ssz 14 seer split system heat pumps - alpine home air ... 11.11.pdf · ssz 14 seer split system...
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SSZ 14 SEERSplit System Heat Pumps
• Refer to Service Manual RS6200005 for installation, operation, and troubleshooting information.
• All safety information must be followed as provided in the Service Manual.
• Refer to the appropriate Parts Catalog for part number information.
• Models listed on page 3.
RT6213005r7November 2011
Copyright © 2006 - 2007, 2009-2011 Goodman Manufacturing Company, L.P.
® TECHNICAL MANUTECHNICAL MANUTECHNICAL MANUTECHNICAL MANUTECHNICAL MANUALALALALAL
This manual is to be used by qualified, professionally trained HVAC technicians only. Goodman doesnot assume any responsibility for property damage or personal injury due to improper serviceprocedures or services performed by an unqualified person.
PRODUCT IDENTIFICATION
2
The model number is used for positive identification of component parts used in manufacturing. Please use this numberwhen requesting service or parts information.
WARNINGWARNINGHIGH VOLTAGE!Disconnect ALL power before servicing or installing this unit. Multiple powersources may be present. Failure to do so may cause property damage, personalinjury or death.
Installation and repair of this unitshould be performed ONLY by in-dividuals meeting (at a minimum)
the requirements of an "entry level technician", at aminimum, as specified by the Air-Conditioning, Heating,and Refrigeration Institute (AHRI). Attempting to installor repair this unit without such background may resultin product damage, personal injury or death.
Goodman will not be responsiblefor any injury or property damage
arising from improper service or service procedures. Ifyou install or perform service on this unit, you assumeresponsibility for any personal injury or property damagewhich may result. Many jurisdictions require a license toinstall or service heating and air conditioning equipment.
WARNINGWARNING WARNINGWARNING
S S Z 14 036 1 A A
Major Revision
SEER
SEER Rating
Nominal Capacity
Electrical
1: 208/230V/60Hz/1ph3: 208/230V/60Hz/3ph4: 460V/60Hz/3ph
Product FamilyS: Split System
Product Type
Brand Name
018: 1.5 tons024: 2 tons030: 2.5 tons036: 3 tons042: 3.5 tons048: 4 tons060: 5 tons
G: Goodman(Standard Feature Set Models)S: Goodman(High Feature Set Models)
C: Condenser R-22X: Condenser R-410AH: Heat Pump R-22Z: Heat Pump R-410A
A: Initial Release
Minor Revision
A: Initial Release
PRODUCT IDENTIFICATION
3
The United States Environmental Protection Agency (“EPA”) has issued various regulations re-garding the introduction and disposal of refrigerants introduced into this unit. Failure to followthese regulations may harm the environment and can lead to the imposition of substantial fines.These regulations may vary by jurisdiction. Should questions arise, contact your local EPA office.
WARNINGWARNING
Do not connect or use any devicethat is not design certified byGoodman for use with this unit.
Serious property damage, personal injury, reduced unitperformance and/or hazardous conditions may resultfrom the use of such non-approved devices.
WARNINGWARNING To prevent the risk of propertydamage, personal injury, or death,
do not store combustible materials or use gasoline orother flammable liquids or vapors in the vicinity of thisappliance.
WARNINGWARNING
The model number is used for positive identification of component parts used in manufacturing. Please use this numberwhen requesting service or parts information.
* Indicates minor revision & is not used for order entry or inventory management
SSZ140181A*SSZ140241A*SSZ140301A*SSZ140361A*SSZ140421A*SSZ140481A*SSZ140601A*
SSZ140361B*
PRODUCT DESIGN
4
SSZ14 models are available in 1 1/2 through 5 ton sizes anduse R-410A refrigerant. They are designed for 208/230 voltsingle phase applications.The condenser air is pulled through the condenser coil by adirect drive propeller fan. This condenser air is then dis-charged out of the top of the cabinet.These units are designed for free air discharge, so no addi-tional resistance like duct work shall be attached.The suction and liquid line connections on present modelsare of the sweat type for field piping with refrigerant type cop-per. Front seating valves are factory installed to accept thefield run copper. The total refrigerant charge for a normal in-stallation is factory installed in the condensing unit. SSZ unitsare charged for the matching evaporator coil and a 15 footrefrigerant line set.Systems should be properly sized by heat gain and losscalculations made according to methods of the Air Condi-tioning Contractors Association (ACCA) or equivalent. It isthe contractors responsibility to ensure the system has ad-equate capacity to heat or cool the conditioned space.SSZ models use high-efficiency Copeland® scroll "Ultratech"compressors which are specifically desgined for R-410A re-frigerant. There are a number of design characteristics whichare different from the scroll compared to the traditional recip-rocating compressor."Ultratech" Series scroll compressors with Copeland®
ComfortAlert diagnositics will not have a discharge thermo-stat. Some of the early model scroll compressors requireddischarge thermostats.Due to their design Scroll compressors are inherently moretolerant of small quantities of liquid refrigerant.NOTE: Even though the compressor section of a Scroll com-pressor is more tolerant of liquid refrigerant, continuedfloodback or flooded start conditions may wash oil from thebearing surfaces causing premature bearing failure."Ultratech" Series scroll compressors use "POE" orpolyolester oil which is NOT compatible with mineral oil basedlubricants like 3GS. "POE" oil must be used if additional oilis required.
WARNINGTo avoid possible injury, explosion or death, practicesafe handling of refrigerants.
Operating pressures and amp draws may differ from stan-dard reciprocating and/or scroll compressors. This informa-tion may be found in the "Cooling Performance Data" sec-tion.This unit is for outdoor installation only. Refer to minimumfigure for clearances from the sides of the unit to full wallsand other objects.NOTE: This unit cannot be completely enclosed. At leastone side must be unrestricted.
These clearances will help avoid air recirculation. If installingtwo or more units at the same location, allow at least 24inches between units. If only one side is restricted (for ex-ample, against the outside wall of a house), the unit may beplaced as close as 8" to that one wall.DO NOT locate the unit:
* Directly under a vent termination for a gas appliance.* Within 3 feet of a clothes drier vent* Where the refreezing of defrost water would create
a hazard* Where water may rise into the unit.
OK!OK!
AA AAA
A
CC
C COK!
OK!
OK!OK!
NOTRECOMMENDED
AA
AA AA
AAAA
B B B
B
Model Type A B C AAResidential 10" 10" 18" 20"
Light Commercial 12" 12" 18" 24"
Minimum Airflow Clearance
Model Dimensions - W x D x H
SSZ140181A* 29 x 29 x 34¼
SSZ140241A* 29 x 29 x 38¼
SSZ140301A* 29 x 29 x 38¼
SSZ140361A* 35½ x 35½ x 38¼
SSZ140421A* 35½ x 35½ x 38¼
SSZ140481A* 35½ x 35½ x 38¼
SSZ140601A* 35½ x 35½ x 38¼
SSZ140361B* 29 x 29 x 38¼
HEAT PUMP SPECIFICATIONS
5
NOTE: This data is provided as a guide, it is important to electrically connect the unit and properly size fuses/circuit breakers andwires in accordance with all national and/or local electrical codes. Use copper wire only.
Unit specifications are subject to change without notice. ALWAYS refer to the unit's serial plate for the most up-to-date generaland electrical information.
SSZ140[18,30, 342,48,60]1AA-AE; SSZ140241AA-AH; SSZ140361AA-AG
* Up to 24' in equivalent line length(1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes.(2) Maximum Overcurrent Protection Device: MUST use Time Delay Fuse or HACR type Circuit Breaker of the same size as noted.
NOTES:• Always check the S & R plate for electrical data on the unit being installed.• Installer will need to supply 7/8" to 1-1/8" adapters for suction line connections (4 & 5 ton units).• Installer will need to supply 3/4" to 7/8" adapters for suction line connections (3 ton unit).• Unit is charged with refrigerant for 15' of 3/8" liquid line. System charge must be adjusted per Installation Instructions Final Charge
Procedure.• Installation of these units requires the specified TXV Kit to be installed on the indoor coil. THE SPECIFIED TXV IS DETERMINED BY THE
OUTDOOR UNIT, NOT THE INDOOR COIL.
SSZ1
4018
1AA
-AE
SSZ1
4024
1AA
-AH
SSZ1
4030
1AA
-AE
SSZ1
4036
1AA-
AG
SSZ1
4042
1AA
-AE
SSZ1
4048
1AA
-AE
SSZ1
4060
1AA
-AE
Cooling Capacity, BTUH 18,000 24,000 30,000 36,000 42,000 48,000 60,000
Compressor
R.L. Amps 8.97 12.82 14.10 16.67 17.95 19.87 26.41
L.R. Amps 48.0 58.3 73.0 79.0 112.0 109.0 130.0
Low Pressure Switch
Open 22 PSIG 22 PSIG 22 PSIG 22 PSIG 22 PSIG 22 PSIG 22 PSIG
Close 50 PSIG 50 PSIG 50 PSIG 50 PSIG 50 PSIG 50 PSIG 50 PSIG
High Pressure Switch
Open 610 PSIG 610 PSIG 610 PSIG 610 PSIG 610 PSIG 610 PSIG 610 PSIG
Close 420 PSIG 420 PSIG 420 PSIG 420 PSIG 420 PSIG 420 PSIG 420 PSIG
Condenser Fan Motor
Horsepower 1/12 1/6 1/6 1/4 1/4 1/4 1/4
F.L. Amps 0.6 1.1 1.1 1.5 1.5 1.5 1.5
Liquid Line, Inches O.D.* 3/8" 3/8" 3/8" 3/8" 3/8" 3/8" 3/8"
Suction Line, Inches O.D.* 3/4" 3/4" 3/4" 7/8" 7/8" 7/8" 7/8"
Refrigerant Charge 143.0 163.0 188.0 213.0 213.0 273.0 278.0
Power Supply 208/230-60-1 208/230-60-1 208/230-60-1 208/230-60-1 208/230-60-1 208/230-60-1 208/230-60-1
Minimum Circuit Ampacity (1) 11.80 17.10 18.73 22.40 24.00 26.40 34.60
Maximum Overcurrent Device(2) 20 25 30 30 40 40 60
Electrical Conduit Size
Power Supply (Inches) 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4
Approximate Shipping W eight 199 207 219 242 242 266 280
HEAT PUMP SPECIFICATIONS
6
NOTE: This data is provided as a guide, it is important to electrically connect the unit and properly size fuses/circuit breakers and wires in accordance with all national and/or local electrical codes. Use copper wire only.
SSZ140[18,30]1AF; SSZ140241AJ; SSZ140361AH
* Up to 24' in equivalent line length(1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes.(2) Maximum Overcurrent Protection Device: MUST use Time Delay Fuse or HACR type Circuit Breaker of the same size as noted.
NOTES:• Always check the S & R plate for electrical data on the unit being installed.• Installer will need to supply 7/8" to 1-1/8" adapters for suction line connections (4 & 5 ton units).• Installer will need to supply 3/4" to 7/8" adapters for suction line connections (3 ton unit).• Unit is charged with refrigerant for 15' of 3/8" liquid line. System charge must be adjusted per Installation Instructions Final Charge
Procedure.• Installation of these units requires the specified TXV Kit to be installed on the indoor coil. THE SPECIFIED TXV IS DETERMINED BY THE
OUTDOOR UNIT, NOT THE INDOOR COIL.
SSZ1
4018
1AF
SSZ1
4024
1AJ
SSZ1
4030
1AF
SSZ1
4036
1AH
Cooling Capacity, BTUH 18,000 24,000 30,000 36,000
Compressor
R.L. Amps 9.0 12.82 14.10 16.67
L.R. Amps 48.0 58.3 73.0 79.0
Low Pressure Switch
Open 22 PSIG 22 PSIG 22 PSIG 22 PSIG
Close 50 PSIG 50 PSIG 50 PSIG 50 PSIG
High Pressure Switch
Open 610 PSIG 610 PSIG 610 PSIG 610 PSIG
Close 420 PSIG 420 PSIG 420 PSIG 420 PSIG
Condenser Fan Motor
Horsepower 1/12 1/6 1/6 1/4
F.L. Amps 0.6 1.1 1.0 1.5
Liquid Line, Inches O.D.* 3/8" 3/8" 3/8" 3/8"
Suction Line, Inches O.D.* 3/4" 3/4" 3/4" 7/8"
Refrigerant Charge 140.0 160.0 185.0 210.0
Power Supply 208/230-60-1 208/230-60-1 208/230-60-1 208/230-60-1
Minimum Circuit Ampacity(1) 11.90 17.10 18.60 22.40
Maximum Overcurrent Device(2) 20 25 30 30
Electrical Conduit Size
Power Supply (Inches) 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4
Approximate Shipping Weight 199 207 219 242
HEAT PUMP SPECIFICATIONS
7
NOTE: This data is provided as a guide, it is important to electrically connect the unit and properly size fuses/circuit breakers andwires in accordance with all national and/or local electrical codes. Use copper wire only.
Unit specifications are subject to change without notice. ALWAYS refer to the unit's serial plate for the most up-to-date generaland electrical information.
* Up to 24' in equivalent line length(1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes.(2) Maximum Overcurrent Protection Device: MUST use Time Delay Fuse or HACR type Circuit Breaker of the same size as noted.
NOTES:• Always check the S & R plate for electrical data on the unit being installed.• Installer will need to supply 7/8" to 1-1/8" adapters for suction line connections (4 & 5 ton units).• Installer will need to supply 3/4" to 7/8" adapters for suction line connections (3 ton unit).• Unit is charged with refrigerant for 15' of 3/8" liquid line. System charge must be adjusted per Installation Instructions Final Charge
Procedure.• Installation of these units requires the specified TXV Kit to be installed on the indoor coil. THE SPECIFIED TXV IS DETERMINED BY THE
OUTDOOR UNIT, NOT THE INDOOR COIL.
SSZ140[42,48,60]1AF; SSZ140481AG
SSZ1
4042
1AF
SSZ1
4048
1AF
SSZ1
4048
1AG
SSZ1
4060
1AF
Cooling Capacity, BTUH 42,000 48,000 48,000 60,000
Compressor
R.L. Amps 17.95 19.9 19.9 26.41
L.R. Amps 112.0 109.0 109.0 130.0
Low Pressure Switch
Open 22 PSIG 22 PSIG 22 PSIG 22 PSIG
Close 50 PSIG 50 PSIG 50 PSIG 50 PSIG
High Pressure Switch
Open 610 PSIG 610 PSIG 610 PSIG 610 PSIG
Close 420 PSIG 420 PSIG 420 PSIG 420 PSIG
Condenser Fan Motor
Horsepower 1/4 1/4 1/4 1/4
F.L. Amps 1.5 1.5 1.5 1.5
Liquid Line, Inches O.D.* 3/8" 3/8" 3/8" 3/8"
Suction Line, Inches O.D.* 7/8" 7/8" 7/8" 7/8"
Refrigerant Charge 210.0 270.0 270.0 275.0
Power Supply 208/230-60-1 208/230-60-1 208/230-60-1 208/230-60-1
Minimum Circuit Ampacity(1) 23.90 26.40 26.40 34.50
Maximum Overcurrent Device(2) 40 40 45 60
Electrical Conduit Size
Power Supply (Inches) 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4 1/2 or 3/4
Approximate Shipping Weight 242 266 266 280
HEAT PUMP SPECIFICATIONS
8
NOTE: This data is provided as a guide, it is important to electrically connect the unit and properly size fuses/circuit breakers and wires in accordance with all national and/or local electrical codes. Use copper wire only.
SSZ140361B*
SSZ1
4036
1B*
Cooling Capacity, BTUH 35,000
Compressor
R.L. Amps 14.1
L.R. Amps 77.0
Low Pressure Switch
Open 22 PSIG
Close 50 PSIG
High Pressure Switch
Open 610 PSIG
Close 420 PSIG
Condenser Fan Motor
Horsepower 1/4
F.L. Amps 1.5
Liquid Line, Inches O.D.* 3/8"
Suction Line, Inches O.D.* 7/8"
Refrigerant Charge 186.0
Power Supply 208/230-60-1
Minimum Circuit Ampacity(1) 19.1
Maximum Overcurrent Device(2) 30
Electrical Conduit Size
Power Supply (Inches) 1/2 or 3/4
Approximate Shipping Weight 215
* Up to 24' in equivalent line length(1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes.(2) Maximum Overcurrent Protection Device: MUST use Time Delay Fuse or HACR type Circuit Breaker of the same size as noted.
NOTES:• Always check the S & R plate for electrical data on the unit being installed.• Installer will need to supply 7/8" to 1-1/8" adapters for suction line connections (4 & 5 ton units).• Installer will need to supply 3/4" to 7/8" adapters for suction line connections (3 ton unit).• Unit is charged with refrigerant for 15' of 3/8" liquid line. System charge must be adjusted per Installation Instructions Final Charge
Procedure.• Installation of these units requires the specified TXV Kit to be installed on the indoor coil. THE SPECIFIED TXV IS DETERMINED BY THE
OUTDOOR UNIT, NOT THE INDOOR COIL.
9
COOLING PERFORMANCE DATA SSZ140181A*E
XP
AN
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ER
FOR
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CO
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Te
mp
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ure
6575
8595
105
115
Ente
rin
g In
doo
r W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h17
.618
.320
.0-
17.2
17.9
19.6
-16
.817
.419
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16.4
17.0
18.6
-15
.616
.217
.7-
14.4
15.0
16.4
-S
/T0.
740.
620.
43-
0.76
0.64
0.44
-0.
780.
650.
45-
0.81
0.67
0.47
-0.
840.
700.
49-
0.85
0.71
0.49
-D
elta
T18
1512
-18
1612
-18
1612
-18
1612
-18
1512
-17
1411
-67
5K
W1.
171.
191.
23-
1.25
1.28
1.32
-1.
331.
361.
40-
1.40
1.43
1.47
-1.
451.
481.
53-
1.50
1.53
1.58
-A
MPS
4.2
4.3
4.4
-4.
54.
64.
8-
4.9
5.0
5.2
-5.
35.
45.
6-
5.6
5.7
5.9
-5.
96.
16.
3-
HI P
R21
322
924
2-
239
257
271
-27
129
230
8-
309
333
351
-34
837
439
5-
384
413
436
-LO
PR
107
113
124
-11
312
013
1-
117
124
136
-12
313
114
3-
129
137
150
-13
314
215
5-
MB
h17
.117
.719
.4-
16.7
17.3
19.0
-16
.316
.918
.5-
15.9
16.5
18.1
-15
.115
.717
.2-
14.0
14.5
15.9
-S
/T0.
700.
590.
41-
0.73
0.61
0.42
-0.
750.
620.
43-
0.77
0.64
0.45
-0.
800.
670.
46-
0.81
0.67
0.47
-D
elta
T18
1612
-19
1612
-19
1612
-19
1612
-19
1612
-17
1511
-70
600
KW
1.16
1.18
1.22
-1.
241.
271.
31-
1.32
1.35
1.39
-1.
381.
411.
46-
1.44
1.47
1.52
-1.
491.
521.
57-
AM
PS4.
24.
34.
4-
4.5
4.6
4.8
-4.
95.
05.
2-
5.2
5.3
5.5
-5.
55.
75.
9-
5.9
6.0
6.2
-H
I PR
210
227
239
-23
625
426
8-
269
289
305
-30
632
934
8-
344
370
391
-38
040
943
2-
LO P
R10
511
212
2-
111
119
129
-11
612
313
4-
122
129
141
-12
713
614
8-
132
140
153
-M
Bh
15.8
16.4
17.9
-15
.416
.017
.5-
15.1
15.6
17.1
-14
.715
.216
.7-
14.0
14.5
15.9
-12
.913
.414
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S/T
0.68
0.57
0.39
-0.
700.
590.
41-
0.72
0.60
0.42
-0.
740.
620.
43-
0.77
0.64
0.45
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780.
650.
45-
Del
ta T
1916
12-
1916
12-
1916
12-
1917
13-
1916
12-
1815
12-
525
KW
1.13
1.15
1.19
-1.
211.
241.
28-
1.29
1.31
1.35
-1.
351.
381.
42-
1.41
1.44
1.48
-1.
451.
481.
53-
AM
PS4.
14.
24.
3-
4.4
4.5
4.6
-4.
74.
95.
0-
5.1
5.2
5.4
-5.
45.
55.
7-
5.7
5.8
6.0
-H
I PR
204
220
232
-22
924
726
0-
261
280
296
-29
731
933
7-
334
359
379
-36
939
741
9-
LO P
R10
210
911
9-
108
115
126
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211
913
0-
118
126
137
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413
214
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128
136
149
-
MB
h17
.918
.520
.021
.517
.518
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.120
.516
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.218
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840.
750.
570.
360.
870.
780.
590.
380.
890.
800.
600.
390.
920.
820.
620.
400.
950.
850.
650.
420.
960.
860.
650.
42D
elta
T20
1915
1121
1916
1121
1916
1121
1916
1121
1916
1119
1815
1067
5K
W1.
181.
201.
241.
271.
261.
291.
331.
371.
341.
371.
411.
461.
411.
441.
481.
531.
461.
501.
541.
591.
511.
551.
601.
65A
MPS
4.2
4.3
4.5
4.6
4.6
4.7
4.8
5.0
5.0
5.1
5.2
5.4
5.3
5.4
5.6
5.8
5.6
5.8
6.0
6.2
6.0
6.1
6.3
6.5
HI P
R21
523
124
425
524
125
927
428
627
429
531
132
531
233
635
537
035
137
839
941
638
841
844
146
0LO
PR
108
114
125
133
114
121
132
141
118
126
137
146
124
132
144
154
130
138
151
161
135
143
156
166
MB
h17
.417
.919
.420
.817
.017
.519
.020
.316
.617
.118
.519
.916
.216
.718
.119
.415
.415
.817
.218
.414
.314
.715
.917
.1S
/T0.
800.
710.
540.
350.
830.
740.
560.
360.
850.
760.
570.
370.
880.
780.
590.
380.
910.
810.
620.
400.
920.
820.
620.
40D
elta
T21
2016
1122
2016
1122
2016
1122
2016
1121
2016
1120
1815
1075
600
KW
1.17
1.19
1.23
1.26
1.25
1.28
1.32
1.36
1.33
1.36
1.40
1.44
1.40
1.43
1.47
1.52
1.45
1.48
1.53
1.58
1.50
1.53
1.58
1.64
AM
PS4.
24.
34.
44.
64.
54.
64.
85.
04.
95.
05.
25.
45.
35.
45.
65.
85.
65.
75.
96.
15.
96.
16.
36.
5H
I PR
213
229
242
252
239
257
271
283
271
292
308
322
309
333
351
366
348
374
395
412
384
413
437
455
LO P
R10
711
312
413
211
312
013
113
911
712
413
614
512
313
114
315
212
913
715
015
913
314
215
516
5M
Bh
16.1
16.5
17.9
19.2
15.7
16.2
17.5
18.8
15.3
15.8
17.1
18.3
15.0
15.4
16.7
17.9
14.2
14.6
15.8
17.0
13.2
13.5
14.7
15.7
S/T
0.77
0.69
0.52
0.34
0.80
0.71
0.54
0.35
0.82
0.73
0.55
0.36
0.84
0.76
0.57
0.37
0.88
0.78
0.59
0.38
0.88
0.79
0.60
0.39
Del
ta T
2220
1611
2220
1711
2220
1711
2220
1712
2220
1611
2019
1511
525
KW
1.14
1.16
1.20
1.24
1.22
1.25
1.29
1.33
1.30
1.32
1.37
1.41
1.36
1.39
1.44
1.48
1.42
1.45
1.49
1.54
1.47
1.50
1.54
1.60
AM
PS4.
14.
24.
34.
54.
44.
54.
74.
84.
84.
95.
15.
25.
15.
25.
45.
65.
45.
65.
76.
05.
75.
96.
16.
3H
I PR
206
222
234
244
231
249
263
274
263
283
299
312
300
323
341
355
337
363
383
400
373
401
423
442
LO P
R10
311
012
012
810
911
612
713
511
312
113
214
011
912
713
814
712
513
314
515
512
913
715
016
0S
hade
d ar
ea is
AC
CA
(TV
A)
cond
ition
sID
B: E
nter
ing
Indo
or D
ry B
ulb
Tem
pera
ture
KW
=Tot
al s
yste
m p
ower
AM
PS=o
utdo
or u
nit a
mps
(co
mp.
+fan
10
COOLING PERFORMANCE DATA SSZ140181A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4018
1A*
/ CA
*F31
31*6
A*
+TX
V /
MB
R80
0**-
1O
utdo
or A
mbi
ent T
empe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
B*A
irflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71M
Bh
18.3
18.7
19.9
21.3
17.8
18.2
19.5
20.8
17.4
17.8
19.0
20.3
17.0
17.4
18.5
19.8
16.1
16.5
17.6
18.8
14.9
15.3
16.3
17.4
S/T
0.92
0.86
0.70
0.52
0.95
0.89
0.73
0.54
1.00
0.92
0.75
0.56
1.00
0.94
0.77
0.57
1.00
1.00
0.80
0.60
1.00
1.00
0.80
0.60
Del
ta T
2322
1915
2322
1915
2422
1915
2322
1916
2222
1915
2021
1814
675
KW
1.19
1.21
1.25
1.28
1.27
1.30
1.34
1.38
1.35
1.38
1.42
1.47
1.42
1.45
1.50
1.54
1.48
1.51
1.56
1.61
1.53
1.56
1.61
1.66
AM
PS4.
