 3. 6 6 3. 6 5 - 4. 1 1 4. 1 1 4. 1 1 - Am p s 9. 0 7 9. 0 6 9. 0 4 - 10 . 3 8 10 . 3 7 10 . 3 5 - 11 . 8 5 11 . 8 4 11 . 8 2 - 13 . 4 4 13 . 4 3 13 . 4 1 - 15 . 2 1 15 . 2 0 15 . 1 8 - 17 . 2 9 17 . 2 8 17 . 2 6 - Hi P R 27 2 27 3 27 5 - 31 4 31 5 31 7 - 35 8 36 0 36 1 - 40 6 40 7 40 9 - 45 7 45 8 46 0 - 51 2 51 3 51 5 - Lo P R 12 9 13 0 13 3 - 13 6 13 8 14 1 - 14 3 14 5 14 8 - 14 9 15 0 15 3 - 15 4 15 6 15 9 - 16 1 16 3 16 6 - 75 10 5 0 MB h 34 . 8 35 . 3 36 . 3 37 . 9 34 . 5 35 . 0 36 . 0 37 . 6 33 . 6 34 . 1 35 . 1 36 . 7 32 . 0 32 . 5 33 . 6 35 . 2 30 . 1 30 . 6 31 . 7 33 . 2 28 . 4 28 . 9 29 . 9 31 . 5 S/ T 0. 7 6 0. 6 8 0. 5 4 0. 4 0. 7 6 0. 6 9 0. 5 5 0. 4 1. 0 0 0. 7 1 0. 5 7 0. 4 1. 0 0 0. 7 3 0. 5 9 0. 4 1. 0 0 0. 7 5 0. 6 1 0. 5 1. 0 0 1. 0 0 0. 6 7 0. 5 ∆T 23 . 7 6 21 . 9 3 18 . 5 3 15 . 0 23 . 7 1 21 . 8 8 18 . 4 8 14 . 9 23 . 9 7 22 . 1 4 18 . 7 3 15 . 2 23 . 6 9 21 . 8 7 18 . 4 6 14 . 9 23 . 4 5 21 . 6 2 18 . 2 1 14 . 7 24 . 5 9 22 . 7 7 19 . 3 6 15 . 8 kW 2. 2 9 2. 2 9 2. 2 8 2. 3 2. 5 8 2. 5 7 2. 5 7 2. 6 2. 9 0 2. 8 9 2. 8 9 2. 9 3. 2 4 3. 2 4 3. 2 4 3. 3 3. 6 3 3. 6 3 3. 6 2 3. 6 4. 0 9 4. 0 8 4. 0 8 4. 1 Am p s 8. 9 4 8. 9 3 8. 9 0 9. 0 10 . 2 5 10 . 2 4 10 . 2 2 10 . 3 11 . 7 2 11 . 7 1 11 . 6 8 11 . 8 13 . 3 0 13 . 2 9 13 . 2 7 13 . 4 15 . 0 8 15 . 0 7 15 . 0 5 15 . 1 17 . 1 6 17 . 1 5 17 . 1 3 17 . 2 Hi P R 26 8 26 9 27 1 27 5 . 4 31 0 31 1 31 3 31 7 . 6 35 4 35 5 35 7 36 1 . 8 40 2 40 3 40 5 40 9 . 5 45 3 45 4 45 6 46 0 . 8 50 8 50 9 51 1 51 5 . 6 Lo P R 12 5 12 6 13 0 13 4 . 9 13 2 13 4 13 7 14 2 . 5 13 9 14 1 14 4 14 9 . 2 14 5 14 6 14 9 15 4 . 8 15 0 15 2 15 5 16 0 . 3 15 7 15 9 16 2 16 7 . 2 12 0 0 MB h 35 . 3 35 . 8 36 . 8 38 . 4 35 . 0 35 . 5 36 . 5 38 . 1 34 . 1 34 . 5 35 . 6 37 . 2 32 . 5 33 . 0 34 . 0 35 . 6 30 . 6 31 . 1 32 . 1 33 . 7 28 . 8 29 . 3 30 . 4 32 . 0 S/ T 0. 8 2 0. 7 4 0. 6 0 0. 5 1. 0 0 0. 7 5 0. 6 1 0. 5 1. 0 0 0. 7 7 0. 6 3 0. 5 1. 0 0 0. 7 9 0. 6 5 0. 5 1. 0 0 0. 8 2 0. 6 8 0. 5 1. 0 0 1. 0 0 0. 7 3 0. 6 ∆T 22 . 6 6 20 . 8 3 17 . 4 2 13 . 9 22 . 6 1 20 . 7 8 17 . 3 7 13 . 8 22 . 8 6 21 . 0 4 17 . 6 3 14 . 1 22 . 5 9 20 . 7 6 17 . 3 5 13 . 8 22 . 3 5 20 . 5 2 17 . 1 1 13 . 6 23 . 4 9 21 . 6 6 18 . 2 5 14 . 7 kW 2. 3 0 2. 3 0 2. 3 0 2. 3 2. 5 9 2. 5 9 2. 5 8 2. 6 2. 9 1 2. 9 1 2. 9 0 2. 9 3. 2 6 3. 2 6 3. 2 5 3. 3 3. 6 5 3. 6 4 3. 6 4 3. 7 4. 1 0 4. 1 0 4. 0 9 4. 1 Am p s 9. 0 0 8. 9 9 8. 9 7 9. 1 10 . 3 2 10 . 3 1 10 . 2 9 10 . 4 11 . 7 9 11 . 7 8 11 . 7 5 11 . 9 13 . 3 7 13 . 3 6 13 . 3 4 13 . 4 15 . 1 5 15 . 1 4 15 . 1 1 15 . 2 17 . 2 3 17 . 2 2 17 . 1 9 17 . 3 Hi P R 27 0 27 1 27 3 27 7 . 7 31 2 31 3 31 5 31 9 . 9 35 6 35 8 35 9 36 4 . 1 40 4 40 5 40 7 41 1 . 7 45 5 45 7 45 8 46 3 . 1 51 0 51 1 51 3 51 7 . 8 Lo P R 12 7 12 8 13 1 13 6 . 7 13 4 13 6 13 9 14 4 . 3 14 1 14 2 14 6 15 1 . 0 14 7 14 8 15 1 15 6 . 6 15 2 15 4 15 7 16 2 . 1 15 9 16 1 16 4 16 9 . 1 13 5 0 MB h 35 . 8 36 . 3 37 . 4 38 . 9 35 . 5 36 . 0 37 . 0 38 . 6 34 . 6 35 . 1 36 . 1 37 . 7 33 . 0 33 . 5 34 . 6 36 . 2 31 . 1 31 . 6 32 . 7 34 . 2 29 . 4 29 . 9 30 . 9 32 . 5 S/ T 0. 8 5 0. 7 8 0. 6 4 0. 5 1. 0 0 0. 7 8 0. 6 4 0. 5 1. 0 0 0. 8 1 0. 6 7 0. 5 1. 0 0 0. 8 3 0. 6 9 0. 5 1. 0 0 1. 0 0 0. 7 1 0. 6 1. 0 0 1. 0 0 0. 7 6 0. 6 ∆T 21 . 7 3 19 . 9 0 16 . 4 9 13 . 0 21 . 6 8 19 . 8 5 16 . 4 4 12 . 9 21 . 9 4 20 . 1 1 16 . 7 0 13 . 2 21 . 6 6 19 . 8 3 16 . 4 2 12 . 9 21 . 4 2 19 . 5 9 16 . 1 8 12 . 6 22 . 5 6 20 . 7 3 17 . 3 2 13 . 8 kW 2. 3 2 2. 3 1 2. 3 1 2. 3 2. 6 0 2. 6 0 2. 6 0 2. 6 2. 9 2 2. 9 2 2. 9 2 2. 9 3. 2 7 3. 2 7 3. 2 6 3. 3 3. 6 6 3. 6 6 3. 6 5 3. 7 4. 1 1 4. 1 1 4. 1 1 4. 1 Am p s 9. 0 6 9. 0 5 9. 0 3 9. 1 10 . 3 8 10 . 3 7 10 . 3 4 10 . 4 11 . 8 4 11 . 8 3 11 . 8 1 11 . 9 13 . 4 3 13 . 4 2 13 . 4 0 13 . 5 15 . 2 0 15 . 1 9 15 . 1 7 15 . 3 17 . 2 8 17 . 2 7 17 . 2 5 17 . 4 Hi P R 27 2 27 3 27 5 27 9 . 9 31 4 31 6 31 7 32 2 . 1 35 9 36 0 36 2 36 6 . 3 40 6 40 7 40 9 41 3 . 9 45 8 45 9 46 1 46 5 . 3 51 2 51 4 51 5 52 0 . 1 Lo P R 12 9 13 0 13 3 13 8 . 8 13 6 13 8 14 1 14 6 . 4 14 3 14 5 14 8 15 3 . 0 14 9 15 0 15 3 15 8 . 7 15 4 15 6 15 9 16 4 . 2 16 1 16 3 16 6 17 1 . 1 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A C C A ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 8www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 9 Expanded Cooling Data — GPHM33641** (cont.) Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 80 10 5 0 MB h 35 . 0 35 . 5 36 . 5 38 . 1 34 . 7 35 . 2 36 . 2 37 . 8 33 . 8 34 . 3 35 . 3 36 . 9 32 . 2 32 . 7 33 . 7 35 . 3 30 . 3 30 . 8 31 . 8 33 . 4 28 . 6 29 . 0 30 . 1 31 . 7 S/ T 1. 0 0 0. 8 1 0. 6 7 0. 5 1. 0 0 0. 8 1 0. 6 7 0. 5 1. 0 0 0. 8 4 0. 7 0 0. 6 1. 0 0 1. 0 0 0. 7 2 0. 6 1. 0 0 1. 0 0 0. 7 4 0. 6 1. 0 0 1. 0 0 0. 8 0 0. 6 ∆T 27 . 8 0 25 . 9 8 22 . 5 7 19 . 0 27 . 7 5 25 . 9 3 22 . 5 2 19 . 0 28 . 0 1 26 . 1 8 22 . 7 7 19 . 2 27 . 7 3 25 . 9 1 22 . 5 0 19 . 0 27 . 4 9 25 . 6 6 22 . 2 5 18 . 7 28 . 6 3 26 . 8 1 23 . 4 0 19 . 9 kW 2. 2 9 2. 2 9 2. 2 8 2. 3 2. 5 8 2. 5 8 2. 5 7 2. 6 2. 9 0 2. 9 0 2. 8 9 2. 9 3. 2 4 3. 2 4 3. 2 4 3. 3 3. 6 3 3. 6 3 3. 6 2 3. 6 4. 0 9 4. 0 8 4. 0 8 4. 1 Am p s 8. 9 4 8. 9 3 8. 9 1 9. 0 10 . 2 6 10 . 2 5 10 . 2 2 10 . 3 11 . 7 2 11 . 7 1 11 . 6 9 11 . 8 13 . 3 1 13 . 3 0 13 . 2 8 13 . 4 15 . 0 9 15 . 0 7 15 . 0 5 15 . 2 17 . 1 7 17 . 1 6 17 . 1 3 17 . 2 Hi P R 26 8 26 9 27 1 27 5 . 9 31 0 31 2 31 3 31 8 . 1 35 5 35 6 35 8 36 2 . 3 40 2 40 3 40 5 40 9 . 9 45 4 45 5 45 7 46 1 . 3 50 8 51 0 51 1 51 6 . 1 Lo P R 12 5 12 7 13 0 13 5 . 5 13 3 13 5 13 8 14 3 . 1 14 0 14 1 14 4 14 9 . 7 14 5 14 7 15 0 15 5 . 3 15 1 15 2 15 6 16 0 . 9 15 8 15 9 16 2 16 7 . 8 12 0 0 MB h 35 . 5 35 . 9 37 . 0 38 . 6 35 . 1 35 . 6 36 . 7 38 . 3 34 . 2 34 . 7 35 . 8 37 . 4 32 . 7 33 . 2 34 . 2 35 . 8 30 . 8 31 . 2 32 . 3 33 . 9 29 . 0 29 . 5 30 . 5 32 . 1 S/ T 1. 0 0 0. 8 7 0. 7 3 0. 6 1. 0 0 0. 8 8 0. 7 4 0. 6 1. 0 0 0. 9 0 0. 7 6 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 1. 0 0 1. 0 0 0. 8 1 0. 7 1. 0 0 1. 0 0 0. 8 6 0. 7 ∆T 26 . 7 0 24 . 8 7 21 . 4 6 17 . 9 26 . 6 5 24 . 8 2 21 . 4 1 17 . 9 26 . 9 1 25 . 0 8 21 . 6 7 18 . 1 26 . 6 3 24 . 8 1 21 . 4 0 17 . 9 26 . 3 9 24 . 5 6 21 . 1 5 17 . 6 27 . 5 3 25 . 7 0 22 . 3 0 18 . 8 kW 2. 3 1 2. 3 0 2. 3 0 2. 3 2. 5 9 2. 5 9 2. 5 8 2. 6 2. 9 1 2. 9 1 2. 9 1 2. 9 3. 2 6 3. 2 6 3. 2 5 3. 3 3. 6 5 3. 6 4 3. 6 4 3. 7 4. 1 0 4. 1 0 4. 0 9 4. 1 Am p s 9. 0 1 9. 0 0 8. 9 8 9. 1 10 . 3 3 10 . 3 2 10 . 2 9 10 . 4 11 . 7 9 11 . 7 8 11 . 7 6 11 . 9 13 . 3 8 13 . 3 7 13 . 3 5 13 . 4 15 . 1 5 15 . 1 4 15 . 1 2 15 . 2 17 . 2 3 17 . 2 2 17 . 2 0 17 . 3 Hi P R 27 0 27 2 27 4 27 8 . 2 31 3 31 4 31 6 32 0 . 4 35 7 35 8 36 0 36 4 . 6 40 5 40 6 40 8 41 2 . 2 45 6 45 7 45 9 46 3 . 6 51 1 51 2 51 4 51 8 . 3 Lo P R 12 7 12 9 13 2 13 7 . 3 13 5 13 6 14 0 14 4 . 9 14 2 14 3 14 6 15 1 . 5 14 7 14 9 15 2 15 7 . 2 15 3 15 4 15 7 16 2 . 7 16 0 16 1 16 4 16 9 . 6 13 5 0 MB h 36 . 0 36 . 5 37 . 5 39 . 1 35 . 7 36 . 2 37 . 2 38 . 8 34 . 8 35 . 3 36 . 3 37 . 9 33 . 2 33 . 7 34 . 7 36 . 3 31 . 3 31 . 8 32 . 8 34 . 4 29 . 6 30 . 1 31 . 1 32 . 7 S/ T 1. 0 0 0. 9 0 0. 7 6 0. 6 1. 0 0 0. 9 1 0. 7 7 0. 6 1. 0 0 0. 9 4 0. 8 0 0. 6 1. 0 0 1. 0 0 0. 8 2 0. 7 1. 0 0 1. 0 0 0. 8 4 0. 7 1. 0 0 1. 0 0 0. 8 9 0. 7 ∆T 25 . 7 7 23 . 9 5 20 . 5 4 17 . 0 25 . 7 2 23 . 9 0 20 . 4 9 17 . 0 25 . 9 8 24 . 1 5 20 . 7 4 17 . 2 25 . 7 0 23 . 8 8 20 . 4 7 16 . 9 25 . 4 6 23 . 6 3 20 . 2 2 16 . 7 26 . 6 0 24 . 7 8 21 . 3 7 17 . 8 kW 2. 3 2 2. 3 2 2. 3 1 2. 3 2. 6 0 2. 6 0 2. 6 0 2. 6 2. 9 3 2. 9 2 2. 9 2 2. 9 3. 2 7 3. 2 7 3. 2 6 3. 3 3. 6 6 3. 6 6 3. 6 5 3. 7 4. 1 1 4. 1 1 4. 1 1 4. 1 Am p s 9. 0 7 9. 0 6 9. 0 4 9. 1 10 . 3 8 10 . 3 7 10 . 3 5 10 . 5 11 . 8 5 11 . 8 4 11 . 8 2 11 . 9 13 . 4 4 13 . 4 3 13 . 4 0 13 . 5 15 . 2 1 15 . 2 0 15 . 1 8 15 . 3 17 . 2 9 17 . 2 8 17 . 2 6 17 . 4 Hi P R 27 3 27 4 27 6 28 0 . 4 31 5 31 6 31 8 32 2 . 6 35 9 36 0 36 2 36 6 . 8 40 7 40 8 41 0 41 4 . 4 45 8 45 9 46 1 46 5 . 8 51 3 51 4 51 6 52 0 . 5 Lo P R 12 9 13 1 13 4 13 9 . 3 13 7 13 8 14 2 14 6 . 9 14 4 14 5 14 8 15 3 . 6 14 9 15 1 15 4 15 9 . 2 15 5 15 6 15 9 16 4 . 7 16 2 16 3 16 6 17 1 . 6 85 10 5 0 MB h 35 . 6 36 . 1 37 . 1 38 . 7 35 . 3 35 . 8 36 . 8 38 . 4 34 . 4 34 . 9 35 . 9 37 . 5 32 . 8 33 . 3 34 . 3 35 . 9 30 . 9 31 . 4 32 . 4 34 . 0 29 . 1 29 . 6 30 . 7 32 . 3 S/ T 1. 0 0 0. 9 1 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 1. 0 0 1. 0 0 0. 8 0 0. 7 1. 0 0 1. 0 0 0. 8 2 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 31 . 3 9 29 . 5 6 26 . 1 5 22 . 6 31 . 3 4 29 . 5 1 26 . 1 0 22 . 6 31 . 6 0 29 . 7 7 26 . 3 6 22 . 8 31 . 3 2 29 . 4 9 26 . 0 8 22 . 6 31 . 0 8 29 . 2 5 25 . 8 4 22 . 3 32 . 2 2 30 . 3 9 26 . 9 8 23 . 5 kW 2. 3 0 2. 2 9 2. 2 9 2. 3 2. 5 8 2. 5 8 2. 5 8 2. 6 2. 9 0 2. 9 0 2. 9 0 2. 9 3. 2 5 3. 2 5 3. 2 4 3. 3 3. 6 4 3. 6 4 3. 6 3 3. 7 4. 0 9 4. 0 9 4. 0 9 4. 1 Am p s 8. 9 7 8. 9 6 8. 9 4 9. 0 10 . 2 8 10 . 2 7 10 . 2 5 10 . 4 11 . 7 5 11 . 7 4 11 . 7 2 11 . 8 13 . 3 4 13 . 3 3 13 . 3 0 13 . 4 15 . 1 1 15 . 1 0 15 . 0 8 15 . 2 17 . 1 9 17 . 1 8 17 . 1 6 17 . 3 Hi P R 26 9 27 1 27 3 27 7 . 2 31 2 31 3 31 5 31 9 . 4 35 6 35 7 35 9 36 3 . 6 40 4 40 5 40 7 41 1 . 2 45 5 45 6 45 8 46 2 . 5 51 0 51 1 51 3 51 7 . 3 Lo P R 12 7 12 9 13 2 13 7 . 3 13 5 13 6 14 0 14 4 . 9 14 2 14 3 14 6 15 1 . 6 14 7 14 9 15 2 15 7 . 2 15 3 15 4 15 7 16 2 . 7 16 0 16 1 16 4 16 9 . 6 12 0 0 MB h 36 . 0 36 . 5 37 . 6 39 . 2 35 . 7 36 . 2 37 . 3 38 . 8 34 . 8 35 . 3 36 . 3 37 . 9 33 . 3 33 . 7 34 . 8 36 . 4 31 . 3 31 . 8 32 . 9 34 . 5 29 . 6 30 . 1 31 . 1 32 . 7 S/ T 1. 0 0 0. 9 7 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 4 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 0. 8 9 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 30 . 2 9 28 . 4 6 25 . 0 5 21 . 5 30 . 2 4 28 . 4 1 25 . 0 0 21 . 5 30 . 4 9 28 . 6 7 25 . 2 6 21 . 7 30 . 2 2 28 . 3 9 24 . 9 8 21 . 4 29 . 9 7 28 . 1 5 24 . 7 4 21 . 2 31 . 1 2 29 . 2 9 25 . 8 8 22 . 3 kW 2. 3 1 2. 3 1 2. 3 0 2. 3 2. 6 0 2. 6 0 2. 5 9 2. 6 2. 9 2 2. 9 2 2. 9 1 2. 9 3. 2 6 3. 2 6 3. 2 6 3. 3 3. 6 5 3. 6 5 3. 6 5 3. 7 4. 1 1 4. 1 0 4. 1 0 4. 1 Am p s 9. 0 4 9. 0 3 9. 0 0 9. 1 10 . 3 5 10 . 3 4 10 . 3 2 10 . 4 11 . 8 2 11 . 8 1 11 . 7 8 11 . 9 13 . 4 0 13 . 3 9 13 . 3 7 13 . 5 15 . 1 8 15 . 1 7 15 . 1 5 15 . 2 17 . 2 6 17 . 2 5 17 . 2 3 17 . 3 Hi P R 27 2 27 3 27 5 27 9 . 4 31 4 31 5 31 7 32 1 . 6 35 8 35 9 36 1 36 5 . 9 40 6 40 7 40 9 41 3 . 5 45 7 45 8 46 0 46 4 . 8 51 2 51 3 51 5 51 9 . 6 Lo P R 12 9 13 1 13 4 13 9 . 2 13 7 13 8 14 1 14 6 . 8 14 3 14 5 14 8 15 3 . 4 14 9 15 1 15 4 15 9 . 0 15 5 15 6 15 9 16 4 . 6 16 1 16 3 16 6 17 1 . 5 13 5 0 MB h 36 . 6 37 . 1 38 . 1 39 . 7 36 . 3 36 . 8 37 . 8 39 . 4 35 . 4 35 . 9 36 . 9 38 . 5 33 . 8 34 . 3 35 . 3 36 . 9 31 . 9 32 . 4 33 . 4 35 . 0 30 . 1 30 . 6 31 . 7 33 . 3 S/ T 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 0. 8 8 0. 7 1. 0 0 1. 0 0 0. 9 0 0. 8 1. 0 0 1. 0 0 0. 9 2 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 9 ∆T 29 . 3 6 27 . 5 3 24 . 1 2 20 . 6 29 . 3 1 27 . 4 8 24 . 0 7 20 . 5 29 . 5 6 27 . 7 4 24 . 3 3 20 . 8 29 . 2 9 27 . 4 6 24 . 0 5 20 . 5 29 . 0 4 27 . 2 2 23 . 8 1 20 . 3 30 . 1 9 28 . 3 6 24 . 9 5 21 . 4 kW 2. 3 2 2. 3 2 2. 3 2 2. 3 2. 6 1 2. 6 1 2. 6 0 2. 6 2. 9 3 2. 9 3 2. 9 2 2. 9 3. 2 8 3. 2 8 3. 2 7 3. 3 3. 6 6 3. 6 6 3. 6 6 3. 7 4. 1 2 4. 1 2 4. 1 1 4. 1 Am p s 9. 0 9 9. 0 8 9. 0 6 9. 2 10 . 4 1 10 . 4 0 10 . 3 8 10 . 5 11 . 8 7 11 . 8 6 11 . 8 4 11 . 9 13 . 4 6 13 . 4 5 13 . 4 3 13 . 5 15 . 2 4 15 . 2 3 15 . 2 0 15 . 3 17 . 3 2 17 . 3 1 17 . 2 8 17 . 4 Hi P R 27 4 27 5 27 7 28 1 . 6 31 6 31 7 31 9 32 3 . 9 36 0 36 2 36 3 36 8 . 1 40 8 40 9 41 1 41 5 . 7 45 9 46 0 46 2 46 7 . 0 51 4 51 5 51 7 52 1 . 8 Lo P R 13 1 13 3 13 6 14 1 . 2 13 9 14 0 14 3 14 8 . 8 14 5 14 7 15 0 15 5 . 5 15 1 15 3 15 6 16 1 . 1 15 7 15 8 16 1 16 6 . 6 16 3 16 5 16 8 17 3 . 5 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A H R I ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 10 www.goodmanmfg.com SS-GPHM3 11 Expanded Cooling Data — GPHM34241** Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 70 13 0 0 MB h 41 . 7 42 . 3 43 . 6 - 41 . 4 42 . 0 43 . 2 - 40 . 3 40 . 9 42 . 1 - 38 . 4 39 . 0 40 . 3 - 36 . 2 36 . 8 38 . 0 - 34 . 1 34 . 7 35 . 9 - S/ T 0. 6 5 0. 5 7 0. 4 4 - 0. 6 5 0. 5 8 0. 4 5 - 1. 0 0 0. 6 0 0. 4 7 - 1. 0 0 0. 6 2 0. 4 9 - 1. 0 0 0. 6 5 0. 5 1 - 1. 0 0 0. 7 0 0. 5 6 - ∆T 13 . 1 3 11 . 8 4 9. 4 4 - 13 . 0 9 11 . 8 1 9. 4 1 - 13 . 2 7 11 . 9 9 9. 5 9 - 13 . 0 8 11 . 7 9 9. 3 9 - 12 . 9 1 11 . 6 2 9. 2 2 - 13 . 7 1 12 . 4 3 10 . 0 3 - kW 2. 7 2 2. 7 1 2. 7 1 - 3. 0 6 3. 0 6 3. 0 5 - 3. 4 4 3. 4 4 3. 4 4 - 3. 8 6 3. 8 6 3. 8 5 - 4. 3 3 4. 3 2 4. 3 2 - 4. 8 7 4. 8 7 4. 8 6 - Am p s 10 . 9 6 10 . 9 5 10 . 9 2 - 12 . 5 4 12 . 5 2 12 . 5 0 - 14 . 3 0 14 . 2 8 14 . 2 6 - 16 . 2 0 16 . 1 9 16 . 1 6 - 18 . 3 3 18 . 3 2 18 . 2 9 - 20 . 8 3 20 . 8 1 20 . 7 9 - Hi P R 26 2 26 3 26 5 - 30 2 30 4 30 5 - 34 5 34 6 34 8 - 39 2 39 3 39 4 - 44 1 44 2 44 4 - 49 4 49 6 49 7 - Lo P R 12 9 13 0 13 4 - 13 6 13 8 14 1 - 14 3 14 5 14 8 - 14 9 15 0 15 4 - 15 5 15 6 15 9 - 16 2 16 3 16 6 - 14 0 0 MB h 42 . 1 42 . 7 43 . 9 - 41 . 8 42 . 3 43 . 6 - 40 . 7 41 . 3 42 . 5 - 38 . 8 39 . 4 40 . 6 - 36 . 6 37 . 2 38 . 4 - 34 . 5 35 . 1 36 . 3 - S/ T 0. 6 7 0. 6 0 0. 4 7 - 0. 6 8 0. 6 0 0. 4 7 - 1. 0 0 0. 6 3 0. 5 0 - 1. 0 0 0. 6 5 0. 5 1 - 1. 0 0 0. 6 7 0. 5 4 - 1. 0 0 1. 0 0 0. 5 9 - ∆T 12 . 7 2 11 . 4 3 9. 0 3 - 12 . 6 8 11 . 3 9 8. 9 9 - 12 . 8 6 11 . 5 7 9. 1 7 - 12 . 6 7 11 . 3 8 8. 9 8 - 12 . 4 9 11 . 2 1 8. 8 1 - 13 . 3 0 12 . 0 1 9. 6 1 - kW 2. 7 2 2. 7 2 2. 7 2 - 3. 0 7 3. 0 7 3. 0 6 - 3. 4 5 3. 4 5 3. 4 5 - 3. 8 7 3. 8 7 3. 8 6 - 4. 3 4 4. 3 3 4. 3 3 - 4. 8 8 4. 8 8 4. 8 7 - Am p s 11 . 0 0 10 . 9 9 10 . 9 6 - 12 . 5 8 12 . 5 7 12 . 5 4 - 14 . 3 4 14 . 3 3 14 . 3 0 - 16 . 2 4 16 . 2 3 16 . 2 0 - 18 . 3 7 18 . 3 6 18 . 3 3 - 20 . 8 7 20 . 8 6 20 . 8 3 - Hi P R 26 3 26 4 26 6 - 30 4 30 5 30 7 - 34 7 34 8 35 0 - 39 3 39 4 39 6 - 44 3 44 4 44 6 - 49 6 49 7 49 9 - Lo P R 13 0 13 2 13 5 - 13 8 13 9 14 2 - 14 4 14 6 14 9 - 15 0 15 2 15 5 - 15 6 15 7 16 1 - 16 3 16 4 16 8 - 15 7 5 MB h 42 . 9 43 . 5 44 . 7 - 42 . 6 43 . 1 44 . 4 - 41 . 5 42 . 1 43 . 3 - 39 . 6 40 . 2 41 . 4 - 37 . 4 37 . 9 39 . 2 - 35 . 3 35 . 9 37 . 1 - S/ T 0. 6 9 0. 6 2 0. 4 8 - 0. 7 0 0. 6 2 0. 4 9 - 1. 0 0 0. 6 5 0. 5 2 - 1. 0 0 0. 6 7 0. 5 3 - 1. 0 0 0. 6 9 0. 5 6 - 1. 0 0 1. 0 0 0. 6 1 - ∆T 12 . 0 7 10 . 7 8 8. 3 8 - 12 . 0 3 10 . 7 5 8. 3 5 - 12 . 2 1 10 . 9 3 8. 5 3 - 12 . 0 2 10 . 7 3 8. 3 3 - 11 . 8 5 10 . 5 6 8. 1 6 - 12 . 6 5 11 . 3 7 8. 9 7 - kW 2. 7 4 2. 7 4 2. 7 3 - 3. 0 8 3. 0 8 3. 0 8 - 3. 4 7 3. 4 7 3. 4 6 - 3. 8 9 3. 8 8 3. 8 8 - 4. 3 5 4. 3 5 4. 3 4 - 4. 9 0 4. 8 9 4. 8 9 - Am p s 11 . 0 7 11 . 0 6 11 . 0 3 - 12 . 6 5 12 . 6 3 12 . 6 1 - 14 . 4 1 14 . 3 9 14 . 3 7 - 16 . 3 1 16 . 3 0 16 . 2 7 - 18 . 4 4 18 . 4 3 18 . 4 0 - 20 . 9 4 20 . 9 2 20 . 9 0 - Hi P R 26 5 26 6 26 8 - 30 6 30 7 30 9 - 34 9 35 0 35 2 - 39 5 39 6 39 8 - 44 5 44 6 44 8 - 49 8 49 9 50 1 - Lo P R 13 2 13 4 13 7 - 14 0 14 2 14 5 - 14 7 14 8 15 2 - 15 3 15 4 15 7 - 15 8 16 0 16 3 - 16 5 16 7 17 0 - 75 13 0 0 MB h 41 . 8 42 . 4 43 . 6 45 . 5 41 . 4 42 . 0 43 . 2 45 . 1 40 . 3 40 . 9 42 . 1 44 . 0 38 . 5 39 . 1 40 . 3 42 . 2 36 . 2 36 . 8 38 . 0 39 . 9 34 . 1 34 . 7 36 . 0 37 . 8 S/ T 0. 7 7 0. 7 0 0. 5 7 0. 4 1. 0 0 0. 7 1 0. 5 7 0. 4 1. 0 0 0. 7 3 0. 6 0 0. 5 1. 0 0 0. 7 5 0. 6 2 0. 5 1. 0 0 1. 0 0 0. 6 4 0. 5 1. 0 0 1. 0 0 0. 6 9 0. 5 ∆T 15 . 9 6 14 . 6 7 12 . 2 7 9. 8 15 . 9 2 14 . 6 3 12 . 2 3 9. 7 16 . 1 0 14 . 8 2 12 . 4 1 9. 9 15 . 9 1 14 . 6 2 12 . 2 2 9. 7 15 . 7 4 14 . 4 5 12 . 0 5 9. 6 16 . 5 4 15 . 2 6 12 . 8 5 10 . 4 kW 2. 7 1 2. 7 1 2. 7 0 2. 7 3. 0 6 3. 0 6 3. 0 5 3. 1 3. 4 4 3. 4 4 3. 4 3 3. 5 3. 8 6 3. 8 6 3. 8 5 3. 9 4. 3 2 4. 3 2 4. 3 2 4. 3 4. 8 7 4. 8 7 4. 8 6 4. 9 Am p s 10 . 9 5 10 . 9 4 10 . 9 1 11 . 0 12 . 5 3 12 . 5 1 12 . 4 9 12 . 6 14 . 2 9 14 . 2 7 14 . 2 5 14 . 4 16 . 1 9 16 . 1 8 16 . 1 5 16 . 3 18 . 3 2 18 . 3 1 18 . 2 8 18 . 4 20 . 8 2 20 . 8 0 20 . 7 8 20 . 9 Hi P R 26 2 26 3 26 5 26 9 . 3 30 3 30 4 30 6 31 0 . 2 34 6 34 7 34 9 35 3 . 0 39 2 39 3 39 5 39 9 . 2 44 2 44 3 44 4 44 9 . 0 49 5 49 6 49 8 50 2 . 1 Lo P R 12 9 13 0 13 4 13 8 . 9 13 6 13 8 14 1 14 6 . 7 14 3 14 5 14 8 15 3 . 4 14 9 15 1 15 4 15 9 . 1 15 5 15 6 15 9 16 4 . 7 16 2 16 3 16 6 17 1 . 8 14 0 0 MB h 42 . 2 42 . 7 44 . 0 45 . 8 41 . 8 42 . 4 43 . 6 45 . 5 40 . 7 41 . 3 42 . 5 44 . 4 38 . 9 39 . 4 40 . 7 42 . 6 36 . 6 37 . 2 38 . 4 40 . 3 34 . 5 35 . 1 36 . 3 38 . 2 S/ T 0. 8 0 0. 7 2 0. 5 9 0. 5 1. 0 0 0. 7 3 0. 6 0 0. 5 1. 0 0 0. 7 5 0. 6 2 0. 5 1. 0 0 0. 7 7 0. 6 4 0. 5 1. 0 0 1. 0 0 0. 6 6 0. 5 1. 0 0 1. 0 0 0. 7 1 0. 6 ∆T 15 . 5 4 14 . 2 6 11 . 8 6 9. 4 15 . 5 1 14 . 2 2 11 . 8 2 9. 3 15 . 6 9 14 . 4 0 12 . 0 0 9. 5 15 . 4 9 14 . 2 1 11 . 8 1 9. 3 15 . 3 2 14 . 0 4 11 . 6 4 9. 1 16 . 1 3 14 . 8 4 12 . 4 4 10 . 0 kW 2. 7 2 2. 7 2 2. 7 1 2. 7 3. 0 7 3. 0 6 3. 0 6 3. 1 3. 4 5 3. 4 5 3. 4 4 3. 5 3. 8 7 3. 8 7 3. 8 6 3. 9 4. 3 3 4. 3 3 4. 3 2 4. 4 4. 8 8 4. 8 8 4. 8 7 4. 9 Am p s 10 . 9 9 10 . 9 8 10 . 9 5 11 . 1 12 . 5 7 12 . 5 6 12 . 5 3 12 . 7 14 . 3 3 14 . 3 2 14 . 2 9 14 . 4 16 . 2 3 16 . 2 2 16 . 1 9 16 . 3 18 . 3 6 18 . 3 5 18 . 3 2 18 . 4 20 . 8 6 20 . 8 5 20 . 8 2 20 . 9 Hi P R 26 3 26 4 26 6 27 0 . 6 30 4 30 5 30 7 31 1 . 5 34 7 34 8 35 0 35 4 . 4 39 3 39 4 39 6 40 0 . 5 44 3 44 4 44 6 45 0 . 3 49 6 49 7 49 9 50 3 . 4 Lo P R 13 0 13 2 13 5 14 0 . 2 13 8 13 9 14 2 14 7 . 9 14 4 14 6 14 9 15 4 . 7 15 0 15 2 15 5 16 0 . 4 15 6 15 7 16 1 16 6 . 0 16 3 16 4 16 8 17 3 . 0 15 7 5 MB h 42 . 9 43 . 5 44 . 8 46 . 6 42 . 6 43 . 2 44 . 4 46 . 3 41 . 5 42 . 1 43 . 3 45 . 2 39 . 6 40 . 2 41 . 5 43 . 3 37 . 4 38 . 0 39 . 2 41 . 1 35 . 3 35 . 9 37 . 1 39 . 0 S/ T 0. 8 2 0. 7 4 0. 6 1 0. 5 1. 0 0 0. 7 5 0. 6 2 0. 5 1. 0 0 0. 7 7 0. 6 4 0. 5 1. 0 0 0. 7 9 0. 6 6 0. 5 1. 0 0 1. 0 0 0. 6 8 0. 5 1. 0 0 1. 0 0 0. 7 3 0. 6 ∆T 14 . 8 9 13 . 6 1 11 . 2 1 8. 7 14 . 8 6 13 . 5 7 11 . 1 7 8. 7 15 . 0 4 13 . 7 5 11 . 3 5 8. 9 14 . 8 5 13 . 5 6 11 . 1 6 8. 7 14 . 6 7 13 . 3 9 10 . 9 9 8. 5 15 . 4 8 14 . 1 9 11 . 7 9 9. 3 kW 2. 7 4 2. 7 3 2. 7 3 2. 8 3. 0 8 3. 0 8 3. 0 7 3. 1 3. 4 7 3. 4 6 3. 4 6 3. 5 3. 8 8 3. 8 8 3. 8 7 3. 9 4. 3 5 4. 3 5 4. 3 4 4. 4 4. 8 9 4. 8 9 4. 8 8 4. 9 Am p s 11 . 0 6 11 . 0 5 11 . 0 2 11 . 1 12 . 6 4 12 . 6 2 12 . 6 0 12 . 7 14 . 4 0 14 . 3 8 14 . 3 6 14 . 5 16 . 3 0 16 . 2 9 16 . 2 6 16 . 4 18 . 4 3 18 . 4 2 18 . 3 9 18 . 5 20 . 9 3 20 . 9 1 20 . 8 9 21 . 0 Hi P R 26 5 26 7 26 8 27 2 . 9 30 6 30 7 30 9 31 3 . 8 34 9 35 0 35 2 35 6 . 7 39 5 39 7 39 8 40 2 . 9 44 5 44 6 44 8 45 2 . 6 49 8 49 9 50 1 50 5 . 8 Lo P R 13 2 13 4 13 7 14 2 . 6 14 0 14 2 14 5 15 0 . 3 14 7 14 8 15 2 15 7 . 1 15 3 15 4 15 7 16 2 . 8 15 8 16 0 16 3 16 8 . 4 16 5 16 7 17 0 17 5 . 4 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A C C A ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 10www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 11 Expanded Cooling Data — GPHM34241** (cont.) Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 80 13 0 0 MB h 42 . 0 42 . 6 43 . 8 45 . 7 41 . 6 42 . 2 43 . 4 45 . 3 40 . 5 41 . 1 42 . 4 44 . 2 38 . 7 39 . 3 40 . 5 42 . 4 36 . 4 37 . 0 38 . 2 40 . 1 34 . 4 34 . 9 36 . 2 38 . 1 S/ T 1. 0 0 0. 8 2 0. 6 9 0. 6 1. 0 0 0. 8 3 0. 7 0 0. 6 1. 0 0 1. 0 0 0. 7 2 0. 6 1. 0 0 1. 0 0 0. 7 4 0. 6 1. 0 0 1. 0 0 0. 7 6 0. 6 1. 0 0 1. 0 0 0. 8 1 0. 7 ∆T 18 . 8 0 17 . 5 2 15 . 1 2 12 . 6 18 . 7 7 17 . 4 8 15 . 0 8 12 . 6 18 . 9 5 17 . 6 6 15 . 2 6 12 . 8 18 . 7 5 17 . 4 7 15 . 0 7 12 . 6 18 . 5 8 17 . 3 0 14 . 9 0 12 . 4 19 . 3 9 18 . 1 0 15 . 7 0 13 . 2 kW 2. 7 2 2. 7 1 2. 7 1 2. 7 3. 0 6 3. 0 6 3. 0 5 3. 1 3. 4 4 3. 4 4 3. 4 4 3. 5 3. 8 6 3. 8 6 3. 8 5 3. 9 4. 3 3 4. 3 2 4. 3 2 4. 3 4. 8 7 4. 8 7 4. 8 6 4. 9 Am p s 10 . 9 6 10 . 9 4 10 . 9 2 11 . 0 12 . 5 3 12 . 5 2 12 . 4 9 12 . 6 14 . 2 9 14 . 2 8 14 . 2 5 14 . 4 16 . 2 0 16 . 1 9 16 . 1 6 16 . 3 18 . 3 3 18 . 3 1 18 . 2 9 18 . 4 20 . 8 2 20 . 8 1 20 . 7 8 20 . 9 Hi P R 26 2 26 3 26 5 26 9 . 7 30 3 30 4 30 6 31 0 . 7 34 6 34 7 34 9 35 3 . 5 39 2 39 3 39 5 39 9 . 7 44 2 44 3 44 5 44 9 . 5 49 5 49 6 49 8 50 2 . 6 Lo P R 12 9 13 1 13 4 13 9 . 5 13 7 13 9 14 2 14 7 . 2 14 4 14 5 14 9 15 4 . 0 14 9 15 1 15 4 15 9 . 7 15 5 15 7 16 0 16 5 . 3 16 2 16 4 16 7 17 2 . 3 14 0 0 MB h 42 . 4 43 . 0 44 . 2 46 . 1 42 . 0 42 . 6 43 . 8 45 . 7 40 . 9 41 . 5 42 . 7 44 . 6 39 . 1 39 . 7 40 . 9 42 . 8 36 . 8 37 . 4 38 . 6 40 . 5 34 . 7 35 . 3 36 . 6 38 . 4 S/ T 1. 0 0 0. 8 4 0. 7 1 0. 6 1. 0 0 0. 8 5 0. 7 2 0. 6 1. 0 0 1. 0 0 0. 7 4 0. 6 1. 0 0 1. 0 0 0. 7 6 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 1. 0 0 1. 0 0 1. 0 0 0. 7 ∆T 18 . 3 9 17 . 1 0 14 . 7 0 12 . 2 18 . 3 5 17 . 0 7 14 . 6 7 12 . 2 18 . 5 3 17 . 2 5 14 . 8 5 12 . 4 18 . 3 4 17 . 0 6 14 . 6 5 12 . 2 18 . 1 7 16 . 8 8 14 . 4 8 12 . 0 18 . 9 7 17 . 6 9 15 . 2 9 12 . 8 kW 2. 7 2 2. 7 2 2. 7 2 2. 7 3. 0 7 3. 0 7 3. 0 6 3. 1 3. 4 5 3. 4 5 3. 4 5 3. 5 3. 8 7 3. 8 7 3. 8 6 3. 9 4. 3 3 4. 3 3 4. 3 3 4. 4 4. 8 8 4. 8 8 4. 8 7 4. 9 Am p s 11 . 0 0 10 . 9 9 10 . 9 6 11 . 1 12 . 5 8 12 . 5 6 12 . 5 4 12 . 7 14 . 3 4 14 . 3 2 14 . 3 0 14 . 4 16 . 2 4 16 . 2 3 16 . 2 0 16 . 3 18 . 3 7 18 . 3 6 18 . 3 3 18 . 5 20 . 8 7 20 . 8 6 20 . 8 3 20 . 9 Hi P R 26 4 26 5 26 7 27 1 . 0 30 4 30 6 30 7 31 2 . 0 34 7 34 8 35 0 35 4 . 8 39 4 39 5 39 6 40 1 . 0 44 3 44 4 44 6 45 0 . 8 49 6 49 8 49 9 50 3 . 9 Lo P R 13 1 13 2 13 5 14 0 . 7 13 8 14 0 14 3 14 8 . 5 14 5 14 7 15 0 15 5 . 2 15 1 15 2 15 6 16 0 . 9 15 6 15 8 16 1 16 6 . 5 16 3 16 5 16 8 17 3 . 6 15 7 5 MB h 43 . 2 43 . 7 45 . 0 46 . 9 42 . 8 43 . 4 44 . 6 46 . 5 41 . 7 42 . 3 43 . 5 45 . 4 39 . 9 40 . 4 41 . 7 43 . 6 37 . 6 38 . 2 39 . 4 41 . 3 35 . 5 36 . 1 37 . 3 39 . 2 S/ T 1. 0 0 0. 8 6 0. 7 3 0. 6 1. 0 0 0. 8 7 0. 7 4 0. 6 1. 0 0 1. 0 0 0. 7 6 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 1. 0 0 1. 0 0 0. 8 0 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 7 ∆T 17 . 7 4 16 . 4 6 14 . 0 5 11 . 6 17 . 7 1 16 . 4 2 14 . 0 2 11 . 5 17 . 8 9 16 . 6 0 14 . 2 0 11 . 7 17 . 6 9 16 . 4 1 14 . 0 1 11 . 5 17 . 5 2 16 . 2 4 13 . 8 3 11 . 3 18 . 3 3 17 . 0 4 14 . 6 4 12 . 2 kW 2. 7 4 2. 7 4 2. 7 3 2. 8 3. 0 8 3. 0 8 3. 0 8 3. 1 3. 4 7 3. 4 7 3. 4 6 3. 5 3. 8 8 3. 8 8 3. 8 8 3. 9 4. 3 5 4. 3 5 4. 3 4 4. 4 4. 9 0 4. 8 9 4. 8 9 4. 9 Am p s 11 . 0 7 11 . 0 6 11 . 0 3 11 . 1 12 . 6 4 12 . 6 3 12 . 6 1 12 . 7 14 . 4 1 14 . 3 9 14 . 3 7 14 . 5 16 . 3 1 16 . 3 0 16 . 2 7 16 . 4 18 . 4 4 18 . 4 3 18 . 4 0 18 . 5 20 . 9 4 20 . 9 2 20 . 9 0 21 . 0 Hi P R 26 6 26 7 26 9 27 3 . 4 30 7 30 8 31 0 31 4 . 3 35 0 35 1 35 3 35 7 . 2 39 6 39 7 39 9 40 3 . 3 44 6 44 7 44 9 45 3 . 1 49 9 50 0 50 2 50 6 . 2 Lo P R 13 3 13 5 13 8 14 3 . 2 14 1 14 2 14 5 15 0 . 9 14 7 14 9 15 2 15 7 . 6 15 3 15 5 15 8 16 3 . 4 15 9 16 0 16 4 16 9 . 0 16 6 16 7 17 1 17 6 . 0 85 14 6 0 MB h 42 . 3 43 . 1 45 . 2 48 . 2 41 . 3 42 . 1 44 . 1 47 . 1 40 . 3 41 . 1 43 . 1 45 . 9 39 . 4 40 . 1 42 . 0 44 . 8 37 . 4 38 . 1 39 . 9 42 . 6 34 . 6 35 . 3 37 . 0 39 . 4 S/ T 0. 9 5 0. 9 2 0. 8 3 0. 7 0. 9 8 0. 9 5 0. 8 6 0. 7 1. 0 0 0. 9 7 0. 8 8 0. 7 1. 0 0 1. 0 0 0. 9 1 0. 7 1. 0 0 1. 0 0 0. 9 4 0. 8 1. 0 0 1. 0 0 0. 9 5 0. 8 ∆T 25 25 24 20 26 25 24 21 25 25 24 21 25 25 24 21 24 24 24 20 22 22 22 19 . 1 kW 2. 8 9 2. 9 6 3. 0 5 3. 1 3. 1 2 3. 1 9 3. 2 9 3. 4 3. 3 2 3. 3 9 3. 5 1 3. 6 3. 5 0 3. 5 7 3. 6 9 3. 8 3. 6 5 3. 7 3 3. 8 5 4. 0 3. 7 8 3. 8 6 3. 9 9 4. 1 Am p s 13 . 4 13 . 6 14 . 0 14 . 5 14 . 3 14 . 6 15 . 0 15 . 5 15 . 3 15 . 7 16 . 1 16 . 7 16 . 3 16 . 6 17 . 1 17 . 7 17 . 2 17 . 6 18 . 1 18 . 7 18 . 1 18 . 5 19 . 1 19 . 7 HI P R 25 9 27 9 29 4 30 7 . 2 29 1 31 3 33 0 34 4 . 7 33 1 35 6 37 6 39 2 . 0 37 7 40 5 42 8 44 6 . 4 42 4 45 6 48 2 50 2 . 2 46 8 50 4 53 2 55 4 . 9 LO P R 11 2 11 9 13 0 13 8 . 2 11 8 12 6 13 7 14 6 . 