34.
44.
54.
74.
64.
74.
95.
15.
05.
15.
35.
55.
35.
55.
75.
95.
75.
86.
06.
26.
06.
26.
46.
6H
I PR
217
233
247
257
243
262
277
288
277
298
315
328
315
339
358
374
355
382
403
420
392
422
445
465
LO P
R10
911
612
613
411
512
213
314
211
912
713
914
812
513
314
615
513
114
015
316
213
614
515
816
8M
Bh
17.7
18.1
19.4
20.7
17.3
17.7
18.9
20.2
16.9
17.3
18.5
19.7
16.5
16.8
18.0
19.2
15.7
16.0
17.1
18.3
14.5
14.8
15.8
16.9
S/T
0.88
0.82
0.67
0.50
0.91
0.85
0.69
0.52
0.93
0.87
0.71
0.53
0.96
0.90
0.73
0.55
1.00
0.94
0.76
0.57
1.00
0.94
0.77
0.57
Del
ta T
2423
2016
2423
2016
2423
2016
2423
2016
2423
2016
2221
1915
8060
0K
W1.
181.
201.
241.
271.
261.
291.
331.
371.
341.
371.
411.
461.
411.
441.
481.
531.
461.
501.
541.
591.
511.
551.
601.
65A
MPS
4.2
4.3
4.5
4.6
4.6
4.7
4.8
5.0
5.0
5.1
5.3
5.4
5.3
5.4
5.6
5.8
5.6
5.8
6.0
6.2
6.0
6.1
6.3
6.5
HI P
R21
523
124
425
524
125
927
428
627
429
531
132
531
233
635
537
035
137
839
941
638
841
844
146
0LO
PR
108
114
125
133
114
121
132
141
118
126
137
146
124
132
144
154
130
138
151
161
135
143
156
166
MB
h16
.416
.717
.919
.116
.016
.317
.418
.615
.615
.917
.018
.215
.215
.616
.617
.814
.514
.815
.816
.913
.413
.714
.615
.6S
/T0.
840.
790.
640.
480.
880.
820.
670.
500.
900.
840.
690.
510.
930.
870.
710.
530.
960.
900.
730.
550.
970.
910.
740.
55D
elta
T24
2320
1624
2320
1625
2320
1625
2421
1624
2320
1623
2219
1552
5K
W1.
151.
171.
211.
241.
231.
261.
301.
341.
311.
341.
381.
421.
371.
401.
451.
491.
431.
461.
511.
561.
481.
511.
561.
61A
MPS
4.1
4.2
4.4
4.5
4.5
4.6
4.7
4.9
4.8
4.9
5.1
5.3
5.2
5.3
5.5
5.7
5.5
5.6
5.8
6.0
5.8
5.9
6.1
6.4
HI P
R20
822
423
724
723
425
226
627
726
628
630
231
530
332
634
435
934
136
738
740
437
640
542
844
6LO
PR
104
111
121
129
110
117
128
136
115
122
133
142
120
128
140
149
126
134
147
156
131
139
152
161
MB
h18
.618
.919
.821
.218
.118
.519
.420
.717
.718
.118
.920
.217
.317
.618
.419
.716
.416
.717
.518
.715
.215
.516
.217
.3S
/T0.
960.
930.
840.
681.
000.
960.
870.
711.
000.
990.
890.
721.
001.
000.
920.
751.
001.
000.
950.
771.
001.
000.
960.
78D
elta
T24
2423
2025
2423
2024
2423
2024
2423
2022
2323
2021
2121
1867
5K
W1.
191.
221.
261.
291.
281.
311.
351.
391.
361.
391.
431.
481.
431.
461.
511.
561.
491.
521.
571.
621.
541.
571.
621.
68A
MPS
4.3
4.4
4.6
4.7
4.7
4.8
4.9
5.1
5.1
5.2
5.3
5.5
5.4
5.5
5.7
5.9
5.7
5.9
6.1
6.3
6.1
6.2
6.4
6.7
HI P
R21
923
624
926
024
626
527
929
128
030
131
833
131
834
336
237
735
838
640
742
539
642
645
046
9LO
PR
110
117
127
136
116
123
135
143
121
128
140
149
127
135
147
157
133
141
154
164
137
146
159
170
MB
h18
.018
.419
.320
.517
.618
.018
.820
.117
.217
.518
.419
.616
.817
.117
.919
.115
.916
.217
.018
.214
.815
.015
.816
.8S
/T0.
920.
890.
800.
650.
950.
920.
830.
670.
980.
940.
850.
691.
000.
970.
880.
711.
001.
000.
910.
741.
001.
000.
920.
74D
elta
T25
2524
2026
2524
2126
2524
2126
2524
2124
2524
2123
2322
1985
600
KW
1.19
1.21
1.25
1.28
1.27
1.30
1.34
1.38
1.35
1.38
1.42
1.47
1.42
1.45
1.50
1.54
1.48
1.51
1.56
1.61
1.53
1.56
1.61
1.66
AM
PS4.
34.
44.
54.
74.
64.
74.
95.
15.
05.
15.
35.
55.
35.
55.
75.
95.
75.
86.
06.
26.
06.
26.
46.
6H
I PR
217
233
247
257
243
262
277
288
277
298
315
328
315
339
358
374
355
382
403
420
392
422
445
465
LO P
R10
911
612
613
411
512
213
314
211
912
713
914
812
513
314
615
513
114
015
316
213
614
515
816
8M
Bh
16.6
17.0
17.8
19.0
16.3
16.6
17.4
18.5
15.9
16.2
16.9
18.1
15.5
15.8
16.5
17.6
14.7
15.0
15.7
16.8
13.6
13.9
14.5
15.5
S/T
0.89
0.85
0.77
0.63
0.92
0.89
0.80
0.65
0.94
0.91
0.82
0.66
0.97
0.94
0.85
0.69
1.00
0.97
0.88
0.71
1.00
0.98
0.89
0.72
Del
ta T
2625
2421
2626
2421
2626
2421
2626
2421
2626
2421
2424
2320
525
KW
1.16
1.18
1.22
1.25
1.24
1.27
1.31
1.35
1.32
1.35
1.39
1.43
1.38
1.41
1.46
1.51
1.44
1.47
1.52
1.57
1.49
1.52
1.57
1.62
AM
PS4.
24.
34.
44.
64.
54.
64.
84.
94.
95.
05.
25.
35.
25.
35.
55.
75.
55.
75.
86.
15.
96.
06.
26.
4H
I PR
210
226
239
249
236
254
268
280
269
289
305
318
306
329
348
362
344
370
391
408
380
409
432
451
LO P
R10
511
212
213
011
111
812
913
811
612
313
414
312
212
914
115
012
713
614
815
813
214
015
316
3
Sha
ded
area
is A
RI R
atin
g C
ondi
tions
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
11
COOLING PERFORMANCE DATA SSZ140241A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4024
1A*
/ CA
*F36
36*6
A*+
TXV
/ M
BR
800*
*-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h23
.524
.426
.7-
23.0
23.8
26.1
-22
.423
.225
.5-
21.9
22.7
24.8
-20
.821
.523
.6-
19.3
20.0
21.9
-S
/T0.
750.
630.
44-
0.78
0.65
0.45
-0.
800.
670.
46-
0.83
0.69
0.48
-0.
860.
720.
50-
0.87
0.72
0.50
-D
elta
T17
1511
-17
1511
-17
1511
-17
1511
-17
1511
-16
1411
-95
6K
W1.
651.
681.
73-
1.77
1.80
1.86
-1.
871.
911.
97-
1.97
2.01
2.07
-2.
042.
092.
15-
2.11
2.16
2.22
-A
MPS
10.1
10.2
10.4
-10
.510
.710
.9-
11.0
11.2
11.4
-11
.511
.711
.9-
12.0
12.2
12.4
-12
.412
.612
.9-
HI P
R22
223
925
2-
249
268
283
-28
330
532
2-
323
347
367
-36
339
141
2-
401
432
456
-LO
PR
110
117
128
-11
612
413
5-
121
129
140
-12
713
514
7-
133
142
155
-13
814
616
0-
MB
h22
.823
.725
.9-
22.3
23.1
25.3
-21
.822
.624
.7-
21.2
22.0
24.1
-20
.220
.922
.9-
18.7
19.4
21.2
-S
/T0.
720.
600.
42-
0.74
0.62
0.43
-0.
760.
640.
44-
0.79
0.66
0.46
-0.
820.
680.
47-
0.83
0.69
0.48
-D
elta
T18
1512
-18
1612
-18
1612
-18
1612
-18
1512
-17
1411
-70
850
KW
1.64
1.67
1.72
-1.
751.
791.
84-
1.86
1.90
1.95
-1.
951.
992.
05-
2.03
2.07
2.14
-2.
092.
142.
21-
AM
PS10
.010
.110
.3-
10.5
10.6
10.8
-11
.011
.111
.4-
11.4
11.6
11.9
-11
.912
.112
.3-
12.3
12.5
12.8
-H
I PR
220
236
250
-24
726
528
0-
280
302
319
-31
934
436
3-
359
387
408
-39
742
745
1-
LO P
R10
911
612
7-
115
122
134
-12
012
713
9-
126
134
146
-13
214
015
3-
136
145
158
-M
Bh
21.1
21.8
23.9
-20
.621
.323
.4-
20.1
20.8
22.8
-19
.620
.322
.3-
18.6
19.3
21.1
-17
.317
.919
.6-
S/T
0.69
0.58
0.40
-0.
720.
600.
42-
0.74
0.62
0.43
-0.
760.
630.
44-
0.79
0.66
0.46
-0.
800.
660.
46-
Del
ta T
1816
12-
1816
12-
1816
12-
1816
12-
1816
12-
1715
11-
744
KW
1.60
1.63
1.68
-1.
721.
751.
80-
1.82
1.85
1.91
-1.
901.
942.
00-
1.98
2.02
2.08
-2.
042.
092.
15-
AM
PS9.
810
.010
.2-
10.3
10.4
10.6
-10
.811
.011
.2-
11.2
11.4
11.7
-11
.711
.912
.1-
12.1
12.3
12.6
-H
I PR
213
229
242
-23
925
727
2-
272
293
309
-31
033
335
2-
349
375
396
-38
541
443
8-
LO P
R10
611
212
3-
112
119
130
-11
612
313
5-
122
130
142
-12
813
614
8-
132
141
153
-
MB
h23
.924
.626
.728
.623
.424
.126
.027
.922
.823
.525
.427
.322
.222
.924
.826
.621
.121
.823
.625
.319
.620
.221
.823
.4S
/T0.
860.
770.
580.
370.
890.
790.
600.
390.
910.
810.
620.
400.
940.
840.
640.
410.
980.
870.
660.
420.
980.
880.
670.
43D
elta
T20
1815
1020
1815
1020
1815
1020
1915
1020
1815
1019
1714
1095
6K
W1.
661.
701.
751.
801.
781.
821.
871.
931.
891.
931.
992.
051.
982.
022.
092.
152.
062.
102.
172.
242.
132.
172.
242.
32A
MPS
10.1
10.2
10.4
10.7
10.6
10.7
10.9
11.2
11.1
11.3
11.5
11.8
11.6
11.8
12.0
12.3
12.0
12.2
12.5
12.8
12.5
12.7
13.0
13.3
HI P
R22
424
125
526
625
227
128
629
828
630
832
533
932
635
137
038
636
739
541
743
540
543
646
048
0LO
PR
111
118
129
138
117
125
136
145
122
130
142
151
128
136
149
159
134
143
156
166
139
148
161
172
MB
h23
.223
.925
.927
.822
.723
.425
.327
.122
.122
.824
.726
.521
.622
.224
.125
.820
.521
.122
.924
.519
.019
.621
.222
.7S
/T0.
820.
730.
550.
360.
850.
760.
570.
370.
870.
780.
590.
380.
900.
800.
610.
390.
930.
830.
630.
410.
940.
840.
630.
41D
elta
T21
1915
1121
1916
1121
1916
1121
1916
1121
1916
1119
1815
1075
850
KW
1.65
1.68
1.73
1.78
1.77
1.80
1.86
1.92
1.87
1.91
1.97
2.03
1.97
2.01
2.07
2.13
2.04
2.09
2.15
2.22
2.11
2.16
2.22
2.30
AM
PS10
.110
.210
.410
.610
.510
.710
.911
.111
.011
.211
.411
.711
.511
.711
.912
.212
.012
.212
.412
.712
.412
.612
.913
.2H
I PR
222
239
252
263
249
268
283
295
283
305
322
336
323
347
367
382
363
391
412
430
401
432
456
475
LO P
R11
011
712
813
611
612
413
514
412
112
914
015
012
713
514
715
713
314
215
516
513
814
616
017
0M
Bh
21.4
22.1
23.9
25.6
20.9
21.6
23.3
25.0
20.4
21.0
22.8
24.4
19.9
20.5
22.2
23.8
18.9
19.5
21.1
22.7
17.5
18.1
19.6
21.0
S/T
0.79
0.70
0.53
0.34
0.82
0.73
0.55
0.36
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.38
0.90
0.80
0.61
0.39
0.90
0.81
0.61
0.39
Del
ta T
2119
1611
2119
1611
2119
1611
2120
1611
2119
1611
2018
1510
744
KW
1.61
1.64
1.69
1.74
1.73
1.76
1.82
1.87
1.83
1.87
1.92
1.98
1.92
1.96
2.02
2.08
2.00
2.04
2.10
2.17
2.06
2.10
2.17
2.24
AM
PS9.
910
.010
.210
.410
.310
.510
.710
.910
.911
.011
.211
.511
.311
.511
.712
.011
.811
.912
.212
.512
.212
.412
.713
.0H
I PR
215
232
245
255
242
260
275
286
275
296
312
326
313
337
356
371
352
379
400
417
389
419
442
461
LO P
R10
711
412
413
211
312
013
114
011
712
513
614
512
313
114
315
212
913
715
016
013
314
215
516
5
Sha
ded
area
is A
CC
A (
TVA
) co
nditi
ons
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
12
COOLING PERFORMANCE DATA SSZ140241A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4024
1A*
/ CA
*F36
36*6
A*+
TXV
/ M
BR
800*
*-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h24
.324
.926
.628
.423
.824
.326
.027
.723
.223
.725
.327
.122
.623
.124
.726
.421
.522
.023
.525
.119
.920
.421
.823
.3S
/T0.
940.
880.
720.
541.
000.
910.
740.
561.
000.
940.
760.
571.
000.
970.
790.
591.
001.
000.
820.
611.
001.
000.
820.
62D
elta
T22
2118
1523
2119
1522
2119
1522
2119
1521
2118
1519
2017
1495
6K
W1.
671.
711.
761.
811.
801.
831.
891.
951.
901.
942.
002.
062.
002.
042.
102.
172.
082.
122.
192.
262.
152.
192.
262.
33A
MPS
10.2
10.3
10.5
10.7
10.6
10.8
11.0
11.2
11.2
11.3
11.6
11.8
11.6
11.8
12.1
12.4
12.1
12.3
12.6
12.9
12.6
12.8
13.1
13.4
HI P
R22
624
425
726
825
427
328
930
128
931
132
834
332
935
437
439
037
039
942
143
940
944
046
548
5LO
PR
112
119
130
139
119
126
138
147
123
131
143
153
130
138
150
160
136
144
158
168
140
149
163
174
MB
h23
.624
.125
.827
.623
.123
.625
.226
.922
.523
.024
.626
.322
.022
.524
.025
.720
.921
.322
.824
.419
.319
.821
.122
.6S
/T0.
900.
840.
680.
510.
930.
870.
710.
530.
950.
890.
730.
540.
980.
920.
750.
561.
000.
960.
780.
581.
000.
960.
790.
59D
elta
T23
2219
1523
2219
1523
2219
1523
2219
1623
2219
1521
2118
1480
850
KW
1.66
1.70
1.75
1.80
1.78
1.82
1.87
1.93
1.89
1.93
1.99
2.05
1.98
2.02
2.09
2.15
2.06
2.10
2.17
2.24
2.13
2.17
2.24
2.32
AM
PS10
.110
.210
.410
.710
.610
.710
.911
.211
.111
.311
.511
.811
.611
.812
.012
.312
.012
.212
.512
.812
.512
.713
.013
.3H
I PR
224
241
255
266
252
271
286
298
286
308
325
339
326
351
370
386
367
395
417
435
405
436
460
480
LO P
R11
111
812
913
811
712
513
614
512
213
014
215
112
813
614
915
913
414
315
616
613
914
816
117
2M
Bh
21.8
22.3
23.8
25.5
21.3
21.8
23.3
24.9
20.8
21.3
22.7
24.3
20.3
20.7
22.2
23.7
19.3
19.7
21.0
22.5
17.9
18.2
19.5
20.8
S/T
0.86
0.81
0.66
0.49
0.90
0.84
0.68
0.51
0.92
0.86
0.70
0.52
0.95
0.89
0.72
0.54
0.98
0.92
0.75
0.56
0.99
0.93
0.76
0.57
DT
2322
1916
2423
2016
2423
2016
2423
2016
2322
2016
2221
1815
744
KW
1.63
1.66
1.71
1.76
1.74
1.78
1.83
1.89
1.84
1.88
1.94
2.00
1.93
1.97
2.04
2.10
2.01
2.05
2.12
2.19
2.08
2.12
2.19
2.26
AM
PS9.
910
.110
.310
.510
.410
.510
.711
.010
.911
.111
.311
.611
.411
.511
.812
.111
.812
.012
.312
.612
.312
.512
.713
.1H
I PR
217
234
247
258
244
263
277
289
278
299
315
329
316
340
359
375
356
383
404
422
393
423
447
466
LO P
R10
811
512
513
311
412
113
214
111
812
613
814
612
413
214
415
413
013
915
116
113
514
315
716
7
MB
h24
.825
.226
.428
.224
.224
.725
.827
.623
.624
.125
.226
.923
.023
.524
.626
.221
.922
.323
.424
.920
.320
.721
.623
.1S
/T0.
980.
950.
860.
701.
000.
980.
890.
721.
001.
000.
910.
741.
001.
000.
940.
761.
001.
000.
980.
791.
001.
000.
980.
80D
elta
T23
2322
1923
2322
1923
2322
1922
2322
1921
2122
1919
2020
1895
6K
W1.
691.
721.
771.
831.
811.
851.
901.
961.
921.
962.
022.
082.
012.
052.
122.
192.
092.
142.
212.
282.
162.
212.
282.
35A
MPS
10.2
10.3
10.5
10.8
10.7
10.8
11.1
11.3
11.2
11.4
11.6
11.9
11.7
11.9
12.1
12.4
12.2
12.4
12.6
13.0
12.7
12.9
13.1
13.5
HI P
R22
924
626
027
125
727
629
230
429
231
433
234
633
235
837
839
437
440
242
544
341
344
547
049
0LO
PR
113
121
132
140
120
127
139
148
125
132
145
154
131
139
152
162
137
146
159
170
142
151
165
175
MB
h24
.024
.525
.727
.423
.523
.925
.126
.822
.923
.424
.526
.122
.422
.823
.925
.521
.221
.722
.724
.219
.720
.121
.022
.4S
/T0.
940.
910.
820.
660.
970.
940.
850.
691.
000.
960.
870.
711.
000.
990.
900.
731.
001.
000.
930.
761.
001.
000.
940.
76D
elta
T24
2423
2025
2423
2025
2423
2024
2523
2023
2323
2021
2221
1885
850
KW
1.67
1.71
1.76
1.81
1.80
1.83
1.89
1.95
1.90
1.94
2.00
2.06
2.00
2.04
2.10
2.17
2.08
2.12
2.19
2.26
2.15
2.19
2.26
2.33
AM
PS10
.210
.310
.510
.710
.610
.811
.011
.211
.211
.311
.611
.811
.611
.812
.112
.412
.112
.312
.612
.912
.612
.813
.113
.4H
I PR
226
244
257
268
254
273
289
301
289
311
328
343
329
354
374
390
370
399
421
439
409
440
465
485
LO P
R11
211
913
013
911
912
613
814
712
313
114
315
313
013
815
016
013
614
415
816
814
014
916
317
4M
Bh
22.2
22.6
23.7
25.3
21.7
22.1
23.1
24.7
21.2
21.6
22.6
24.1
20.6
21.0
22.0
23.5
19.6
20.0
20.9
22.3
18.2
18.5
19.4
20.7
S/T
0.91
0.87
0.79
0.64
0.94
0.91
0.82
0.66
0.96
0.93
0.84
0.68
0.99
0.96
0.87
0.70
1.00
0.99
0.90
0.73
1.00
1.00
0.91
0.73
Del
ta T
Del
ta T
2423
2025
2523
2025
2523
2025
2524
2024
2523
2022
2322
1974
4K
W1.
641.
671.
721.
771.
751.
791.
841.
901.
861.
901.
952.
021.
951.
992.
052.
122.
032.
072.
132.
202.
092.
142.
212.
28A
MPS
10.0
10.1
10.3
10.5
10.5
10.6
10.8
11.0
11.0
11.1
11.4
11.6
11.4
11.6
11.9
12.1
11.9
12.1
12.3
12.6
12.3
12.5
12.8
13.1
HI P
R22
023
625
026
024
626
528
029
228
030
231
933
231
934
436
337
835
938
740
842
639
742
745
147
0LO
PR
109
116
127
135
115
122
134
142
120
127
139
148
126
134
146
155
132
140
153
163
136
145
158
168
Sha
ded
area
is A
RI R
atin
g C
ondi
tions
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
13
COOLING PERFORMANCE DATA SSZ140301A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4030
1A*
/ CA
*F36
42*6
A*+
TXV
/ M
BR
1600
**-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h28
.229
.332
.0-
27.6
28.6
31.3
-26
.927
.930
.6-
26.3
27.2
29.8
-24
.925
.828
.3-
23.1
23.9
26.2
-S
/T0.
790.
660.
46-
0.82
0.68
0.47
-0.
840.
700.
48-
0.86
0.72
0.50
-0.
900.
750.
52-
0.90
0.75
0.52
-D
elta
T17
1511
-17
1511
-18
1511
-18
1512
-17
1511
-16
1411
-11
81K
W1.
992.
032.
09-
2.13
2.18
2.24
-2.
262.
302.
37-
2.37
2.42
2.49
-2.
462.
512.
59-
2.54
2.59
2.67
-A
MPS
2.3
2.5
2.7
-2.
93.
03.
3-
3.5
3.7
4.0
-4.
14.
34.
6-
4.6
4.8
5.1
-5.
15.
45.
7-
HI P
R22
123
725
1-
247
266
281
-28
130
332
0-
321
345
364
-36
138
841
0-
398
429
453
-LO
PR
112
119
130
-11
812
613
7-
123
131
143
-12
913
715
0-
135
144
157
-14
014
916
2-
MB
h27
.428
.431
.1-
26.8
27.7
30.4
-26
.127
.129
.7-
25.5
26.4
28.9
-24
.225
.127
.5-
22.4
23.2
25.5
-S
/T0.
750.
630.
43-
0.78
0.65
0.45
-0.
800.
670.
46-
0.82
0.69
0.48
-0.
850.
710.
49-
0.86
0.72
0.50
-D
elta
T18
1612
-18
1612
-18
1612
-18
1612
-18
1612
-17
1511
-70
1050
KW
1.98
2.02
2.08
-2.
122.
162.
22-
2.24
2.29
2.36
-2.
352.
402.
47-
2.44
2.49
2.57
-2.
522.
572.
65-
AM
PS2.
32.
42.
6-
2.8
3.0
3.2
-3.
43.
63.
9-
4.0
4.2
4.5
-4.
54.
75.
1-
5.1
5.3
5.6
-H
I PR
218
235
248
-24
526
427
8-
279
300
317
-31
734
236
1-
357
384
406
-39
442
544
8-
LO P
R11
111
812
9-
117
124
136
-12
212
914
1-
128
136
148
-13
414
215
5-
138
147
161
-M
Bh
25.3
26.2
28.7
-24
.725
.628
.1-
24.1
25.0
27.4
-23
.524
.426
.7-
22.3
23.2
25.4
-20
.721
.523
.5-
S/T
0.72
0.60
0.42
-0.
750.
630.
43-
0.77
0.64
0.44
-0.
790.
660.
46-
0.82
0.69
0.48
-0.
830.
690.
48-
Del
ta T
1816
12-
1916
12-
1916
12-
1916
12-
1816
12-
1715
11-
919
KW
1.94
1.97
2.03
-2.
072.
112.
17-
2.19
2.23
2.30
-2.
302.
342.
41-
2.38
2.43
2.51
-2.
462.
512.
59-
AM
PS2.
12.
22.
4-
2.6
2.8
3.0
-3.
23.
43.
7-
3.7
3.9
4.2
-4.
34.
54.
8-
4.8
5.0
5.3
-H
I PR
212
228
241
-23
825
627
0-
270
291
307
-30
833
135
0-
346
373
394
-38
341
243
5-
LO P
R10
711
412
5-
114
121
132
-11
812
613
7-
124
132
144
-13
013
815
1-
134
143
156
-
MB
h28
.729
.532
.034
.328
.028
.931
.233
.527
.428
.230
.532
.726
.727
.529
.831
.925
.426
.128
.330
.323
.524
.226
.228
.1S
/T0.