0 12 3 13 0 14 2 15 1 . 7 12 9 13 7 15 0 15 9 . 4 13 5 14 4 15 7 16 7 . 0 14 0 14 9 16 2 17 2 . 8 13 0 0 MB h 41 . 1 41 . 9 43 . 9 46 . 8 40 . 1 40 . 9 42 . 8 45 . 7 39 . 2 39 . 9 41 . 8 44 . 6 38 . 2 39 . 0 40 . 8 43 . 5 36 . 3 37 . 0 38 . 8 41 . 3 33 . 6 34 . 3 35 . 9 38 . 3 S/ T 0. 9 0 0. 8 7 0. 7 9 0. 6 0. 9 4 0. 9 0 0. 8 2 0. 7 0. 9 6 0. 9 3 0. 8 4 0. 7 0. 9 9 0. 9 6 0. 8 6 0. 7 1. 0 0 0. 9 9 0. 9 0 0. 7 1. 0 0 1. 0 0 0. 9 0 0. 7 ∆T 26 26 24 21 27 26 25 21 27 26 25 21 27 26 25 22 26 26 25 21 24 24 23 19 . 9 kW 2. 8 7 2. 9 3 3. 0 3 3. 1 3. 0 9 3. 1 6 3. 2 6 3. 4 3. 2 9 3. 3 7 3. 4 8 3. 6 3. 4 7 3. 5 4 3. 6 6 3. 8 3. 6 2 3. 7 0 3. 8 2 4. 0 3. 7 4 3. 8 3 3. 9 6 4. 1 Am p s 13 . 3 13 . 5 13 . 9 14 . 3 14 . 2 14 . 5 14 . 9 15 . 4 15 . 2 15 . 5 16 . 0 16 . 5 16 . 1 16 . 5 17 . 0 17 . 5 17 . 1 17 . 4 17 . 9 18 . 6 18 . 0 18 . 3 18 . 9 19 . 5 HI P R 25 7 27 6 29 2 30 4 . 1 28 8 31 0 32 7 34 1 . 2 32 7 35 2 37 2 38 8 . 1 37 3 40 1 42 4 44 2 . 0 42 0 45 2 47 7 49 7 . 3 46 4 49 9 52 7 54 9 . 4 LO P R 11 1 11 8 12 8 13 6 . 8 11 7 12 4 13 6 14 4 . 5 12 1 12 9 14 1 15 0 . 2 12 8 13 6 14 8 15 7 . 8 13 4 14 2 15 5 16 5 . 4 13 8 14 7 16 1 17 1 . 1 11 4 0 MB h 37 . 9 38 . 6 40 . 5 43 . 2 37 . 0 37 . 7 39 . 5 42 . 2 36 . 2 36 . 9 38 . 6 41 . 2 35 . 3 36 . 0 37 . 7 40 . 2 33 . 5 34 . 2 35 . 8 38 . 2 31 . 0 31 . 6 33 . 1 35 . 4 S/ T 0. 8 7 0. 8 4 0. 7 6 0. 6 0. 9 0 0. 8 7 0. 7 9 0. 6 0. 9 3 0. 8 9 0. 8 1 0. 7 0. 9 6 0. 9 2 0. 8 3 0. 7 0. 9 9 0. 9 6 0. 8 7 0. 7 1. 0 0 0. 9 7 0. 8 7 0. 7 ∆T 27 26 25 21 27 27 25 22 27 27 25 22 27 27 25 22 27 26 25 22 25 25 23 20 . 2 kW 2. 8 0 2. 8 6 2. 9 5 3. 0 3. 0 2 3. 0 8 3. 1 8 3. 3 3. 2 1 3. 2 8 3. 3 9 3. 5 3. 3 8 3. 4 5 3. 5 7 3. 7 3. 5 2 3. 6 0 3. 7 2 3. 9 3. 6 5 3. 7 3 3. 8 6 4. 0 Am p s 13 . 0 13 . 2 13 . 6 14 . 0 13 . 8 14 . 1 14 . 5 15 . 0 14 . 9 15 . 2 15 . 6 16 . 1 15 . 7 16 . 1 16 . 6 17 . 1 16 . 6 17 . 0 17 . 5 18 . 1 17 . 5 17 . 9 18 . 4 19 . 1 HI P R 24 9 26 8 28 3 29 5 . 0 27 9 30 1 31 7 33 1 . 0 31 8 34 2 36 1 37 6 . 5 36 2 38 9 41 1 42 8 . 8 40 7 43 8 46 2 48 2 . 4 45 0 48 4 51 1 53 2 . 9 LO P R 10 7 11 4 12 5 13 2 . 7 11 3 12 1 13 2 14 0 . 2 11 8 12 5 13 7 14 5 . 7 12 4 13 2 14 4 15 3 . 1 13 0 13 8 15 1 16 0 . 4 13 4 14 3 15 6 16 5 . 9 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A H R I ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 12 www.goodmanmfg.com SS-GPHM3 13 Expanded Cooling Data — GPHM34841** Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 70 14 0 0 MB h 48 . 3 49 . 0 50 . 5 - 47 . 9 48 . 6 50 . 0 - 46 . 6 47 . 3 48 . 8 - 44 . 5 45 . 1 46 . 6 - 41 . 8 42 . 5 43 . 9 - 39 . 4 40 . 1 41 . 5 - S/ T 0. 6 0 0. 5 3 0. 3 9 - 0. 6 1 0. 5 3 0. 4 0 - 0. 6 3 0. 5 6 0. 4 2 - 1. 0 0 0. 5 8 0. 4 4 - 1. 0 0 0. 6 0 0. 4 6 - 1. 0 0 0. 6 5 0. 5 1 - ∆T 13 . 3 5 12 . 1 1 9. 8 1 - 13 . 3 2 12 . 0 8 9. 7 8 - 13 . 4 9 12 . 2 5 9. 9 5 - 13 . 3 0 12 . 0 7 9. 7 6 - 13 . 1 4 11 . 9 0 9. 6 0 - 13 . 9 1 12 . 6 8 10 . 3 7 - kW 3. 2 2 3. 2 1 3. 2 1 - 3. 6 0 3. 6 0 3. 5 9 - 4. 0 4 4. 0 3 4. 0 3 - 4. 5 1 4. 5 0 4. 5 0 - 5. 0 3 5. 0 3 5. 0 2 - 5. 6 4 5. 6 4 5. 6 4 - Am p s 12 . 4 6 12 . 4 4 12 . 4 1 - 14 . 2 3 14 . 2 2 14 . 1 9 - 16 . 2 2 16 . 2 0 16 . 1 7 - 18 . 3 6 18 . 3 5 18 . 3 2 - 20 . 7 6 20 . 7 5 20 . 7 2 - 23 . 5 7 23 . 5 6 23 . 5 3 - Hi P R 26 4 26 5 26 7 - 30 5 30 7 30 8 - 34 9 35 0 35 2 - 39 6 39 7 39 9 - 44 7 44 8 45 0 - 50 1 50 2 50 4 - Lo P R 12 6 12 7 13 1 - 13 3 13 5 13 8 - 14 0 14 2 14 5 - 14 6 14 7 15 1 - 15 1 15 3 15 6 - 15 8 16 0 16 3 - 16 0 0 MB h 49 . 0 49 . 6 51 . 1 - 48 . 5 49 . 2 50 . 7 - 47 . 3 47 . 9 49 . 4 - 45 . 1 45 . 8 47 . 2 - 42 . 4 43 . 1 44 . 6 - 40 . 0 40 . 7 42 . 1 - S/ T 0. 6 6 0. 5 8 0. 4 5 - 0. 6 7 0. 5 9 0. 4 6 - 0. 6 9 0. 6 2 0. 4 8 - 1. 0 0 0. 6 4 0. 5 0 - 1. 0 0 0. 6 6 0. 5 2 - 1. 0 0 0. 7 1 0. 5 7 - ∆T 12 . 6 0 11 . 3 7 9. 0 6 - 12 . 5 7 11 . 3 4 9. 0 3 - 12 . 7 4 11 . 5 1 9. 2 0 - 12 . 5 6 11 . 3 2 9. 0 2 - 12 . 3 9 11 . 1 6 8. 8 5 - 13 . 1 7 11 . 9 3 9. 6 3 - kW 3. 2 4 3. 2 3 3. 2 3 - 3. 6 2 3. 6 2 3. 6 1 - 4. 0 6 4. 0 5 4. 0 5 - 4. 5 3 4. 5 2 4. 5 2 - 5. 0 5 5. 0 5 5. 0 4 - 5. 6 6 5. 6 6 5. 6 6 - Am p s 12 . 5 5 12 . 5 3 12 . 5 0 - 14 . 3 3 14 . 3 1 14 . 2 8 - 16 . 3 1 16 . 2 9 16 . 2 6 - 18 . 4 5 18 . 4 4 18 . 4 1 - 20 . 8 5 20 . 8 4 20 . 8 1 - 23 . 6 7 23 . 6 5 23 . 6 2 - Hi P R 26 6 26 7 26 9 - 30 8 30 9 31 1 - 35 1 35 2 35 4 - 39 8 39 9 40 1 - 44 9 45 0 45 2 - 50 3 50 4 50 6 - Lo P R 12 8 12 9 13 2 - 13 5 13 7 14 0 - 14 2 14 4 14 7 - 14 8 14 9 15 2 - 15 3 15 5 15 8 - 16 0 16 2 16 5 - 18 0 0 MB h 49 . 7 50 . 4 51 . 8 - 49 . 3 50 . 0 51 . 4 - 48 . 0 48 . 7 50 . 2 - 45 . 9 46 . 5 48 . 0 - 43 . 2 43 . 9 45 . 3 - 40 . 8 41 . 5 42 . 9 - S/ T 0. 6 9 0. 6 2 0. 4 8 - 0. 7 0 0. 6 2 0. 4 9 - 1. 0 0 0. 6 5 0. 5 2 - 1. 0 0 0. 6 7 0. 5 3 - 1. 0 0 0. 6 9 0. 5 6 - 1. 0 0 1. 0 0 0. 6 1 - ∆T 11 . 9 8 10 . 7 4 8. 4 4 - 11 . 9 4 10 . 7 1 8. 4 0 - 12 . 1 2 10 . 8 8 8. 5 8 - 11 . 9 3 10 . 6 9 8. 3 9 - 11 . 7 6 10 . 5 3 8. 2 2 - 12 . 5 4 11 . 3 0 9. 0 0 - kW 3. 2 5 3. 2 5 3. 2 4 - 3. 6 4 3. 6 4 3. 6 3 - 4. 0 7 4. 0 7 4. 0 6 - 4. 5 4 4. 5 4 4. 5 3 - 5. 0 7 5. 0 6 5. 0 6 - 5. 6 8 5. 6 8 5. 6 7 - Am p s 12 . 6 3 12 . 6 1 12 . 5 8 - 14 . 4 0 14 . 3 9 14 . 3 6 - 16 . 3 9 16 . 3 7 16 . 3 4 - 18 . 5 3 18 . 5 2 18 . 4 9 - 20 . 9 3 20 . 9 2 20 . 8 9 - 23 . 7 4 23 . 7 3 23 . 7 0 - Hi P R 26 8 26 9 27 1 - 31 0 31 1 31 3 - 35 3 35 5 35 6 - 40 0 40 2 40 3 - 45 1 45 2 45 4 - 50 5 50 6 50 8 - Lo P R 13 0 13 1 13 4 - 13 7 13 9 14 2 - 14 4 14 6 14 9 - 15 0 15 1 15 4 - 15 5 15 7 16 0 - 16 2 16 4 16 7 - 75 14 0 0 MB h 48 . 4 49 . 0 50 . 5 52 . 7 47 . 9 48 . 6 50 . 0 52 . 3 46 . 7 47 . 3 48 . 8 51 . 0 44 . 5 45 . 2 46 . 6 48 . 8 41 . 8 42 . 5 44 . 0 46 . 2 39 . 4 40 . 1 41 . 5 43 . 7 S/ T 0. 7 3 0. 6 5 0. 5 2 0. 4 1. 0 0 0. 6 6 0. 5 3 0. 4 1. 0 0 0. 6 8 0. 5 5 0. 4 1. 0 0 0. 7 0 0. 5 7 0. 4 1. 0 0 0. 7 3 0. 5 9 0. 4 1. 0 0 1. 0 0 0. 6 4 0. 5 ∆T 16 . 0 6 14 . 8 3 12 . 5 2 10 . 1 16 . 0 3 14 . 8 0 12 . 4 9 10 . 1 16 . 2 0 14 . 9 7 12 . 6 6 10 . 3 16 . 0 2 14 . 7 8 12 . 4 8 10 . 1 15 . 8 5 14 . 6 2 12 . 3 1 9. 9 16 . 6 3 15 . 3 9 13 . 0 9 10 . 7 kW 3. 2 1 3. 2 1 3. 2 0 3. 2 3. 6 0 3. 6 0 3. 5 9 3. 6 4. 0 3 4. 0 3 4. 0 3 4. 1 4. 5 0 4. 5 0 4. 4 9 4. 5 5. 0 3 5. 0 2 5. 0 2 5. 0 5. 6 4 5. 6 4 5. 6 3 5. 7 Am p s 12 . 4 4 12 . 4 3 12 . 4 0 12 . 5 14 . 2 2 14 . 2 1 14 . 1 8 14 . 3 16 . 2 0 16 . 1 9 16 . 1 6 16 . 3 18 . 3 5 18 . 3 4 18 . 3 1 18 . 4 20 . 7 5 20 . 7 3 20 . 7 0 20 . 8 23 . 5 6 23 . 5 5 23 . 5 2 23 . 7 Hi P R 26 4 26 5 26 7 27 1 . 6 30 6 30 7 30 9 31 3 . 2 34 9 35 0 35 2 35 6 . 8 39 6 39 7 39 9 40 3 . 8 44 7 44 8 45 0 45 4 . 4 50 1 50 2 50 4 50 8 . 4 Lo P R 12 6 12 7 13 1 13 5 . 9 13 3 13 5 13 8 14 3 . 6 14 0 14 2 14 5 15 0 . 3 14 6 14 7 15 1 15 5 . 9 15 1 15 3 15 6 16 1 . 5 15 8 16 0 16 3 16 8 . 4 16 0 0 MB h 49 . 0 49 . 7 51 . 1 53 . 3 48 . 6 49 . 2 50 . 7 52 . 9 47 . 3 48 . 0 49 . 4 51 . 6 45 . 1 45 . 8 47 . 2 49 . 5 42 . 5 43 . 2 44 . 6 46 . 8 40 . 0 40 . 7 42 . 2 44 . 4 S/ T 0. 7 9 0. 7 1 0. 5 8 0. 4 1. 0 0 0. 7 2 0. 5 8 0. 4 1. 0 0 0. 7 4 0. 6 1 0. 5 1. 0 0 0. 7 6 0. 6 3 0. 5 1. 0 0 1. 0 0 0. 6 5 0. 5 1. 0 0 1. 0 0 0. 7 0 0. 6 ∆T 15 . 3 2 14 . 0 8 11 . 7 8 9. 4 15 . 2 8 14 . 0 5 11 . 7 4 9. 4 15 . 4 6 14 . 2 2 11 . 9 2 9. 5 15 . 2 7 14 . 0 4 11 . 7 3 9. 3 15 . 1 1 13 . 8 7 11 . 5 7 9. 2 15 . 8 8 14 . 6 4 12 . 3 4 10 . 0 kW 3. 2 3 3. 2 3 3. 2 2 3. 3 3. 6 2 3. 6 2 3. 6 1 3. 6 4. 0 5 4. 0 5 4. 0 5 4. 1 4. 5 2 4. 5 2 4. 5 1 4. 5 5. 0 5 5. 0 4 5. 0 4 5. 1 5. 6 6 5. 6 6 5. 6 5 5. 7 Am p s 12 . 5 4 12 . 5 2 12 . 4 9 12 . 6 14 . 3 1 14 . 3 0 14 . 2 7 14 . 4 16 . 3 0 16 . 2 8 16 . 2 5 16 . 4 18 . 4 4 18 . 4 3 18 . 4 0 18 . 5 20 . 8 4 20 . 8 3 20 . 8 0 20 . 9 23 . 6 5 23 . 6 4 23 . 6 1 23 . 7 Hi P R 26 6 26 7 26 9 27 3 . 8 30 8 30 9 31 1 31 5 . 5 35 1 35 3 35 4 35 9 . 1 39 8 40 0 40 1 40 6 . 0 44 9 45 0 45 2 45 6 . 7 50 3 50 4 50 6 51 0 . 7 Lo P R 12 8 12 9 13 2 13 7 . 8 13 5 13 7 14 0 14 5 . 4 14 2 14 4 14 7 15 2 . 1 14 8 14 9 15 2 15 7 . 8 15 3 15 5 15 8 16 3 . 3 16 0 16 2 16 5 17 0 . 3 18 0 0 MB h 49 . 8 50 . 4 51 . 9 54 . 1 49 . 3 50 . 0 51 . 4 53 . 6 48 . 1 48 . 7 50 . 2 52 . 4 45 . 9 46 . 6 48 . 0 50 . 2 43 . 2 43 . 9 45 . 4 47 . 6 40 . 8 41 . 5 42 . 9 45 . 1 S/ T 0. 8 2 0. 7 5 0. 6 1 0. 5 1. 0 0 0. 7 5 0. 6 2 0. 5 1. 0 0 0. 7 8 0. 6 4 0. 5 1. 0 0 0. 8 0 0. 6 6 0. 5 1. 0 0 1. 0 0 0. 6 8 0. 5 1. 0 0 1. 0 0 0. 7 4 0. 6 ∆T 14 . 6 9 13 . 4 6 11 . 1 5 8. 8 14 . 6 6 13 . 4 2 11 . 1 2 8. 7 14 . 8 3 13 . 6 0 11 . 2 9 8. 9 14 . 6 4 13 . 4 1 11 . 1 0 8. 7 14 . 4 8 13 . 2 4 10 . 9 4 8. 6 15 . 2 5 14 . 0 2 11 . 7 1 9. 3 kW 3. 2 5 3. 2 5 3. 2 4 3. 3 3. 6 4 3. 6 4 3. 6 3 3. 7 4. 0 7 4. 0 7 4. 0 6 4. 1 4. 5 4 4. 5 4 4. 5 3 4. 6 5. 0 6 5. 0 6 5. 0 5 5. 1 5. 6 8 5. 6 8 5. 6 7 5. 7 Am p s 12 . 6 1 12 . 6 0 12 . 5 7 12 . 7 14 . 3 9 14 . 3 8 14 . 3 5 14 . 5 16 . 3 7 16 . 3 6 16 . 3 3 16 . 5 18 . 5 2 18 . 5 1 18 . 4 8 18 . 6 20 . 9 2 20 . 9 0 20 . 8 7 21 . 0 23 . 7 3 23 . 7 2 23 . 6 9 23 . 8 Hi P R 26 8 27 0 27 1 27 6 . 0 31 0 31 1 31 3 31 7 . 6 35 4 35 5 35 7 36 1 . 3 40 1 40 2 40 4 40 8 . 2 45 1 45 2 45 4 45 8 . 8 50 5 50 6 50 8 51 2 . 9 Lo P R 13 0 13 1 13 4 13 9 . 8 13 7 13 9 14 2 14 7 . 5 14 4 14 6 14 9 15 4 . 2 15 0 15 1 15 4 15 9 . 8 15 5 15 7 16 0 16 5 . 4 16 2 16 4 16 7 17 2 . 3 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A C C A ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 12www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 13 Expanded Cooling Data — GPHM34841** (cont.) Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 80 14 0 0 MB h 48 . 6 49 . 3 50 . 7 52 . 9 48 . 2 48 . 9 50 . 3 52 . 5 46 . 9 47 . 6 49 . 0 51 . 2 44 . 7 45 . 4 46 . 9 49 . 1 42 . 1 42 . 8 44 . 2 46 . 4 39 . 7 40 . 3 41 . 8 44 . 0 S/ T 1. 0 0 0. 7 8 0. 6 4 0. 5 1. 0 0 0. 7 8 0. 6 5 0. 5 1. 0 0 0. 8 1 0. 6 7 0. 5 1. 0 0 1. 0 0 0. 6 9 0. 6 1. 0 0 1. 0 0 0. 7 2 0. 6 1. 0 0 1. 0 0 0. 7 7 0. 6 ∆T 18 . 8 0 17 . 5 6 15 . 2 6 12 . 9 18 . 7 6 17 . 5 3 15 . 2 2 12 . 8 18 . 9 4 17 . 7 0 15 . 4 0 13 . 0 18 . 7 5 17 . 5 2 15 . 2 1 12 . 8 18 . 5 9 17 . 3 5 15 . 0 5 12 . 7 19 . 3 6 18 . 1 2 15 . 8 2 13 . 4 kW 3. 2 2 3. 2 1 3. 2 1 3. 2 3. 6 0 3. 6 0 3. 5 9 3. 6 4. 0 4 4. 0 3 4. 0 3 4. 1 4. 5 1 4. 5 0 4. 5 0 4. 5 5. 0 3 5. 0 3 5. 0 2 5. 0 5. 6 4 5. 6 4 5. 6 3 5. 7 Am p s 12 . 4 5 12 . 4 4 12 . 4 1 12 . 5 14 . 2 3 14 . 2 2 14 . 1 9 14 . 3 16 . 2 1 16 . 2 0 16 . 1 7 16 . 3 18 . 3 6 18 . 3 5 18 . 3 2 18 . 5 20 . 7 6 20 . 7 4 20 . 7 1 20 . 8 23 . 5 7 23 . 5 6 23 . 5 3 23 . 7 Hi P R 26 4 26 6 26 7 27 2 . 1 30 6 30 7 30 9 31 3 . 7 35 0 35 1 35 3 35 7 . 3 39 7 39 8 40 0 40 4 . 3 44 7 44 8 45 0 45 4 . 9 50 1 50 2 50 4 50 8 . 9 Lo P R 12 6 12 8 13 1 13 6 . 5 13 4 13 6 13 9 14 4 . 1 14 1 14 2 14 5 15 0 . 8 14 6 14 8 15 1 15 6 . 5 15 2 15 3 15 7 16 2 . 0 15 9 16 0 16 4 16 9 . 0 16 0 0 MB h 49 . 2 49 . 9 51 . 4 53 . 6 48 . 8 49 . 5 50 . 9 53 . 1 47 . 5 48 . 2 49 . 7 51 . 9 45 . 4 46 . 1 47 . 5 49 . 7 42 . 7 43 . 4 44 . 8 47 . 1 40 . 3 41 . 0 42 . 4 44 . 6 S/ T 1. 0 0 0. 8 4 0. 7 0 0. 6 1. 0 0 0. 8 4 0. 7 1 0. 6 1. 0 0 0. 8 7 0. 7 3 0. 6 1. 0 0 1. 0 0 0. 7 5 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 1. 0 0 1. 0 0 0. 8 3 0. 7 ∆T 18 . 0 5 16 . 8 2 14 . 5 1 12 . 1 18 . 0 2 16 . 7 8 14 . 4 8 12 . 1 18 . 1 9 16 . 9 6 14 . 6 5 12 . 3 18 . 0 0 16 . 7 7 14 . 4 6 12 . 1 17 . 8 4 16 . 6 0 14 . 3 0 11 . 9 18 . 6 1 17 . 3 8 15 . 0 7 12 . 7 kW 3. 2 4 3. 2 3 3. 2 3 3. 3 3. 6 2 3. 6 2 3. 6 1 3. 6 4. 0 6 4. 0 5 4. 0 5 4. 1 4. 5 3 4. 5 2 4. 5 2 4. 5 5. 0 5 5. 0 5 5. 0 4 5. 1 5. 6 6 5. 6 6 5. 6 5 5. 7 Am p s 12 . 5 5 12 . 5 3 12 . 5 0 12 . 6 14 . 3 2 14 . 3 1 14 . 2 8 14 . 4 16 . 3 1 16 . 2 9 16 . 2 6 16 . 4 18 . 4 5 18 . 4 4 18 . 4 1 18 . 5 20 . 8 5 20 . 8 4 20 . 8 1 20 . 9 23 . 6 6 23 . 6 5 23 . 6 2 23 . 8 Hi P R 26 7 26 8 27 0 27 4 . 3 30 8 31 0 31 1 31 6 . 0 35 2 35 3 35 5 35 9 . 6 39 9 40 0 40 2 40 6 . 5 45 0 45 1 45 3 45 7 . 1 50 4 50 5 50 7 51 1 . 2 Lo P R 12 8 13 0 13 3 13 8 . 3 13 6 13 7 14 1 14 6 . 0 14 3 14 4 14 7 15 2 . 7 14 8 15 0 15 3 15 8 . 3 15 4 15 5 15 9 16 3 . 9 16 1 16 2 16 5 17 0 . 9 18 0 0 MB h 50 . 0 50 . 7 52 . 1 54 . 3 49 . 6 50 . 3 51 . 7 53 . 9 48 . 3 49 . 0 50 . 4 52 . 6 46 . 1 46 . 8 48 . 3 50 . 5 43 . 5 44 . 2 45 . 6 47 . 8 41 . 1 41 . 7 43 . 2 45 . 4 S/ T 1. 0 0 0. 8 7 0. 7 4 0. 6 1. 0 0 0. 8 8 0. 7 4 0. 6 1. 0 0 1. 0 0 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 7 9 0. 6 1. 0 0 1. 0 0 0. 8 1 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 7 ∆T 17 . 4 2 16 . 1 9 13 . 8 8 11 . 5 17 . 3 9 16 . 1 5 13 . 8 5 11 . 5 17 . 5 6 16 . 3 3 14 . 0 2 11 . 6 17 . 3 8 16 . 1 4 13 . 8 4 11 . 4 17 . 2 1 15 . 9 8 13 . 6 7 11 . 3 17 . 9 8 16 . 7 5 14 . 4 4 12 . 1 kW 3. 2 5 3. 2 5 3. 2 4 3. 3 3. 6 4 3. 6 4 3. 6 3 3. 7 4. 0 7 4. 0 7 4. 0 6 4. 1 4. 5 4 4. 5 4 4. 5 3 4. 6 5. 0 7 5. 0 6 5. 0 6 5. 1 5. 6 8 5. 6 8 5. 6 7 5. 7 Am p s 12 . 6 2 12 . 6 1 12 . 5 8 12 . 7 14 . 4 0 14 . 3 9 14 . 3 6 14 . 5 16 . 3 8 16 . 3 7 16 . 3 4 16 . 5 18 . 5 3 18 . 5 2 18 . 4 9 18 . 6 20 . 9 3 20 . 9 1 20 . 8 8 21 . 0 23 . 7 4 23 . 7 3 23 . 7 0 23 . 8 Hi P R 26 9 27 0 27 2 27 6 . 5 31 1 31 2 31 4 31 8 . 1 35 4 35 5 35 7 36 1 . 7 40 1 40 2 40 4 40 8 . 7 45 2 45 3 45 5 45 9 . 3 50 6 50 7 50 9 51 3 . 3 Lo P R 13 0 13 2 13 5 14 0 . 4 13 8 13 9 14 3 14 8 . 0 14 5 14 6 14 9 15 4 . 7 15 0 15 2 15 5 16 0 . 4 15 6 15 7 16 1 16 5 . 9 16 3 16 4 16 8 17 2 . 9 85 14 0 0 MB h 49 . 4 50 . 1 51 . 5 53 . 7 49 . 0 49 . 7 51 . 1 53 . 3 47 . 7 48 . 4 49 . 9 52 . 1 45 . 6 46 . 2 47 . 7 49 . 9 42 . 9 43 . 6 45 . 0 47 . 2 40 . 5 41 . 2 42 . 6 44 . 8 S/ T 1. 0 0 0. 8 8 0. 7 4 0. 6 1. 0 0 1. 0 0 0. 7 5 0. 6 1. 0 0 1. 0 0 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 7 9 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 7 ∆T 21 . 2 2 19 . 9 9 17 . 6 8 15 . 3 21 . 1 9 19 . 9 5 17 . 6 5 15 . 3 21 . 3 6 20 . 1 3 17 . 8 2 15 . 4 21 . 1 7 19 . 9 4 17 . 6 3 15 . 2 21 . 0 1 19 . 7 7 17 . 4 7 15 . 1 21 . 7 8 20 . 5 5 18 . 2 4 15 . 9 kW 3. 2 2 3. 2 2 3. 2 1 3. 2 3. 6 1 3. 6 1 3. 6 0 3. 6 4. 0 4 4. 0 4 4. 0 3 4. 1 4. 5 1 4. 5 1 4. 5 0 4. 5 5. 0 4 5. 0 3 5. 0 3 5. 1 5. 6 5 5. 6 5 5. 6 4 5. 7 Am p s 12 . 4 9 12 . 4 7 12 . 4 4 12 . 6 14 . 2 6 14 . 2 5 14 . 2 2 14 . 4 16 . 2 5 16 . 2 3 16 . 2 0 16 . 3 18 . 3 9 18 . 3 8 18 . 3 5 18 . 5 20 . 7 9 20 . 7 8 20 . 7 5 20 . 9 23 . 6 1 23 . 5 9 23 . 5 6 23 . 7 Hi P R 26 6 26 7 26 9 27 3 . 3 30 7 30 9 31 0 31 5 . 0 35 1 35 2 35 4 35 8 . 6 39 8 39 9 40 1 40 5 . 5 44 9 45 0 45 2 45 6 . 1 50 3 50 4 50 6 51 0 . 2 Lo P R 12 8 13 0 13 3 13 8 . 3 13 6 13 7 14 1 14 6 . 0 14 3 14 4 14 7 15 2 . 7 14 8 15 0 15 3 15 8 . 4 15 4 15 5 15 9 16 3 . 9 16 1 16 2 16 6 17 0 . 9 16 0 0 MB h 50 . 1 50 . 7 52 . 2 54 . 4 49 . 6 50 . 3 51 . 7 54 . 0 48 . 4 49 . 0 50 . 5 52 . 7 46 . 2 46 . 9 48 . 3 50 . 5 43 . 5 44 . 2 45 . 7 47 . 9 41 . 1 41 . 8 43 . 2 45 . 4 S/ T 1. 0 0 0. 9 4 0. 8 0 0. 7 1. 0 0 1. 0 0 0. 8 1 0. 7 1. 0 0 1. 0 0 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 20 . 4 7 19 . 2 4 16 . 9 3 14 . 5 20 . 4 4 19 . 2 1 16 . 9 0 14 . 5 20 . 6 1 19 . 3 8 17 . 0 7 14 . 7 20 . 4 3 19 . 1 9 16 . 8 9 14 . 5 20 . 2 6 19 . 0 3 16 . 7 2 14 . 3 21 . 0 4 19 . 8 0 17 . 5 0 15 . 1 kW 3. 2 4 3. 2 4 3. 2 3 3. 3 3. 6 3 3. 6 3 3. 6 2 3. 7 4. 0 6 4. 0 6 4. 0 5 4. 1 4. 5 3 4. 5 3 4. 5 2 4. 6 5. 0 6 5. 0 5 5. 0 5 5. 1 5. 6 7 5. 6 7 5. 6 6 5. 7 Am p s 12 . 5 8 12 . 5 7 12 . 5 4 12 . 7 14 . 3 6 14 . 3 4 14 . 3 1 14 . 4 16 . 3 4 16 . 3 3 16 . 3 0 16 . 4 18 . 4 9 18 . 4 7 18 . 4 4 18 . 6 20 . 8 8 20 . 8 7 20 . 8 4 21 . 0 23 . 7 0 23 . 6 8 23 . 6 5 23 . 8 Hi P R 26 8 26 9 27 1 27 5 . 6 31 0 31 1 31 3 31 7 . 2 35 3 35 4 35 6 36 0 . 8 40 0 40 1 40 3 40 7 . 8 45 1 45 2 45 4 45 8 . 4 50 5 50 6 50 8 51 2 . 4 Lo P R 13 0 13 2 13 5 14 0 . 2 13 8 13 9 14 2 14 7 . 8 14 4 14 6 14 9 15 4 . 5 15 0 15 2 15 5 16 0 . 2 15 6 15 7 16 0 16 5 . 8 16 3 16 4 16 7 17 2 . 7 18 0 0 MB h 50 . 8 51 . 5 52 . 9 55 . 1 50 . 4 51 . 1 52 . 5 54 . 7 49 . 1 49 . 8 51 . 2 53 . 5 47 . 0 47 . 6 49 . 1 51 . 3 44 . 3 45 . 0 46 . 4 48 . 6 41 . 9 42 . 6 44 . 0 46 . 2 S/ T 1. 0 0 0. 9 7 0. 8 4 0. 7 1. 0 0 1. 0 0 0. 8 4 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 0. 8 9 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 19 . 8 5 18 . 6 1 16 . 3 1 13 . 9 19 . 8 1 18 . 5 8 16 . 2 7 13 . 9 19 . 9 9 18 . 7 5 16 . 4 5 14 . 1 19 . 8 0 18 . 5 7 16 . 2 6 13 . 9 19 . 6 4 18 . 4 0 16 . 1 0 13 . 7 20 . 4 1 19 . 1 7 16 . 8 7 14 . 5 kW 3. 2 6 3. 2 6 3. 2 5 3. 3 3. 6 5 3. 6 4 3. 6 4 3. 7 4. 0 8 4. 0 8 4. 0 7 4. 1 4. 5 5 4. 5 5 4. 5 4 4. 6 5. 0 7 5. 0 7 5. 0 6 5. 1 5. 6 9 5. 6 9 5. 6 8 5. 7 Am p s 12 . 6 6 12 . 6 4 12 . 6 1 12 . 7 14 . 4 3 14 . 4 2 14 . 3 9 14 . 5 16 . 4 2 16 . 4 0 16 . 3 7 16 . 5 18 . 5 6 18 . 5 5 18 . 5 2 18 . 7 20 . 9 6 20 . 9 5 20 . 9 2 21 . 1 23 . 7 7 23 . 7 6 23 . 7 3 23 . 9 Hi P R 27 0 27 1 27 3 27 7 . 7 31 2 31 3 31 5 31 9 . 4 35 5 35 7 35 8 36 3 . 0 40 2 40 3 40 5 40 9 . 9 45 3 45 4 45 6 46 0 . 6 50 7 50 8 51 0 51 4 . 6 Lo P R 13 2 13 4 13 7 14 2 . 2 14 0 14 1 14 5 14 9 . 9 14 6 14 8 15 1 15 6 . 6 15 2 15 4 15 7 16 2 . 3 15 8 15 9 16 2 16 7 . 8 16 5 16 6 16 9 17 4 . 8 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A H R I ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 14 www.goodmanmfg.com SS-GPHM3 15 Expanded Cooling Data — GPHM36041** – High Stage Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 70 17 5 0 MB h 55 . 8 56 . 6 58 . 3 - 55 . 3 56 . 1 57 . 8 - 53 . 9 54 . 7 56 . 3 - 51 . 4 52 . 2 53 . 8 - 48 . 4 49 . 1 50 . 8 - 45 . 6 46 . 4 48 . 0 - S/ T 0. 6 4 0. 5 6 0. 4 3 - 0. 6 4 0. 5 7 0. 4 3 - 0. 6 7 0. 5 9 0. 4 6 - 1. 0 0 0. 6 1 0. 4 8 - 1. 0 0 0. 6 3 0. 5 0 - 1. 0 0 0. 6 8 0. 5 5 - ∆T 18 . 9 1 17 . 1 0 13 . 7 3 - 18 . 8 6 17 . 0 6 13 . 6 8 - 19 . 1 2 17 . 3 1 13 . 9 3 - 18 . 8 5 17 . 0 4 13 . 6 6 - 18 . 6 0 16 . 8 0 13 . 4 2 - 19 . 7 4 17 . 9 3 14 . 5 5 - kW 3. 7 2 3. 7 1 3. 7 1 - 4. 1 6 4. 1 5 4. 1 5 - 4. 6 5 4. 6 5 4. 6 4 - 5. 1 8 5. 1 8 5. 1 7 - 5. 7 8 5. 7 8 5. 7 7 - 6. 4 8 6. 4 7 6. 4 7 - Am p s 13 . 2 9 13 . 2 8 13 . 2 4 - 15 . 2 1 15 . 1 9 15 . 1 6 - 17 . 3 5 17 . 3 4 17 . 3 0 - 19 . 6 7 19 . 6 5 19 . 6 2 - 22 . 2 6 22 . 2 4 22 . 2 1 - 25 . 2 9 25 . 2 8 25 . 2 5 - Hi P R 28 3 28 4 28 6 - 32 7 32 8 33 0 - 37 3 37 5 37 7 - 42 3 42 5 42 7 - 47 7 47 9 48 1 - 53 5 53 6 53 8 - Lo P R 12 4 12 6 12 9 - 13 2 13 3 13 6 - 13 8 14 0 14 3 - 14 4 14 5 14 9 - 14 9 15 1 15 4 - 15 6 15 8 16 1 - 18 5 0 MB h 56 . 2 57 . 0 58 . 6 - 55 . 7 56 . 5 58 . 1 - 54 . 2 55 . 0 56 . 7 - 51 . 7 52 . 5 54 . 2 - 48 . 7 49 . 5 51 . 1 - 45 . 9 46 . 7 48 . 4 - S/ T 0. 6 6 0. 5 8 0. 4 5 - 0. 6 6 0. 5 9 0. 4 5 - 0. 6 9 0. 6 1 0. 4 8 - 1. 0 0 0. 6 3 0. 5 0 - 1. 0 0 0. 6 5 0. 5 2 - 1. 0 0 0. 7 1 0. 5 7 - ∆T 18 . 4 7 16 . 6 6 13 . 2 8 - 18 . 4 2 16 . 6 1 13 . 2 3 - 18 . 6 7 16 . 8 6 13 . 4 9 - 18 . 4 0 16 . 5 9 13 . 2 1 - 18 . 1 6 16 . 3 5 12 . 9 7 - 19 . 2 9 17 . 4 8 14 . 1 0 - kW 3. 7 3 3. 7 2 3. 7 2 - 4. 1 7 4. 1 6 4. 1 6 - 4. 6 6 4. 6 6 4. 6 5 - 5. 1 9 5. 1 9 5. 1 8 - 5. 7 9 5. 7 8 5. 7 8 - 6. 4 9 6. 4 8 6. 4 8 - Am p s 13 . 3 3 13 . 3 2 13 . 2 8 - 15 . 2 5 15 . 2 3 15 . 2 0 - 17 . 3 9 17 . 3 8 17 . 3 4 - 19 . 7 1 19 . 6 9 19 . 6 6 - 22 . 3 0 22 . 2 8 22 . 2 5 - 25 . 3 4 25 . 3 2 25 . 2 9 - Hi P R 28 4 28 5 28 7 - 32 8 32 9 33 1 - 37 4 37 6 37 8 - 42 4 42 6 42 8 - 47 8 48 0 48 2 - 53 6 53 7 53 9 - Lo P R 12 5 12 7 13 0 - 13 3 13 4 13 7 - 13 9 14 1 14 4 - 14 5 14 6 14 9 - 15 0 15 2 15 5 - 15 7 15 8 16 2 - 22 5 0 MB h 57 . 8 58 . 6 60 . 2 - 57 . 3 58 . 1 59 . 7 - 55 . 9 56 . 6 58 . 3 - 53 . 4 54 . 1 55 . 8 - 50 . 3 51 . 1 52 . 8 - 47 . 5 48 . 3 50 . 0 - S/ T 0. 7 0 0. 6 3 0. 4 9 - 0. 7 1 0. 6 3 0. 5 0 - 0. 7 3 0. 6 6 0. 5 2 - 1. 0 0 0. 6 8 0. 5 4 - 1. 0 0 0. 7 0 0. 5 6 - 1. 0 0 0. 7 5 0. 6 2 - ∆T 16 . 9 4 15 . 1 4 11 . 7 6 - 16 . 9 0 15 . 0 9 11 . 7 1 - 17 . 1 5 15 . 3 4 11 . 9 6 - 16 . 8 8 15 . 0 7 11 . 6 9 - 16 . 6 4 14 . 8 3 11 . 4 5 - 17 . 7 7 15 . 9 6 12 . 5 8 - kW 3. 7 6 3. 7 5 3. 7 5 - 4. 2 0 4. 2 0 4. 1 9 - 4. 6 9 4. 6 9 4. 6 8 - 5. 2 2 5. 2 2 5. 2 1 - 5. 8 2 5. 8 2 5. 8 1 - 6. 5 2 6. 5 2 6. 5 1 - Am p s 13 . 4 7 13 . 4 5 13 . 4 2 - 15 . 3 9 15 . 3 7 15 . 3 4 - 17 . 5 3 17 . 5 1 17 . 4 8 - 19 . 8 5 19 . 8 3 19 . 8 0 - 22 . 4 4 22 . 4 2 22 . 3 9 - 25 . 4 7 25 . 4 6 25 . 4 3 - Hi P R 28 8 28 9 29 1 - 33 2 33 3 33 5 - 37 8 38 0 38 2 - 42 8 43 0 43 2 - 48 2 48 4 48 6 - 54 0 54 1 54 3 - Lo P R 12 9 13 0 13 3 - 13 6 13 8 14 1 - 14 3 14 4 14 7 - 14 8 15 0 15 3 - 15 4 15 5 15 8 - 16 1 16 2 16 5 - 75 17 5 0 MB h 55 . 9 56 . 7 58 . 3 60 . 8 55 . 4 56 . 2 57 . 8 60 . 4 53 . 9 54 . 7 56 . 4 58 . 9 51 . 4 52 . 2 53 . 9 56 . 4 48 . 4 49 . 2 50 . 8 53 . 4 45 . 6 46 . 4 48 . 1 50 . 6 S/ T 0. 7 6 0. 6 9 0. 5 5 0. 4 0. 7 7 0. 6 9 0. 5 6 0. 4 1. 0 0 0. 7 2 0. 5 8 0. 4 1. 0 0 0. 7 4 0. 6 0 0. 5 1. 0 0 0. 7 6 0. 6 3 0. 5 1. 0 0 1. 0 0 0. 6 8 0. 5 ∆T 22 . 8 9 21 . 0 8 17 . 7 0 14 . 2 22 . 8 4 21 . 0 3 17 . 6 6 14 . 2 23 . 1 0 21 . 2 9 17 . 9 1 14 . 4 22 . 8 2 21 . 0 1 17 . 6 4 14 . 1 22 . 5 8 20 . 7 7 17 . 3 9 13 . 9 23 . 7 1 21 . 9 0 18 . 5 3 15 . 0 kW 3. 7 1 3. 7 1 3. 7 0 3. 7 4. 1 6 4. 1 5 4. 1 4 4. 2 4. 6 5 4. 6 4 4. 6 4 4. 7 5. 1 8 5. 1 8 5. 1 7 5. 2 5. 7 8 5. 7 7 5. 7 7 5. 8 6. 4 7 6. 4 7 6. 4 6 6. 5 Am p s 13 . 2 8 13 . 2 6 13 . 2 3 13 . 4 15 . 2 0 15 . 1 8 15 . 1 5 15 . 3 17 . 3 4 17 . 3 2 17 . 2 9 17 . 4 19 . 6 6 19 . 6 4 19 . 6 1 19 . 8 22 . 2 4 22 . 2 3 22 . 2 0 22 . 3 25 . 2 8 25 . 2 7 25 . 2 3 25 . 4 Hi P R 28 3 28 4 28 6 29 0 . 9 32 7 32 8 33 0 33 5 . 2 37 4 37 5 37 7 38 1 . 7 42 4 42 5 42 7 43 1 . 8 47 8 47 9 48 1 48 5 . 7 53 5 53 6 53 8 54 3 . 3 Lo P R 12 4 12 6 12 9 13 4 . 2 13 2 13 3 13 6 14 1 . 7 13 8 14 0 14 3 14 8 . 3 14 4 14 5 14 9 15 3 . 8 14 9 15 1 15 4 15 9 . 3 15 6 15 8 16 1 16 6 . 1 18 5 0 MB h 56 . 2 57 . 0 58 . 6 61 . 2 55 . 7 56 . 5 58 . 2 60 . 7 54 . 3 55 . 0 56 . 7 59 . 2 51 . 8 52 . 6 54 . 2 56 . 7 48 . 7 49 . 5 51 . 2 53 . 7 45 . 9 46 . 7 48 . 4 50 . 9 S/ T 0. 7 9 0. 7 1 0. 5 8 0. 4 0. 7 9 0. 7 2 0. 5 8 0. 4 1. 0 0 0. 7 4 0. 6 1 0. 5 1. 0 0 0. 7 6 0. 6 3 0. 5 1. 0 0 0. 7 8 0. 6 5 0. 5 1. 0 0 1. 0 0 0. 7 0 0. 6 ∆T 22 . 4 4 20 . 6 4 17 . 2 6 13 . 8 22 . 4 0 20 . 5 9 17 . 2 1 13 . 7 22 . 6 5 20 . 8 4 17 . 4 6 14 . 0 22 . 3 8 20 . 5 7 17 . 1 9 13 . 7 22 . 1 4 20 . 3 3 16 . 9 5 13 . 4 23 . 2 7 21 . 4 6 18 . 0 8 14 . 6 kW 3. 7 2 3. 7 2 3. 7 1 3. 7 4. 1 6 4. 1 6 4. 1 5 4. 2 4. 6 6 4. 6 5 4. 6 5 4. 7 5. 1 9 5. 1 9 5. 1 8 5. 2 5. 7 9 5. 7 8 5. 7 7 5. 8 6. 4 8 6. 4 8 6. 4 7 6. 5 Am p s 13 . 3 2 13 . 3 0 13 . 2 7 13 . 4 15 . 2 4 15 . 2 2 15 . 1 9 15 . 3 17 . 3 8 17 . 3 6 17 . 3 3 17 . 5 19 . 7 0 19 . 6 8 19 . 6 5 19 . 8 22 . 2 9 22 . 2 7 22 . 2 4 22 . 4 25 . 3 2 25 . 3 1 25 . 2 7 25 . 4 Hi P R 28 4 28 5 28 7 29 1 . 9 32 8 32 9 33 1 33 6 . 3 37 5 37 6 37 8 38 2 . 7 42 5 42 6 42 8 43 2 . 8 47 9 48 0 48 2 48 6 . 7 53 6 53 7 53 9 54 4 . 3 Lo P R 12 5 12 7 13 0 13 5 . 0 13 3 13 4 13 7 14 2 . 5 13 9 14 1 14 4 14 9 . 1 14 5 14 6 14 9 15 4 . 6 15 0 15 2 15 5 16 0 . 1 15 7 15 9 16 2 16 6 . 9 22 5 0 MB h 57 . 8 58 . 6 60 . 3 62 . 8 57 . 3 58 . 1 59 . 8 62 . 3 55 . 9 56 . 7 58 . 3 60 . 9 53 . 4 54 . 2 55 . 8 58 . 4 50 . 4 51 . 1 52 . 8 55 . 3 47 . 6 48 . 4 50 . 0 52 . 5 S/ T 0. 8 3 0. 7 5 0. 6 2 0. 5 1. 0 0 0. 7 6 0. 6 3 0. 5 1. 0 0 0. 7 8 0. 6 5 0. 5 1. 0 0 0. 8 0 0. 6 7 0. 5 1. 0 0 1. 0 0 0. 6 9 0. 6 1. 0 0 1. 0 0 0. 7 4 0. 6 ∆T 20 . 9 2 19 . 1 1 15 . 7 4 12 . 2 20 . 8 7 19 . 0 6 15 . 6 9 12 . 2 21 . 1 3 19 . 3 2 15 . 9 4 12 . 4 20 . 8 5 19 . 0 5 15 . 6 7 12 . 2 20 . 6 1 18 . 8 0 15 . 4 3 11 . 9 21 . 7 5 19 . 9 4 16 . 5 6 13 . 1 kW 3. 7 5 3. 7 5 3. 7 4 3. 8 4. 2 0 4. 1 9 4. 1 9 4. 2 4. 6 9 4. 6 9 4. 6 8 4. 7 5. 2 2 5. 2 2 5. 2 1 5. 2 5. 8 2 5. 8 1 5. 8 1 5. 8 6. 5 2 6. 5 1 6. 5 0 6. 5 Am p s 13 . 4 6 13 . 4 4 13 . 4 1 13 . 6 15 . 3 7 15 . 3 6 15 . 3 3 15 . 5 17 . 5 2 17 . 5 0 17 . 4 7 17 . 6 19 . 8 3 19 . 8 2 19 . 7 9 19 . 9 22 . 4 2 22 . 4 1 22 . 3 8 22 . 5 25 . 4 6 25 . 4 5 25 . 4 1 25 . 6 Hi P R 28 8 28 9 29 1 29 5 . 9 33 2 33 3 33 5 34 0 . 3 37 9 38 0 38 2 38 6 . 8 42 9 43 0 43 2 43 6 . 8 48 3 48 4 48 6 49 0 . 8 54 0 54 1 54 3 54 8 . 