890.
800.
610.
390.
930.
830.
630.
400.
950.
850.
640.
410.
980.
880.
660.
431.
000.
910.
690.
441.
000.
920.
690.
45D
elta
T20
1815
1020
1915
1120
1915
1120
1915
1120
1915
1018
1714
1011
81K
W2.
012.
052.
112.
172.
152.
192.
262.
332.
282.
322.
392.
472.
392.
442.
512.
592.
482.
532.
612.
692.
562.
612.
702.
78A
MPS
2.4
2.5
2.8
3.0
2.9
3.1
3.4
3.7
3.6
3.8
4.0
4.4
4.1
4.3
4.6
5.0
4.7
4.9
5.2
5.6
5.2
5.5
5.8
6.2
HI P
R22
324
025
326
425
026
928
429
628
430
632
333
732
434
836
838
436
439
241
443
240
243
345
747
7LO
PR
113
120
131
140
119
127
139
148
124
132
144
153
130
139
151
161
137
145
159
169
141
150
164
175
MB
h27
.928
.731
.133
.327
.228
.030
.332
.626
.627
.429
.631
.825
.926
.728
.931
.024
.625
.427
.429
.522
.823
.525
.427
.3S
/T0.
850.
760.
580.
370.
880.
790.
600.
380.
910.
810.
610.
390.
940.
840.
630.
410.
970.
870.
660.
420.
980.
880.
660.
43D
elta
T21
1916
1121
1916
1121
1916
1121
2016
1121
1916
1120
1815
1075
1050
KW
1.99
2.03
2.09
2.15
2.14
2.18
2.24
2.31
2.26
2.30
2.37
2.45
2.37
2.42
2.49
2.57
2.46
2.51
2.59
2.67
2.54
2.59
2.67
2.76
AM
PS2.
32.
52.
73.
02.
93.
03.
33.
63.
53.
74.
04.
34.
14.
34.
64.
94.
64.
85.
15.
55.
15.
45.
76.
1H
I PR
221
237
251
261
248
266
281
293
281
303
320
334
321
345
364
380
361
388
410
427
399
429
453
472
LO P
R11
211
913
013
811
812
613
714
612
313
114
315
212
913
715
016
013
514
415
716
714
014
916
217
3M
Bh
25.7
26.5
28.7
30.8
25.1
25.9
28.0
30.0
24.5
25.2
27.3
29.3
23.9
24.6
26.7
28.6
22.7
23.4
25.3
27.2
21.1
21.7
23.5
25.2
S/T
0.82
0.74
0.56
0.36
0.85
0.76
0.58
0.37
0.87
0.78
0.59
0.38
0.90
0.81
0.61
0.39
0.94
0.84
0.63
0.41
0.94
0.84
0.64
0.41
Del
ta T
2119
1611
2120
1611
2120
1611
2220
1611
2120
1611
2018
1510
919
KW
1.95
1.99
2.05
2.11
2.09
2.13
2.19
2.26
2.21
2.25
2.32
2.39
2.31
2.36
2.43
2.51
2.40
2.45
2.53
2.61
2.48
2.53
2.61
2.69
AM
PS2.
12.
32.
52.
82.
72.
83.
13.
43.
33.
53.
74.
03.
84.
04.
34.
64.
44.
64.
95.
24.
95.
15.
45.
8H
I PR
214
230
243
254
240
258
273
285
273
294
310
324
311
335
353
369
350
376
398
415
387
416
439
458
LO P
R10
911
512
613
411
512
213
314
211
912
713
814
712
513
314
515
513
114
015
216
213
614
415
816
8
Sha
ded
area
is A
CC
A (
TVA
) co
nditi
ons
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
14
COOLING PERFORMANCE DATA SSZ140301A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4030
1A*
/ CA
*F36
42*6
A*+
TXV
/ M
BR
1600
**-1
Ou
tdo
or A
mb
ien
t Te
mp
erat
ure
6575
8595
105
115
Ente
rin
g In
do
or W
et B
ulb
Tem
per
atur
eID
B*A
irfl
ow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h29
.229
.831
.934
.128
.529
.231
.133
.327
.928
.530
.432
.527
.227
.829
.731
.725
.826
.428
.230
.123
.924
.426
.127
.9S
/T1.
000.
920.
750.
561.
000.
950.
780.
581.
001.
000.
800.
591.
001.
000.
820.
611.
001.
000.
850.
641.
001.
000.
860.
64D
elta
T23
2119
1522
2219
1522
2219
1521
2219
1520
2119
1519
1917
1411
81K
W2.
022.
062.
122.
192.
172.
212.
282.
352.
292.
342.
412.
492.
402.
452.
532.
612.
502.
552.
632.
712.
582.
642.
722.
80A
MPS
2.4
2.6
2.8
3.1
3.0
3.2
3.4
3.7
3.7
3.9
4.1
4.5
4.2
4.4
4.7
5.1
4.8
5.0
5.3
5.7
5.3
5.6
5.9
6.3
HI P
R22
524
225
626
725
327
228
729
928
730
932
634
032
735
237
238
836
839
641
843
640
743
846
248
2LO
PR
114
121
133
141
121
128
140
149
125
133
146
155
132
140
153
163
138
147
160
171
143
152
166
177
MB
h28
.429
.031
.033
.127
.728
.330
.232
.327
.027
.629
.531
.626
.427
.028
.830
.825
.125
.627
.429
.223
.223
.725
.327
.1S
/T0.
940.
880.
710.
530.
970.
910.
740.
550.
990.
930.
760.
571.
000.
960.
780.
591.
001.
000.
810.
611.
001.
000.
820.
61D
elta
T23
2219
1524
2320
1624
2320
1623
2320
1622
2219
1620
2118
1580
1050
KW
2.01
2.05
2.11
2.17
2.15
2.19
2.26
2.33
2.28
2.32
2.39
2.47
2.39
2.44
2.51
2.59
2.48
2.53
2.61
2.69
2.56
2.61
2.70
2.78
AM
PS2.
42.
52.
83.
02.
93.
13.
43.
73.
63.
84.
04.
44.
14.
34.
65.
04.
74.
95.
25.
65.
25.
55.
86.
2H
I PR
223
240
253
264
250
269
284
296
284
306
323
337
324
348
368
384
364
392
414
432
403
433
457
477
LO P
R11
312
013
114
011
912
713
914
812
413
214
415
413
013
915
116
113
714
515
916
914
115
016
417
5M
Bh
26.2
26.7
28.6
30.5
25.6
26.1
27.9
29.8
25.0
25.5
27.2
29.1
24.3
24.9
26.6
28.4
23.1
23.6
25.3
27.0
21.4
21.9
23.4
25.0
S/T
0.90
0.85
0.69
0.51
0.93
0.88
0.71
0.53
0.96
0.90
0.73
0.55
0.99
0.93
0.75
0.56
1.03
0.96
0.78
0.59
1.04
0.97
0.79
0.59
Del
ta T
2423
2016
2423
2016
2423
2016
2423
2016
2423
2016
2221
1815
919
KW
1.97
2.00
2.06
2.12
2.10
2.14
2.21
2.27
2.22
2.27
2.34
2.41
2.33
2.38
2.45
2.53
2.42
2.47
2.55
2.63
2.50
2.55
2.63
2.72
AM
PS2.
22.
42.
62.
82.
72.
93.
23.
43.
43.
53.
84.
13.
94.
14.
44.
74.
44.
75.
05.
35.
05.
25.
55.
9H
I PR
216
233
246
256
243
261
276
287
276
297
313
327
314
338
357
372
353
380
402
419
390
420
444
463
LO P
R11
011
712
713
611
612
313
514
312
012
814
014
912
613
514
715
613
314
115
416
413
714
615
917
0
MB
h29
.730
.331
.733
.929
.029
.631
.033
.128
.328
.930
.332
.327
.628
.229
.531
.526
.326
.828
.029
.924
.324
.826
.027
.7S
/T1.
000.
990.
900.
731.
001.
000.
930.
751.
001.
000.
950.
771.
001.
000.
980.
801.
001.
001.
000.
831.
001.
001.
000.
83D
elta
T23
2322
1923
2322
1922
2222
1922
2223
2020
2122
1919
1920
1811
81K
W2.
042.
082.
142.
202.
182.
232.
292.
362.
312.
362.
432.
502.
422.
472.
552.
632.
522.
572.
652.
742.
602.
662.
742.
83A
MPS
2.5
2.7
2.9
3.2
3.1
3.3
3.5
3.8
3.7
3.9
4.2
4.5
4.3
4.5
4.8
5.2
4.9
5.1
5.4
5.8
5.4
5.7
6.0
6.4
HI P
R22
724
525
826
925
527
429
030
229
031
233
034
433
035
637
539
237
240
042
244
041
144
246
748
7LO
PR
115
123
134
143
122
130
141
151
127
135
147
157
133
141
154
164
139
148
162
172
144
153
167
178
MB
h28
.929
.430
.832
.928
.228
.730
.132
.127
.528
.029
.431
.326
.827
.428
.730
.625
.526
.027
.229
.023
.624
.125
.226
.9S
/T0.
980.
950.
850.
691.
000.
980.
880.
721.
001.
000.
910.
741.
001.
000.
940.
761.
001.
000.
970.
791.
001.
000.
980.
80D
elta
T25
2423
2025
2523
2024
2523
2024
2423
2022
2323
2021
2122
1985
1050
KW
2.02
2.06
2.12
2.19
2.17
2.21
2.28
2.35
2.29
2.34
2.41
2.49
2.40
2.45
2.53
2.61
2.50
2.55
2.63
2.71
2.58
2.64
2.72
2.80
AM
PS2.
42.
62.
83.
13.
03.
23.
43.
73.
73.
94.
14.
54.
24.
44.
75.
14.
85.
05.
35.
75.
35.
65.
96.
3H
I PR
225
242
256
267
253
272
287
299
287
309
326
340
327
352
372
388
368
396
418
436
407
438
462
482
LO P
R11
412
113
314
112
112
814
014
912
513
314
615
513
214
015
316
313
814
716
017
114
315
216
617
7M
Bh
26.6
27.1
28.4
30.3
26.0
26.5
27.8
29.6
25.4
25.9
27.1
28.9
24.8
25.3
26.4
28.2
23.5
24.0
25.1
26.8
21.8
22.2
23.3
24.8
S/T
0.95
0.91
0.82
0.67
0.98
0.95
0.85
0.69
1.00
0.97
0.87
0.71
1.00
1.00
0.90
0.73
1.00
1.00
0.94
0.76
1.00
1.00
0.94
0.77
Del
ta T
2525
2320
2525
2421
2525
2421
2525
2421
2424
2420
2222
2219
919
KW
1.98
2.02
2.08
2.14
2.12
2.16
2.22
2.29
2.24
2.29
2.35
2.43
2.35
2.40
2.47
2.55
2.44
2.49
2.57
2.65
2.52
2.57
2.65
2.74
AM
PS2.
32.
42.
62.
92.
83.
03.
23.
53.
43.
63.
94.
24.
04.
24.
54.
84.
54.
75.
05.
45.
15.
35.
66.
0H
I PR
218
235
248
259
245
264
278
290
279
300
317
330
317
341
361
376
357
384
406
423
394
424
448
467
LO P
R11
111
812
913
711
712
413
614
512
212
914
115
012
813
614
815
813
414
215
516
613
814
716
117
1
Sha
ded
area
is A
RI R
atin
g C
ondi
tions
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
15
COOLING PERFORMANCE DATA SSZ140361A*E
XPA
ND
ED P
ERFO
RM
AN
CE
DA
TA M
OD
EL:
SS
Z140
361A
* / C
A*F
4860
*6A
*+TX
V /
MB
R16
00**
-1O
utdo
or A
mbi
ent T
empe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BA
irflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71M
Bh33
.935
.138
.5-
33.1
34.3
37.6
-32
.333
.536
.7-
31.5
32.7
35.8
-30
.031
.134
.0-
27.8
28.8
31.5
-S/
T0.
720.
600.
42-
0.75
0.63
0.43
-0.
770.
640.
44-
0.79
0.66
0.46
-0.
820.
690.
48-
0.83
0.69
0.48
-D
elta
T19
1713
-19
1713
-19
1713
-19
1713
-19
1713
-18
1612
-11
81K
W2.
342.
392.
46-
2.51
2.56
2.64
-2.
662.
722.
80-
2.79
2.85
2.94
-2.
902.
963.
06-
3.00
3.06
3.16
-A
MPS
8.6
8.8
9.1
-9.
39.
59.
8-
10.1
10.3
10.6
-10
.711
.011
.3-
11.4
11.7
12.0
-12
.012
.312
.7-
HI P
R21
823
524
8-
245
264
278
-27
930
031
7-
317
342
361
-35
738
440
6-
395
425
448
-LO
PR
105
112
122
-11
111
812
9-
115
123
134
-12
112
914
1-
127
135
148
-13
214
015
3-
MBh
32.9
34.1
37.4
-32
.233
.336
.5-
31.4
32.5
35.6
-30
.631
.734
.8-
29.1
30.2
33.0
-26
.927
.930
.6-
S/T
0.69
0.58
0.40
-0.
710.
600.
41-
0.73
0.61
0.42
-0.
760.
630.
44-
0.79
0.66
0.45
-0.
790.
660.
46-
Del
ta T
2017
13-
2017
13-
2017
13-
2018
13-
2017
13-
1916
12-
7010
50K
W2.
332.
372.
44-
2.49
2.54
2.62
-2.
642.
692.
78-
2.77
2.83
2.92
-2.
882.
943.
03-
2.98
3.04
3.14
-A
MPS
8.6
8.8
9.0
-9.
29.
49.
7-
10.0
10.2
10.5
-10
.610
.911
.2-
11.3
11.6
11.9
-11
.912
.212
.6-
HI P
R21
623
324
6-
243
261
276
-27
629
731
4-
314
338
357
-35
438
040
2-
391
420
444
-LO
PR
104
111
121
-11
011
712
8-
114
122
133
-12
012
814
0-
126
134
146
-13
013
915
1-
MBh
30.4
31.5
34.5
-29
.730
.833
.7-
29.0
30.0
32.9
-28
.329
.332
.1-
26.9
27.8
30.5
-24
.925
.828
.2-
S/T
0.67
0.56
0.38
-0.
690.
580.
40-
0.71
0.59
0.41
-0.
730.
610.
42-
0.76
0.63
0.44
-0.
760.
640.
44-
Del
ta T
2018
13-
2018
13-
2018
13-
2118
14-
2018
13-
1916
12-
919
KW
2.28
2.32
2.39
-2.
442.
492.
56-
2.58
2.63
2.71
-2.
712.
762.
85-
2.81
2.87
2.96
-2.
902.
973.
06-
AM
PS8.
48.
58.
8-
9.0
9.2
9.5
-9.
79.
910
.3-
10.4
10.6
10.9
-11
.011
.211
.6-
11.6
11.9
12.3
-H
I PR
210
226
238
-23
525
326
7-
268
288
304
-30
532
834
6-
343
369
390
-37
940
843
1-
LO P
R10
110
711
7-
107
114
124
-11
111
812
9-
117
124
135
-12
213
014
2-
126
134
147
-
MBh
34.5
35.5
38.4
41.2
33.7
34.7
37.5
40.3
32.9
33.8
36.6
39.3
32.1
33.0
35.7
38.4
30.5
31.4
34.0
36.4
28.2
29.1
31.5
33.8
S/T
0.82
0.74
0.56
0.36
0.85
0.76
0.58
0.37
0.87
0.78
0.59
0.38
0.90
0.81
0.61
0.39
0.94
0.84
0.63
0.41
0.94
0.84
0.64
0.41
Del
ta T
2220
1711
2221
1712
2221
1712
2321
1712
2220
1712
2119
1611
1181
KW
2.36
2.41
2.48
2.55
2.53
2.58
2.66
2.74
2.68
2.74
2.82
2.91
2.81
2.87
2.96
3.06
2.93
2.99
3.08
3.18
3.02
3.09
3.19
3.29
AM
PS8.
78.
99.
29.
59.
49.
69.
910
.310
.210
.410
.711
.110
.811
.111
.411
.811
.511
.812
.112
.612
.112
.412
.813
.3H
I PR
221
237
251
261
248
266
281
293
282
303
320
334
321
345
364
380
361
388
410
428
399
429
453
472
LO P
R10
611
312
313
111
211
913
013
911
712
413
614
412
313
014
215
212
813
714
915
913
314
115
416
4M
Bh33
.534
.537
.340
.032
.733
.736
.439
.131
.932
.935
.638
.231
.132
.134
.737
.229
.630
.533
.035
.427
.428
.230
.532
.8S/
T0.
780.
700.
530.
340.
810.
730.
550.
350.
830.
750.
560.
360.
860.
770.
580.
370.
890.
800.
600.
390.
900.
810.
610.
39D
elta
T23
2117
1223
2118
1223
2118
1223
2218
1223
2117
1222
2016
1175
1050
KW
2.34
2.39
2.46
2.54
2.51
2.56
2.64
2.72
2.66
2.72
2.80
2.89
2.79
2.85
2.94
3.03
2.90
2.97
3.06
3.16
3.00
3.06
3.16
3.26
AM
PS8.
78.
89.
19.
49.
39.
59.
810
.210
.110
.310
.611
.010
.711
.011
.311
.711
.411
.712
.012
.512
.012
.312
.713
.2H
I PR
218
235
248
259
245
264
279
290
279
300
317
330
317
342
361
376
357
384
406
423
395
425
448
468
LO P
R10
511
212
213
011
111
812
913
711
612
313
414
312
112
914
115
012
713
514
815
713
214
015
316
3M
Bh30
.931
.834
.437
.030
.231
.133
.636
.129
.530
.332
.835
.228
.729
.632
.034
.427
.328
.130
.432
.725
.326
.028
.230
.3S/
T0.
760.
680.
510.
330.
780.
700.
530.
340.
800.
720.
540.
350.
830.
740.
560.
360.
860.
770.
580.
370.
870.
780.
590.
38D
elta
T23
2218
1224
2218
1224
2218
1224
2218
1224
2218
1222
2017
1191
9K
W2.
292.
342.
412.
482.
462.
512.
582.
662.
602.
652.
732.
822.
732.
782.
872.
962.
842.
892.
983.
082.
932.
993.
083.
18A
MPS
8.4
8.6
8.9
9.2
9.1
9.3
9.6
9.9
9.8
10.0
10.4
10.7
10.5
10.7
11.0
11.4
11.1
11.3
11.7
12.1
11.7
12.0
12.4
12.8
HI P
R21
222
824
125
123
825
627
028
227
029
130
732
030
833
135
036
534
637
339
441
138
341
243
545
4LO
PR
102
109
119
126
108
115
125
133
112
119
130
139
118
125
137
146
123
131
143
153
128
136
148
158
Sha
ded
area
is A
CCA
(TV
A)
cond
itions
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reKW
=Tot
al s
yste
m p
ower
AM
PS=o
utdo
or u
nit a
mps
(co
mp.
+fan
16
COOLING PERFORMANCE DATA SSZ140361A*EX
PAN
DED
PER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4036
1A*
/ CA
*F48
60*6
A*+
TXV
/ M
BR
1600
**-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MBh
35.0
935
.86
38.3
140
.95
34.2
835
.03
37.4
240
.00
33.4
634
.19
36.5
339
.05
32.6
433
.36
35.6
438
.10
31.0
131
.69
33.8
636
.19
28.7
329
.35
31.3
633
.53
S/T
0.90
0.85
0.69
0.51
0.93
0.88
0.71
0.53
0.96
0.90
0.73
0.55
1.00
0.93
0.75
0.56
1.00
0.96
0.78
0.59
1.00
0.97
0.79
0.59
Del
ta T
2524
2116
2524
2117
2524
2117
2524
2117
2424
2116
2222
1915
1181
KW
2.38
2.43
2.50
2.57
2.55
2.60
2.68
2.77
2.70
2.76
2.84
2.93
2.84
2.90
2.99
3.08
2.95
3.01
3.11
3.21
3.05
3.11
3.21
3.32
AM
PS8.
89.
09.
39.
69.
59.
710
.010
.310
.310
.510
.811
.210
.911
.211
.512
.011
.611
.912
.312
.712
.312
.513
.013
.4H
I PR
223
240
253
264
250
269
284
296
284
306
323
337
324
349
368
384
364
392
414
432
403
433
457
477
LO P
R10
711
412
513
311
312
113
214
011
812
513
714
612
413
214
415
313
013
815
116
013
414
315
616
6M
Bh34
.134
.837
.239
.833
.334
.036
.338
.832
.533
.235
.537
.931
.732
.434
.637
.030
.130
.832
.935
.127
.928
.530
.432
.5S/
T0.
860.
810.
660.
490.
890.
840.
680.
510.
910.
860.
700.
520.
940.
880.
720.
540.
980.
920.
750.
560.
990.
930.
750.
56D
elta
T26
2521
1726
2522
1726
2522
1726
2522
1726
2522
1724
2320
1680
1050
KW
2.36
2.41
2.48
2.56
2.53
2.58
2.66
2.74
2.68
2.74
2.82
2.91
2.81
2.87
2.96
3.06
2.93
2.99
3.08
3.18
3.02
3.09
3.19
3.29
AM
PS8.
78.
99.
29.
59.
49.
69.
910
.310
.210
.410
.711
.110
.811
.111
.411
.811
.511
.812
.112
.612
.212
.412
.813
.3H
I PR
221
237
251
261
248
266
281
293
282
303
320
334
321
345
364
380
361
388
410
428
399
429
453
472
LO P
R10
611
312
313
111
211
913
013
911
712
413
614
412
313
014
215
212
813
714
915
913
314
115
416
4M
Bh31
.432
.134
.336
.730
.731
.433
.535
.830
.030
.632
.735
.029
.329
.931
.934
.127
.828
.430
.332
.425
.726
.328
.130
.0S/
T0.
830.
780.
630.
470.
860.
810.
660.
490.
880.
830.
670.
500.
910.
850.
690.
520.
940.
890.
720.
540.
950.
890.
730.
54D
elta
T26
2522
1726
2522
1826
2522
1827
2622
1826
2522
1725
2320
1691
9K
W2.
312.
362.
422.
502.
472.
522.
602.
682.
622.
672.
762.
842.
752.
812.
892.
982.
862.
923.
013.
102.
953.
013.
113.
21A
MPS
8.5
8.7
9.0
9.3
9.1
9.4
9.6
10.0
9.9
10.1
10.4
10.8
10.5
10.8
11.1
11.5
11.2
11.5
11.8
12.2
11.8
12.1
12.5
13.0
HI P
R21
423
024
325
424
025
827
328
527
329
431
032
431
133
535
336
935
037
739
841
538
741
643
945
8LO
PR
103
110
120
127
109
116
126
135
113
120
131
140
119
126
138
147
125
133
145
154
129
137
150
159
MBh
35.7
136
.40
38.1
240
.67
34.8
835
.55
37.2
339
.72
34.0
434
.70
36.3
538
.78
33.2
133
.86
35.4
637
.83
31.5
532
.16
33.6
935
.94
29.2
329
.79
31.2
033
.29
S/T
0.95
0.91
0.82
0.67
0.98
0.95
0.85
0.69
1.00
0.97
0.87
0.71
1.00
1.00
0.90
0.73
1.00
1.00
0.94
0.76
1.00
1.00
0.94
0.77
Del
ta T
2626
2421
2726
2521
2626
2521
2626
2522
2525
2521
2323
2320
1181
KW
2.40
2.45
2.52
2.59
2.57
2.62
2.70
2.79
2.72
2.78
2.87
2.96
2.86
2.92
3.01
3.11
2.97
3.04
3.13
3.23
3.07
3.14
3.24
3.34
AM
PS8.
99.
19.
49.
79.
69.
810
.110
.410
.310
.610
.911
.311
.011
.311
.612
.111
.712
.012
.412
.812
.412
.713
.113
.6H
I PR
225
242
256
267
253
272
287
299
287
309
326
340
327
352
372
388
368
396
418
436
407
438
462
482
LO P
R10
811
512
613
411
512
213
314
211
912
713
814
712
513
314
515
513
113
915
216
213
614
415
716
8M
Bh34
.735
.337
.039
.533
.934
.536
.138
.633
.133
.735
.337
.632
.232
.934
.436
.730
.631
.232
.734
.928
.428
.930
.332
.3S/
T0.
900.
870.
790.
640.
930.
900.
810.
660.
960.
920.
830.
680.
990.
950.
860.
701.
000.
990.
890.
731.
001.
000.
900.
73D
elta
T27
2725
2228
2726
2228
2726
2228
2726
2227
2726
2225
2524
2185
1050
KW
2.38
2.43
2.50
2.57
2.55
2.60
2.68
2.77
2.70
2.76
2.84
2.93
2.84
2.90
2.99
3.08
2.95
3.01
3.11
3.21
3.05
3.11
3.21
3.32
AM
PS8.
89.
09.
39.
69.
59.
710
.010
.310
.310
.510
.811
.210
.911
.211
.512
.011
.611
.912
.312
.712
.312
.513
.013
.4H
I PR
223
240
253
264
250
269
284
296
284
306
323
337
324
349
368
384
364
392
414
432
403
433
457
477
LO P
R10
711
412
513
311
312
113
214
011
812
513
714
612
413
214
415
313
013
815
116
013
414
315
616
6M
Bh32
.032
.634
.236
.431
.331
.933
.435
.630
.531
.132
.634
.729
.830
.331
.833
.928
.328
.830
.232
.226
.226
.728
.029
.8S/
T0.