4 Lo P R 12 9 13 0 13 3 13 8 . 7 13 6 13 8 14 1 14 6 . 2 14 3 14 4 14 7 15 2 . 7 14 8 15 0 15 3 15 8 . 3 15 4 15 5 15 8 16 3 . 7 16 1 16 2 16 5 17 0 . 5 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A C C A ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 14www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 15 Expanded Cooling Data — GPHM36041** – High Stage (cont.) Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 80 17 5 0 MB h 56 . 2 56 . 9 58 . 6 61 . 1 55 . 7 56 . 5 58 . 1 60 . 6 54 . 2 55 . 0 56 . 7 59 . 2 51 . 7 52 . 5 54 . 2 56 . 7 48 . 7 49 . 5 51 . 1 53 . 7 45 . 9 46 . 7 48 . 3 50 . 9 S/ T 1. 0 0 0. 8 1 0. 6 8 0. 5 1. 0 0 0. 8 2 0. 6 8 0. 5 1. 0 0 0. 8 4 0. 7 1 0. 6 1. 0 0 1. 0 0 0. 7 3 0. 6 1. 0 0 1. 0 0 0. 7 5 0. 6 1. 0 0 1. 0 0 0. 8 0 0. 7 ∆T 26 . 9 0 25 . 0 9 21 . 7 1 18 . 2 26 . 8 5 25 . 0 4 21 . 6 6 18 . 2 27 . 1 0 25 . 2 9 21 . 9 1 18 . 4 26 . 8 3 25 . 0 2 21 . 6 4 18 . 1 26 . 5 9 24 . 7 8 21 . 4 0 17 . 9 27 . 7 2 25 . 9 1 22 . 5 3 19 . 0 kW 3. 7 2 3. 7 1 3. 7 1 3. 7 4. 1 6 4. 1 5 4. 1 5 4. 2 4. 6 5 4. 6 5 4. 6 4 4. 7 5. 1 8 5. 1 8 5. 1 7 5. 2 5. 7 8 5. 7 8 5. 7 7 5. 8 6. 4 8 6. 4 7 6. 4 7 6. 5 Am p s 13 . 2 9 13 . 2 7 13 . 2 4 13 . 4 15 . 2 1 15 . 1 9 15 . 1 6 15 . 3 17 . 3 5 17 . 3 3 17 . 3 0 17 . 4 19 . 6 7 19 . 6 5 19 . 6 2 19 . 8 22 . 2 5 22 . 2 4 22 . 2 1 22 . 4 25 . 2 9 25 . 2 8 25 . 2 4 25 . 4 Hi P R 28 3 28 5 28 6 29 1 . 4 32 8 32 9 33 1 33 5 . 8 37 4 37 5 37 7 38 2 . 2 42 4 42 5 42 7 43 2 . 3 47 8 47 9 48 1 48 6 . 2 53 6 53 7 53 9 54 3 . 8 Lo P R 12 5 12 6 13 0 13 4 . 8 13 2 13 4 13 7 14 2 . 3 13 9 14 0 14 4 14 8 . 8 14 4 14 6 14 9 15 4 . 4 15 0 15 1 15 5 15 9 . 8 15 7 15 8 16 1 16 6 . 6 18 5 0 MB h 56 . 5 57 . 3 58 . 9 61 . 5 56 . 0 56 . 8 58 . 4 61 . 0 54 . 6 55 . 3 57 . 0 59 . 5 52 . 1 52 . 8 54 . 5 57 . 0 49 . 0 49 . 8 51 . 5 54 . 0 46 . 2 47 . 0 48 . 7 51 . 2 S/ T 1. 0 0 0. 8 3 0. 7 0 0. 6 1. 0 0 0. 8 4 0. 7 1 0. 6 1. 0 0 0. 8 6 0. 7 3 0. 6 1. 0 0 1. 0 0 0. 7 5 0. 6 1. 0 0 1. 0 0 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 8 2 0. 7 ∆T 26 . 4 5 24 . 6 4 21 . 2 6 17 . 8 26 . 4 0 24 . 5 9 21 . 2 1 17 . 7 26 . 6 5 24 . 8 5 21 . 4 7 18 . 0 26 . 3 8 24 . 5 7 21 . 1 9 17 . 7 26 . 1 4 24 . 3 3 20 . 9 5 17 . 5 27 . 2 7 25 . 4 6 22 . 0 9 18 . 6 kW 3. 7 3 3. 7 2 3. 7 1 3. 7 4. 1 7 4. 1 6 4. 1 6 4. 2 4. 6 6 4. 6 6 4. 6 5 4. 7 5. 1 9 5. 1 9 5. 1 8 5. 2 5. 7 9 5. 7 8 5. 7 8 5. 8 6. 4 9 6. 4 8 6. 4 8 6. 5 Am p s 13 . 3 3 13 . 3 1 13 . 2 8 13 . 4 15 . 2 5 15 . 2 3 15 . 2 0 15 . 3 17 . 3 9 17 . 3 7 17 . 3 4 17 . 5 19 . 7 1 19 . 6 9 19 . 6 6 19 . 8 22 . 3 0 22 . 2 8 22 . 2 5 22 . 4 25 . 3 3 25 . 3 2 25 . 2 9 25 . 4 Hi P R 28 4 28 6 28 8 29 2 . 4 32 9 33 0 33 2 33 6 . 8 37 5 37 6 37 8 38 3 . 3 42 5 42 6 42 8 43 3 . 3 47 9 48 0 48 2 48 7 . 3 53 7 53 8 54 0 54 4 . 8 Lo P R 12 6 12 7 13 0 13 5 . 6 13 3 13 5 13 8 14 3 . 1 14 0 14 1 14 4 14 9 . 6 14 5 14 7 15 0 15 5 . 2 15 1 15 2 15 5 16 0 . 6 15 8 15 9 16 2 16 7 . 4 22 5 0 MB h 58 . 1 58 . 9 60 . 6 63 . 1 57 . 6 58 . 4 60 . 1 62 . 6 56 . 2 57 . 0 58 . 6 61 . 1 53 . 7 54 . 5 56 . 1 58 . 7 50 . 6 51 . 4 53 . 1 55 . 6 47 . 9 48 . 6 50 . 3 52 . 8 S/ T 1. 0 0 0. 8 8 0. 7 4 0. 6 1. 0 0 0. 8 8 0. 7 5 0. 6 1. 0 0 0. 9 1 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 7 9 0. 7 1. 0 0 1. 0 0 0. 8 2 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 ∆T 24 . 9 3 23 . 1 2 19 . 7 4 16 . 2 24 . 8 8 23 . 0 7 19 . 6 9 16 . 2 25 . 1 3 23 . 3 2 19 . 9 4 16 . 4 24 . 8 6 23 . 0 5 19 . 6 7 16 . 2 24 . 6 2 22 . 8 1 19 . 4 3 15 . 9 25 . 7 5 23 . 9 4 20 . 5 6 17 . 1 kW 3. 7 6 3. 7 5 3. 7 5 3. 8 4. 2 0 4. 2 0 4. 1 9 4. 2 4. 6 9 4. 6 9 4. 6 8 4. 7 5. 2 2 5. 2 2 5. 2 1 5. 2 5. 8 2 5. 8 2 5. 8 1 5. 8 6. 5 2 6. 5 1 6. 5 1 6. 5 Am p s 13 . 4 7 13 . 4 5 13 . 4 2 13 . 6 15 . 3 8 15 . 3 7 15 . 3 4 15 . 5 17 . 5 3 17 . 5 1 17 . 4 8 17 . 6 19 . 8 4 19 . 8 3 19 . 8 0 19 . 9 22 . 4 3 22 . 4 2 22 . 3 9 22 . 5 25 . 4 7 25 . 4 6 25 . 4 2 25 . 6 Hi P R 28 8 29 0 29 2 29 6 . 4 33 3 33 4 33 6 34 0 . 8 37 9 38 0 38 2 38 7 . 3 42 9 43 0 43 2 43 7 . 3 48 3 48 4 48 6 49 1 . 3 54 1 54 2 54 4 54 8 . 9 Lo P R 12 9 13 1 13 4 13 9 . 2 13 7 13 8 14 1 14 6 . 7 14 3 14 5 14 8 15 3 . 3 14 9 15 0 15 4 15 8 . 8 15 4 15 6 15 9 16 4 . 3 16 1 16 3 16 6 17 1 . 1 85 17 5 0 MB h 57 . 1 57 . 9 59 . 5 62 . 1 56 . 6 57 . 4 59 . 0 61 . 6 55 . 2 55 . 9 57 . 6 60 . 1 52 . 7 53 . 4 55 . 1 57 . 6 49 . 6 50 . 4 52 . 1 54 . 6 46 . 8 47 . 6 49 . 3 51 . 8 S/ T 1. 0 0 0. 9 1 0. 7 8 0. 6 1. 0 0 1. 0 0 0. 7 8 0. 6 1. 0 0 1. 0 0 0. 8 1 0. 7 1. 0 0 1. 0 0 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 30 . 4 5 28 . 6 4 25 . 2 6 21 . 8 30 . 4 0 28 . 5 9 25 . 2 1 21 . 7 30 . 6 5 28 . 8 4 25 . 4 7 22 . 0 30 . 3 8 28 . 5 7 25 . 1 9 21 . 7 30 . 1 4 28 . 3 3 24 . 9 5 21 . 5 31 . 2 7 29 . 4 6 26 . 0 8 22 . 6 kW 3. 7 2 3. 7 2 3. 7 1 3. 7 4. 1 7 4. 1 6 4. 1 5 4. 2 4. 6 6 4. 6 5 4. 6 5 4. 7 5. 1 9 5. 1 9 5. 1 8 5. 2 5. 7 9 5. 7 8 5. 7 8 5. 8 6. 4 9 6. 4 8 6. 4 7 6. 5 Am p s 13 . 3 2 13 . 3 1 13 . 2 8 13 . 4 15 . 2 4 15 . 2 3 15 . 2 0 15 . 3 17 . 3 8 17 . 3 7 17 . 3 4 17 . 5 19 . 7 0 19 . 6 9 19 . 6 5 19 . 8 22 . 2 9 22 . 2 8 22 . 2 4 22 . 4 25 . 3 3 25 . 3 1 25 . 2 8 25 . 4 Hi P R 28 5 28 6 28 8 29 2 . 7 32 9 33 0 33 2 33 7 . 1 37 5 37 7 37 9 38 3 . 6 42 6 42 7 42 9 43 3 . 6 47 9 48 1 48 3 48 7 . 6 53 7 53 8 54 0 54 5 . 2 Lo P R 12 7 12 8 13 1 13 6 . 6 13 4 13 6 13 9 14 4 . 1 14 1 14 2 14 5 15 0 . 7 14 6 14 8 15 1 15 6 . 2 15 2 15 3 15 6 16 1 . 7 15 9 16 0 16 3 16 8 . 5 18 5 0 MB h 57 . 4 58 . 2 59 . 9 62 . 4 56 . 9 57 . 7 59 . 4 61 . 9 55 . 5 56 . 3 57 . 9 60 . 5 53 . 0 53 . 8 55 . 4 58 . 0 50 . 0 50 . 7 52 . 4 54 . 9 47 . 2 48 . 0 49 . 6 52 . 1 S/ T 1. 0 0 0. 9 3 0. 8 0 0. 7 1. 0 0 1. 0 0 0. 8 1 0. 7 1. 0 0 1. 0 0 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 30 . 0 0 28 . 1 9 24 . 8 1 21 . 3 29 . 9 5 28 . 1 4 24 . 7 6 21 . 3 30 . 2 1 28 . 4 0 25 . 0 2 21 . 5 29 . 9 3 28 . 1 2 24 . 7 5 21 . 2 29 . 6 9 27 . 8 8 24 . 5 0 21 . 0 30 . 8 2 29 . 0 1 25 . 6 4 22 . 1 kW 3. 7 3 3. 7 3 3. 7 2 3. 8 4. 1 8 4. 1 7 4. 1 6 4. 2 4. 6 7 4. 6 6 4. 6 6 4. 7 5. 2 0 5. 2 0 5. 1 9 5. 2 5. 8 0 5. 7 9 5. 7 9 5. 8 6. 5 0 6. 4 9 6. 4 8 6. 5 Am p s 13 . 3 7 13 . 3 5 13 . 3 2 13 . 5 15 . 2 8 15 . 2 7 15 . 2 4 15 . 4 17 . 4 3 17 . 4 1 17 . 3 8 17 . 5 19 . 7 4 19 . 7 3 19 . 6 9 19 . 8 22 . 3 3 22 . 3 2 22 . 2 8 22 . 4 25 . 3 7 25 . 3 5 25 . 3 2 25 . 5 Hi P R 28 6 28 7 28 9 29 3 . 7 33 0 33 1 33 3 33 8 . 1 37 6 37 8 38 0 38 4 . 6 42 7 42 8 43 0 43 4 . 6 48 0 48 2 48 4 48 8 . 6 53 8 53 9 54 1 54 6 . 2 Lo P R 12 7 12 9 13 2 13 7 . 4 13 5 13 7 14 0 14 4 . 9 14 2 14 3 14 6 15 1 . 5 14 7 14 9 15 2 15 7 . 0 15 3 15 4 15 7 16 2 . 5 15 9 16 1 16 4 16 9 . 3 22 5 0 MB h 59 . 1 59 . 8 61 . 5 64 . 0 58 . 6 59 . 3 61 . 0 63 . 5 57 . 1 57 . 9 59 . 5 62 . 1 54 . 6 55 . 4 57 . 1 59 . 6 51 . 6 52 . 4 54 . 0 56 . 5 48 . 8 49 . 6 51 . 2 53 . 8 S/ T 1. 0 0 0. 9 8 0. 8 4 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 0. 8 9 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 28 . 4 8 26 . 6 7 23 . 2 9 19 . 8 28 . 4 3 26 . 6 2 23 . 2 4 19 . 7 28 . 6 8 26 . 8 7 23 . 5 0 20 . 0 28 . 4 1 26 . 6 0 23 . 2 2 19 . 7 28 . 1 7 26 . 3 6 22 . 9 8 19 . 5 29 . 3 0 27 . 4 9 24 . 1 1 20 . 6 kW 3. 7 7 3. 7 6 3. 7 5 3. 8 4. 2 1 4. 2 0 4. 2 0 4. 2 4. 7 0 4. 7 0 4. 6 9 4. 7 5. 2 3 5. 2 3 5. 2 2 5. 3 5. 8 3 5. 8 2 5. 8 2 5. 9 6. 5 3 6. 5 2 6. 5 2 6. 5 Am p s 13 . 5 0 13 . 4 9 13 . 4 6 13 . 6 15 . 4 2 15 . 4 1 15 . 3 7 15 . 5 17 . 5 6 17 . 5 5 17 . 5 2 17 . 7 19 . 8 8 19 . 8 7 19 . 8 3 20 . 0 22 . 4 7 22 . 4 5 22 . 4 2 22 . 6 25 . 5 1 25 . 4 9 25 . 4 6 25 . 6 Hi P R 29 0 29 1 29 3 29 7 . 8 33 4 33 5 33 7 34 2 . 1 38 1 38 2 38 4 38 8 . 6 43 1 43 2 43 4 43 8 . 7 48 5 48 6 48 8 49 2 . 6 54 2 54 3 54 5 55 0 . 2 Lo P R 13 1 13 3 13 6 14 1 . 0 13 9 14 0 14 3 14 8 . 5 14 5 14 7 15 0 15 5 . 1 15 1 15 2 15 5 16 0 . 7 15 6 15 8 16 1 16 6 . 1 16 3 16 5 16 8 17 2 . 9 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A H R I ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 16 www.goodmanmfg.com SS-GPHM3 17 Expanded Cooling Data — GPHM36041** – Low Stage Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 70 12 9 1 MB h 40 . 2 40 . 7 41 . 9 - 39 . 8 40 . 4 41 . 5 - 38 . 8 39 . 3 40 . 5 - 37 . 0 37 . 5 38 . 7 - 34 . 8 35 . 3 36 . 5 - 32 . 8 33 . 3 34 . 5 - S/ T 0. 6 5 0. 5 8 0. 4 4 - 0. 6 6 0. 5 8 0. 4 4 - 0. 6 8 0. 6 1 0. 4 7 - 1. 0 0 0. 6 3 0. 4 9 - 1. 0 0 0. 6 5 0. 5 1 - 1. 0 0 0. 7 0 0. 5 6 - ∆T 18 . 2 5 16 . 5 1 13 . 2 5 - 18 . 2 0 16 . 4 6 13 . 2 0 - 18 . 4 5 16 . 7 0 13 . 4 4 - 18 . 1 9 16 . 4 4 13 . 1 8 - 17 . 9 5 16 . 2 1 12 . 9 5 - 19 . 0 5 17 . 3 0 14 . 0 4 - kW 2. 3 4 2. 3 4 2. 3 3 - 2. 6 2 2. 6 1 2. 6 1 - 2. 9 3 2. 9 2 2. 9 2 - 3. 2 6 3. 2 6 3. 2 5 - 3. 6 4 3. 6 3 3. 6 3 - 4. 0 7 4. 0 7 4. 0 7 - Am p s 8. 3 6 8. 3 5 8. 3 3 - 9. 5 7 9. 5 6 9. 5 4 - 10 . 9 1 10 . 9 0 10 . 8 8 - 12 . 3 7 12 . 3 6 12 . 3 4 - 14 . 0 0 13 . 9 9 13 . 9 7 - 15 . 9 1 15 . 9 0 15 . 8 8 - Hi P R 27 0 27 1 27 3 - 31 3 31 4 31 6 - 35 7 35 8 36 0 - 40 5 40 6 40 8 - 45 6 45 8 45 9 - 51 1 51 3 51 4 - Lo P R 12 8 12 9 13 3 - 13 5 13 7 14 0 - 14 2 14 4 14 7 - 14 8 14 9 15 3 - 15 4 15 5 15 8 - 16 1 16 2 16 5 - 13 6 5 MB h 40 . 4 41 . 0 42 . 1 - 40 . 0 40 . 6 41 . 8 - 39 . 0 39 . 6 40 . 7 - 37 . 2 37 . 8 39 . 0 - 35 . 0 35 . 6 36 . 8 - 33 . 0 33 . 6 34 . 8 - S/ T 0. 6 8 0. 6 0 0. 4 6 - 0. 6 8 0. 6 0 0. 4 7 - 0. 7 1 0. 6 3 0. 4 9 - 1. 0 0 0. 6 5 0. 5 1 - 1. 0 0 0. 6 7 0. 5 3 - 1. 0 0 0. 7 2 0. 5 9 - ∆T 17 . 8 2 16 . 0 8 12 . 8 2 - 17 . 7 7 16 . 0 3 12 . 7 7 - 18 . 0 2 16 . 2 7 13 . 0 1 - 17 . 7 6 16 . 0 1 12 . 7 5 - 17 . 5 2 15 . 7 8 12 . 5 2 - 18 . 6 2 16 . 8 7 13 . 6 1 - kW 2. 3 4 2. 3 4 2. 3 4 - 2. 6 2 2. 6 2 2. 6 1 - 2. 9 3 2. 9 3 2. 9 2 - 3. 2 7 3. 2 6 3. 2 6 - 3. 6 4 3. 6 4 3. 6 3 - 4. 0 8 4. 0 8 4. 0 7 - Am p s 8. 3 9 8. 3 8 8. 3 5 - 9. 5 9 9. 5 8 9. 5 6 - 10 . 9 4 10 . 9 3 10 . 9 1 - 12 . 4 0 12 . 3 9 12 . 3 7 - 14 . 0 3 14 . 0 2 14 . 0 0 - 15 . 9 4 15 . 9 3 15 . 9 1 - Hi P R 27 1 27 2 27 4 - 31 3 31 5 31 7 - 35 8 35 9 36 1 - 40 6 40 7 40 9 - 45 7 45 9 46 0 - 51 2 51 4 51 5 - Lo P R 12 9 13 0 13 3 - 13 6 13 8 14 1 - 14 3 14 5 14 8 - 14 9 15 0 15 4 - 15 4 15 6 15 9 - 16 1 16 3 16 6 - 16 6 0 MB h 41 . 6 42 . 1 43 . 3 - 41 . 2 41 . 8 43 . 0 - 40 . 2 40 . 7 41 . 9 - 38 . 4 38 . 9 40 . 1 - 36 . 2 36 . 7 37 . 9 - 34 . 2 34 . 7 35 . 9 - S/ T 0. 7 2 0. 6 4 0. 5 1 - 0. 7 3 0. 6 5 0. 5 1 - 1. 0 0 0. 6 8 0. 5 4 - 1. 0 0 0. 6 9 0. 5 6 - 1. 0 0 0. 7 2 0. 5 8 - 1. 0 0 1. 0 0 0. 6 3 - ∆T 16 . 3 5 14 . 6 1 11 . 3 5 - 16 . 3 0 14 . 5 6 11 . 3 0 - 16 . 5 5 14 . 8 0 11 . 5 4 - 16 . 2 9 14 . 5 4 11 . 2 8 - 16 . 0 5 14 . 3 1 11 . 0 5 - 17 . 1 5 15 . 4 0 12 . 1 4 - kW 2. 3 6 2. 3 6 2. 3 6 - 2. 6 4 2. 6 4 2. 6 3 - 2. 9 5 2. 9 5 2. 9 4 - 3. 2 9 3. 2 8 3. 2 8 - 3. 6 6 3. 6 6 3. 6 5 - 4. 1 0 4. 1 0 4. 0 9 - Am p s 8. 4 7 8. 4 6 8. 4 4 - 9. 6 8 9. 6 7 9. 6 5 - 11 . 0 3 11 . 0 2 11 . 0 0 - 12 . 4 8 12 . 4 7 12 . 4 5 - 14 . 1 1 14 . 1 0 14 . 0 8 - 16 . 0 2 16 . 0 1 15 . 9 9 - Hi P R 27 5 27 6 27 8 - 31 7 31 9 32 0 - 36 2 36 3 36 5 - 41 0 41 1 41 3 - 46 1 46 2 46 4 - 51 6 51 7 51 9 - Lo P R 13 2 13 4 13 7 - 14 0 14 2 14 5 - 14 7 14 8 15 2 - 15 2 15 4 15 7 - 15 8 16 0 16 3 - 16 5 16 7 17 0 - 75 12 9 1 MB h 40 . 2 40 . 7 41 . 9 43 . 7 39 . 8 40 . 4 41 . 6 43 . 4 38 . 8 39 . 3 40 . 5 42 . 4 37 . 0 37 . 5 38 . 7 40 . 6 34 . 8 35 . 4 36 . 6 38 . 4 32 . 8 33 . 4 34 . 6 36 . 4 S/ T 0. 7 8 0. 7 1 0. 5 7 0. 4 1. 0 0 0. 7 1 0. 5 8 0. 4 1. 0 0 0. 7 4 0. 6 0 0. 5 1. 0 0 0. 7 6 0. 6 2 0. 5 1. 0 0 1. 0 0 0. 6 4 0. 5 1. 0 0 1. 0 0 0. 7 0 0. 6 ∆T 22 . 0 9 20 . 3 4 17 . 0 8 13 . 7 22 . 0 4 20 . 3 0 17 . 0 4 13 . 7 22 . 2 9 20 . 5 4 17 . 2 8 13 . 9 22 . 0 2 20 . 2 8 17 . 0 2 13 . 6 21 . 7 9 20 . 0 5 16 . 7 9 13 . 4 22 . 8 8 21 . 1 4 17 . 8 8 14 . 5 kW 2. 3 4 2. 3 3 2. 3 3 2. 4 2. 6 1 2. 6 1 2. 6 1 2. 6 2. 9 2 2. 9 2 2. 9 2 2. 9 3. 2 6 3. 2 6 3. 2 5 3. 3 3. 6 3 3. 6 3 3. 6 3 3. 6 4. 0 7 4. 0 7 4. 0 7 4. 1 Am p s 8. 3 5 8. 3 4 8. 3 2 8. 4 9. 5 6 9. 5 5 9. 5 3 9. 6 10 . 9 1 10 . 9 0 10 . 8 8 11 . 0 12 . 3 6 12 . 3 5 12 . 3 3 12 . 4 13 . 9 9 13 . 9 8 13 . 9 6 14 . 1 15 . 9 0 15 . 8 9 15 . 8 7 16 . 0 Hi P R 27 0 27 1 27 3 27 8 . 1 31 3 31 4 31 6 32 0 . 5 35 7 35 8 36 0 36 4 . 9 40 5 40 6 40 8 41 2 . 8 45 7 45 8 46 0 46 4 . 4 51 2 51 3 51 5 51 9 . 4 Lo P R 12 8 12 9 13 3 13 8 . 0 13 5 13 7 14 0 14 5 . 7 14 2 14 4 14 7 15 2 . 4 14 8 15 0 15 3 15 8 . 1 15 4 15 5 15 8 16 3 . 7 16 1 16 2 16 5 17 0 . 8 13 6 5 MB h 40 . 4 41 . 0 42 . 2 44 . 0 40 . 1 40 . 6 41 . 8 43 . 6 39 . 0 39 . 6 40 . 8 42 . 6 37 . 2 37 . 8 39 . 0 40 . 8 35 . 0 35 . 6 36 . 8 38 . 6 33 . 0 33 . 6 34 . 8 36 . 6 S/ T 0. 8 1 0. 7 3 0. 5 9 0. 4 1. 0 0 0. 7 4 0. 6 0 0. 5 1. 0 0 0. 7 6 0. 6 2 0. 5 1. 0 0 0. 7 8 0. 6 4 0. 5 1. 0 0 1. 0 0 0. 6 7 0. 5 1. 0 0 1. 0 0 0. 7 2 0. 6 ∆T 21 . 6 6 19 . 9 1 16 . 6 5 13 . 3 21 . 6 1 19 . 8 7 16 . 6 1 13 . 2 21 . 8 6 20 . 1 1 16 . 8 5 13 . 5 21 . 5 9 19 . 8 5 16 . 5 9 13 . 2 21 . 3 6 19 . 6 1 16 . 3 6 13 . 0 22 . 4 5 20 . 7 1 17 . 4 5 14 . 1 kW 2. 3 4 2. 3 4 2. 3 3 2. 4 2. 6 2 2. 6 2 2. 6 1 2. 6 2. 9 3 2. 9 3 2. 9 2 2. 9 3. 2 6 3. 2 6 3. 2 6 3. 3 3. 6 4 3. 6 4 3. 6 3 3. 7 4. 0 8 4. 0 8 4. 0 7 4. 1 Am p s 8. 3 8 8. 3 7 8. 3 5 8. 4 9. 5 8 9. 5 7 9. 5 5 9. 6 10 . 9 3 10 . 9 2 10 . 9 0 11 . 0 12 . 3 9 12 . 3 8 12 . 3 6 12 . 5 14 . 0 2 14 . 0 1 13 . 9 9 14 . 1 15 . 9 3 15 . 9 2 15 . 9 0 16 . 0 Hi P R 27 1 27 2 27 4 27 9 . 0 31 4 31 5 31 7 32 1 . 5 35 8 35 9 36 1 36 5 . 9 40 6 40 7 40 9 41 3 . 7 45 8 45 9 46 1 46 5 . 3 51 3 51 4 51 6 52 0 . 4 Lo P R 12 9 13 0 13 3 13 8 . 8 13 6 13 8 14 1 14 6 . 5 14 3 14 5 14 8 15 3 . 3 14 9 15 0 15 4 15 9 . 0 15 4 15 6 15 9 16 4 . 6 16 1 16 3 16 6 17 1 . 6 16 6 0 MB h 41 . 6 42 . 1 43 . 3 45 . 2 41 . 2 41 . 8 43 . 0 44 . 8 40 . 2 40 . 7 41 . 9 43 . 8 38 . 4 39 . 0 40 . 1 42 . 0 36 . 2 36 . 8 38 . 0 39 . 8 34 . 2 34 . 8 36 . 0 37 . 8 S/ T 0. 8 5 0. 7 7 0. 6 4 0. 5 1. 0 0 0. 7 8 0. 6 4 0. 5 1. 0 0 0. 8 1 0. 6 7 0. 5 1. 0 0 0. 8 3 0. 6 9 0. 5 1. 0 0 1. 0 0 0. 7 1 0. 6 1. 0 0 1. 0 0 0. 7 6 0. 6 ∆T 20 . 1 9 18 . 4 4 15 . 1 8 11 . 8 20 . 1 4 18 . 4 0 15 . 1 4 11 . 8 20 . 3 9 18 . 6 4 15 . 3 8 12 . 0 20 . 1 2 18 . 3 8 15 . 1 2 11 . 7 19 . 8 9 18 . 1 5 14 . 8 9 11 . 5 20 . 9 8 19 . 2 4 15 . 9 8 12 . 6 kW 2. 3 6 2. 3 6 2. 3 5 2. 4 2. 6 4 2. 6 4 2. 6 3 2. 7 2. 9 5 2. 9 5 2. 9 4 3. 0 3. 2 8 3. 2 8 3. 2 8 3. 3 3. 6 6 3. 6 6 3. 6 5 3. 7 4. 1 0 4. 1 0 4. 0 9 4. 1 Am p s 8. 4 6 8. 4 5 8. 4 3 8. 5 9. 6 7 9. 6 6 9. 6 4 9. 7 11 . 0 2 11 . 0 1 10 . 9 9 11 . 1 12 . 4 8 12 . 4 7 12 . 4 5 12 . 5 14 . 1 0 14 . 0 9 14 . 0 7 14 . 2 16 . 0 1 16 . 0 1 15 . 9 8 16 . 1 Hi P R 27 5 27 6 27 8 28 2 . 9 31 8 31 9 32 1 32 5 . 3 36 2 36 3 36 5 36 9 . 8 41 0 41 1 41 3 41 7 . 6 46 1 46 3 46 5 46 9 . 2 51 6 51 8 52 0 52 4 . 2 Lo P R 13 2 13 4 13 7 14 2 . 5 14 0 14 2 14 5 15 0 . 2 14 7 14 8 15 2 15 7 . 0 15 3 15 4 15 7 16 2 . 7 15 8 16 0 16 3 16 8 . 3 16 5 16 7 17 0 17 5 . 3 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A C C A ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 16www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 17 Expanded Cooling Data — GPHM36041** – Low Stage (cont.) Ou t d o o r A m b i e n t T e m p e r a t u r e 65 º F 75 º F 85 º F 95 º F 10 5 º F 11 5 º F En t e r i n g I n d o o r W e t B u l b T e m p e r a t u r e ID B Ai r f l o w 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 59 63 67 71 80 12 9 1 MB h 40 . 4 40 . 9 42 . 1 44 . 0 40 . 0 40 . 6 41 . 8 43 . 6 39 . 0 39 . 5 40 . 7 42 . 6 37 . 2 37 . 8 38 . 9 40 . 8 35 . 0 35 . 6 36 . 8 38 . 6 33 . 0 33 . 6 34 . 8 36 . 6 S/ T 1. 0 0 0. 8 3 0. 7 0 0. 6 1. 0 0 0. 8 4 0. 7 0 0. 6 1. 0 0 0. 8 7 0. 7 3 0. 6 1. 0 0 1. 0 0 0. 7 5 0. 6 1. 0 0 1. 0 0 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 8 2 0. 7 ∆T 25 . 9 5 24 . 2 1 20 . 9 5 17 . 6 25 . 9 1 24 . 1 6 20 . 9 0 17 . 5 26 . 1 5 24 . 4 1 21 . 1 5 17 . 8 25 . 8 9 24 . 1 4 20 . 8 8 17 . 5 25 . 6 6 23 . 9 1 20 . 6 5 17 . 3 26 . 7 5 25 . 0 0 21 . 7 4 18 . 4 kW 2. 3 4 2. 3 4 2. 3 3 2. 4 2. 6 2 2. 6 1 2. 6 1 2. 6 2. 9 2 2. 9 2 2. 9 2 2. 9 3. 2 6 3. 2 6 3. 2 5 3. 3 3. 6 3 3. 6 3 3. 6 3 3. 6 4. 0 7 4. 0 7 4. 0 7 4. 1 Am p s 8. 3 6 8. 3 5 8. 3 3 8. 4 9. 5 6 9. 5 6 9. 5 3 9. 6 10 . 9 1 10 . 9 0 10 . 8 8 11 . 0 12 . 3 7 12 . 3 6 12 . 3 4 12 . 4 14 . 0 0 13 . 9 9 13 . 9 7 14 . 1 15 . 9 1 15 . 9 0 15 . 8 8 16 . 0 Hi P R 27 1 27 2 27 4 27 8 . 6 31 3 31 4 31 6 32 1 . 0 35 8 35 9 36 1 36 5 . 4 40 6 40 7 40 9 41 3 . 3 45 7 45 8 46 0 46 4 . 8 51 2 51 3 51 5 51 9 . 9 Lo P R 12 8 13 0 13 3 13 8 . 5 13 6 13 8 14 1 14 6 . 2 14 3 14 4 14 8 15 3 . 0 14 9 15 0 15 3 15 8 . 7 15 4 15 6 15 9 16 4 . 3 16 1 16 3 16 6 17 1 . 3 13 6 5 MB h 40 . 6 41 . 2 42 . 4 44 . 2 40 . 3 40 . 8 42 . 0 43 . 8 39 . 2 39 . 8 41 . 0 42 . 8 37 . 4 38 . 0 39 . 2 41 . 0 35 . 2 35 . 8 37 . 0 38 . 8 33 . 2 33 . 8 35 . 0 36 . 8 S/ T 1. 0 0 0. 8 6 0. 7 2 0. 6 1. 0 0 0. 8 6 0. 7 3 0. 6 1. 0 0 0. 8 9 0. 7 5 0. 6 1. 0 0 1. 0 0 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 7 9 0. 6 1. 0 0 1. 0 0 0. 8 5 0. 7 ∆T 25 . 5 2 23 . 7 8 20 . 5 2 17 . 1 25 . 4 8 23 . 7 3 20 . 4 7 17 . 1 25 . 7 2 23 . 9 8 20 . 7 2 17 . 3 25 . 4 6 23 . 7 1 20 . 4 5 17 . 1 25 . 2 2 23 . 4 8 20 . 2 2 16 . 8 26 . 3 2 24 . 5 7 21 . 3 1 17 . 9 kW 2. 3 4 2. 3 4 2. 3 4 2. 4 2. 6 2 2. 6 2 2. 6 1 2. 6 2. 9 3 2. 9 3 2. 9 2 2. 9 3. 2 7 3. 2 6 3. 2 6 3. 3 3. 6 4 3. 6 4 3. 6 3 3. 7 4. 0 8 4. 0 8 4. 0 7 4. 1 Am p s 8. 3 8 8. 3 7 8. 3 5 8. 4 9. 5 9 9. 5 8 9. 5 6 9. 7 10 . 9 4 10 . 9 3 10 . 9 1 11 . 0 12 . 3 9 12 . 3 9 12 . 3 6 12 . 5 14 . 0 2 14 . 0 1 13 . 9 9 14 . 1 15 . 9 3 15 . 9 2 15 . 9 0 16 . 0 Hi P R 27 2 27 3 27 5 27 9 . 5 31 4 31 5 31 7 32 2 . 0 35 9 36 0 36 2 36 6 . 4 40 6 40 8 41 0 41 4 . 2 45 8 45 9 46 1 46 5 . 8 51 3 51 4 51 6 52 0 . 9 Lo P R 12 9 13 1 13 4 13 9 . 4 13 7 13 8 14 2 14 7 . 1 14 4 14 5 14 8 15 3 . 8 14 9 15 1 15 4 15 9 . 5 15 5 15 7 16 0 16 5 . 1 16 2 16 4 16 7 17 2 . 1 16 6 0 MB h 41 . 8 42 . 4 43 . 5 45 . 4 41 . 4 42 . 0 43 . 2 45 . 0 40 . 4 41 . 0 42 . 1 44 . 0 38 . 6 39 . 2 40 . 4 42 . 2 36 . 4 37 . 0 38 . 2 40 . 0 34 . 4 35 . 0 36 . 2 38 . 0 S/ T 1. 0 0 0. 9 0 0. 7 6 0. 6 1. 0 0 0. 9 1 0. 7 7 0. 6 1. 0 0 1. 0 0 0. 8 0 0. 7 1. 0 0 1. 0 0 0. 8 2 0. 7 1. 0 0 1. 0 0 0. 8 4 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 7 ∆T 24 . 0 5 22 . 3 1 19 . 0 5 15 . 7 24 . 0 1 22 . 2 6 19 . 0 0 15 . 6 24 . 2 5 22 . 5 1 19 . 2 5 15 . 9 23 . 9 9 22 . 2 4 18 . 9 8 15 . 6 23 . 7 6 22 . 0 1 18 . 7 5 15 . 4 24 . 8 5 23 . 1 0 19 . 8 4 16 . 5 kW 2. 3 6 2. 3 6 2. 3 6 2. 4 2. 6 4 2. 6 4 2. 6 3 2. 7 2. 9 5 2. 9 5 2. 9 4 3. 0 3. 2 9 3. 2 8 3. 2 8 3. 3 3. 6 6 3. 6 6 3. 6 5 3. 7 4. 1 0 4. 1 0 4. 0 9 4. 1 Am p s 8. 4 7 8. 4 6 8. 4 4 8. 5 9. 6 8 9. 6 7 9. 6 5 9. 7 11 . 0 2 11 . 0 1 10 . 9 9 11 . 1 12 . 4 8 12 . 4 7 12 . 4 5 12 . 5 14 . 1 1 14 . 1 0 14 . 0 8 14 . 2 16 . 0 2 16 . 0 1 15 . 9 9 16 . 1 Hi P R 27 6 27 7 27 9 28 3 . 4 31 8 31 9 32 1 32 5 . 8 36 3 36 4 36 6 37 0 . 3 41 0 41 2 41 3 41 8 . 1 46 2 46 3 46 5 46 9 . 7 51 7 51 8 52 0 52 4 . 7 Lo P R 13 3 13 4 13 8 14 3 . 1 14 1 14 2 14 5 15 0 . 8 14 7 14 9 15 2 15 7 . 6 15 3 15 5 15 8 16 3 . 3 15 9 16 0 16 3 16 8 . 9 16 6 16 7 17 0 17 5 . 9 85 12 9 1 MB h 41 . 1 41 . 6 42 . 8 44 . 6 40 . 7 41 . 3 42 . 5 44 . 3 39 . 7 40 . 2 41 . 4 43 . 2 37 . 9 38 . 4 39 . 6 41 . 4 35 . 7 36 . 2 37 . 4 39 . 2 33 . 7 34 . 2 35 . 4 37 . 3 S/ T 1. 0 0 0. 9 4 0. 8 0 0. 7 1. 0 0 1. 0 0 0. 8 1 0. 7 1. 0 0 1. 0 0 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 29 . 3 8 27 . 6 4 24 . 3 8 21 . 0 29 . 3 3 27 . 5 9 24 . 3 3 21 . 0 29 . 5 8 27 . 8 3 24 . 5 7 21 . 2 29 . 3 2 27 . 5 7 24 . 3 1 20 . 9 29 . 0 8 27 . 3 4 24 . 0 8 20 . 7 30 . 1 8 28 . 4 3 25 . 1 7 21 . 8 kW 2. 3 4 2. 3 4 2. 3 4 2. 4 2. 6 2 2. 6 2 2. 6 1 2. 6 2. 9 3 2. 9 3 2. 9 2 2. 9 3. 2 7 3. 2 6 3. 2 6 3. 3 3. 6 4 3. 6 4 3. 6 3 3. 7 4. 0 8 4. 0 8 4. 0 7 4. 1 Am p s 8. 3 8 8. 3 7 8. 3 5 8. 4 9. 5 9 9. 5 8 9. 5 6 9. 6 10 . 9 3 10 . 9 3 10 . 9 0 11 . 0 12 . 3 9 12 . 3 8 12 . 3 6 12 . 5 14 . 0 2 14 . 0 1 13 . 9 9 14 . 1 15 . 9 3 15 . 9 2 15 . 9 0 16 . 0 Hi P R 27 2 27 3 27 5 27 9 . 8 31 5 31 6 31 8 32 2 . 2 35 9 36 0 36 2 36 6 . 7 40 7 40 8 41 0 41 4 . 5 45 8 46 0 46 1 46 6 . 1 51 3 51 5 51 6 52 1 . 2 Lo P R 13 0 13 2 13 5 14 0 . 4 13 8 14 0 14 3 14 8 . 1 14 5 14 6 14 9 15 4 . 9 15 0 15 2 15 5 16 0 . 6 15 6 15 8 16 1 16 6 . 2 16 3 16 5 16 8 17 3 . 2 13 6 5 MB h 41 . 3 41 . 9 43 . 0 44 . 9 40 . 9 41 . 5 42 . 7 44 . 5 39 . 9 40 . 5 41 . 6 43 . 5 38 . 1 38 . 7 39 . 9 41 . 7 35 . 9 36 . 5 37 . 7 39 . 5 33 . 9 34 . 5 35 . 7 37 . 5 S/ T 1. 0 0 0. 9 6 0. 8 2 0. 7 1. 0 0 1. 0 0 0. 8 3 0. 7 1. 0 0 1. 0 0 0. 8 5 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 28 . 9 5 27 . 2 1 23 . 9 5 20 . 6 28 . 9 0 27 . 1 6 23 . 9 0 20 . 5 29 . 1 5 27 . 4 0 24 . 1 4 20 . 8 28 . 8 9 27 . 1 4 23 . 8 8 20 . 5 28 . 6 5 26 . 9 1 23 . 6 5 20 . 3 29 . 7 4 28 . 0 0 24 . 7 4 21 . 4 kW 2. 3 5 2. 3 5 2. 3 4 2. 4 2. 6 3 2. 6 2 2. 6 2 2. 6 2. 9 4 2. 9 3 2. 9 3 3. 0 3. 2 7 3. 2 7 3. 2 6 3. 3 3. 6 5 3. 6 4 3. 6 4 3. 7 4. 0 9 4. 0 8 4. 0 8 4. 1 Am p s 8. 4 1 8. 4 0 8. 3 8 8. 5 9. 6 1 9. 6 0 9. 5 8 9. 7 10 . 9 6 10 . 9 5 10 . 9 3 11 . 0 12 . 4 2 12 . 4 1 12 . 3 9 12 . 5 14 . 0 5 14 . 0 4 14 . 0 2 14 . 1 15 . 9 6 15 . 9 5 15 . 9 3 16 . 0 Hi P R 27 3 27 4 27 6 28 0 . 8 31 5 31 7 31 9 32 3 . 2 36 0 36 1 36 3 36 7 . 7 40 8 40 9 41 1 41 5 . 5 45 9 46 1 46 2 46 7 . 1 51 4 51 6 51 7 52 2 . 1 Lo P R 13 1 13 3 13 6 14 1 . 2 13 9 14 0 14 4 14 9 . 0 14 6 14 7 15 0 15 5 . 7 15 1 15 3 15 6 16 1 . 4 15 7 15 8 16 2 16 7 . 0 16 4 16 5 16 9 17 4 . 0 16 6 0 MB h 42 . 5 43 . 0 44 . 2 46 . 0 42 . 1 42 . 7 43 . 9 45 . 7 41 . 1 41 . 6 42 . 8 44 . 6 39 . 3 39 . 8 41 . 0 42 . 8 37 . 1 37 . 6 38 . 8 40 . 7 35 . 1 35 . 6 36 . 8 38 . 7 S/ T 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 0. 8 7 0. 7 1. 0 0 1. 0 0 0. 9 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 1. 0 0 1. 0 0 1. 0 0 0. 8 ∆T 27 . 4 8 25 . 7 4 22 . 4 8 19 . 1 27 . 4 3 25 . 6 9 22 . 4 3 19 . 1 27 . 6 8 25 . 9 3 22 . 6 7 19 . 3 27 . 4 2 25 . 6 7 22 . 4 1 19 . 0 27 . 1 8 25 . 4 4 22 . 1 8 18 . 8 28 . 2 8 26 . 5 3 23 . 2 7 19 . 9 kW 2. 3 7 2. 3 7 2. 3 6 2. 4 2. 6 5 2. 6 4 2. 6 4 2. 7 2. 9 6 2. 9 5 2. 9 5 3. 0 3. 2 9 3. 2 9 3. 2 8 3. 3 3. 6 7 3. 6 6 3. 6 6 3. 7 4. 1 1 4. 1 0 4. 1 0 4. 1 Am p s 8. 4 9 8. 4 8 8. 4 6 8. 6 9. 7 0 9. 6 9 9. 6 7 9. 8 11 . 0 5 11 . 0 4 11 . 0 2 11 . 1 12 . 5 0 12 . 5 0 12 . 4 7 12 . 6 14 . 1 3 14 . 1 2 14 . 1 0 14 . 2 16 . 0 4 16 . 0 3 16 . 0 1 16 . 1 Hi P R 27 7 27 8 28 0 28 4 . 7 31 9 32 1 32 2 32 7 . 1 36 4 36 5 36 7 37 1 . 5 41 2 41 3 41 5 41 9 . 4 46 3 46 4 46 6 47 0 . 9 51 8 51 9 52 1 52 6 . 0 Lo P R 13 5 13 6 14 0 14 5 . 0 14 3 14 4 14 7 15 2 . 7 14 9 15 1 15 4 15 9 . 5 15 5 15 7 16 0 16 5 . 2 16 1 16 2 16 5 17 0 . 8 16 8 16 9 17 2 17 7 . 