870.
840.
760.
610.
900.
870.
780.
640.
920.
890.
800.
650.
950.
920.
830.
670.
990.
950.
860.
701.
000.
960.
870.
71D
elta
T28
2726
2228
2826
2328
2826
2328
2826
2328
2826
2326
2624
2191
9K
W2.
332.
372.
442.
522.
492.
542.
622.
702.
642.
692.
782.
862.
772.
832.
923.
012.
882.
943.
033.
132.
983.
043.
133.
24A
MPS
8.6
8.8
9.0
9.4
9.2
9.4
9.7
10.1
10.0
10.2
10.5
10.9
10.6
10.9
11.2
11.6
11.3
11.6
11.9
12.4
11.9
12.2
12.6
13.1
HI P
R21
623
324
625
624
326
127
628
727
629
731
332
731
433
835
737
235
338
040
241
939
142
044
446
3LO
PR
104
111
121
129
110
117
128
136
114
122
133
141
120
128
139
149
126
134
146
156
130
138
151
161
Sha
ded
area
is A
RI R
atin
g Co
nditio
nsID
B: E
nter
ing
Indo
or D
ry B
ulb
Tem
pera
ture
KW=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
17
COOLING PERFORMANCE DATA SSZ140421A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
MO
DEL
: S
SZ1
4042
1A*
/ CA
*F48
60*6
A*+
TXV
/ M
BR
2000
**-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h39
.240
.644
.5-
38.3
39.7
43.5
-37
.438
.742
.4-
36.5
37.8
41.4
-34
.635
.939
.3-
32.1
33.3
36.4
-S
/T0.
770.
650.
45-
0.80
0.67
0.46
-0.
820.
690.
48-
0.85
0.71
0.49
-0.
880.
740.
51-
0.89
0.74
0.51
-D
elta
T18
1512
-18
1612
-18
1612
-18
1612
-18
1512
-17
1411
-15
75K
W2.
652.
712.
78-
2.84
2.90
2.98
-3.
013.
073.
16-
3.15
3.22
3.31
-3.
283.
343.
45-
3.38
3.45
3.56
-A
MPS
9.7
9.9
10.2
-10
.410
.711
.0-
11.3
11.6
12.0
-12
.112
.412
.8-
12.8
13.1
13.6
-13
.613
.914
.4-
HI P
R21
823
424
7-
244
263
277
-27
829
931
5-
316
340
359
-35
638
340
4-
393
423
447
-LO
PR
107
114
125
-11
312
113
2-
118
125
137
-12
413
214
4-
130
138
151
-13
414
315
6-
MB
h38
.139
.443
.2-
37.2
38.5
42.2
-36
.337
.641
.2-
35.4
36.7
40.2
-33
.634
.938
.2-
31.2
32.3
35.4
-S
/T0.
740.
620.
43-
0.77
0.64
0.44
-0.
790.
660.
45-
0.81
0.68
0.47
-0.
840.
700.
49-
0.85
0.71
0.49
-D
elta
T18
1612
-19
1612
-19
1612
-19
1612
-19
1612
-17
1511
-70
1400
KW
2.63
2.69
2.76
-2.
822.
882.
96-
2.98
3.04
3.14
-3.
133.
193.
29-
3.25
3.32
3.42
-3.
363.
433.
53-
AM
PS9.
69.
810
.1-
10.4
10.6
10.9
-11
.211
.511
.8-
12.0
12.2
12.6
-12
.713
.013
.4-
13.4
13.8
14.2
-H
I PR
215
232
245
-24
226
027
5-
275
296
312
-31
333
735
6-
352
379
400
-38
941
944
2-
LO P
R10
611
312
3-
112
120
130
-11
712
413
6-
123
130
142
-12
913
714
9-
133
141
154
-M
Bh
35.1
36.4
39.9
-34
.335
.639
.0-
33.5
34.7
38.0
-32
.733
.937
.1-
31.0
32.2
35.2
-28
.829
.832
.7-
S/T
0.71
0.59
0.41
-0.
740.
620.
43-
0.76
0.63
0.44
-0.
780.
650.
45-
0.81
0.68
0.47
-0.
820.
680.
47-
Del
ta T
1916
12-
1916
12-
1916
13-
1917
13-
1916
12-
1815
12-
1225
KW
2.58
2.63
2.70
-2.
762.
812.
89-
2.92
2.97
3.06
-3.
063.
123.
21-
3.17
3.24
3.34
-3.
283.
353.
45-
AM
PS9.
49.
69.
9-
10.1
10.3
10.6
-10
.911
.211
.5-
11.6
11.9
12.3
-12
.412
.713
.1-
13.1
13.4
13.8
-H
I PR
209
225
237
-23
425
226
6-
267
287
303
-30
432
734
5-
342
368
388
-37
740
642
9-
LO P
R10
311
012
0-
109
116
127
-11
312
013
2-
119
127
138
-12
513
314
5-
129
137
150
-
MB
h39
.941
.044
.447
.738
.940
.143
.446
.638
.039
.142
.445
.537
.138
.241
.344
.435
.236
.339
.342
.132
.633
.636
.439
.0S
/T0.
880.
790.
600.
380.
910.
820.
620.
400.
940.
840.
630.
410.
970.
860.
650.
421.
000.
900.
680.
441.
000.
900.
680.
44D
elta
T20
1915
1121
1916
1121
1916
1121
1916
1121
1916
1119
1815
1015
75K
W2.
672.
732.
802.
892.
862.
923.
013.
103.
033.
093.
183.
283.
183.
243.
343.
453.
303.
373.
473.
583.
413.
483.
593.
70A
MPS
9.8
10.0
10.3
10.7
10.5
10.8
11.1
11.5
11.4
11.7
12.1
12.5
12.2
12.5
12.9
13.3
12.9
13.3
13.7
14.2
13.7
14.0
14.5
15.0
HI P
R22
023
625
026
024
726
528
029
228
030
231
933
231
934
436
337
935
938
740
842
639
742
745
147
1LO
PR
108
115
126
134
115
122
133
142
119
127
138
147
125
133
145
155
131
140
152
162
136
144
158
168
MB
h38
.739
.843
.146
.337
.838
.942
.145
.236
.938
.041
.144
.136
.037
.140
.143
.134
.235
.238
.140
.931
.732
.635
.337
.9S
/T0.
840.
750.
570.
370.
870.
780.
590.
380.
890.
800.
600.
390.
920.
820.
620.
400.
960.
860.
650.
420.
960.
860.
650.
42D
elta
T21
2016
1122
2016
1122
2016
1122
2016
1121
2016
1120
1815
1075
1400
KW
2.65
2.71
2.78
2.87
2.84
2.90
2.98
3.07
3.01
3.07
3.16
3.26
3.15
3.22
3.32
3.42
3.28
3.34
3.45
3.56
3.38
3.45
3.56
3.68
AM
PS9.
79.
910
.210
.610
.410
.711
.011
.411
.311
.612
.012
.412
.112
.412
.813
.212
.813
.113
.614
.113
.613
.914
.414
.9H
I PR
218
234
247
258
244
263
277
289
278
299
316
329
316
340
359
375
356
383
404
422
393
423
447
466
LO P
R10
711
412
513
311
312
113
214
011
812
513
714
612
413
214
415
313
013
815
116
113
414
315
616
6M
Bh
35.7
36.8
39.8
42.7
34.9
35.9
38.9
41.7
34.1
35.1
38.0
40.7
33.2
34.2
37.0
39.7
31.6
32.5
35.2
37.8
29.2
30.1
32.6
35.0
S/T
0.81
0.72
0.55
0.35
0.84
0.75
0.57
0.37
0.86
0.77
0.58
0.37
0.89
0.79
0.60
0.39
0.92
0.82
0.62
0.40
0.93
0.83
0.63
0.40
Del
ta T
2220
1611
2220
1711
2220
1711
2220
1712
2220
1611
2019
1511
1225
KW
2.60
2.65
2.72
2.80
2.78
2.83
2.92
3.00
2.94
3.00
3.09
3.18
3.08
3.14
3.24
3.34
3.20
3.27
3.37
3.47
3.30
3.37
3.48
3.59
AM
PS9.
49.
710
.010
.310
.210
.410
.711
.111
.011
.311
.612
.111
.712
.012
.412
.912
.512
.813
.213
.713
.213
.514
.014
.5H
I PR
211
227
240
250
237
255
269
281
269
290
306
319
307
330
349
364
345
371
392
409
381
410
433
452
LO P
R10
411
112
112
911
011
712
813
611
412
213
314
212
012
814
014
912
613
414
615
613
013
915
116
1
Sha
ded
area
is A
CC
A (
TVA
) co
nditi
ons
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
18
COOLING PERFORMANCE DATA SSZ140421A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4042
1A*
/ CA
*F48
60*6
A*+
TXV
/ M
BR
2000
**-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h40
.641
.544
.347
.339
.640
.543
.346
.238
.739
.542
.245
.137
.738
.641
.244
.035
.936
.639
.141
.833
.233
.936
.338
.8S
/T0.
970.
910.
740.
551.
000.
940.
760.
571.
000.
960.
780.
591.
001.
000.
810.
601.
001.
000.
840.
631.
001.
000.
850.
63D
elta
T23
2219
1523
2219
1523
2219
1522
2319
1621
2119
1519
2018
1415
75K
W2.
692.
752.
832.
912.
882.
943.
033.
123.
053.
113.
213.
313.
203.
273.
373.
473.
333.
403.
503.
613.
443.
513.
623.
73A
MPS
9.9
10.1
10.4
10.8
10.6
10.9
11.2
11.6
11.5
11.8
12.2
12.6
12.3
12.6
13.0
13.5
13.1
13.4
13.8
14.3
13.8
14.2
14.6
15.2
HI P
R22
223
925
226
324
926
828
329
528
330
532
233
632
334
736
738
236
339
141
243
040
143
245
647
5LO
PR
110
117
127
136
116
123
134
143
120
128
140
149
126
134
147
156
132
141
154
164
137
146
159
169
MB
h39
.440
.243
.046
.038
.539
.342
.044
.937
.638
.441
.043
.836
.637
.440
.042
.834
.835
.638
.040
.632
.232
.935
.237
.6S
/T0.
920.
860.
700.
530.
950.
900.
730.
540.
980.
920.
750.
561.
000.
950.
770.
581.
000.
980.
800.
601.
000.
990.
810.
60D
elta
T24
2320
1624
2320
1624
2320
1624
2320
1623
2320
1621
2119
1580
1400
KW
2.67
2.73
2.80
2.89
2.86
2.92
3.01
3.10
3.03
3.09
3.18
3.28
3.18
3.24
3.34
3.45
3.30
3.37
3.48
3.59
3.41
3.48
3.59
3.71
AM
PS9.
810
.010
.310
.710
.510
.811
.111
.511
.411
.712
.112
.512
.212
.512
.913
.312
.913
.313
.714
.213
.714
.014
.515
.0H
I PR
220
237
250
260
247
265
280
292
280
302
319
332
319
344
363
379
359
387
408
426
397
427
451
471
LO P
R10
911
512
613
411
512
213
314
211
912
713
814
712
513
314
515
513
114
015
216
213
614
415
816
8M
Bh
36.4
37.1
39.7
42.4
35.5
36.3
38.8
41.4
34.7
35.4
37.8
40.5
33.8
34.6
36.9
39.5
32.1
32.8
35.1
37.5
29.8
30.4
32.5
34.7
S/T
0.89
0.83
0.68
0.51
0.92
0.86
0.70
0.53
0.94
0.89
0.72
0.54
0.97
0.91
0.74
0.56
1.01
0.95
0.77
0.58
1.02
0.96
0.78
0.58
Del
ta T
2423
2016
2524
2016
2524
2016
2524
2116
2423
2016
2322
1915
1225
KW
2.61
2.67
2.74
2.82
2.80
2.85
2.94
3.03
2.96
3.02
3.11
3.21
3.10
3.17
3.26
3.36
3.22
3.29
3.39
3.50
3.33
3.40
3.50
3.62
AM
PS9.
59.
710
.010
.410
.310
.510
.811
.211
.111
.411
.712
.211
.912
.112
.513
.012
.612
.913
.313
.813
.313
.614
.114
.6H
I PR
213
229
242
253
239
257
272
284
272
293
309
322
310
333
352
367
349
375
396
413
385
414
438
456
LO P
R10
511
212
213
011
111
812
913
811
612
313
414
312
112
914
115
012
713
514
815
713
214
015
316
3
MB
h41
.342
.144
.147
.040
.341
.143
.045
.939
.440
.142
.044
.838
.439
.141
.043
.736
.537
.238
.941
.533
.834
.436
.138
.5S
/T1.
000.
980.
880.
721.
001.
000.
910.
741.
001.
000.
940.
761.
001.
000.
970.
781.
001.
001.
000.
811.
001.
001.
000.
82D
elta
T24
2423
2024
2423
2023
2323
2022
2323
2021
2223
2020
2021
1815
75K
W2.
712.
772.
852.
932.
912.
963.
053.
153.
083.
143.
233.
333.
233.
293.
393.
503.
353.
423.
533.
643.
463.
543.
653.
76A
MPS
9.9
10.2
10.5
10.9
10.7
11.0
11.3
11.7
11.6
11.9
12.3
12.7
12.4
12.7
13.1
13.6
13.2
13.5
13.9
14.5
13.9
14.3
14.8
15.3
HI P
R22
424
125
526
625
227
128
629
828
630
832
533
932
635
137
038
636
739
541
743
440
543
646
048
0LO
PR
111
118
129
137
117
124
136
145
122
129
141
150
128
136
148
158
134
142
155
165
138
147
161
171
MB
h40
.140
.942
.845
.639
.139
.941
.844
.638
.239
.040
.843
.537
.338
.039
.842
.535
.436
.137
.840
.332
.833
.435
.037
.4S
/T0.
970.
930.
840.
681.
000.
970.
870.
711.
000.
990.
890.
721.
001.
000.
920.
751.
001.
000.
960.
781.
001.
000.
970.
78D
elta
T25
2524
2026
2524
2125
2524
2124
2524
2123
2424
2122
2222
1985
1400
KW
2.69
2.75
2.83
2.91
2.88
2.94
3.03
3.12
3.05
3.11
3.21
3.31
3.20
3.27
3.37
3.47
3.33
3.40
3.50
3.61
3.44
3.51
3.62
3.73
AM
PS9.
910
.110
.410
.810
.610
.911
.211
.611
.511
.812
.212
.612
.312
.613
.013
.513
.113
.413
.814
.313
.814
.214
.615
.2H
I PR
222
239
252
263
249
268
283
295
283
305
322
336
323
347
367
382
363
391
412
430
401
432
456
475
LO P
R11
011
712
713
611
612
313
414
312
012
814
014
912
613
414
715
613
214
115
416
413
714
615
916
9M
Bh
37.0
37.7
39.5
42.1
36.1
36.8
38.6
41.2
35.3
36.0
37.7
40.2
34.4
35.1
36.7
39.2
32.7
33.3
34.9
37.2
30.3
30.9
32.3
34.5
S/T
0.93
0.90
0.81
0.66
0.96
0.93
0.84
0.68
0.99
0.95
0.86
0.70
1.00
0.99
0.89
0.72
1.00
1.00
0.92
0.75
1.00
1.00
0.93
0.76
Del
ta T
2625
2421
2626
2421
2626
2421
2626
2521
2525
2421
2323
2320
1225
KW
2.63
2.68
2.76
2.84
2.82
2.87
2.96
3.05
2.98
3.04
3.13
3.23
3.13
3.19
3.29
3.39
3.25
3.32
3.42
3.53
3.36
3.43
3.53
3.64
AM
PS9.
69.
810
.110
.510
.310
.610
.911
.311
.211
.511
.812
.312
.012
.212
.613
.112
.713
.013
.413
.913
.413
.814
.214
.7H
I PR
215
232
245
255
242
260
275
286
275
296
312
326
313
337
356
371
352
379
400
417
389
419
442
461
LO P
R10
611
312
313
111
211
913
013
911
712
413
614
412
313
014
215
212
813
714
915
913
314
115
416
4
Sha
ded
area
is A
RI R
atin
g C
ondi
tions
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
19
COOLING PERFORMANCE DATA SSZ140481A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4048
1A*
/ CA
*F48
60*6
A*+
TXV
/ M
BR
2000
**-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h45
.146
.751
.2-
44.0
45.6
50.0
-43
.044
.548
.8-
41.9
43.5
47.6
-39
.841
.345
.2-
36.9
38.2
41.9
-S
/T0.
760.
640.
44-
0.79
0.66
0.46
-0.
810.
680.
47-
0.84
0.70
0.48
-0.
870.
730.
50-
0.88
0.73
0.51
-D
elta
T18
1612
-18
1612
-18
1612
-18
1612
-18
1612
-17
1511
-17
44K
W2.
983.
043.
13-
3.19
3.26
3.36
-3.
383.
453.
56-
3.55
3.62
3.73
-3.
693.
773.
88-
3.81
3.89
4.01
-A
MPS
5.9
6.2
6.5
-6.
87.
07.
4-
7.7
8.0
8.5
-8.
68.
99.
4-
9.5
9.8
10.3
-10
.310
.711
.2-
HI P
R21
723
324
7-
243
262
277
-27
729
831
5-
315
339
358
-35
538
240
3-
392
422
445
-LO
PR
106
113
123
-11
211
913
0-
116
124
135
-12
213
014
2-
128
136
149
-13
214
115
4-
MB
h43
.845
.449
.7-
42.7
44.3
48.5
-41
.743
.247
.4-
40.7
42.2
46.2
-38
.740
.143
.9-
35.8
37.1
40.7
-S
/T0.
730.
610.
42-
0.75
0.63
0.44
-0.
770.
650.
45-
0.80
0.67
0.46
-0.
830.
690.
48-
0.84
0.70
0.48
-D
elta
T19
1612
-19
1713
-19
1713
-19
1713
-19
1612
-18
1512
-70
1550
KW
2.96
3.02
3.10
-3.
173.
233.
33-
3.36
3.42
3.53
-3.
523.
593.
70-
3.66
3.74
3.85
-3.
783.
863.
98-
AM
PS5.
86.
16.
4-
6.7
6.9
7.3
-7.
67.
98.
4-
8.5
8.8
9.3
-9.
39.
710
.2-
10.2
10.5
11.0
-H
I PR
215
231
244
-24
125
927
4-
274
295
311
-31
233
635
5-
351
378
399
-38
841
844
1-
LO P
R10
511
212
2-
111
118
129
-11
512
213
4-
121
129
140
-12
713
514
7-
131
139
152
-M
Bh
40.4
41.9
45.9
-39
.540
.944
.8-
38.5
39.9
43.7
-37
.638
.942
.7-
35.7
37.0
40.5
-33
.134
.337
.5-
S/T
0.70
0.59
0.41
-0.
730.
610.
42-
0.75
0.62
0.43
-0.
770.
640.
45-
0.80
0.67
0.46
-0.
810.
670.
47-
Del
ta T
1917
13-
1917
13-
1917
13-
2017
13-
1917
13-
1816
12-
1356
KW
2.89
2.95
3.04
-3.
103.
163.
25-
3.28
3.34
3.45
-3.
443.
513.
62-
3.57
3.65
3.76
-3.
693.
773.
89-
AM
PS5.
55.
86.
1-
6.3
6.6
7.0
-7.
37.
68.
0-
8.1
8.4
8.9
-8.
99.
39.
7-
9.7
10.1
10.6
-H
I PR
208
224
237
-23
425
226
6-
266
286
302
-30
332
634
4-
341
367
387
-37
640
542
8-
LO P
R10
210
811
8-
107
114
125
-11
211
913
0-
117
125
136
-12
313
114
3-
127
135
148
-
MB
h45
.847
.251
.154
.844
.846
.149
.953
.643
.745
.048
.752
.342
.643
.947
.551
.040
.541
.745
.148
.537
.538
.641
.844
.9S
/T0.
870.
780.
590.
380.
900.
800.
610.
390.
920.
820.
620.
400.
950.
850.
640.
410.
990.
880.
670.
431.
000.
890.
670.
43D
elta
T21
1916
1121
2016
1121
2016
1121
2016
1121
1916
1120
1815
1017
44K
W3.
003.
063.
153.
253.
223.
283.
383.
493.
413.
483.
583.
703.
583.
653.
763.
883.
723.
803.
924.
043.
843.
924.
054.
18A
MPS
6.0
6.3
6.6
7.0
6.9
7.1
7.5
8.0
7.9
8.2
8.6
9.1
8.7
9.1
9.5
10.0
9.6
9.9
10.4
11.0
10.4
10.8
11.3
11.9
HI P
R21
923
624
926
024
626
527
929
128
030
131
833
131
934
336
237
835
838
640
742
539
642
645
046
9LO
PR
107
114
124
132
113
120
131
140
117
125
136
145
123
131
143
153
129
138
150
160
134
142
155
165
MB
h44
.545
.849
.653
.243
.544
.848
.452
.042
.443
.747
.350
.841
.442
.646
.149
.539
.340
.543
.847
.036
.437
.540
.643
.6S
/T0.
830.
740.
560.
360.
860.
770.
580.
370.
880.
790.
590.
380.
910.
810.
610.
400.
940.
840.
640.
410.
950.
850.
640.
41D
elta
T22
2016
1122
2017
1222
2017
1222
2117
1222
2017
1121
1915
1175
1550
KW
2.98
3.04
3.13
3.22
3.19
3.26
3.36
3.46
3.38
3.45
3.56
3.67
3.55
3.62
3.73
3.85
3.69
3.77
3.88
4.01
3.81
3.89
4.01
4.14
AM
PS5.
96.
26.
56.
96.
87.
07.
47.
97.
78.
18.
59.
08.
68.
99.
49.
99.
59.
810
.310
.910
.310
.711
.211
.8H
I PR
217
233
247
257
243
262
277
289
277
298
315
328
315
339
358
374
355
382
403
421
392
422
445
465
LO P
R10
611
312
313
111
211
913
013
811
612
413
514
412
213
014
215
112
813
614
915
813
214
115
416
4M
Bh
41.1
42.3
45.8
49.1
40.1
41.3
44.7
48.0
39.2
40.3
43.7
46.8
38.2
39.3
42.6
45.7
36.3
37.4
40.5
43.4
33.6
34.6
37.5
40.2
S/T
0.80
0.71
0.54
0.35
0.83
0.74
0.56
0.36
0.85
0.76
0.57
0.37
0.87
0.78
0.59
0.38
0.91
0.81
0.61
0.40
0.92
0.82
0.62
0.40
Del
ta T
2220
1712
2221
1712
2221
1712
2321
1712
2221
1712
2119
1611
1356
KW
2.91
2.97
3.06
3.15
3.12
3.18
3.28
3.38
3.30
3.37
3.47
3.58
3.46
3.54
3.65
3.76
3.60
3.68
3.79
3.91
3.72
3.80
3.92
4.04
AM
PS5.
65.
96.
26.
66.
46.
77.
17.
57.
47.
78.
18.
68.
28.
69.
09.
59.
19.
49.
910
.49.
910
.210
.711
.3H
I PR
210
226
239
249
236
254
268
280
269
289
305
318
306
329
348
363
344
370
391
408
380
409
432
451
LO P
R10
310
911
912
710
911
512
613
411
312
013
114
011
812
613
814
712
413
214
415
412
813
714
915
9
Sha
ded
area
is A
CC
A (
TVA
) co
nditi
ons
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
20
COOLING PERFORMANCE DATA SSZ140481A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4048
1A*
/ CA
*F48
60*6
A*+
TXV
/ M
BR
2000
**-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h46
.747
.750
.954
.445
.646
.649
.753
.244
.545
.548
.651
.943
.444
.347
.450
.641
.242
.145
.048
.138
.239
.041
.744
.6S
/T0.
950.
890.
730.
541.
000.
920.
750.
561.
000.
950.
770.
581.
001.
000.
800.
601.
001.
000.
830.
621.
001.
000.
830.
62D
elta
T23
2219
1624
2320
1623
2320
1623
2320
1622
2220
1620
2118
1517
44K
W3.
033.
083.
183.
273.
243.
313.
413.
513.
433.
513.
613.
733.
603.
683.
793.
913.
753.
833.
954.
073.
873.
954.
084.
21A
MPS
6.1
6.4
6.7
7.1
7.0
7.3
7.6
8.1
8.0
8.3
8.7
9.2
8.8
9.2
9.6
10.2
9.7
10.1
10.6
11.2
10.6
11.0
11.5
12.1
HI P
R22
123
825
226
224
826
728
229
428
230
432
133
532
234
636
638
136
239
041
142
940
043
045
447
4LO
PR
108
115
125
134
114
121
133
141
119
126
138
147
125
133
145
154
131
139
152
162
135
144
157
167
MB
h45
.346
.349
.552
.944
.245
.248
.351
.643
.244
.147
.250
.442
.143
.146
.049
.240
.040
.943
.746
.737
.137
.940
.543
.3S
/T0.
910.
850.
690.
520.
940.
880.
720.
540.
960.
900.
740.
550.
990.
930.
760.
571.
000.
970.
790.
591.
000.
980.
790.
59D
elta
T24
2320
1625
2421
1625
2421
1625
2421
1724
2320
1622
2219
1580
1550
KW
3.00
3.06
3.15
3.25
3.22
3.28
3.38
3.49
3.41
3.48
3.58
3.70
3.58
3.65
3.76
3.88
3.72
3.80
3.92
4.04
3.84
3.92
4.05
4.18
AM
PS6.
06.
36.
67.
06.
97.
17.
58.
07.
98.
28.
69.
18.
79.
19.
510
.19.
69.
910
.411
.010
.410
.811
.311
.9H
I PR
219
236
249
260
246
265
279
291
280
301
318
332
319
343
362
378
358
386
407
425
396
426
450
469
LO P
R10
711
412
413
211
312
013
114
011
712
513
614
512
313
114
315
312
913
815
016
013
414
215
516
5M
Bh
41.8
42.7
45.6
48.8
40.8
41.7
44.6
47.7
39.9
40.7
43.5
46.5
38.9
39.7
42.5
45.4
36.9
37.8
40.3
43.1
34.2
35.0
37.4
39.9
S/T
0.87
0.82
0.67
0.50
0.91
0.85
0.69
0.52
0.93
0.87
0.71
0.53
0.96
0.90
0.73
0.55
1.00
0.93
0.76
0.57
1.00
0.94
0.77
0.57
Del
ta T
2524
2117
2524
2117
2524
2117
2524
2117
2524
2117
2322
1916
1356
KW
2.94
2.99
3.08
3.17
3.14
3.21
3.30
3.40
3.33
3.40
3.50
3.61
3.49
3.56
3.67
3.79
3.63
3.71
3.82
3.94
3.75
3.83
3.95
4.08
AM
PS5.
76.
06.
36.
76.
66.
87.
27.
67.
57.
88.
28.
78.
48.
79.
19.
69.
29.
510
.010
.610
.010
.410
.911
.5H
I PR
213
229
242
252
239
257
271
283
271
292
308
322
309
333
351
366
348
374
395
412
384
413
436
455
LO P
R10
411
012
112
811
011
712
713
611
412
113
214
112
012
713
914
812
513
314
615
513
013
815
116
0
MB
h47
.548
.450
.754
.146
.447
.349
.552
.845
.346
.148
.351
.644
.245
.047
.150
.342
.042
.844
.847
.838
.939
.641
.544
.3S
/T1.
000.
960.
870.
701.
001.
000.
900.
731.
001.
000.
920.
751.
001.
000.
950.
771.
001.
000.
990.
801.
001.
001.
000.
81D
elta
T25
2523
2024
2523
2024
2424
2023
2424
2022
2323
2020
2122
1917
44K
W3.
053.
113.
203.
303.
273.
333.
433.
543.
463.
533.
643.
763.
633.
713.
823.
953.
783.
863.
984.
113.
903.
994.
114.
25A
MPS
6.2
6.5
6.8
7.2
7.1
7.4
7.8
8.2
8.1
8.4
8.8
9.4
9.0
9.3
9.8
10.3
9.9
10.2
10.7
11.3
10.7
11.1
11.6
12.3
HI P
R22
424
125
426
525
127
028
529
728
530
732
433
832
535
036
938
536
639
341
543
340
443
545
947
9LO
PR
109
116
127
135
115
123
134
143
120
127
139
148
126
134
146
156
132
140
153
163
136
145
158
169
MB
h46
.147
.049
.252
.545
.045
.948
.151
.343
.944
.846
.950
.142
.943
.745
.848
.840
.741
.543
.546
.437
.738
.540
.343
.0S
/T0.
950.
920.
830.
670.
990.
950.
860.
701.
000.
970.
880.
711.
001.
000.
910.
741.
001.
000.
940.
761.
001.
000.
950.
77D
elta
T26
2624
2126
2624
2126
2624
2125
2625
2124
2524
2122
2323
2085
1550
KW
3.03
3.08
3.18
3.27
3.24
3.31
3.41
3.51
3.43
3.51
3.61
3.73
3.60
3.68
3.79
3.91
3.75
3.83
3.95
4.07
3.87
3.95
4.08
4.21
AM
PS6.
16.
46.
77.
17.
07.
37.
68.
18.
08.
38.
79.
28.
89.
29.
610
.29.
710
.110
.611
.210
.611
.011
.512
.1H
I PR
221
238
252
262
248
267
282
294
282
304
321
335
322
346
366
381
362
390
411
429
400
430
454
474
LO P
R10
811
512
513
411
412
113
314
111
912
613
814
712
513
314
515
413
113
915
216
213
514
415
716
7M
Bh
42.5
43.4
45.4
48.5
41.5
42.4
44.4
47.3
40.6
41.3
43.3
46.2
39.6
40.3
42.2
45.1
37.6
38.3
40.1
42.8
34.8
35.5
37.2
39.7
S/T
0.92
0.88
0.80
0.65
0.95
0.92
0.83
0.67
0.97
0.94
0.85
0.69
1.00
0.97
0.88
0.71
1.00
1.00
0.91
0.74
1.00
1.00
0.92
0.74
Del
ta T
2626
2521
2726
2522
2726
2522
2727
2522
2526
2521
2424
2320
1356
KW
2.96
3.02
3.10
3.20
3.17
3.23
3.33
3.43
3.35
3.42
3.53
3.64
3.52
3.59
3.70
3.82
3.66
3.74
3.85
3.97
3.78
3.86
3.98
4.11
AM
PS5.
86.
16.
46.
86.
76.
97.
37.
87.
67.
98.
38.
88.
58.
89.
29.
89.
39.
710
.110
.710
.210
.511
.011
.6H
I PR
215
231
244
254
241
259
274
286
274
295
311
325
312
336
355
370
351
378
399
416
388
417
441
460
LO P
R10
511
112
213
011
111
812
913
711
512
213
414
212
112
914
015
012
713
514
715
713
113
915
216
2
Sha
ded
area
is A
RI R
atin
g C
ondi
tions
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
21
COOLING PERFORMANCE DATA SSZ140601A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4060
1A*
/ CA
*F48
60*6
A*+
TXV
/ M
BE2
000*
*-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h55
.457
.462
.9-
54.1
56.1
61.4
-52
.854
.759
.9-
51.5
53.4
58.5
-48
.950
.755
.6-
45.3
47.0
51.5
-S
/T0.
740.
620.
43-
0.77
0.64
0.45
-0.
790.
660.
46-
0.81
0.68
0.47
-0.
850.
710.
49-
0.85
0.71
0.49
-D
elta
T18
1612
-18
1612
-18
1612
-19
1612
-18
1612
-17
1511
-20
81K
W3.
633.
703.
82-
3.91
3.99
4.12
-4.
164.
254.
39-
4.38
4.48
4.63
-4.
574.
674.
83-
4.73
4.83
5.00
-A
MPS
7.6
7.9
8.4
-8.
79.
19.
6-
10.0
10.4
10.9
-11
.111
.512
.1-
12.2
12.7
13.3
-13
.313
.814
.5-
HI P
R21
923
624
9-
246
264
279
-27
930
131
8-
318
343
362
-35
838
540
7-
396
426
450
-LO
PR
103
110
120
-10
911
612
6-
113
120
131
-11
912
613
8-
125
132
145
-12
913
715
0-
MB
h53
.855
.761
.0-
52.5
54.4
59.6
-51
.353
.158
.2-
50.0
51.8
56.8
-47
.549
.253
.9-
44.0
45.6
50.0
-S
/T0.
710.
590.
41-
0.73
0.61
0.42
-0.
750.
630.
44-
0.78
0.65
0.45
-0.
810.
670.
47-
0.81
0.68
0.47
-D
elta
T19
1612
-19
1713
-19
1713
-19
1713
-19
1613
-18
1512
-70
1850
KW
3.60
3.67
3.79
-3.
883.
964.
09-
4.12
4.22
4.35
-4.
344.
444.
59-
4.53
4.63
4.78
-4.
694.
794.
96-
AM
PS7.
47.
88.
2-
8.6
8.9
9.4
-9.
810
.210
.8-
11.0
11.4
12.0
-12
.112
.513
.1-
13.2
13.6
14.3
-H
I PR
217
233
246
-24
326
227
6-
277
298
314
-31
533
935
8-
355
382
403
-39
242
244
5-
LO P
R10
210
811
8-
108
115
125
-11
211
913
0-
118
125
137
-12
313
114
3-
128
136
148
-M
Bh
49.6
51.4
56.3
-48
.550
.255
.0-
47.3
49.0
53.7
-46
.247
.852
.4-
43.8
45.4
49.8
-40
.642
.146
.1-
S/T
0.68
0.57
0.40
-0.
710.
590.
41-
0.73
0.61
0.42
-0.
750.
630.
43-
0.78
0.65
0.45
-0.
780.
650.
45-
Del
ta T
1917
13-
1917
13-
1917
13-
2017
13-
1917
13-
1816
12-
1619
KW
3.51
3.58
3.70
-3.
783.
863.
99-
4.02
4.11
4.24
-4.
234.
334.
47-
4.41
4.51
4.66
-4.
574.
674.
83-
AM
PS7.
17.
47.
8-
8.2
8.5
9.0
-9.
49.
810
.3-
10.5
10.9
11.5
-11
.612
.012
.6-
12.6
13.1
13.7
-H
I PR
210
226
239
-23
625
426
8-
268
289
305
-30
632
934
7-
344
370
391
-38
040
943
2-
LO P
R99
105
115
-10
511
112
1-
109
116
126
-11
412
113
3-
120
127
139
-12
413
214
4-
MB
h56
.358
.062
.767
.355
.056
.661
.365
.853
.755
.359
.864
.252
.453
.958
.462
.649
.851
.255
.559
.546
.147
.551
.455
.1S
/T0.
840.
750.
570.
370.
870.
780.
590.
380.
900.
800.
610.
390.
930.
830.
630.
400.
960.
860.
650.
420.
970.
870.
660.
42D
elta
T21
1916
1121
2016
1121
2016
1121
2016
1121
1916
1120
1815
1020
81K
W3.
663.
733.
853.
983.
944.
034.
164.
304.
194.
294.
434.
584.
424.
524.
674.
824.
614.
714.
875.
034.
774.
885.
045.
22A
MPS
7.7
8.0
8.5
9.1
8.8
9.2
9.7
10.3
10.1
10.5
11.1
11.8
11.3
11.7
12.3
13.0
12.4
12.9
13.5
14.3
13.5
14.0
14.7
15.5
HI P
R22
123
825
126
224
826
728
229
428
230
432
133
532
234
636
538
136
238
941
142
940
043
045
447
4LO
PR
104
111
121
129
110
117
128
136
114
122
133
141
120
128
139
148
126
134
146
156
130
138
151
161
MB
h54
.756
.360
.965
.453
.455
.059
.563
.952
.153
.758
.162
.350
.952
.456
.760
.848
.349
.753
.857
.844
.746
.149
.953
.5S
/T0.
800.
720.
540.
350.
830.
750.
560.
360.
860.
770.
580.
370.
880.
790.
600.
380.
920.
820.
620.
400.
920.
830.
630.
40D
elta
T22
2016
1122
2017
1222
2017
1222
2117
1222
2017
1121
1916
1175
1850
KW
3.63
3.70
3.82
3.95
3.91
3.99
4.12
4.26
4.16
4.25
4.39
4.54
4.38
4.48
4.63
4.78
4.57
4.67
4.83
4.99
4.73
4.84
5.00
5.17
AM
PS7.
67.
98.
48.
98.
79.
19.
610
.210
.010
.410
.911
.611
.111
.512
.112
.812
.212
.713
.314
.113
.313
.814
.515
.3H
I PR
219
236
249
260
246
265
279
291
280
301
318
331
318
343
362
377
358
385
407
425
396
426
450
469
LO P
R10
311
012
012
710
911
612
613
511
312
013
114
011
912
613
814
712
513
214
515
412
913
715
015
9M
Bh
50.5
51.9
56.2
60.3
49.3
50.7
54.9
58.9
48.1
49.5
53.6
57.5
46.9
48.3
52.3
56.1
44.6
45.9
49.7
53.3
41.3
42.5
46.0
49.4
S/T
0.78
0.69
0.53
0.34
0.80
0.72
0.54
0.35
0.82
0.74
0.56
0.36
0.85
0.76
0.58
0.37
0.88
0.79
0.60
0.38
0.89
0.80
0.60
0.39
Del
ta T
2220
1712
2321
1712
2321
1712
2321
1712
2221
1712
2119
1611
1619
KW
3.54
3.61
3.73
3.85
3.81
3.90
4.02
4.15
4.06
4.14
4.28
4.42
4.27
4.36
4.51
4.66
4.45
4.55
4.70
4.86
4.61
4.71
4.87
5.04
AM
PS7.
27.
58.
08.
58.
38.
69.
19.
79.
59.
910
.511
.110
.611
.011
.612
.311
.712
.212
.813
.512
.813
.313
.914
.7H
I PR
212
229
241
252
238
257
271
283
271
292
308
321
309
332
351
366
347
374
395
412
384
413
436
455
LO P
R10
010
611
612
410
611
212
313
111
011
712
713
611
512
313
414
312
112
914
014
912
513
314
515
5
Sha
ded
area
is A
CC
A (
TVA
) co
nditi
ons
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
22
COOLING PERFORMANCE DATA SSZ140601A*E
XP
AN
DE
D P
ER
FOR
MA
NC
E D
ATA
CO
OLI
NG
OP
ER
ATI
ON
MO
DEL
: S
SZ1
4060
1A*
/ CA
*F48
60*6
A*+
TXV
/ M
BE2
000*
*-1
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB*
Air
flow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MB
h57
.358
.662
.666
.956
.057
.261
.165
.354
.655
.859
.663
.853
.354
.558
.262
.250
.651
.755
.359
.146
.947
.951
.254
.7S
/T0.
930.
870.
710.
530.
960.
900.
730.
551.
000.
920.
750.
561.
000.
950.
780.
581.
001.
000.
800.
601.
001.
000.
810.
61D
elta
T23
2220
1624
2320
1624
2320
1624
2320
1622
2320
1621
2118
1520
81K
W3.
693.
763.
894.
013.
974.
064.
194.
334.
234.
324.
474.
624.
454.
554.
714.
874.
644.
754.
915.
084.
814.
925.
095.
26A
MPS
7.8
8.2
8.6
9.2
9.0
9.3
9.9
10.5
10.3
10.7
11.3
11.9
11.4
11.9
12.5
13.2
12.6
13.0
13.7
14.5
13.7
14.2
14.9
15.7
HI P
R22
324
025
426
525
127
028
529
728
530
732
433
832
535
036
938
536
539
341
543
340
443
445
947
9LO
PR
105
112
122
130
111
118
129
137
115
123
134
143
121
129
141
150
127
135
148
157
131
140
153
163
MB
h55
.656
.960
.764
.954
.355
.559
.363
.453
.054
.257
.961
.951
.852
.956
.560
.449
.250
.253
.757
.445
.546
.549
.753
.2S
/T0.
880.
830.
670.
500.
910.
860.
700.
520.
940.
880.
720.
540.
970.
910.
740.
551.
000.
940.
770.
571.
000.
950.
770.
58D
elta
T24
2320
1625
2421
1625
2421
1625
2421
1724
2420
1623
2219
1580
1850
KW
3.66
3.73
3.85
3.98
3.94
4.03
4.16
4.30
4.19
4.29
4.43
4.58
4.42
4.52
4.67
4.82
4.61
4.71
4.87
5.03
4.77
4.88
5.04
5.22
AM
PS7.
78.
08.
59.
18.
89.
29.
710
.310
.110
.511
.111
.811
.311
.712
.313
.012
.412
.913
.514
.313
.514
.014
.715
.5H
I PR
221
238
251
262
248
267
282
294
282
304
321
335
322
346
365
381
362
389
411
429
400
430
454
474
LO P
R10
411
112
112
911
011
712
813
611
412
213
314
112
012
813
914
812
613
414
615
613
013
815
116
1M
Bh
51.4
52.5
56.1
59.9
50.2
51.3
54.8
58.5
49.0
50.0
53.5
57.1
47.8
48.8
52.1
55.7
45.4
46.4
49.5
53.0
42.0
43.0
45.9
49.1
S/T
0.85
0.80
0.65
0.49
0.88
0.83
0.67
0.50
0.90
0.85
0.69
0.52
0.93
0.88
0.71
0.53
0.97
0.91
0.74
0.55
0.98
0.92
0.75
0.56
Del
ta T
2524
2117
2524
2117
2524
2117
2524
2117
2524
2117
2322
1916
1619
KW
3.57
3.64
3.76
3.88
3.84
3.93
4.06
4.19
4.09
4.18
4.32
4.46
4.31
4.40
4.55
4.70
4.49
4.59
4.74
4.90
4.65
4.75
4.91
5.08
AM
PS7.
37.
68.
18.
68.
48.
89.
39.
99.
710
.110
.611
.310
.811
.211
.812
.511
.912
.313
.013
.713
.013
.414
.114
.9H
I PR
215
231
244
254
241
259
274
285
274
295
311
325
312
336
354
370
351
378
399
416
388
417
441
460
LO P
R10
110
711
712
510
711
312
413
211
111
812
913
711
612
413
514
412
213
014
215
112
613
414
715
6
MB
h58
.359
.462
.266
.456
.958
.160
.864
.955
.656
.759
.463
.354
.255
.357
.961
.851
.552
.555
.058
.747
.748
.751
.054
.4S
/T0.
970.
940.
850.
691.
000.
970.
880.
711.
001.
000.
900.
731.
001.
000.
930.
751.
001.
000.
960.
781.
001.
000.
970.
79D
elta
T25
2523
2025
2524
2025
2524
2024
2424
2123
2323
2021
2122
1920
81K
W3.
723.
803.
924.
054.
014.
094.
234.
374.
264.
364.
504.
664.
494.
594.
754.
914.
684.
794.
955.
124.
854.
965.
135.
31A
MPS
8.0
8.3
8.8
9.3
9.1
9.5
10.0
10.6
10.4
10.9
11.4
12.1
11.6
12.0
12.7
13.4
12.8
13.2
13.9
14.7
13.9
14.4
15.1
15.9
HI P
R22
624
325
626
825
327
328
830
028
831
032
734
132
835
337
338
936
939
741
943
740
843
946
348
3LO
PR
106
113
123
131
112
119
130
139
117
124
135
144
122
130
142
151
128
137
149
159
133
141
154
164
MB
h56
.657
.760
.464
.555
.356
.459
.063
.054
.055
.057
.661
.552
.753
.756
.260
.050
.051
.053
.457
.046
.347
.249
.552
.8S
/T0.
930.
890.
810.
650.
960.
930.
840.
680.
980.
950.
860.
691.
000.
980.
880.
721.
001.
000.
920.
741.
001.
000.
930.
75D
elta
T26
2624
2126
2625
2126
2625
2126
2625
2125
2524
2123
2323
2085
1850
KW
3.69
3.76
3.89
4.01
3.97
4.06
4.19
4.33
4.23
4.32
4.47
4.62
4.45
4.55
4.71
4.87
4.64
4.75
4.91
5.08
4.81
4.92
5.09
5.26
AM
PS7.
88.
28.
69.
29.
09.
39.
910
.510
.310
.711
.311
.911
.411
.912
.513
.212
.613
.013
.714
.513
.714
.214
.915
.7H
I PR
223
240
254
265
251
270
285
297
285
307
324
338
325
350
369
385
365
393
415
433
404
434
459
479
LO P
R10
511
212
213
011
111
812
913
711
512
313
414
312
112
914
115
012
713
514
815
713
114
015
316
3M
Bh
52.2
53.3
55.8
59.5
51.0
52.0
54.5
58.1
49.8
50.8
53.2
56.7
48.6
49.5
51.9
55.4
46.2
47.1
49.3
52.6
42.8
43.6
45.7
48.7
S/T
0.89
0.86
0.78
0.63
0.92
0.89
0.81
0.65
0.95
0.92
0.83
0.67
0.98
0.94
0.85
0.69
1.00
0.98
0.88
0.72
1.00
0.99
0.89
0.72
Del
ta T
2626
2521
2726
2522
2726
2522
2727
2522
2626
2521
2424
2320
1619
KW
3.60
3.67
3.79
3.91
3.88
3.96
4.09
4.22
4.12
4.21
4.35
4.50
4.34
4.44
4.59
4.74
4.53
4.63
4.78
4.95
4.69
4.79
4.95
5.12
AM
PS7.
47.
88.
28.
88.
68.
99.
410
.09.
810
.210
.811
.410
.911
.412
.012
.612
.112
.513
.113
.913
.113
.614
.315
.1H
I PR
217
233
246
257
243
262
276
288
277
298
314
328
315
339
358
373
354
381
403
420
392
421
445
464
LO P
R10
210
811
812
610
811
512
513
311
211
913
013
811
812
513
714
512
313
114
315
212
713
614
815
8
Sha
ded
area
is A
RI R
atin
g C
ondi
tions
IDB
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reK
W=T
otal
sys
tem
pow
erA
MPS
=out
door
uni
t am
ps (
com
p.+f
an
23
COOLING PERFORMANCE DATA SSZ140361B*EX
PAN
DED
PER
FOR
MAN
CE
DAT
ACO
OLI
NG O
PERA
TIO
NM
ODE
L: S
SZ14
0361
B* /
AR*
F374
316B
*O
utdo
or A
mbi
ent T
empe
ratu
re65
7585
9510
511
5En
terin
g In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MBh
30.7
31.9
34.9
-30
.031
.134
.1-
29.3
30.4
33.3
-28
.629
.632
.5-
27.2
28.2
30.8
-25
.226
.128
.6-
S/T
0.72
0.60
0.42
-0.
750.
630.
43-
0.77
0.64
0.45
-0.
790.
660.
46-
0.82
0.69
0.48
-0.
830.
690.
48-
Del
ta T
1916
12-
1916
12-
1916
12-
1917
13-
1916
12-
1815
12-
1090
KW2.
272.
312.
38-
2.42
2.47
2.54
-2.
562.
612.
68-
2.67
2.73
2.81
-2.
772.
832.
91-
2.86
2.92
3.01
-AM
PS
8.3
8.4
8.7
-8.
99.
19.
3-
9.6
9.8
10.1
-10
.210
.410
.7-
10.8
11.0
11.4
-11
.411
.612
.0-
HI P
R22
324
025
4-
251
270
285
-28
530
732
4-
325
349
369
-36
539
341
5-
403
434
458
-LO
PR
108
115
126
-11
412
213
3-
119
126
138
-12
513
314
5-
131
139
152
-13
514
415
7-
MBh
33.3
34.5
37.8
-32
.533
.736
.9-
31.7
32.9
36.1
-31
.032
.135
.2-
29.4
30.5
33.4
-27
.328
.331
.0-
S/T
0.75
0.63
0.43
-0.
780.
650.
45-
0.80
0.67
0.46
-0.
820.
690.
48-
0.86
0.71
0.49
-0.
860.
720.
50-
Del
ta T
1816
12-
1916
12-
1916
12-
1916
12-
1916
12-
1715
11-
7012
50KW
2.32
2.36
2.43
-2.
482.
522.
59-
2.61
2.66
2.74
-2.
742.
792.
87-
2.84
2.90
2.98
-2.
932.
993.
08-
AMP
S8.
58.
78.
9-
9.1
9.3
9.6
-9.
810
.010
.3-
10.4
10.7
11.0
-11
.111
.311
.7-
11.7
11.9
12.3
-H
I PR
230
248
262
-25
827
829
4-
294
316
334
-33
536
038
0-
376
405
428
-41
644
847
3-
LO P
R11
111
912
9-
118
125
137
-12
213
014
2-
129
137
149
-13
514
315
6-
139
148
162
-M
Bh34
.335
.538
.9-
33.5
34.7
38.0
-32
.733
.937
.1-
31.9
33.1
36.2
-30
.331
.434
.4-
28.1
29.1
31.9
-S
/T0.
790.
660.
46-
0.82
0.68
0.47
-0.
840.
700.
48-
0.86
0.72
0.50
-0.
900.
750.
52-
0.90
0.76
0.52
-D
elta
T18
1512
-18
1612
-18
1612
-18
1612
-18
1512
-17
1411
-14
00KW
2.34
2.38
2.45
-2.
492.
542.
61-
2.63
2.68
2.76
-2.
762.
812.
89-
2.86
2.92
3.00
-2.
953.
013.
10-
AMP
S8.
58.
79.
0-
9.2
9.4
9.7
-9.
910
.110
.4-
10.5
10.8
11.1
-11
.211
.411
.8-
11.8
12.1
12.4
-H
I PR
233
250
264
-26
128
129
6-
297
319
337
-33
836
438
4-
380
409
432
-42
045
247
7-
LO P
R11
312
013
1-
119
127
138
-12
413
214
4-
130
138
151
-13
614
515
8-
141
150
163
-
MBh
31.3
32.2
34.8
37.4
30.5
31.4
34.0
36.5
29.8
30.7
33.2
35.6
29.1
29.9
32.4
34.8
27.6
28.4
30.8
33.0
25.6
26.3
28.5
30.6
S/T
0.82
0.74
0.56
0.36
0.85
0.76
0.58
0.37
0.87
0.78
0.59
0.38
0.90
0.81
0.61
0.39
0.94
0.84
0.63
0.41
0.95
0.85
0.64
0.41
Del
ta T
2220
1611
2220
1711
2220
1711
2220
1712
2220
1611
2019
1511
1090
KW2.