8 ID B : E n t e r i n g I n d o o r D r y B u l b T e m p e r a t u r e Sh a d e d a r e a r e f l e c t s A H R I ( T V A ) c o n d i t i o n s kW = T o t a l s y s t e m p o w e r Hi g h & l o w p r e s s u r e s a r e m e a s u r e d a t t h e l i q u i d & s u c t i o n a c c e s s f i t t i n g s . Am p s = o u t d o o r u n i t a m p s ( c o m p . + f a n s ) 18 www.goodmanmfg.com SS-GPHM3 19 Expanded Heating Data GPHM32441 OUTDOOR AMBIENT TEMPERATURE 65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 MBh 29.64 27.72 25.84 23.99 22.80 21.92 19.69 17.64 15.96 14.72 13.79 13.30 12.67 11.08 9.50 7.92 6.33 T/R 31.05 29.32 27.60 25.87 24.84 23.88 21.45 19.22 17.39 16.03 15.03 14.49 13.80 12.07 10.35 8.62 6.90 KW 2.07 2.04 2.02 1.99 1.98 1.97 1.94 1.91 1.89 1.86 1.84 1.82 1.81 1.79 1.76 1.73 1.71 AMPS 7.65 7.54 7.43 7.31 7.25 7.20 7.09 6.98 6.86 6.75 6.64 6.57 6.53 6.41 6.30 6.19 6.07 COP 4.20 3.97 3.75 3.53 3.38 3.27 2.97 2.70 2.48 2.32 2.20 2.14 2.05 1.82 1.58 1.34 1.09 Hi PR 429.26 415.30 401.34 387.38 379.00 373.42 359.45 345.49 331.53 317.57 303.60 295.23 289.64 275.68 261.72 247.75 233.79 LO PR 192.65 180.66 168.68 156.69 149.50 144.71 132.72 120.73 108.75 96.76 84.78 77.59 72.79 60.81 48.82 36.83 24.85 GPHM33041 OUTDOOR AMBIENT TEMPERATURE 65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 MBh 36.63 34.10 31.61 29.16 27.60 26.40 23.40 20.69 18.48 16.82 15.57 14.90 14.05 11.94 9.82 7.70 5.59 T/R 31.06 29.19 27.33 25.46 24.34 23.28 20.64 18.25 16.30 14.84 13.73 13.14 12.39 10.53 8.66 6.79 4.93 KW 2.60 2.55 2.49 2.43 2.39 2.37 2.31 2.25 2.19 2.13 2.08 2.04 2.02 1.96 1.90 1.84 1.78 AMPS 9.66 9.40 9.15 8.89 8.74 8.64 8.38 8.13 7.87 7.61 7.36 7.21 7.10 6.85 6.59 6.34 6.08 COP 4.12 3.92 3.72 3.52 3.38 3.26 2.97 2.69 2.47 2.31 2.20 2.14 2.04 1.79 1.52 1.23 0.92 Hi PR 437.08 422.86 408.65 394.43 385.90 380.21 366.00 351.78 337.56 323.35 309.13 300.60 294.91 280.70 266.48 252.26 238.05 LO PR 194.07 181.99 169.92 157.84 150.60 145.77 133.70 121.62 109.55 97.47 85.40 78.16 73.33 61.25 49.18 37.10 25.03 GPHM33641 OUTDOOR AMBIENT TEMPERATURE 65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 MBh 41.85 39.15 36.49 33.88 32.20 30.96 27.82 24.92 22.55 20.80 19.50 18.80 17.91 15.67 13.44 11.21 8.97 T/R 31.05 29.33 27.60 25.88 24.85 23.89 21.47 19.23 17.40 16.05 15.04 14.51 13.82 12.09 10.37 8.65 6.92 KW 2.92 2.89 2.85 2.81 2.79 2.78 2.74 2.71 2.67 2.63 2.60 2.57 2.56 2.52 2.49 2.45 2.42 AMPS 10.80 10.64 10.49 10.33 10.24 10.17 10.01 9.86 9.70 9.54 9.38 9.29 9.23 9.07 8.91 8.75 8.60 COP 4.20 3.98 3.75 3.53 3.38 3.27 2.97 2.70 2.48 2.32 2.20 2.14 2.05 1.82 1.58 1.34 1.09 Hi PR 458.49 443.57 428.66 413.75 404.80 398.83 383.92 369.01 354.10 339.18 324.27 315.32 309.36 294.44 279.53 264.62 249.71 LO PR 192.78 180.78 168.79 156.80 149.60 144.80 132.81 120.81 108.82 96.83 84.83 77.64 72.84 60.85 48.85 36.86 24.86 GPHM34241 OUTDOOR AMBIENT TEMPERATURE 65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 MBh 48.30 45.19 42.13 39.13 37.20 35.78 32.17 28.84 26.11 24.09 22.60 21.80 20.77 18.21 15.64 13.07 10.51 T/R 33.08 31.25 29.42 27.59 26.50 25.49 22.91 20.54 18.60 17.16 16.10 15.53 14.80 12.97 11.14 9.31 7.48 KW 3.37 3.33 3.29 3.25 3.23 3.21 3.17 3.13 3.09 3.05 3.01 2.99 2.97 2.93 2.89 2.85 2.81 AMPS 12.59 12.41 12.24 12.07 11.96 11.89 11.72 11.54 11.37 11.20 11.02 10.92 10.85 10.67 10.50 10.33 10.15 COP 4.20 3.98 3.75 3.53 3.38 3.27 2.97 2.70 2.48 2.32 2.20 2.14 2.05 1.82 1.59 1.34 1.10 Hi PR 444.55 430.10 415.64 401.18 392.50 386.72 372.26 357.80 343.34 328.88 314.42 305.74 299.96 285.50 271.04 256.58 242.12 LO PR 195.87 183.68 171.50 159.31 152.00 147.13 134.94 122.75 110.57 98.38 86.19 78.88 74.01 61.82 49.64 37.45 25.26 Calculations are based on nominal CFM and 70 °F indoor dry bulb. Amps = Outdoor unit amps (comp.+fan) Note: Shaded area is AHRI Rating Conditions at 47°F outdoor ambient temperature kW = Total system power 18www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 19 Expanded Heating Data (cont.) GPHM34841 OUTDOOR AMBIENT TEMPERATURE 65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 MBh 55.66 52.26 48.91 45.62 43.50 41.96 38.09 34.44 31.45 29.25 27.66 26.80 25.69 22.90 20.12 17.34 14.55 T/R 30.97 29.36 27.75 26.14 25.18 24.30 22.05 19.93 18.20 16.93 16.01 15.51 14.86 13.25 11.64 10.03 8.42 KW 3.83 3.82 3.80 3.78 3.77 3.77 3.75 3.73 3.71 3.70 3.68 3.67 3.66 3.65 3.63 3.61 3.60 AMPS 14.13 14.05 13.98 13.90 13.86 13.83 13.76 13.68 13.61 13.54 13.46 13.42 13.39 13.32 13.24 13.17 13.10 COP 4.26 4.01 3.77 3.54 3.38 3.27 2.98 2.71 2.48 2.32 2.20 2.14 2.05 1.84 1.62 1.41 1.19 Hi PR 452.14 437.44 422.73 408.02 399.20 393.32 378.61 363.90 349.20 334.49 319.78 310.96 305.08 290.37 275.67 260.96 246.25 LO PR 194.20 182.11 170.03 157.95 150.70 145.87 133.79 121.70 109.62 97.54 85.46 78.21 73.38 61.29 49.21 37.13 25.05 GPHM36041 High stage OUTDOOR AMBIENT TEMPERATURE 65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 MBh 72.39 67.44 62.98 57.89 54.50 49.05 36.64 26.32 18.07 11.48 6.02 3.10 -0.33 -8.89 -17.46 -26.03 -34.59 T/R 36.23 33.75 31.52 28.97 27.28 24.55 18.34 13.17 9.05 5.75 3.01 1.55 -0.16 -4.45 -8.74 -13.03 -17.32 KW 7.31 6.59 5.87 5.16 4.73 4.44 3.72 3.01 2.29 1.57 0.85 0.42 0.14 -0.58 -1.30 -2.01 -2.73 AMPS 28.83 25.71 22.60 19.48 17.61 16.36 13.25 10.13 7.01 3.90 0.78 -1.09 -2.34 -5.45 -8.57 -11.69 -14.80 COP 2.90 3.00 3.14 3.29 3.38 3.24 2.89 2.57 2.31 2.14 2.06 2.14 -0.69 4.50 3.95 3.79 3.71 Hi PR 485.33 469.54 453.76 437.97 428.50 422.19 406.40 390.61 374.83 359.04 343.26 333.78 327.47 311.68 295.90 280.11 264.33 LO PR 190.33 178.49 166.65 154.80 147.70 142.96 131.12 119.28 107.44 95.60 83.76 76.65 71.91 60.07 48.23 36.39 24.55 GPHM36041 Low stage OUTDOOR AMBIENT TEMPERATURE 65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5 MBh 52.22 48.65 45.43 41.76 39.32 35.35 26.34 18.85 12.86 8.07 4.10 1.98 -0.51 -6.73 -12.96 -19.18 -25.40 T/R 35.42 33.00 30.82 28.33 26.67 23.98 17.87 12.78 8.72 5.48 2.78 1.34 -0.35 -4.57 -8.79 -13.01 -17.23 KW 4.24 3.82 3.40 2.98 2.73 2.56 2.14 1.72 1.31 0.89 0.47 0.22 0.05 -0.37 -0.79 -1.21 -1.63 AMPS 16.26 14.44 12.62 10.80 9.70 8.98 7.15 5.33 3.51 1.69 -0.13 -1.22 -1.95 -3.77 -5.59 -7.42 -9.24 COP 3.61 3.73 3.92 4.11 4.22 4.04 3.60 3.20 2.89 2.67 2.57 2.68 -3.03 5.34 4.82 4.66 4.58 Hi PR 470.35 455.05 439.75 424.45 415.27 409.15 393.86 378.56 363.26 347.96 332.66 323.48 317.36 302.06 286.76 271.47 256.17 LO PR 186.98 175.35 163.72 152.08 145.10 140.45 128.82 117.18 105.55 93.92 82.28 75.30 70.65 59.02 47.38 35.75 24.12 Calculations are based on nominal CFM and 70 °F indoor dry bulb. Amps = Outdoor unit amps (comp.+fan) Note: Shaded area is AHRI Rating Conditions at 47°F outdoor ambient temperature kW = Total system power 20 www.goodmanmfg.com SS-GPHM3 Airflow Data GPHM32441** Setup Motor Tap Volts Static 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 Horizontal Position T1 230 CFM 847 792 728 638 ---- Watts 76 84 94 102 ---- T2/T3 230 CFM 1114 1068 1017 964 901 829 751 667 Watts 138 147 155 164 173 181 188 194 T4/T5 230 CFM 1371 1316 1281 1240 1186 1133 1072 1000 Watts 235 243 252 261 266 275 284 293 Downshot Position T1 230 CFM 828 767 680 574 ---- Watts 75 85 95 104 ---- T2/T3 230 CFM 1085 1019 960 888 913 713 657 601 Watts 136 144 152 162 173 180 185 191 T4/T5 230 CFM 1355 1300 1254 1201 1147 1084 1007 899 Watts 244 253 260 268 276 285 294 303 GPHM33041** Setup Motor Tap Volts Static 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 Horizontal Position T1 230 CFM 877 821 758 974 596 531 481 - Watts 84 92 99 110 118 125 130 - T2/T3 230 CFM 1347 1295 1243 1190 1134 1079 1010 938 Watts 228 236 245 252 259 266 275 283 T4/T5 230 CFM 1463 1419 1376 1329 1282 1235 1183 1126 Watts 284 294 302 309 317 325 333 340 Downshot Position T1 230 CFM 859 797 719 619 552 497 437 - Watts 83 92 101 111 118 122 127 - T2/T3 230 CFM 1302 1257 1198 1148 1089 1023 936 844 Watts 220 228 238 246 254 263 273 282 T4/T5 230 CFM 1439 1396 1341 1294 1246 1185 1119 1047 Watts 288 297 305 313 322 330 339 347 GPHM33641** Setup Motor Tap Volts Static 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 Horizontal Position T1 230 CFM 850 795 726 640 559 --- Watts 76 85 93 103 110 --- T2/T3 230 CFM 1438 1393 1354 1304 1258 1209 1154 1089 Watts 271 280 291 296 305 312 320 329 T4/T5 230 CFM 1604 1560 1507 1468 1415 1364 1321 1276 Watts 396 402 408 424 426 433 444 454 Downshot Position T1 230 CFM 825 762 686 577 523 --- Watts 77 87 97 105 111 --- T2/T3 230 CFM 1436 1389 1338 1289 1241 1186 1122 1053 Watts 281 290 298 307 315 325 334 343 T4/T5 230 CFM 1595 1555 1506 1462 1415 1370 1319 1260 Watts 382 391 399 408 418 426 435 444 20www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 21 Airflow Data (cont.) GPHM34241** Setup Motor Tap Volts Static 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 Horizontal Position T1 230 CFM 1003 937 887 837 773 699 634 574 Watts 100 106 116 129 142 154 162 171 T2/T3 230 CFM 1534 1492 1453 1410 1372 1330 1287 1236 Watts 257 269 279 290 301 311 322 334 T4/T5 230 CFM 1799 1754 1712 1672 1630 1582 1534 1482 Watts 419 430 442 453 462 469 475 481 Downshot Position T1 230 CFM 981 918 850 761 687 613 553 488 Watts 100 113 126 138 153 161 171 179 T2/T3 230 CFM 1490 1433 1371 1318 1260 1197 1121 1023 Watts 258 273 285 297 309 323 335 347 T4/T5 230 CFM 1786 1728 1678 1629 1577 1517 1453 1385 Watts 419 432 445 457 468 474 482 490 GPHM34841** Setup Motor Tap Volts Static 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 Horizontal Position T1 230 CFM 1177 1123 1077 1031 972 --- Watts 142 151 162 173 185 --- T2/T3 230 CFM 1825 1785 1748 1713 1674 1610 1609 1544 Watts 439 448 460 470 480 488 489 498 T4/T5 230 CFM 1984 1947 1975 1864 1823 1781 1741 1694 Watts 567 578 590 596 603 610 618 623 Downshot Position T1 230 CFM 1168 1101 1045 979 913 --- Watts 144 155 168 182 197 --- T2/T3 230 CFM 1829 1771 1720 1670 1613 1556 1493 1426 Watts 440 452 465 478/486 494 501 510 T4/T5 230 CFM 2004 1949 1892 1837 1782 1728 1674 1616 Watts 564 577 587 594 603 612 620 628 GPHM36041** Setup Motor Tap Volts Static 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 Horizontal Position T1 230 CFM 1488 1448 1410 1371 1336 1293 1254 1204 Watts 270 279 290 305 318 330 343 356 T2/T3 230 CFM 2029 1991 1956 1920 1876 1829 1801 1766 Watts 616 622 631 638 648 656 671 682 T4/T5 230 CFM 2199 2161 2126 2090 2056 2018 1982 1949 Watts 801 809 817 828 838 851 858 873 Downshot Position T1 230 CFM 1399 1361 1326 1289 1256 1215 1179 1132 Watts 277 286 298 312 326 338 351 365 T2/T3 230 CFM 1907 1872 1839 1804 1763 1719 1692 1660 Watts 632 638 646 654 664 672 688 699 T4/T5 230 CFM 2067 2031 1999 1964 1932 1897 1863 1832 Watts 821 829 838 849 859 872 880 895 NOTES: 1. Data shown is dry coil. Wet coil pressure drop is approximately 0.2” H₂O, for three-row indoor coil; and 0.3” H₂O, for four-row indoor coil. 2. Data shown does not include filter pressure drop, approx. 0.08” H2O. 3. Reduce airflow by 2% for 208V operation. 4. ALL MODELS SHOULD RUN NO LESS THAN 300 CFM/TON. 5. For high static applications, see blower performance table for selecting appropriate speed tap. 22 www.goodmanmfg.com SS-GPHM3 Heat Kit Electrical Data (Blower Only, Heat Mode) Model and Heat Kit Usage Circuit #1 Circuit #2 Single-Point Kit Actual kW / BTU@ 240VMCA¹MOD²MCA¹MOD²MCA¹MOP² GPHM32441*4.3 ---------------- HKP-05C*21 / 25 25 / 25 ------46.3 50 4.75 / 16,200 HKR-08C*32 / 36 35 / 40 ------58.1 60 7.0 / 23,800 HKP-10C*43 / 49 45 / 50 ------71.1 80 9.5 / 32,400 GPHM33041*4.3 ---------------- HKP-05C*21 / 25 25 / 25 ------48 50 4.75 / 16,200 HKR-08C*32 / 36 35 / 40 ------59.7 60 7.0 / 23,800 HKP-10C*43 / 49 45 / 50 ------72.7 80 9.5 / 32,400 HKP-15C*43 / 49 45 / 50 21 / 25 25 / 25 97.4 100 14.25 / 48,600 GPHM33641*4.3 ---------------- HKP-05C*21 / 25 25 / 25 ------51 60 4.75 / 16,200 HKR-08C*32 / 36 35 / 40 ------63 70 7.0 / 23,800 HKP-10C*43 / 49 45 / 50 ------76 80 9.5 / 32,400 HKP-15C*43 / 49 45 / 50 21 / 25 25 / 25 101 110 14.25 / 48,600 GPHM34241*5.8 ---------------- HKP-05C*21 / 25 25 / 25 ------54 60 4.75 / 16,200 HKR-08C*32 / 36 35 / 40 ------66 70 7.0 / 23,800 HKP-10C*43 / 49 45 / 50 ------79 80 9.5 / 32,400 HKP-15C*43 / 49 45 / 50 21 / 25 25 / 25 104 110 14.25 / 48,600 GPHM34841*5.8 ---------------- HKP-05C*21 / 25 25 / 25 ------59 70 4.75 / 16,200 HKR-08C*32 / 36 35 / 40 ------71 80 7.0 / 23,800 HKP-10C*43 / 49 45 / 50 ------84 90 9.5 / 32,400 HKP-15C*43 / 49 45 / 50 21 / 25 25 / 25 109 110 14.25 / 48,600 HKP-20C 43 / 49 45 / 50 43 / 49 45 / 50 133 150 19.0 / 64,800 GPHM36041*7.6 ---------------- HKP-05C*21 / 25 25 / 25 ------69 90 4.75 / 16,200 HKR-08C*32 / 36 35 / 40 ------80 100 7.0 / 23,800 HKP-10C*43 / 49 45 / 50 ------94 110 9.5 / 32,400 HKP-15C*43 / 49 45 / 50 21 / 25 25 / 25 118 125 14.25 / 48,600 HKP-20C 43 / 49 45 / 50 43 / 49 45 / 50 142 150 19.0 / 64,800 ¹ Minimum Circuit Ampacity @ 208 / 240 V ² Maximum Overcurrent Protection Device @ 208 / 240 V * Revision level that may or