292.
332.
392.
462.
442.
492.
562.
632.
582.
632.
702.
782.
692.
752.
832.
912.
802.
852.
943.
032.
882.
943.
033.
12AM
PS
8.3
8.5
8.8
9.1
8.9
9.1
9.4
9.7
9.6
9.9
10.2
10.5
10.3
10.5
10.8
11.2
10.9
11.1
11.5
11.9
11.5
11.7
12.1
12.5
HI P
R22
624
325
626
725
327
228
830
028
831
032
734
132
835
337
338
936
939
741
943
740
843
946
348
3LO
PR
109
116
127
135
115
123
134
143
120
128
139
148
126
134
146
156
132
140
153
163
137
145
159
169
MBh
33.9
34.9
37.7
40.5
33.1
34.1
36.9
39.6
32.3
33.2
36.0
38.6
31.5
32.4
35.1
37.7
29.9
30.8
33.3
35.8
27.7
28.5
30.9
33.2
S/T
0.85
0.76
0.58
0.37
0.88
0.79
0.60
0.39
0.91
0.81
0.61
0.40
0.94
0.84
0.63
0.41
0.97
0.87
0.66
0.42
0.98
0.88
0.66
0.43
Del
ta T
2120
1611
2220
1611
2220
1611
2220
1611
2120
1611
2018
1510
7512
50KW
2.34
2.38
2.45
2.52
2.49
2.54
2.61
2.69
2.63
2.68
2.76
2.84
2.76
2.81
2.89
2.98
2.86
2.92
3.01
3.10
2.95
3.01
3.10
3.20
AMP
S8.
58.
79.
09.
39.
29.
49.
710
.09.
910
.110
.410
.810
.510
.811
.111
.511
.211
.411
.812
.211
.812
.112
.412
.9H
I PR
233
250
264
276
261
281
297
309
297
319
337
352
338
364
384
401
380
409
432
451
420
452
477
498
LO P
R11
312
013
113
911
912
713
814
712
413
214
415
313
013
815
116
113
614
515
816
814
115
016
417
4M
Bh34
.935
.938
.941
.734
.135
.138
.040
.733
.334
.237
.139
.832
.433
.436
.238
.830
.831
.734
.436
.928
.629
.431
.834
.2S
/T0.
900.
800.
610.
390.
930.
830.
630.
400.
950.
850.
640.
410.
980.
880.
660.
431.
000.
910.
690.
441.
000.
920.
700.
45D
elta
T21
1915
1121
1916
1121
1916
1121
1916
1120
1916
1119
1815
1014
00KW
2.35
2.40
2.46
2.53
2.51
2.56
2.63
2.71
2.65
2.70
2.78
2.87
2.78
2.83
2.92
3.00
2.88
2.94
3.03
3.12
2.97
3.03
3.13
3.22
AMP
S8.
68.
89.
19.
49.
29.
49.
710
.110
.010
.210
.510
.910
.610
.911
.211
.611
.311
.511
.912
.311
.912
.212
.513
.0H
I PR
235
253
267
278
264
284
300
312
300
323
341
355
341
367
388
405
384
413
436
455
424
457
482
503
LO P
R11
412
113
214
112
012
814
014
912
513
314
515
413
114
015
216
213
714
616
017
014
215
116
517
6
Shad
ed a
rea
is A
CC
A (T
VA) c
ondi
tions
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reKW
=Tot
al s
yste
m p
ower
AM
PS=o
utdo
or u
nit a
mps
(com
p.+f
an)
24
COOLING PERFORMANCE DATA SSZ140361B*EX
PAN
DED
PER
FOR
MAN
CE
DAT
AC
OO
LING
OPE
RA
TIO
NM
ODE
L: S
SZ14
0361
B* /
AR*
F374
316B
*O
utdo
or A
mbi
ent T
empe
ratu
re65
7585
9510
511
5En
terin
g In
door
Wet
Bul
b Te
mpe
ratu
reID
B*Ai
rflow
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
MBh
31.8
132
.51
34.7
337
.12
31.0
731
.75
33.9
236
.26
30.3
330
.99
33.1
135
.40
29.5
930
.24
32.3
134
.53
28.1
128
.73
30.6
932
.81
26.0
426
.61
28.4
330
.39
S/T
0.90
0.85
0.69
0.52
0.94
0.88
0.71
0.53
0.96
0.90
0.73
0.55
0.99
0.93
0.76
0.57
1.03
0.96
0.78
0.59
1.04
0.97
0.79
0.59
Del
ta T
2423
2016
2523
2016
2524
2016
2524
2116
2423
2016
2322
1915
1090
KW2.
302.
352.
412.
482.
462.
502.
582.
652.
592.
642.
722.
802.
712.
772.
852.
942.
822.
872.
963.
052.
912.
963.
053.
15AM
PS
8.4
8.6
8.8
9.1
9.0
9.2
9.5
9.8
9.7
9.9
10.3
10.6
10.3
10.6
10.9
11.3
11.0
11.2
11.6
12.0
11.6
11.8
12.2
12.7
HI P
R22
824
525
927
025
627
529
130
329
131
333
034
533
135
637
639
337
340
142
344
241
244
346
848
8LO
PR
110
117
128
136
117
124
135
144
121
129
141
150
127
135
148
157
133
142
155
165
138
147
160
171
MBh
34.5
35.2
37.6
40.2
33.7
34.4
36.8
39.3
32.9
33.6
35.9
38.4
32.1
32.8
35.0
37.4
30.5
31.1
33.3
35.5
28.2
28.8
30.8
32.9
S/T
0.94
0.88
0.71
0.53
0.97
0.91
0.74
0.55
1.00
0.93
0.76
0.57
1.00
0.96
0.78
0.59
1.00
1.00
0.81
0.61
1.00
1.00
0.82
0.61
Del
ta T
2423
2016
2423
2016
2423
2016
2423
2016
2223
2016
2121
1915
8012
50KW
2.35
2.40
2.46
2.53
2.51
2.56
2.63
2.71
2.65
2.70
2.78
2.87
2.78
2.83
2.92
3.00
2.88
2.94
3.03
3.12
2.97
3.03
3.13
3.22
AMP
S8.
68.
89.
19.
49.
29.
49.
710
.110
.010
.210
.510
.910
.610
.911
.211
.611
.311
.511
.912
.311
.912
.212
.513
.0H
I PR
235
253
267
278
264
284
300
312
300
323
341
355
341
367
388
405
384
413
437
455
424
457
482
503
LO P
R11
412
113
214
112
012
814
014
912
513
314
515
413
114
015
216
213
714
616
017
014
215
116
517
6M
Bh35
.536
.338
.841
.434
.735
.437
.940
.533
.834
.637
.039
.533
.033
.736
.138
.531
.432
.134
.236
.629
.129
.731
.733
.9S
/T1.
000.
920.
750.
561.
000.
950.
780.
581.
001.
000.
800.
601.
001.
000.
820.
611.
001.
000.
850.
641.
001.
000.
860.
64D
elta
T23
2219
1523
2219
1522
2319
1522
2219
1621
2119
1519
1918
1414
00KW
2.37
2.41
2.48
2.55
2.53
2.58
2.65
2.73
2.67
2.72
2.80
2.89
2.80
2.85
2.94
3.03
2.90
2.96
3.05
3.15
3.00
3.06
3.15
3.25
AMP
S8.
78.
99.
19.
49.
39.
59.
810
.210
.110
.310
.611
.010
.711
.011
.311
.711
.411
.612
.012
.412
.012
.312
.713
.1H
I PR
237
255
270
281
266
286
303
316
303
326
344
359
345
371
392
409
388
417
441
460
429
461
487
508
LO P
R11
512
213
314
212
112
914
115
012
613
414
615
613
214
115
416
413
914
816
117
214
415
316
717
8
MBh
32.3
732
.99
34.5
536
.86
31.6
132
.23
33.7
536
.01
30.8
631
.46
32.9
535
.15
30.1
130
.69
32.1
434
.29
28.6
029
.16
30.5
432
.58
26.5
027
.01
28.2
930
.18
S/T
0.95
0.91
0.82
0.67
0.98
0.95
0.85
0.69
1.00
0.97
0.88
0.71
1.00
1.00
0.90
0.73
1.00
1.00
0.94
0.76
1.00
1.00
0.95
0.77
Del
ta T
2625
2421
2626
2421
2626
2421
2526
2521
2425
2421
2223
2320
1090
KW2.
322.
362.
432.
502.
482.
522.
592.
672.
612.
662.
742.
822.
732.
792.
872.
962.
842.
902.
983.
072.
932.
993.
083.
17AM
PS
8.5
8.6
8.9
9.2
9.1
9.3
9.6
9.9
9.8
10.0
10.3
10.7
10.4
10.7
11.0
11.4
11.1
11.3
11.7
12.1
11.7
11.9
12.3
12.8
HI P
R23
024
826
227
325
827
829
330
629
431
633
434
833
536
038
039
637
640
542
844
641
644
747
249
3LO
PR
111
119
129
138
118
125
137
146
122
130
142
151
129
137
149
159
135
143
156
167
139
148
162
172
MBh
35.1
35.7
37.4
39.9
34.3
34.9
36.6
39.0
33.4
34.1
35.7
38.1
32.6
33.3
34.8
37.2
31.0
31.6
33.1
35.3
28.7
29.3
30.6
32.7
S/T
0.98
0.95
0.85
0.69
1.00
0.98
0.89
0.72
1.00
1.00
0.91
0.74
1.00
1.00
0.94
0.76
1.00
1.00
0.97
0.79
1.00
1.00
0.98
0.80
Del
ta T
2525
2420
2525
2421
2525
2421
2424
2421
2323
2420
2122
2219
8512
50KW
2.37
2.41
2.48
2.55
2.53
2.58
2.65
2.73
2.67
2.72
2.80
2.89
2.80
2.85
2.94
3.03
2.90
2.96
3.05
3.15
3.00
3.06
3.15
3.25
AMP
S8.
78.
99.
19.
49.
39.
59.
810
.210
.110
.310
.611
.010
.711
.011
.311
.711
.411
.612
.012
.412
.012
.312
.713
.1H
I PR
237
255
270
281
266
286
303
316
303
326
344
359
345
371
392
409
388
417
441
460
429
461
487
508
LO P
R11
512
213
314
212
112
914
115
012
613
414
615
613
214
115
416
413
914
816
117
214
415
316
717
8M
Bh36
.136
.838
.641
.135
.336
.037
.740
.234
.435
.136
.839
.233
.634
.235
.938
.331
.932
.534
.136
.429
.630
.131
.633
.7S
/T1.
000.
990.
900.
731.
001.
000.
930.
751.
001.
000.
950.
771.
001.
000.
980.
801.
001.
001.
000.
831.
001.
001.
000.
83D
elta
T24
2423
2023
2423
2023
2323
2022
2223
2021
2122
2019
2021
1814
00KW
2.39
2.43
2.50
2.57
2.55
2.60
2.67
2.75
2.69
2.74
2.83
2.91
2.82
2.87
2.96
3.05
2.93
2.99
3.08
3.17
3.02
3.08
3.17
3.27
AMP
S8.
78.
99.
29.
59.
49.
69.
910
.210
.210
.410
.711
.110
.811
.011
.411
.811
.511
.712
.112
.512
.112
.412
.813
.2H
I PR
240
258
272
284
269
289
306
319
306
329
348
362
348
375
396
413
392
422
445
464
433
466
492
513
LO P
R11
612
313
514
412
313
014
215
212
713
614
815
813
414
215
516
614
014
916
317
314
515
416
817
9
Shad
ed a
rea
is A
RI R
atin
g C
ondi
tions
IDB:
Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reKW
=Tot
al s
yste
m p
ower
AM
PS=o
utdo
or u
nit a
mps
(com
p.+f
an)
25
PERFORMANCE DATA
OutdoorTemp. ° F.
Total Btuh
SensibleBtuh
LatentBtuh
Total Watts
75° 36,330 24,713 11,617 2,662
80° 35,898 24,729 11,169 2,742
85° 35,465 24,738 10,727 2,822
90° 35,033 24,830 10,203 2,892
95° 34,600 24,912 9,688 2,963
100° 33,735 24,749 8,986 3,023105° 32,870 24,563 8,307 3,083
110° 31,659 23,757 7,902 3,135
115° 30,448 22,944 7,504 3,187
95° 32,062 24,663 7,399 2,851
TVA Conditons @ 95° OD DB, 75° ID DB, 63° ID WB
Model: SSZ140361A* / CA*F4860*6A*+TXV / MBR1600**-1Conditions: 80° IDB, 67° IWB @ 1050 CFM
OutdoorTemp. ° F.
Total Btuh
SensibleBtuh
LatentBtuh
Total Watts
75° 30,240 22,369 7,871 2,25980° 29,880 22,383 7,497 2,32685° 29,520 22,391 7,129 2,39290° 29,160 22,475 6,685 2,45195° 28,800 22,549 6,251 2,510100° 28,080 22,402 5,678 2,560105° 27,360 22,233 5,127 2,610110° 26,352 21,504 4,848 2,653115° 25,344 20,768 4,576 2,696
95° 26,687 22,324 4,364 2,417
Model: SSZ140301A* / CA*F3642*6A*+TXV / MBR1600**-1Conditions: 80° IDB, 67° IWB @ 1050 CFM
TVA Conditons @ 95° OD DB, 75° ID DB, 63° ID WB
OutdoorTemp. ° F.
Total Btuh
SensibleBtuh
LatentBtuh
Total Watts
75° 59,325 41,430 17,895 4,15980° 58,619 41,457 17,161 4,29485° 57,913 41,472 16,440 4,42890° 57,206 41,626 15,580 4,54795° 56,500 41,764 14,736 4,666100° 55,088 41,492 13,596 4,767105° 53,675 41,180 12,495 4,868110° 51,698 39,829 11,869 4,955115° 49,720 38,465 11,255 5,042
95° 52,355 41,347 11,008 4,477
Model: SSZ140601A* / CA*F4860*6A*+TXV / MBE2000**-1Conditions: 80° IDB, 67° IWB @ 1850 CFM
TVA Conditons @ 95° OD DB, 75° ID DB, 63° ID WB
OutdoorTemp. ° F.
Total Btuh
SensibleBtuh
LatentBtuh
Total Watts
75° 48,300 34,653 13,647 3,38280° 47,725 34,675 13,050 3,48385° 47,150 34,687 12,463 3,58590° 46,575 34,817 11,758 3,67495° 46,000 34,932 11,068 3,764100° 44,850 34,704 10,146 3,840105° 43,700 34,443 9,257 3,916110° 42,090 33,313 8,777 3,981115° 40,480 32,172 8,308 4,047
95° 42,625 34,583 8,043 3,621
Model: SSZ140481A* / CA*F4860*6A*+TXV / MBR2000**-1Conditions: 80° IDB, 67° IWB @ 1550 CFM
TVA Conditons @ 95° OD DB, 75° ID DB, 63° ID WB
OutdoorTemp. ° F.
Total Btuh
SensibleBtuh
LatentBtuh
Total Watts
75° 42,000 30,603 11,397 3,00680° 41,500 30,623 10,877 3,09585° 41,000 30,634 10,366 3,18490° 40,500 30,748 9,752 3,26395° 40,000 30,850 9,150 3,342100° 39,000 30,649 8,351 3,408105° 38,000 30,418 7,582 3,475110° 36,600 29,420 7,180 3,533115° 35,200 28,413 6,787 3,590
95° 37,066 30,542 6,524 3,217
Model: SSZ140421A* / CA*F4860*6A*+TXV / MBR2000**-1Conditions: 80° IDB, 67° IWB @ 1400 CFM
TVA Conditons @ 95° OD DB, 75° ID DB, 63° ID WB
OutdoorTemp. ° F.
Total Btuh
SensibleBtuh
LatentBtuh
Total Watts
75° 25,200 17,861 7,339 1,87380° 24,900 17,873 7,027 1,93085° 24,600 17,879 6,721 1,98690° 24,300 17,946 6,354 2,03695° 24,000 18,005 5,995 2,086100° 23,400 17,888 5,512 2,128105° 22,800 17,753 5,047 2,170110° 21,960 17,171 4,789 2,207115° 21,120 16,583 4,537 2,243
95° 22,239 17,825 4,414 2,006
Model: SSZ140241A* / CA*F3636*6A*+TXV / MBR800**-1 Conditions: 80° IDB, 67° IWB @ 850 CFM
TVA Conditons @ 95° OD DB, 75° ID DB, 63° ID WB
OutdoorTemp. ° F.
Total Btuh
SensibleBtuh
LatentBtuh
Total Watts
75° 18,900 13,097 5,803 1,32980° 18,675 13,106 5,569 1,37085° 18,450 13,111 5,339 1,41190° 18,225 13,159 5,066 1,44795° 18,000 13,203 4,797 1,483100° 17,550 13,117 4,433 1,514105° 17,100 13,018 4,082 1,544110° 16,470 12,591 3,879 1,571115° 15,840 12,160 3,680 1,597
95° 16,680 13,071 3,609 1,426
Model: SSZ140181A* / CA*F3131*6A*+TXV / MBR800**-1 Conditions: 80° IDB, 67° IWB @ 600 CFM
TVA Conditons @ 95° OD DB, 75° ID DB, 63° ID WB
OutdoorTemp. ° F.
Total Btuh
SensibleBtuh
LatentBtuh
Total Watts
75° 36,800 27,232 9,568 2,63080° 36,350 27,263 9,088 2,70585° 35,900 27,284 8,616 2,78090° 35,450 27,297 8,154 2,85095° 35,000 27,300 7,700 2,920100° 34,150 27,149 7,001 2,975105° 33,300 26,973 6,327 3,030110° 32,050 26,121 5,929 3,080115° 30,800 25,256 5,544 3,130
95° 32,400 27,216 5,184 2,810
Model: SSZ140361B* / AR*F374316B+TXVConditions: 80° IDB, 67° IWB @ 1250 CFM
TVA Conditons @ 95° OD DB, 75° ID DB, 63° ID WB
26
SPLIT SYSTEM HEATING PERFORMANCE
High
pre
ssur
e is
mea
sure
d at
the
suct
ion
serv
ice
valv
e ( t
he la
rger
val
ve).
Low
pre
ssur
e is
mea
sure
d at
the
gaug
e po
rt co
nnec
tion.
Calc
ulat
ions
are
bas
ed o
n no
min
al C
FM a
nd 7
0 °F
indo
or d
ry b
ulb.
AMP
S =
Out
door
uni
t am
ps (c
omp.
+fan
)KW
= T
otal
sys
tem
pow
er
EXPA
ND
ED P
ERFO
RM
AN
CE
DAT
A M
ODE
L: S
SZ14
0181
A* /
CA
*F31
31*6
A* +
TXV
/ MB
R80
0**-1
HEA
TIN
G O
PER
ATIO
NO
utdo
or A
mbi
ent T
empe
ratu
re
6560
5550
4745
4035
3025
2017
1510
50
-5-1
0
MB
h22
.621
.420
.218
.818
.017
.416
.214
.912
.811
.810
.910
.39.
98.
97.
96.
95.
94.
8
Delta
T34
.933
.131
.129
.127
.826
.925
.023
.119
.718
.216
.815
.815
.313
.712
.110
.69.
07.
4
KW
1.56
1.53
1.50
1.47
1.45
1.44
1.41
1.38
1.39
1.36
1.32
1.31
1.29
1.26
1.23
1.20
1.17
1.14
AM
PS7.
06.
56.
15.
75.
55.
45.
14.
94.
74.
54.
24.
14.
13.
93.
63.
43.
22.
9
CO
P4.
234.
093.
933.
753.
623.
543.
363.
162.
702.
552.
402.
302.
242.
061.
871.
671.
471.
23
EER
14.5
14.0
13.4
12.8
12.4
12.1
11.5
10.8
9.2
8.7
8.2
7.9
7.6
7.0
6.4
5.7
5.0
4.2
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ctLi
qS
uct
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ct65
255
6526
873
281
8129
389
306
9731
910
533
211
334
512
135
812
937
113
738
414
570
274
6428
773
300
8131
389
326
9734
010
535
311
336
612
137
912
939
213
740
514
575
294
6430
772
321
8033
488
348
9636
110
437
511
238
812
040
112
841
413
642
714
465
247
6425
972
271
8028
388
296
9630
810
432
111
233
312
034
612
835
813
637
114
470
265
6527
872
290
8030
388
315
9632
810
434
111
235
312
036
612
837
913
639
114
475
284
6529
773
310
8132
389
336
9734
910
536
211
337
512
138
812
940
013
741
314
565
240
6425
272
264
8027
688
288
9630
010
431
311
232
512
033
712
834
913
636
214
470
258
6427
172
283
8029
588
308
9632
010
433
211
234
512
035
712
836
913
638
214
475
277
6529
073
302
8131
589
328
9734
010
535
311
336
512
137
812
939
013
740
314
5
530
600
680
Liqu
id V
alve
& C
ompr
esso
r Suc
tion
Pres
sure
Out
door
Air
Dry
Bul
b Te
mpe
ratu
re (º
F)32
Indo
or
Air
Flo
w
Rat
e
37
HE
ATI
NG
MO
DE
4247
5767
Indo
or R
etur
n A
ir D
ry B
ulb
Tem
pera
ture
(º
F)
1727
Pre
ssur
es s
how
n ar
e fo
r mos
t pop
ular
mat
ch in
door
uni
t WIT
H N
O F
RO
ST
ON
OU
TDO
OR
CO
IL. D
ue to
fact
ors
like
airfl
ow, c
harg
e, in
door
coi
l & fr
ost,
pres
sure
s w
ill v
ary
sign
ifica
ntly
. Liq
uid
(sm
all)
serv
ice
valv
e pr
essu
res
shou
ld b
e ±
20 p
sig
& s
uctio
n (a
cces
s po
rt) p
ress
ures
sho
uld
be ±
5 p
sig
of th
e va
lues
list
ed in
this
cha
rt.
6252
22
27
SPLIT SYSTEM HEATING PERFORMANCEEX
PAN
DED
PER
FOR
MA
NC
E D
ATA
High
pre
ssur
e is
mea
sure
d at
the
suct
ion
serv
ice
valv
e ( t
he la
rger
val
ve).
Low
pre
ssur
e is
mea
sure
d at
the
gaug
e po
rt co
nnec
tion.
Calc
ulat
ions
are
bas
ed o
n no
min
al C
FM a
nd 7
0 °F
indo
or d
ry b
ulb.
AMP
S =
Out
door
uni
t am
ps (c
omp.
+fan
)KW
= T
otal
sys
tem
pow
er
MO
DEL:
SSZ
1402
41A*
/ C
A*F
3636
*6A
*+TX
V / M
BR80
0**-
1H
EATI
NG
OPE
RAT
ION
Out
door
Am
bien
t Tem
pera
ture
6560
5550
4745
4035
3025
2017
1510
50
-5-1
0
MB
h30
.228
.626
.925
.124
.023
.321
.619
.917
.916
.615
.214
.413
.912
.411
.09.
68.
26.
7
Delta
T32
.931
.129
.327
.426
.125
.323
.521
.719
.518
.016
.615
.715
.113
.512
.010
.58.
97.
3
KW
2.08
2.04
2.00
1.96
1.94
1.92
1.89
1.85
1.87
1.82
1.78
1.76
1.74
1.70
1.66
1.62
1.58
1.54
AM
PS8.
17.
97.
77.
57.
47.
37.
27.
17.
06.
96.
86.
76.
76.
66.
56.
36.
26.
1
CO
P4.
244.
093.
933.
743.
623.
543.
353.
162.
812.
652.
502.
392.
332.
141.
941.
731.
521.
28
EER
14.5
14.0
13.4
12.8
12.4
12.1
11.4
10.8
9.6
9.1
8.5
8.2
7.9
7.3
6.6
5.9
5.2
4.4
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ctLi
qS
uct
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ct
6525
165
264
7227
780
291
8730
494
317
101
331
109
344
116
358
123
372
130
385
137
7027
065
283
7229
779
311
8732
494
338
101
352
108
365
115
379
123
393
130
406
137
7528
965
303
7231
779
331
8634
694
360
101
373
108
387
115
401
122
415
129
429
137
6524
265
255
7226
879
281
8629
493
307
100
320
108
333
115
346
122
359
129
372
136
7026
065
274
7228
779
300
8731
394
327
101
340
108
353
115
366
122
379
129
393
137
7527
966
293
7330
780
320
8733
494
347
101
361
109
374
116
388
123
401
130
414
137
6523
665
249
7226
179
274
8628
693
299
100
312
107
324
115
337
122
350
129
363
136
7025
465
267
7228
079
293
8630
694
318
101
331
108
344
115
357
122
370
129
383
136
7527
265
286
7329
980
312
8732
594
339
101
352
108
365
116
378
123
391
130
404
137
Pre
ssur
es s
how
n ar
e fo
r mos
t pop
ular
mat
ch in
door
uni
t WIT
H N
O F
RO
ST
ON
OU
TDO
OR
CO
IL. D
ue to
fact
ors
like
airfl
ow, c
harg
e, in
door
coi
l & fr
ost,
pres
sure
s w
ill v
ary
sign
ifica
ntly
. Liq
uid
(sm
all)
serv
ice
valv
e pr
essu
res
shou
ld b
e ±
20 p
sig
& s
uctio
n (a
cces
s po
rt) p
ress
ures
sho
uld
be ±
5 p
sig
of th
e va
lues
list
ed in
this
cha
rt.
6252
22
HE
ATI
NG
MO
DE
4247
5767
Indo
or R
etur
n A
ir D
ry B
ulb
Tem
pera
ture
(º
F)
1727
Liqu
id V
alve
& C
ompr
esso
r Suc
tion
Pres
sure
Out
door
Air
Dry
Bul
b Te
mpe
ratu
re (º
F)32
Indo
or
Air
Flo
w
Rat
e
37
740
850
960
28
SPLIT SYSTEM HEATING PERFORMANCE
High
pre
ssur
e is
mea
sure
d at
the
suct
ion
serv
ice
valv
e ( t
he la
rger
val
ve).
Low
pre
ssur
e is
mea
sure
d at
the
gaug
e po
rt co
nnec
tion.
Calc
ulat
ions
are
bas
ed o
n no
min
al C
FM a
nd 7
0 °F
indo
or d
ry b
ulb.
AMP
S =
Out
door
uni
t am
ps (c
omp.
+fan
)KW
= T
otal
sys
tem
pow
er
EXPA
ND
ED P
ERFO
RM
AN
CE
DAT
A M
ODE
L: S
SZ14
0301
A* /
CA
*F36
42*6
A*+
TXV
/ MB
R160
0**-
1H
EATI
NG
OPE
RAT
ION
Out
door
Am
bien
t Tem
pera
ture
6560
5550
4745
4035
3025
2017
1510
50
-5-1
0
MB
h36
.534
.532
.530
.429
.028
.126
.124
.122
.620
.919
.218
.217
.515
.713
.912
.110
.38.
5
Delta
T32
.130
.428
.626
.825
.624
.823
.021
.219
.918
.417
.016
.015
.413
.812
.310
.79.
17.
5
KW
2.40
2.36
2.32
2.27
2.25
2.23
2.19
2.14
2.20
2.15
2.11
2.08
2.06
2.01
1.97
1.92
1.87
1.83
AM
PS11
.810
.69.
68.
78.
28.
07.
26.
66.
15.
65.
14.
94.
84.
33.
63.
12.
51.
8
CO
P4.
444.
284.
103.
913.
783.
693.
503.
293.
012.
842.
672.
552.
482.
282.
071.
851.
621.
36
EER
15.2
14.6
14.0
13.4
12.9
12.6
11.9
11.2
10.3
9.7
9.1
8.7
8.5
7.8
7.1
6.3
5.5
4.6
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ctLi
qS
uct
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ct65
246
6225
869
270
7728
184
293
9230
510
031
710
732
911
534
112
335
313
036
513
870
265
6127
769
289
7730
184
313
9232
599
337
107
349
115
361
122
373
130
385
138
7528
461
296
6930
876
321
8433
392
345
9935
810
737
011
438
212
239
412
940
613
765
238
6124
969
261
7627
284
283
9129
599
306
106
318
114
329
122
341
129
352
137
7025
661
267
6927
977
291
8430
292
314
9932
510
733
711
434
912
236
013
037
213
775
274
6228
669
298
7731
085
322
9233
410
034
610
735
711
536
912
238
113
039
313
865
232
6124
369
254
7626
584
276
9128
799
299
106
310
114
321
121
332
129
344
137
7024
961
261
6 927
276
283
8429
592
306
9931
710
732
911
434
012
235
112
936
313
775
267
6227
969
291
7730
285
314
9232
510
033
710
734
811
536
012
237
113
038
313
7
880
1000
1130
Liqu
id V
alve
& C
ompr
esso
r Suc
tion
Pres
sure
Out
door
Air
Dry
Bul
b Te
mpe
ratu
re (º
F)32
Indo
or
Air
Flo
w
Rat
e
37
HE
ATI
NG
MO
DE
4247
5767
Indo
or R
etur
n A
ir D
ry B
ulb
Tem
pera
ture
(º
F)
1727
Pre
ssur
es s
how
n ar
e fo
r mos
t pop
ular
mat
ch in
door
uni
t WIT
H N
O F
RO
ST
ON
OU
TDO
OR
CO
IL. D
ue to
fact
ors
like
airfl
ow, c
harg
e, in
door
coi
l & fr
ost,
pres
sure
s w
ill v
ary
sign
ifica
ntly
. Liq
uid
(sm
all)
serv
ice
valv
e pr
essu
res
shou
ld b
e ±
20 p
sig
& s
uctio
n (a
cces
s po
rt) p
ress
ures
sho
uld
be ±
5 p
sig
of th
e va
lues
list
ed in
this
cha
rt.
6252
22
29
SPLIT SYSTEM HEATING PERFORMANCEEX
PAN
DED
PER
FOR
MA
NC
E D
ATA
High
pre
ssur
e is
mea
sure
d at
the
suct
ion
serv
ice
valv
e ( t
he la
rger
val
ve).
Low
pre
ssur
e is
mea
sure
d at
the
gaug
e po
rt co
nnec
tion.
Calc
ulat
ions
are
bas
ed o
n no
min
al C
FM a
nd 7
0 °F
indo
or d
ry b
ulb.
AMP
S =
Out
door
uni
t am
ps (c
omp.
+fan
)KW
= T
otal
sys
tem
pow
er
MO
DEL:
SSZ
1403
61A*
/ C
A*F
4860
C6A
*+TX
V / M
BR16
00**
-1H
EATI
NG
OPE
RAT
ION
Out
door
Am
bien
t Tem
pera
ture
6560
5550
4745
4035
3025
2017
1510
50
-5-1
0
MB
h43
.541
.238
.836
.234
.633
.531
.128
.728
.826
.624
.523
.122
.320
.017
.715
.513
.210
.8
Delta
T38
.436
.334
.231
.930
.529
.627
.525
.325
.423
.521
.620
.419
.617
.615
.613
.611
.69.
5
KW
3.05
2.99
2.94
2.88
2.84
2.82
2.76
2.71
2.78
2.72
2.66
2.62
2.60
2.53
2.47
2.41
2.35
2.29
AM
PS13
.812
.812
.011
.310
.910
.710
.19.
69.
28.
98.
48.
38.
27.
87.
36.
96.
45.
8
CO
P4.
174.
023.
863.
683.
563.
483.
303.
113.
032.
862.
702.
582.
512.
312.
101.
871.
641.
38
EER
14.3
13.8
13.2
12.6
12.2
11.9
11.3
10.6
10.4
9.8
9.2
8.8
8.6
7.9
7.2
6.4
5.6
4.7
30
SPLIT SYSTEM HEATING PERFORMANCE
High
pre
ssur
e is
mea
sure
d at
the
suct
ion
serv
ice
valv
e ( t
he la
rger
val
ve).
Low
pre
ssur
e is
mea
sure
d at
the
gaug
e po
rt co
nnec
tion.
Calc
ulat
ions
are
bas
ed o
n no
min
al C
FM a
nd 7
0 °F
indo
or d
ry b
ulb.
AMP
S =
Out
door
uni
t am
ps (c
omp.
+fan
)KW
= T
otal
sys
tem
pow
er
EXPA
ND
ED P
ERFO
RM
AN
CE
DAT
A
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ctLi
qS
uct
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ct
6523
561
243
6925
176
259
8426
692
274
9928
210
729
011
529
812
230
613
031
413
870
253
6126
169
269
7627
684
284
9129
299
300
107
308
114
316
122
323
130
331
137
7527
161
279
6828
776
295
8430
391
311
9931
810
632
611
433
412
234
212
935
013
765
227
6123
568
242
7625
083
257
9126
598
273
106
280
114
288
121
296
129
303
136
7024
461
252
6825
976
267
8427
591
282
9929
010
629
711
430
512
231
212
932
013
775
262
6127
069
277
7728
584
293
9230
099
308
107
315
115
323
122
330
130
338
137
6522
260
229
6823
676
244
8325
191
258
9826
610
627
311
428
112
128
812
929
613
670
238
6124
668
253
7626
084
268
9127
599
283
106
290
114
297
122
305
129
312
137
7525
561
263
6927
076
278
8428
592
293
9930
010
730
711
431
512
232
213
032
913
7
Pre
ssur
es s
how
n ar
e fo
r mos
t pop
ular
mat
ch in
door
uni
t WIT
H N
O F
RO
ST
ON
OU
TDO
OR
CO
IL. D
ue to
fact
ors
like
airfl
ow, c
harg
e, in
door
coi
l & fr
ost,
pres
sure
s w
ill v
ary
sign
ifica
ntly
. Liq
uid
(sm
all)
serv
ice
valv
e pr
essu
res
shou
ld b
e ±
20 p
sig
& s
uctio
n (a
cces
s po
rt) p
ress
ures
sho
uld
be ±
5 p
sig
of th
e va
lues
list
ed in
this
cha
rt.
6252
22
HE
ATI
NG
MO
DE
4247
5767
Indo
or R
etur
n A
ir D
ry B
ulb
Tem
pera
ture
(º
F)
1727
Liqu
id V
alve
& C
ompr
esso
r Suc
tion
Pres
sure
Out
door
Air
Dry
Bul
b Te
mpe
ratu
re (º
F)32
Indo
or
Air
Flow
R
ate
37
1090
1250
1410
MO
DEL:
SSZ
1403
61B
* / A
R*F
3743
16B
*O
utdo
or A
mbi
ent T
empe
ratu
re
6560
5550
4745
4035
3025
2017
1510
50
-5-1
0
MB
h41
.539
.337
.034
.633
.032
.029
.727
.424
.923
.021
.220
.019
.317
.315
.313
.411
.49.
3
Delta
T30
.729
.127
.425
.624
.423
.722
.020
.318
.517
.015
.714
.814
.312
.811
.39.
98.
46.
9
KW
2.96
2.90
2.85
2.79
2.76
2.74
2.69
2.64
2.93
2.86
2.80
2.76
2.74
2.68
2.61
2.55
2.49
2.43
AM
PS11
.911
.110
.49.
89.
59.
38.
98.
48.
17.
87.
57.
37.
26.
96.
56.
15.
75.
2
CO
P4.
113.
963.
803.
623.
493.
413.
233.
042.
492.
352.
212.
122.
061.
891.
721.
531.
341.
13
EER
14.0
13.5
13.0
12.4
11.9
11.7
11.0
10.4
8.5
8.0
7.6
7.2
7.0
6.5
5.9
5.2
4.6
3.8
31
SPLIT SYSTEM HEATING PERFORMANCEEX
PAN
DED
PER
FOR
MA
NC
E D
ATA
High
pre
ssur
e is
mea
sure
d at
the
suct
ion
serv
ice
valv
e ( t
he la
rger
val
ve).
Low
pre
ssur
e is
mea
sure
d at
the
gaug
e po
rt co
nnec
tion.
Calc
ulat
ions
are
bas
ed o
n no
min
al C
FM a
nd 7
0 °F
indo
or d
ry b
ulb.
AMP
S =
Out
door
uni
t am
ps (c
omp.
+fan
)KW
= T
otal
sys
tem
pow
er
MO
DEL:
SSZ
1404
21A
* / C
A*F
4860
*6A
*+TX
V / M
BR2
000*
*-1
HEA
TIN
G O
PER
ATIO
NO
utdo
or A
mbi
ent T
empe
ratu
re
6560
5550
4745
4035
3025
2017
1510
50
-5-1
0
MB
h51
.548
.845
.942
.941
.039
.736
.934
.034
.331
.629
.127
.526
.523
.821
.118
.415
.712
.8
Delta
T34
.132
.330
.428
.427
.126
.324
.422
.522
.720
.919
.318
.217
.515
.713
.912
.110
.48.
5
KW
3.40
3.33
3.27
3.21
3.17
3.14
3.08
3.02
3.07
3.00
2.94
2.90
2.87
2.81
2.74
2.68
2.61
2.54
AM
PS15
.214
.113
.212
.412
.011
.811
.110
.610
.19.
79.
29.
08.
98.
57.
97.
56.
96.
3
CO
P4.
444.
284.
113.
923.
793.
703.
503.
303.
263.
082.
902.
782.
702.
482.
252.
011.
761.
48
EER
15.2
14.6
14.0
13.4
12.9
12.6
12.0
11.3
11.2
10.5
9.9
9.5
9.2
8.5
7.7
6.9
6.0
5.1
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ctLi
qS
uct
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ct
6524
562
254
6926
376
272
8428
191
290
9829
910
530
811
331
712
032
612
733
613
470
263
6227
269
282
7629
183
300
9130
998
318
105
327
112
336
120
345
127
354
134
7528
261
292
6930
176
310
8331
990
328
9833
810
534
711
235
611
936
512
637
413
465
237
6124
668
254
7626
383
271
9028
097
289
104
298
112
306
119
315
126
324
133
7025
562
263
6927
276
281
8329
090
298
9830
710
531
611
232
511
933
312
634
213
475
273
6228
269
291
7730
084
308
9131
798
326
105
335
113
344
120
352
127
361
134
6523
161
239
6824
876
256
8326
590
273
9728
210
429
011
229
911
930
712
631
613
370
248
6225
76 9
265
7627
483
282
9029
198
299
105
308
112
316
119
325
126
334
134
7526
662
275
6928
376
292
8430
191
309
9831
810
532
611
233
512
034
412
735
213
4
Pre
ssur
es s
how
n ar
e fo
r mos
t pop
ular
mat
ch in
door
uni
t WIT
H N
O F
RO
ST
ON
OU
TDO
OR
CO
IL. D
ue to
fact
ors
like
airfl
ow, c
harg
e, in
door
coi
l & fr
ost,
pres
sure
s w
ill v
ary
sign
ifica
ntly
. Liq
uid
(sm
all)
serv
ice
valv
e pr
essu
res
shou
ld b
e ±
20 p
sig
& s
uctio
n (a
cces
s po
rt) p
ress
ures
sho
uld
be ±
5 p
sig
of th
e va
lues
list
ed in
this
cha
rt.
6252
22
HE
ATI
NG
MO
DE
4247
5767
Indo
or R
etur
n A
ir D
ry B
ulb
Tem
pera
ture
(º
F)
1727
Liqu
id V
alve
& C
ompr
esso
r Suc
tion
Pres
sure
Out
door
Air
Dry
Bul
b Te
mpe
ratu
re (º
F)32
Indo
or
Air
Flo
w
Rat
e
37
1180
1350
1520
32
SPLIT SYSTEM HEATING PERFORMANCE
High
pre
ssur
e is
mea
sure
d at
the
suct
ion
serv
ice
valv
e ( t
he la
rger
val
ve).
Low
pre
ssur
e is
mea
sure
d at
the
gaug
e po
rt co
nnec
tion.
Calc
ulat
ions
are
bas
ed o
n no
min
al C
FM a
nd 7
0 °F
indo
or d
ry b
ulb.
AMP
S =
Out
door
uni
t am
ps (c
omp.
+fan
)KW
= T
otal
sys
tem
pow
er
EXPA
ND
ED P
ERFO
RM
AN
CE
DAT
A M
ODE
L: S
SZ14
0481
A* /
CA
*F48
60*6
A*+
TXV
/ MB
R200
0**-
1H
EATI
NG
OPE
RAT
ION
Out
door
Am
bien
t Tem
pera
ture
6560
5550
4745
4035
3025
2017
1510
50
-5-1
0
MB
h57
.854
.751
.548
.246
.044
.641
.438
.236
.633
.831
.129
.428
.325
.422
.519
.616
.813
.7
Delta
T34
.532
.730
.828
.827
.526
.624
.722
.821
.920
.218
.617
.616
.915
.213
.411
.710
.08.
2
KW
3.98
3.90
3.83
3.75
3.71
3.68
3.60
3.53
3.65
3.57
3.49
3.44
3.41
3.32
3.24
3.16
3.08
3.00
AM
PS19
.417
.616
.114
.814
.113
.712
.711
.711
.010
.39.
59.
29.
08.
37.
46.
65.
74.
6
CO
P4.
254.
103.
943.
763.
633.
553.
363.
172.
942.
772.
612.
502.
432.
242.
031.
821.
591.
34
EER
14.5
14.0
13.5
12.8
12.4
12.1
11.5
10.8
10.0
9.5
8.9
8.5
8.3
7.6
6.9
6.2
5.4
4.6
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ctLi
qS
uct
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ct
6525
060
264
6827
976
293
8330
891
322
9933
710
735
211
436
612
238
113
039
613
770
269
6028
468
298
7631
383
328
9134
399
358
106
373
114
388
122
403
129
418
137
7528
860
304
6831
975
334
8335
091
365
9838
010
639
611
441
112
142
612
944
113
765
242
6025
668
269
7528
383
297
9031
198
326
106
340
113
354
121
368
128
382
136
7026
060
274
6828
876
303
8331
791
332
9834
610
636
011
437
512
138
912
940
413
675
278
6129
368
308
7632
384
338
9135
399
367
107
382
114
397
122
411
129
426
137
6523
660
249
6726
375
276
8329
090
304
9831
710
533
111
334
512
135
912
837
313
670
253
6026
768
281
7529
583
309
9132
398
337
106
351
114
365
121
379
129
394
136
7527
161
286
6830
076
315
8432
991
344
9935
810
637
311
438
712
240
112
941
513
7
Pre
ssur
es s
how
n ar
e fo
r mos
t pop
ular
mat
ch in
door
uni
t WIT
H N
O F
RO
ST
ON
OU
TDO
OR
CO
IL. D
ue to
fact
ors
like
airfl
ow, c
harg
e, in
door
coi
l & fr
ost,
pres
sure
s w
ill v
ary
sign
ifica
ntly
. Liq
uid
(sm
all)
serv
ice
valv
e pr
essu
res
shou
ld b
e ±
20 p
sig
& s
uctio
n (a
cces
s po
rt) p
ress
ures
sho
uld
be ±
5 p
sig
of th
e va
lues
list
ed in
this
cha
rt.
6252
22
HE
ATI
NG
MO
DE
4247
5767
Indo
or R
etur
n A
ir D
ry B
ulb
Tem
pera
ture
(º
F)
1727
Liqu
id V
alve
& C
ompr
esso
r Suc
tion
Pres
sure
Out
door
Air
Dry
Bul
b Te
mpe
ratu
re (º
F)32
Indo
or
Air F
low
R
ate
37
1360
1550
1740
33
SPLIT SYSTEM HEATING PERFORMANCEEX
PAN
DED
PER
FOR
MA
NC
E D
ATA
High
pre
ssur
e is
mea
sure
d at
the
suct
ion
serv
ice
valv
e ( t
he la
rger
val
ve).
Low
pre
ssur
e is
mea
sure
d at
the
gaug
e po
rt co
nnec
tion.
Calc
ulat
ions
are
bas
ed o
n no
min
al C
FM a
nd 7
0 °F
indo
or d
ry b
ulb.
AMP
S =
Out
door
uni
t am
ps (c
omp.
+fan
)KW
= T
otal
sys
tem
pow
er
MO
DEL:
SSZ
1406
01A
* / C
A*F
4860
*6A
*+TX
V / M
BR2
000*
*-1
HEA
TIN
G O
PER
ATIO
NO
utdo
or A
mbi
ent T
empe
ratu
re
6560
5550
4745
4035
3025
2017
1510
50
-5-1
0
MB
h71
.667
.863
.859
.757
.055
.251
.347
.347
.944
.240
.738
.437
.033
.229
.425
.721
.917
.9
DE
LTA
T35
.933
.932
.029
.928
.527
.625
.723
.724
.022
.120
.419
.218
.516
.614
.712
.811
.09.
0
KW
4.83
4.74
4.64
4.54
4.48
4.44
4.35
4.25
4.42
4.32
4.21
4.15
4.11
4.00
3.90
3.80
3.69
3.59
AM
PS24
.722
.320
.418
.817
.917
.416
.014
.813
.912
.912
.011
.511
.310
.49.
28.
27.
15.
7
CO
P4.
344.
194.
033.
853.
723.
643.
453.
263.
172.
992.
832.
712.
632.
432.
211.
981.
741.
46
EER
14.8
14.3
13.8
13.1
12.7
12.4
11.8
11.1
10.8
10.2
9.7
9.3
9.0
8.3
7.5
6.8
5.9
5.0
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ctLi
qS
uct
Liq
Suct
Liq
Suct
Liq
Suc
tLi
qSu
ctLi
qSu
ct65
260
5827
565
290
7230
580
321
8733
694
351
102
366
109
381
117
397
124
412
131
7028
057
295
6531
172
326
7934
287
357
9437
310
138
810
940
411
641
912
443
513
175
300
5731
665
332
7234
879
364
8638
094
396
101
412
108
428
116
443
123
459
131
6525
257
266
6428
172
295
7931
086
324
9433
910
135
410
836
911
538
312
339
813
070
270
5728
565
300
7231
579
330
8734
594
360
101
375
109
390
116
405
123
420
130
7529
058
305
6532
172
336
8035
287
367
9438
310
239
810
941
311
642
812
444
413
165
245
5725
964
274
7228
879
302
8631
693
331
101
345
108
359
115
374
123
388
130
7026
357
278
6529
372
307
7932
287
337
9435
110
136
610
838
011
639
512
341
013
075
282
5829
865
313
7232
880
343
8735
894
373
102
388
109
403
116
418
124
432
131
1580
1800
2030
Liqu
id V
alve
& C
ompr
esso
r Suc
tion
Pres
sure
Out
door
Air
Dry
Bul
b Te
mpe
ratu
re (º
F)32
Indo
or
Air F
low
R
ate
37
HE
ATI
NG
MO
DE
4247
5767
Indo
or R
etur
n A
ir D
ry B
ulb
Tem
pera
ture
(º
F)
1727
Pre
ssur
es s
how
n ar
e fo
r mos
t pop
ular
mat
ch in
door
uni
t WIT
H N
O F
RO
ST
ON
OU
TDO
OR
CO
IL. D
ue to
fact
ors
like
airfl
ow, c
harg
e, in
door
coi
l & fr
ost,
pres
sure
s w
ill v
ary
sign
ifica
ntly
. Liq
uid
(sm
all)
serv
ice
valv
e pr
essu
res
shou
ld b
e ±
20 p
sig
& s
uctio
n (a
cces
s po
rt) p
ress
ures
sho
uld
be ±
5 p
sig
of th
e va
lues
list
ed in
this
cha
rt.
6252
22
34
HEATING SPECIFICATIONS
capacity btuh c.o.p. 4.8 9.6 14.4 19.2
65 22.63 4.23 39.01 55.39 71.77 88.1660 21.42 4.09 37.80 54.18 70.57 86.9555 20.16 3.93 36.54 52.92 69.31 85.6950 18.85 3.75 35.23 51.61 67.99 84.3845 17.44 3.54 33.82 50.21 66.59 82.9740 16.20 3.36 32.58 48.96 65.35 81.7335 14.94 3.16 31.32 47.70 64.09 80.4730 12.80 2.70 29.18 45.56 61.94 78.3325 11.81 2.55 28.19 44.57 60.96 77.3420 10.88 2.40 27.26 43.64 60.02 76.4115 9.89 2.24 26.27 42.65 59.04 75.4210 8.87 2.06 25.26 41.64 58.02 74.405 7.87 1.87 24.25 40.63 57.01 73.400 6.86 1.67 23.24 39.62 56.01 72.39-5 5.85 1.47 22.24 38.62 55.00 71.38
-10 4.80 1.23 21.18 37.56 53.94 70.33
Basic Unit without Auxiliary Heat
Capacity of Unit* With KW of Auxiliary heat
Model: SSZ140181A* / CA*F3131*6A*+TXV / MBR800**-1Conditions: 600 CFM Indoor Air @ 70°F DB
Outdoor Ambient
°F.
*To obtain BTU capacity of unit with KW of auxiliary heat, multiply by 1000 (Example: 39.01 x 1000 = 39,010 BTU)
capacity btuh c.o.p. 4.8 9.6 14.4 19.2
65 30.17 4.24 46.55 62.93 79.32 95.7060 28.56 4.09 44.94 61.32 77.71 94.0955 26.88 3.93 43.26 59.64 76.03 92.4150 25.13 3.74 41.51 57.89 74.28 90.6645 23.26 3.54 39.64 56.02 72.40 88.7940 21.60 3.35 37.98 54.36 70.75 87.1335 19.92 3.16 36.30 52.68 69.07 85.4530 17.93 2.81 34.31 50.70 67.08 83.4625 16.55 2.65 32.93 49.32 65.70 82.0820 15.24 2.50 31.62 48.01 64.39 80.7715 13.86 2.33 30.24 46.62 63.01 79.3910 12.43 2.14 28.82 45.20 61.58 77.965 11.02 1.94 27.41 43.79 60.17 76.550 9.61 1.73 26.00 42.38 58.76 75.14-5 8.20 1.52 24.59 40.97 57.35 73.73-10 6.72 1.28 23.10 39.49 55.87 72.25
Capacity of Unit* With KW of Auxiliary heat
Model: SSZ140241A* / CA*F3636*6A*+TXV / MBR800**-1Conditions: 850 CFM Indoor Air @ 70°F DB
Outdoor Ambient
°F.