may not be designated C Circuit breaker option ^ Heat Kit requires three-phase power supply Note: HKP-15C* and HKP-20C* replace HKR-15C and HKR-20C respectively to meet new UL1995 requirements. Heating kW Correction Factor Supply Votage 240 230 220 210 208 Correction Factor 1.0 0.93 0.85 0.78 0.76 Multiply rated kW by correction factor to get actual kW 22www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 23 Dimensions 1-3/8 5147 6-1/2 4-1/8 H W W H 3 2-1/8 A 2-3/4 4-3/4 18-7/8 5-1/2 CONDENSATE DRAIN CONNECTION3/4" NPT FEMALE CONTROL WIRE ENTRANCE SUPPLY RETURN POWER WIREENTRANCE B Model Duct Openings Supply Return W H W H GPHM32441**16 16 16 16 GPHM33041**16 16 16 16 GPHM33641**16 16 16 16 GPHM34241**16 18 16 18 GPHM34841**16 18 16 18 GPHM36041**16 18 16 18 Model Unit Dimensions (Inches) Chassis SizeHeight W D A B GPHM32441**47 51 32 34¾Medium GPHM33041**47 51 32 34¾Medium GPHM33641**47 51 32 34¾Medium GPHM34241**47 51 40 42¾Large GPHM34841**47 51 40 42¾Large GPHM36041**47 51 40 42¾Large 24 www.goodmanmfg.com SS-GPHM3 Wi r i n g i s s u b j e c t t o c h a n g e . A l w a y s re f e r t o t h e w i r i n g d i a g r a m o n t h e un i t f o r t h e m o s t u p - t o - d a t e w i r i n g . ⚠ Wa r n i n g Hi g h V o l t a g e : Di s c o n n e c t a l l p o w e r b e f o r e s e r v i c i n g o r i n s t a l l i n g t h i s u n i t . M u l t i p l e p o w e r so u r c e s m a y b e p r e s e n t . F a i l u r e t o d o s o m a y c a u s e p r o p e r t y d a m a g e , p e r s o n a l i n j u r y , o r d e a t h . ⚡ Wiring Diagram — GPHM324‐4841** FACT O R Y WIRING L I N E V O L T A G E L O W V O L T A G E O P T I O N A L H I G H V O L T A G E FIELD WIRING H I G H V O L T A G E L O W V O L T A G E 3 CO N T R O L BO X 24 0 2 24 V 20 8 TR C1 PU WH BRBL R O W2 W1 CY T2 T1 L1 GN D CL2 BK RDRD BKBK LV J B RC C F SA H C F PU YL BK BK RV C BK CO M P S C R CMBR PU B K YL LP S DF T RD YL BK YL BL HP S BR PU G BL LV T B OR WH WH BL PK YL BK GR BK PU 101112 789 456 3 2 1 BR GR GR 1 2 3 6 5 4 9 8 7 12 11 10 PU PU BR BR YL PL M - P GR PU BK 1 2 3 6 5 4 9 8 7 12 11 10 BR BR BR YL YL BK BK PU PU PU BK PU RD RD RD BR YL BL PU BL BL RD BL BL WH WH WH PL F - C PU PU PK BL BK PS 2 C C R C YY R-PS1 R-DFT DFT 0CN T CC R HV D R LV D R WC- R V 0- R V 0 DF2 DF1 R DC PU BK OR RD SE E N O T E 1 YL YL S E E N O T E 4 S E E N O T E 3 SE E NO T E S 7 A N D 8 4 1 PL F - H 56 23 789 BL BR WH GR BK PU YL BL WH C L G N 1 2 3 EM4 5 GR 101112 789 456 3 2 1 PL M - B SE E N O T E 2 BL GR Y L WH 23 SE E N O T E 2 SE E N O T E 3 EM TR 20 8 - 2 3 0 20 8 - 2 3 0 / 1 / 6 0 SE E N O T E 1 SU P P L Y V O L T A G E C CO M P C S. A . S T1 R L1 DF 1 C SE E N O T E 4 H F RC C F CM HV D R T2 C DF 2 1 N 3 1 2 L G CH CH S R W2 O W1 Y G C 4 5 6 PL F EM 1 C HP S C TH E R M O S T A T SE E N O T E 5 2 3 24 V DC DF T Y C R RV C LP S CN T R- P S 1 PS 2 R W O R- D F T DF T O- R V C - R V 2 P O L E O N L Y SE E N O T E 7 SE E N O T E 6 SE E N O T E 2 L2 NO T ES: 1. R E P L A C E M E N T W I R E M U S T B E S A M E S I Z E A N D T Y P E I N S UL A T I O N A S O R I G I N A L ( A T L E A S T 1 0 5 ° C ) U S E C O P P E R C O N D U C T O R O N L Y . 2. T O C H A N G E E V A P O R A T O R M O T O R S P E E D M O V E Y E L L O W A N D W H I T E L E A D S F R O M E M " 2 " A N D " 3 " T O " 4 " A N D " 5 " . I F B O TH L E A D S A R E E N E R G I Z E D , T H E H I G H E R S P E E D S E T T I N G I S U S E D . 3 F O R 2 0 8 V O L T T R A N S F O R M E R O P E R A T I O N M O V E B L A C K W IR E F R O M T E R M I N A L 3 T O T E R M I N A L 2 O N T R A N S F O R M E R . 4. S T A R T A S S I S T F A C T O R Y E Q U I P P E D W H E N R E Q U I R E D . 5. U S E C O P P E R C O N D U C T O R S O N L Y U S E N . E . C . C L A S S 2 W I R E . 6. C R A N K C A S E H E A T E R A N D C R A N K C A S E H E A T E R S W I T C H F A CT O R Y E Q U I P P E D W H E N R E Q U I R E D . 7. D O U B L E P O L E C O N T A C T O R S H O W N . S I N G L E P O L E C O N T A CT O R C O U L D B E F A C T O R Y E Q U I P P E D A S A N A L T E R N A T E C O N F IG U R A T I O N . 8. C O M M O N S I D E O F C O N T A C T O R C A N N O T B E G R O U N D E D O R C O N N E C T E D T O A N Y O T H E R C O M M O N ( 2 4 V ) . S E E U N I T R A T I N G P L A T E F O R T Y P E A N D S I Z E O F O V E R C U R R E N T P R O T EC T I O N CH RD CH S GR BK PURD BK PL F - P BK SE E N O T E 6 20 8 / 2 3 0 / 1 / 6 0 TH E R M O S T A T SE E N O T E 5 BL U E BL A C K BR O W N GR E E N OR A N G E PU R P L E RE D WH I T E YE L L O W BL BK BR GR OR PU RD WH YL WIRE C OD E C CC R CH CH S CM CO M P DC DF T EM GN D HP S HV D R LP S LV D R LV J B LV T B PL F - C PL F - H PL F - P PL M - B PL M - P RV C RC C F SA TR CO N T A C T O R CO M P R E S S O R C O N T A C T O R R E L A Y CR A N K C A S E H E A T E R CR A N K C A S E H E A T E R S W I T C H CO N D E N S E R M O T O R CO M P R E S S O R DE F R O S T C O N T R O L DE F R O S T T H E R M O S T A T EV A P O R A T O R M O T O R EQ U I P M E N T G R O U N D HI G H P R E S S U R E S W I T C H HI G H V O L T A G E D E F R O S T R E L A Y LO W P R E S S U R E S W I T C H LO W V O L T A G E D E F R O S T R E L A Y LO W V O L T A G E J U N C T I O N B O X LO W V O L T A G E T E R M I N A L B L O C K FE M A L E P L U G / C O N N E C T O R - C O N T R O L FE M A L E P L U G / C O N N E C T O R - H E A T K I T FE M A L E P L U G / C O N N E C T O R - P E S S U R E S W I T C H MA L E P L U G / C O N N E C T O R - B L O W E R MA L E P L U G / C O N N E C T O R - P R E S S U R E S W I T C H RE V E R S I N G V A L V E C O I L RU N C A P A C I T O R F O R C O M P R E S S O R A N D F A N ST A R T A S S I S T TR A N S F O R M E R CO MPON ENT LEGEND 20 8 - 2 3 0 / 1 / 6 0 0 1 4 0 G 0 3 2 2 0 - C 24www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 25 Wi r i n g i s s u b j e c t t o c h a n g e . A l w a y s re f e r t o t h e w i r i n g d i a g r a m o n t h e un i t f o r t h e m o s t u p - t o - d a t e w i r i n g . ⚠ Wa r n i n g Hi g h V o l t a g e : Di s c o n n e c t a l l p o w e r b e f o r e s e r v i c i n g o r i n s t a l l i n g t h i s u n i t . M u l t i p l e p o w e r so u r c e s m a y b e p r e s e n t . F a i l u r e t o d o s o m a y c a u s e p r o p e r t y d a m a g e , p e r s o n a l i n j u r y , o r d e a t h . ⚡ Wiring Diagram — GPHM36041** 23 SE E N O T E 2 SE E N O T E 3 EM TR 20 8 - 2 3 0 20 8 - 2 3 0 / 1 / 6 0 SU P P L Y V O L T A G E C CO M P C S. A S T1 R L1 DF 1 C H F RC C F CM HV D R T2 C DF 2 L2 1 L 3 1 2 R W2 O W1 Y1 G C EM 1 C CS R SE E N O T E 6 TH E R M O S T A T N G 2 3CH S CH Y2 CSO L HPS 24 V DC DF T Y C R RV C LP S CN T R- P S 1 PS 2 R W O R- D F T O- R V C- R V DF T 2 P O L E O N L Y SE E N O T E 7 SE E N O T E 4 4 5 6 PL F SE E N O T E 2 3 CO N T R O L BO X 24 0 2 24 V 20 8 TR C1 PU WH BRBL R O Y2 W2W1 CY1 T2 T1 L1 GN D CL2 BK RDRD BK BK LV J B RC C F RD SA H C F PU YL BK BK RV C BK CO M P S C R CMBR PU B K YL LP S DF T RD YL BK YL BL HP S BR PU BL G YL BL SO L YL BL CS R 2 LV T B OR WH WH BL PK 34 1 YL YL YL YL BK GR BK PU 101112 789 456 3 2 1 BR GR GR 1 2 3 6 5 4 9 8 7 12 1 1 10 PU PU BR BR YL PL M - P GR PU BK 1 2 3 6 5 4 9 8 7 12 11 10 BR BR BR YL YL BK BK PU PU PU BK PU RD RD RD BR YL BL PU BL BL RD BL BL BL BL WH WH WH PL F - C PU PU PK BL BK YL PS 2 C C R C YY R-PS1 R-DFT DFT 0CN T CC R HV D R LV D R WC- R V 0- R V 0 DF2 DF1 R DC PU BK OR RD SE E N O T E 1 YL SE E N O T E 7 SE E NO T E 3 4 1 PL F - H 56 23 789 BLBR WH GR BK PU YL BL WH C L G N 1 2 3 EM4 5 GR 101112 789 456 3 2 1 PL M - B SE E N O T E 2 BL GR Y L WH NO T E S : 1. R E P L A C E M E N T W I R E M U S T B E S A M E S I Z E A N D T Y P E I N S U L A T I O N A S O R I G I N A L ( A T L E A S T 1 0 5 ° C ) U S E C O P P E R C O N D U C T O R O N L Y . 2. T O C H A N G E E V A P O R A T O R M O T O R S P E E D M O V E Y E L L O W A N D W H I T E L E A D S F R O M E M " 2 " A N D " 3 " T O " 4 " A N D " 5 " . I F B O T H L E A D S A R E E N E R G I Z E D , T H E H I G H E R S P E E D S E T T I N G I S U S E D . 3 F O R 2 0 8 V O L T T R A N S F O R M E R O P E R A T I O N M O V E B L A C K W I R E F R O M T E R M I N A L 3 T O T E R M I N A L 2 O N T R A N S F O R M E R . 4. S T A R T A S S I S T F A C T O R Y E Q U I P P E D W H E N R E Q U I R E D 5. U S E C O P P E R C O N D U C T O R S O N L Y U S E N . E . C . C L A S S 2 W I R E 6. C R A N K C A S E H E A T E R A N D C R A N K C A S E H E A T E R S W I T C H F A C T O R Y E Q U I P P E D W H E N R E Q U I R E D . 7. D O U B L E P O L E C O N T A C T O R S H O W N . S I N G L E P O L E C O N T A C T O R C O U L D B E F A C T O R Y E Q U I P P E D A S A N A L T E R N A T E C O N F I G U R A T I O N . S E E U N I T R A T I N G P L A T E F O R T Y P E A N D S I Z E O F O V E R C U R R E N T P R O T E C T I O N FA C T O R Y W I R I N G L I N E V O L T A G E L O W V O L T A G E O P T I O N A L H I G H V O L T A G E FI ELD W I R I N G H I G H V O L T A G E L O W V O L T A G E 20 8 / 2 3 0 / 1 / 6 0 TH E R M O S T A T SE E N O T E 5 SE E NO T E 4 CH RD CH S GR BK P U RD BK PL F - P BK SE E N O T E 6 BKBLBRGROR PURDWH YL BL A C K BL U E BR O W N GR E E N OR A N G E PU R P L E RE D WH I T E YE L L O W WIR E C O D E CO N T A C T O R CO M P R E S S O R C O N T A C T O R R E L A Y CR A N K C A S E H E A T E R CR A N K C A S E H E A T E R S W I T C H CO N D E N S E R M O T O R CO M P R E S S O R CO M P R E S S O R S O L E N O I D R E L A Y DE F R O S T C O N T R O L DE F R O S T T H E R M O S T A T EV A P O R A T O R M O T O R EQ U I P M E N T G R O U N D HI G H P R E S S U R E S W I T C H HI G H V O L T A G E D E F R O S T R E L A Y LO W P R E S S U R E S W I T C H LO W V O L T A G E D E F R O S T R E L A Y LO W V O L T A G E J U N C T I O N B O X LO W V O L T A G E T E R M I N A L B L O C K FE M A L E P L U G / C O N N E C T O R - C O N T R O L FE M A L E P L U G / C O N N E C T O R - H E A T K I T FE M A L E P L U G / C O N N E C T O R - P E S S U R E S W I T C H MA L E P L U G / C O N N E C T O R - B L O W E R MA L E P L U G / C O N N E C T O R - P R E S S U R E S W I T C H RE V E R S I N G V A L V E C O I L RU N C A P A C I T O R F O R C O M P R E S S O R A N D F A N ST A R T A S S I S T TR A N S F O R M E R CCC R CHCH S CMCO M P CS R DCDF T EMGN D HP S HV D R LP S LV D R LV J B LV T B PL F - C PL F - H PL F - P PL M - B PL M - P RV C RC C F SATR CO MP O N E N T L EG E N D 2 0 8 - 2 3 0 / 1 / 6 0 01 4 0 G 0 4 6 2 8 - A SE E N O T E 5 SE E N O T E 1 YL 26 www.goodmanmfg.com SS-GPHM3 Accessories Accessory Description Item Number Medium Chassis Large Chassis Concentric Kit CDK36 CDK4872 Downflow Economizer GPJMED102 GPJMED103 Downflow Internal Filter Rack DDNIFRPCHMM DDNIFRPCHML Downflow Manual Damper PGMDD101/102 PGMDD103 Downflow Motorized Damper PGMDMD101/102 PGMDMD103 Downflow Square to Round SQRPG101/102 SQRPG103 Economizer Wiring Harness (2-4 Ton)0259G00215 0259G00215 Economizer Wiring Harness (5 Ton)N/A 0259L00411 External Horizontal Filter Rack DPHFRA DPHFRA Horizontal Duct Cover 20464501PDGK 20464502PDGK Horizontal Economizer DHZECNJPGCHM DHZECNJPGCHL Horizontal Manual Damper PGMDH102 PGMDH103 Horizontal Motorized Damper PGMDMH102 PGMDMH103 Horizontal Square to Round SQRPGH101/102 SQRPGH103 Outdoor Thermostat Kit w/ Lockout Stat OT18-60A OT18-60A Roof Curb D14CRBPGCHMA D14CRBPGCHMA Single-Point Kit Accessory Kits Select the single-point kit accessory based on the unit model. Model Single-Point Kit GPHM32441**SPK-30 GPHM33041**SPK-35 GPHM33641**SPK-35 GPHM34241**SPK-45 GPHM34841**SPK-50 GPHM36041**SPK-60 26www.goodmanmfg.comSS-GPHM3 SS-GPHM3 www.goodmanmfg.com 27 Notes 28 www.goodmanmfg.com SS-GPHM3 Our continuing commitment to quality products may mean a change in specifications without notice. ©2022 • Houston, Texas • Printed in the USA. Notes