Basic Unit without Auxiliary Heat
capacity btuh c.o.p. 4.8 9.6 14.4 19.2
65 43.49 4.17 59.87 76.26 92.64 109.0260 41.17 4.02 57.56 73.94 90.32 106.7055 38.75 3.86 55.13 71.52 87.90 104.2850 36.23 3.68 52.61 68.99 85.37 101.7645 33.53 3.48 49.91 66.29 82.67 99.0640 31.14 3.30 47.52 63.90 80.29 96.6735 28.72 3.11 45.10 61.48 77.87 94.2530 28.82 3.03 45.20 61.58 77.97 94.3525 26.60 2.86 42.98 59.36 75.75 92.1320 24.49 2.70 40.88 57.26 73.64 90.0215 22.27 2.51 38.66 55.04 71.42 87.8010 19.98 2.31 36.37 52.75 69.13 85.515 17.72 2.10 34.10 50.48 66.86 83.250 15.45 1.87 31.83 48.22 64.60 80.98-5 13.18 1.64 29.57 45.95 62.33 78.71
-10 10.80 1.38 27.18 43.57 59.95 76.33
Model: SSZ140361A* / CA*F4860*6A*+TXV / MBR1600**-1Conditions: 1050 CFM Indoor Air @ 70°F DB
Capacity of Unit* With KW of Auxiliary heat
Basic Unit without Auxiliary HeatOutdoor
Ambient °F.capacity
btuh c.o.p. 4.8 9.6 14.4 19.265 36.45 4.44 52.84 69.22 85.60 101.9860 34.51 4.28 50.89 67.27 83.66 100.0455 32.48 4.10 48.86 65.24 81.63 98.0150 30.36 3.91 46.75 63.13 79.51 95.8945 28.10 3.69 44.48 60.87 77.25 93.6340 26.10 3.50 42.48 58.86 75.25 91.6335 24.07 3.29 40.45 56.83 73.22 89.6030 22.62 3.01 39.00 55.39 71.77 88.1525 20.88 2.84 37.26 53.64 70.03 86.4120 19.23 2.67 35.61 51.99 68.37 84.7615 17.48 2.48 33.87 50.25 66.63 83.0110 15.69 2.28 32.07 48.45 64.83 81.225 13.91 2.07 30.29 46.67 63.05 79.440 12.13 1.85 28.51 44.89 61.27 77.66-5 10.35 1.62 26.73 43.11 59.50 75.88
-10 8.48 1.36 24.86 41.24 57.63 74.01
Model: SSZ140301A* / CA*F3642*6A*+TXV / MBR1600**-1Conditions: 1050 CFM Indoor Air @ 70°F DB
Basic Unit without Auxiliary Heat
Capacity of Unit* With KW of Auxiliary heat Outdoor
Ambient °F.
35
HEATING SPECIFICATIONS
capacity btuh c.o.p. 4.8 9.6 14.4 19.2
65 51.54 4.44 67.92 84.30 100.68 117.0760 48.79 4.28 65.17 81.55 97.94 114.3255 45.92 4.11 62.30 78.68 95.07 111.4550 42.93 3.92 59.31 75.69 92.07 108.4645 39.73 3.70 56.11 72.49 88.88 105.2640 36.90 3.50 53.28 69.66 86.05 102.4335 34.03 3.30 50.41 66.79 83.18 99.5630 34.27 3.26 50.65 67.03 83.41 99.7925 31.63 3.08 48.01 64.39 80.77 97.1520 29.12 2.90 45.50 61.89 78.27 94.6515 26.48 2.70 42.86 59.25 75.63 92.0110 23.76 2.48 40.14 56.52 72.91 89.295 21.07 2.25 37.45 53.83 70.21 86.590 18.37 2.01 34.75 51.13 67.52 83.90-5 15.68 1.76 32.06 48.44 64.82 81.20
-10 12.84 1.48 29.22 45.61 61.99 78.37
Model: SSZ140421A* / CA*F4860*6A*+TXV / MBR2000**-1Conditions: 1400 CFM Indoor Air @ 70°F DB
Capacity of Unit* With KW of Auxiliary heat
Basic Unit without Auxiliary HeatOutdoor
Ambient °F. capacity
btuh c.o.p. 4.8 9.6 14.4 19.265 57.82 4.25 74.20 90.59 106.97 123.3560 54.74 4.10 71.12 87.50 103.89 120.2755 51.52 3.94 67.90 84.28 100.67 117.0550 48.16 3.76 64.54 80.93 97.31 113.6945 44.57 3.55 60.96 77.34 93.72 110.1040 41.40 3.36 57.78 74.16 90.55 106.9335 38.18 3.17 54.56 70.94 87.33 103.7130 36.62 2.94 53.00 69.38 85.76 102.1525 33.80 2.77 50.18 66.56 82.94 99.3220 31.12 2.61 47.50 63.89 80.27 96.6515 28.30 2.43 44.68 61.06 77.45 93.8310 25.39 2.24 41.77 58.16 74.54 90.925 22.51 2.03 38.89 55.28 71.66 88.040 19.63 1.82 36.01 52.40 68.78 85.16-5 16.75 1.59 33.13 49.52 65.90 82.28-10 13.72 1.34 30.11 46.49 62.87 79.25
Model: SSZ140481A* / CA*F4860*6A*+TXV / MBR2000**-1Conditions: 1550 CFM Indoor Air @ 70°F DB
Capacity of Unit* With KW of Auxiliary heat
Basic Unit without Auxiliary HeatOutdoor
Ambient °F.
capacity btuh c.o.p. 4.8 9.6 14.4 19.2
65 71.65 4.34 88.03 104.41 120.80 137.1860 67.83 4.19 84.21 100.59 116.98 133.3655 63.84 4.03 80.22 96.60 112.99 129.3750 59.68 3.85 76.06 92.44 108.83 125.2145 55.23 3.64 71.62 88.00 104.38 120.7640 51.30 3.45 67.68 84.06 100.45 116.8335 47.31 3.26 63.69 80.07 96.46 112.8430 47.86 3.17 64.24 80.63 97.01 113.3925 44.17 2.99 60.56 76.94 93.32 109.7020 40.68 2.83 57.06 73.44 89.83 106.2115 36.99 2.63 53.37 69.76 86.14 102.5210 33.19 2.43 49.57 65.95 82.34 98.725 29.42 2.21 45.81 62.19 78.57 94.950 25.66 1.98 42.04 58.42 74.81 91.19-5 21.90 1.74 38.28 54.66 71.04 87.43-10 17.94 1.46 34.32 50.70 67.09 83.47
Model: SSZ140601A* / CA*F4860*6A*+TXV / MBE2000**-1Conditions: 1850 CFM Indoor Air @ 70°F DB
Capacity of Unit* With KW of Auxiliary heat
Basic Unit without Auxiliary HeatOutdoor
Ambient °F.
*To obtain BTU capacity of unit with KW of auxiliary heat, multiply by 1000 (Example: 39.01 x 1000 = 39,010 BTU)
36
PERFORMANCE DATA
PERFORMANCE TEST
All data based upon listed indoor dry bulb temperature. .00inches external static pressure on coil of outdoor section.Indoor air cubic feet per minute (CFM) as listed in the Perfor-mance Data Sheets:
If conditions vary from this, results will change as follows:1. As indoor dry bulb temperatures increase, a slight
increase will occur in indoor air temperature drop (DeltaT). Low and high side pressures and power will notchange.
2. As indoor CFM decreases, a slight increase will oc-cur in indoor temperature drop (Delta T). A slight de-crease will occur in low and high side pressures andpower.
A properly operating unit should be within plus or minus 2degrees of the subcooling value shown in the Heat PumpSpecifications.
A properly operating unit should be within plus or minus 3degrees of the typical (Delta T) value shown.
A properly operating unit should be within plus or minus 7
capacity btuh c.o.p. 4.8 9.6 14.4 19.2
65 41.48 4.11 57.86 74.24 90.63 107.0160 39.27 3.96 55.65 72.03 88.42 104.8055 36.96 3.80 53.34 69.72 86.11 102.4950 34.55 3.62 50.93 67.31 83.70 100.0845 31.98 3.41 48.36 64.74 81.13 97.5140 29.70 3.23 46.08 62.46 78.85 95.2335 27.39 3.04 43.77 60.15 76.54 92.9230 24.92 2.49 41.30 57.68 74.07 90.4525 23.00 2.35 39.38 55.76 72.15 88.5320 21.18 2.21 37.56 53.94 70.33 86.7115 19.26 2.06 35.64 52.02 68.41 84.7910 17.28 1.89 33.66 50.04 66.43 82.815 15.32 1.72 31.70 48.08 64.47 80.850 13.36 1.53 29.74 46.12 62.51 78.89-5 11.40 1.34 27.78 44.16 60.55 76.93
-10 9.34 1.13 25.72 42.10 58.49 74.87
Basic Unit without Auxiliary HeatOutdoor
Ambient °F.
Model: SSZ140361B* / AR*F374316B*+TXV -1Conditions: 1250 CFM Indoor Air @ 70°F DB
Capacity of Unit* With KW of Auxiliary heat
PSIG of the HI PR shown.
A properly operating unit should be within plus or minus 3PSIG of the LO PR shown.
A properly operating unit should be within plus or minus 3Amps of the typical value shown.
NOTE: Pressures are measured at the liquid and suctionservice valve ports.
WIRING DIAGRAMS
37
HIG
H V
OLT
AG
E!
DIS
CO
NN
ECT
ALL
PO
WER
BEF
OR
E S
ERVI
CIN
G O
R IN
STA
LLIN
G T
HIS
UN
IT.
MU
LTIP
LE P
OW
ER S
OU
RC
ES M
AY B
E P
RES
ENT.
FA
ILU
RE
TOD
O S
O M
AY C
AU
SE P
RO
PER
TY D
AM
AG
E, P
ERSO
NA
L IN
JURY
OR
DE
ATH
.
Wiring is subject to change, always refer to the wiring diagram on the unit for the most up-to-date wiring.
SSZ140[18,30,42-60]1AA-AE, 241AA-AH,361AA-AG
CO
MP
IO
T1
C
MAIN
R
AUX
5
S
SR
SA
21
RC
CF
SC
T2
C
L1L2
CH
C
F
MAI
N
AUXIO CM
LPS
T1 L1
T2 L2
RD
SA
(IF U
SED
)N
OTE
2SC
RD
BL
L2T2
L1T1
C
BKBK
BKR
D
RD
BK
BL
YL/P
K
YL
BL
RD
RC
CF
FC
HERM
YLYL
YL
BRR
D
PUYL
RD
SR
5 21
BK YL
BL
IO
CMAU
X
MAI
N
BK
BR
PU
YL
C
R
S
RD
BKAU
X
MAI
NC
OM
PBK
DFT
YL/P
KYL
/PK
LPS
DF1
DF2
HV
DR
CH
W2
LVD
R
O
R
O
OY
C
RVC
W2
RC
DFT
CY
DCR
DFT
RV
CBK
RDRD
BKC
HBK
BKBK
DC
OR
CY
OO
BLYL
BKR
D
RR
RD
LVD
R
W2
WH
DFT RD
H V D R
DF2 DF1
BKBK
HPS
CO
LOR
CO
DE
BK
-----
----
-----
- BLA
CK
BL/
PK
-----
-----
BLU
E/P
INK
STR
IPE
BR
----
-----
-----
- BR
OW
NO
R --
----
-----
---- O
RAN
GE
PU
----
-----
-----
- PU
RP
LER
D --
-----
----
---- R
ED
W
H --
-----
-----
-- W
HIT
EY
L ---
-----
-----
-- Y
ELLO
WY
L/P
K----
-----
YE
LLO
W/P
INK
STR
IPE
WIR
ING
CO
DE
FAC
TOR
Y W
IRIN
GH
IGH
VO
LTAG
ELO
W V
OLT
AGE
OPT
ION
AL H
IGH
VO
LTA
GE
FIE
LD W
IRIN
GH
IGH
VO
LTAG
ELO
W V
OLT
AGE
COM
PONE
NT C
ODE
C ---
------
------
CO
NTAC
TOR
CH --
------
-----
CRAN
KCAS
E HE
ATER
CM --
------
---- O
UTDO
OR
FAN
MO
TOR
COM
P ---
-----
COM
PRES
SOR
DC --
------
-----
DEFR
OST
CO
NTRO
LDF
T ---
------
-- DE
FRO
ST T
HERM
OST
ATHP
S----
------
---HI
GH
PRES
SURE
SW
ITCH
HVDR
-----
--- H
IGH
VOLT
AGE
DEFR
OST
REL
AYIO
-----
------
--- IN
TERN
AL O
VERL
OAD
LP
S --
------
---- L
OW
PRE
SSUR
E SW
ITCH
LVDR
-----
---- L
OW
VO
LTAG
E DE
FRO
ST R
ELAY
LVJB
-----
-----
LOW
VO
LTAG
E JU
NCTI
ON
BOX
RCCF
-----
---- R
UN
CAP
ACIT
OR
FO
R C
OM
PRES
SOR
& F
ANRV
C ---
------
-- RE
VERS
ING
VAL
VE C
OIL
SA --
------
-----
STAR
T AS
SIST
SC --
------
-----
STAR
T CA
PACI
TOR
FOR
COM
PRES
SOR
(OPT
IONA
L)SR
-----
------
-- ST
ART
RELA
Y FO
R CO
MPR
ESSO
R (O
PTIO
NAL)
VEN
DO
R: G
OO
DM
AN P
RIN
T SH
OP
01
/06
0
140R
0002
9P
CO
NTR
OLS
SH
OW
N W
ITH
TH
ERM
OST
AT
IN 'O
FF' P
OSI
TIO
N.
USE
N.E
.C. C
LAS
S 2
WIR
E
NO
TES:
1) T
O IN
DO
OR
UN
IT L
OW
VO
LTAG
E
TER
MIN
AL
BLO
CK
& IN
DO
OR
T
HER
MO
STA
T.2)
STA
RT
ASS
IST
FAC
TOR
Y
EQ
UIP
PED
WH
EN
RE
QU
IRED
.3)
CR
ANKC
ASE
HEA
TER
MA
Y B
E
FAC
TOR
Y O
R F
IELD
INS
TALL
ED.
OU
TDO
OR
PO
WER
SU
PPLY
SEE
RA
TIN
G P
LATE
LVJB
CO
NTR
OL
BOX
OR
BL/P
KBLR
D
O Y CR
NO
TE 1
WH
W2
ALT
ER
NAT
E D
OU
BLE
P
OLE
CO
NTA
CTO
R
EQ
UIP
MEN
T G
RO
UN
DU
SE C
OP
PER
C
ON
DU
CTO
RS
ON
LY
(IF U
SED
) NO
TE 3
BL/P
KH
PSBL
/PK
BL/P
K
YL/P
K
(IF U
SED
)
ALTERNATE DOUBLEPOLE CONTACTOR ONLY
IND
OO
R P
OW
ER
SU
PP
LY
(IF U
SED
)N
OTE
3
WIRING DIAGRAMS
38
HIG
H V
OLT
AG
E!
DIS
CO
NN
ECT
ALL
PO
WER
BEF
OR
E S
ERVI
CIN
G O
R IN
STA
LLIN
G T
HIS
UN
IT.
MU
LTIP
LE P
OW
ER S
OU
RC
ES M
AY B
E P
RES
ENT.
FA
ILU
RE
TOD
O S
O M
AY C
AU
SE P
RO
PER
TY D
AM
AG
E, P
ERSO
NA
L IN
JURY
OR
DE
ATH
.
USE
N.E
.C. C
LASS
2 W
IRE
NO
TES:
1) T
O IN
DO
OR
UN
IT L
OW
VO
LTAG
E
TER
MIN
AL
BLO
CK
&IN
DO
OR
T
HE
RM
OST
AT.
2) S
TAR
T A
SSI
ST F
AC
TOR
Y
EQ
UIP
PED
WH
EN
REQ
UIR
ED
.
CO
MP
ALTERNATE DOUBLEPOLE CONTACTOR ONLY
IO
T1
C
MAIN
R
AUX
5
S
SR
SA
21
RC
CF
SC
T2
C
L1L2
(IF U
SE
D)
CH
C
F
MAIN
AUX
IO CM
014
0R00
171-
A
OR
BL/
PKB
L
RD
O Y CR
CO
LOR
CODE
BK
-----
-----
-----
BLA
CK
BL/
PK
-----
-----
BLU
E/P
INK
STR
IPE
BR
-----
----
----
-- B
ROW
NG
R--
----
------
----
GRE
EN
OR
----
-----
----
-- O
RAN
GE
PU
-----
-----
-----
PU
RPL
ER
D --
----
------
--- R
ED
WH
----
-----
-----
WH
ITE
YL
----
------
-----
YEL
LOW
YL/
PK
-----
----Y
ELLO
W/P
INK
STR
IPE
CO
MPO
NEN
T C
OD
EC
-----
------
----
CO
NTR
AC
TOR
CAD
M---
------
-- C
OM
FOR
T AL
ERT
DIA
GN
OST
IC M
OD
ULE
CC
R---
------
---C
OM
PRE
SS
OR
CO
NTA
CTO
R R
EL A
YC
H --
-----
-----
- CR
ANKC
AS
E H
EAT
ER
CH
S ---
----
-----
CR
AN
KCA
SE
HEA
TER
SW
ITC
HC
M --
-----
-----
OU
TDO
OR
FA
N M
OTO
RC
MR
----
-----
- CO
ND
EN
SER
MO
TOR
RE
LAY
CO
MP
-----
--- C
OM
PR
ESS
OR
CS
------
------
- CO
MP
RE
SSO
R S
OLE
NO
IDD
C --
-----
-----
- DE
FRO
ST
CO
NTR
OL
DFT
----
-----
-- D
EFR
OST
TH
ER
MO
STA
TD
T --
-----
------
DIS
CH
AR
GE
TH
ERM
OS
TAT
HPS
-----
-----
---H
IGH
PR
ESS
UR
E S
WIT
CH
HVD
R --
-----
- HIG
H V
OLT
AG
E D
EFR
OS
T R
EL A
YIO
-----
-----
---- I
NTE
RN
AL
OV
ER
LOA
DLP
S --
-----
----
- LO
W P
RE
SSU
RE
SW
ITC
HLV
DR
----
-----
LO
W V
OLT
AG
E D
EFR
OS
T R
ELA
YLV
JB --
-----
--- L
OW
VO
LTAG
E JU
NC
TIO
N B
OX
RC
CF
-----
----
RU
N C
APA
CIT
OR
FO
R C
OM
PR
ESS
OR
& F A
NR
VC --
----
-----
RE
VER
SIN
G V
ALV
E C
OIL
SA
----
------
--- S
TAR
T A
SSI
STS
C --
-----
-----
- STA
RT
CA
PAC
ITO
R F
OR
CO
MP
RE
SSO
R(O
PTIO
NAL
)S
R --
----
------
- STA
RT
RE
LAY
FOR
CO
MP
RES
SO
R (O
PTIO
NAL
)
CO
NTR
OLS
SH
OW
N W
ITH
TH
ER
MO
STA
T IN
'OFF
'P
OS
ITIO
N.
OU
TDO
OR
PO
WER
SU
PPL
YSE
E R
ATIN
G P
LATE
WIR
ING
CO
DEFA
CT
OR
Y W
IRIN
GH
IGH
VO
LTA
GE
LOW
VO
LTA
GE
OP
TIO
NA
L H
IGH
VO
LTAG
E
FIEL
D W
IRIN
GH
IGH
VO
LTA
GE
LOW
VO
LTA
GE
LVJB
CO
NTR
OL
BO
X
SC
RD
BL
L2T2
L1T1
C
BK
BK
BK
RD R
D
BL
RD
RC
CF
FC
HE
RM
YLYLYL
BR
RDPU
YL
RD
SR
5 21
BK
YL
BL
IO CM
AUX
MA
IN
BRPU
YL
C
R
S
RD
BK
AUX
MA
INC
OM
P
YL/
PK
LPS
EQ
UIP
MEN
TG
RO
UN
DU
SE
CO
PPE
RC
ON
DU
CTO
RS
ON
LY
DF1
DF2
CH
LVD
R
R
CN
T
IND
OO
R P
OW
ER
SUP
PLY
DFT
C
Y
DC
DFT
WH
W2
DC
YO
O-R
V
BL/
PK
R
WH
LVD
R
DFT
OR
HVD
R
BL/P
K
HPS
O
C
RVC
W2
R
HVD
R
YL/
PK
DF2 DF1
BK
CC
R
R-D
FTW
CN
TC
-RV
C
CR
-PS1
PS2
RD
RD
RD
BKY
LBK
YL/
PKBL Y
L/P
K
BL
YL
CH
S
R-D
FT
O-R
VC
-RV
LPS
PS2
R-P
S1 O
WC
HPS
CC
R
}FIE
LDLO
WV
OLT
AG
EC
ON
NE
CTI
ON
S
RD
BK
CH
CH
SB
KR
D
RD
S
A(IF
USE
D)
NO
TE 2
DFT
RVC
RD
BK
BK
BL/P
K
BK
GR
Y
CAD
M
CAD
MC
ADM
T1 L1
T2 L2
ALT
ER
NAT
ED
OU
BLE
PO
LEC
ON
TAC
TOR
Wiring is subject to change, always refer to the wiring diagram on the unit for the most up-to-date wiring.
SSZ140[18,30,42-60]1AF, 241AJ, 361AHSSZ140361B*
WIRING DIAGRAMS
39
HIG
H V
OLT
AG
E!
DIS
CO
NN
ECT
ALL
PO
WER
BEF
OR
E S
ERVI
CIN
G O
R IN
STA
LLIN
G T
HIS
UN
IT.
MU
LTIP
LE P
OW
ER S
OU
RC
ES M
AY B
E P
RES
ENT.
FA
ILU
RE
TOD
O S
O M
AY C
AU
SE P
RO
PER
TY D
AM
AG
E, P
ERSO
NA
L IN
JURY
OR
DE
ATH
.
SSZ140[18,30,42-60]1AG, 241AK, 361AHSSZ140361B*
US
E N
.E.C
. CLA
SS 2
WIR
E
NO
TES
:1)
TO
IND
OO
R U
NIT
LO
W V
OLT
AGE
TER
MIN
AL
BLO
CK
& IN
DO
OR
TH
ERM
OST
AT.
2) S
TART
AS
SIS
T FA
CTO
RY E
QU
IPPE
D W
HE
N R
EQU
IRE
D.
3) U
SE
CO
PPE
R C
OND
UC
TOR
ON
LY.
4) C
RA
NKC
ASE
HEA
TER
& C
RAN
KCAS
E H
EAT
ER
SWIT
CH
AR
E FA
CTO
RY
INST
ALL
ED O
PTI
ON
5) 4
0VA
MIN
IMU
M T
RAN
SFO
RM
ER IS
REQ
UIR
ED.
6) C
OM
MO
N S
IDE
OF
TRA
NSF
OR
MER
MU
ST B
E G
RO
UN
DED
.
CO
MP
ALTERNATE DOUBLEPOLE CONTACTOR ONLY
IO
T1
C
MAIN
R
AUX
5
S
SR
SA
21
RC
CF
SC
T2
C
L1L2
(IF U
SED
)N
OTE
2CH
CF
MAIN
AUXIO C
M
0140
R00
171
- B
OR
BL/P
KBLRD
O Y CR
COLO
RC
ODE
BK
-----
------
---- B
LACK
BL/
PK --
------
-- BL
UE/
PINK
STR
IPE
BR
-----
------
----
BRO
WN
GR
------
-----
-----
GR
EEN
OR
-----
-----
-----
ORA
NGE
PU
-----
------
----
PURP
LER
D --
------
------
- RED
WH
------
------
-- W
HITE
YL
------
-----
---- Y
ELLO
WY
L/PK
------
-----
YELL
OW
/PIN
K ST
RIP
E
CO
MP
ON
ENT
CO
DE
C --
------
------
- CO
NTA
CTO
RC
AD
M --
------
CO
MFO
RT
ALE
RT
DIA
GN
OS
TIC
MO
DU
LEC
CR
-----
-----
- CO
MPR
ESS
OR
CO
NTA
CTO
R R
ELAY
CH
-----
------
-- C
RAN
KC
ASE
HE
ATE
RC
HS
----
------
- CR
AN
KCA
SE
HE
ATER
SW
ITC
HC
M --
------
----
OU
TDO
OR
FA
N M
OTO
RC
MR
-----
-----
CO
ND
ENSE
R M
OTO
R R
ELA
YC
OM
P --
-----
- CO
MPR
ES
SOR
CS
----
------
--- C
OM
PR
ESS
OR
SO
LEN
OID
DC
-----
------
-- D
EFR
OS
T C
ON
TRO
LD
FT --
-----
---- D
EFR
OS
T TH
ERM
OST
ATD
T ---
-----
-----
DIS
CH
AR
GE
THER
MO
STA
TH
PS
-----
------
HIG
H P
RE
SSU
RE
SW
ITC
HH
VD
R --
-----
- H
IGH
VO
LTA
GE
DEF
RO
ST R
ELAY
IO --
-----
------
- IN
TER
NA
L O
VER
LOA
DLP
S -
------
--- L
OW
PR
ES
SUR
E S
WIT
CH
LVD
R --
------
- LO
W V
OLT
AG
E D
EFR
OS
T R
ELAY
LVJB
---
------
LO
W V
OLT
AGE
JU
NC
TIO
N B
OX
RC
CF
-----
---- R
UN
CA
PAC
ITO
R F
OR
CO
MPR
ESS
OR
& F
ANR
VC --
-----
---- R
EVER
SIN
G V
ALV
E C
OIL
SA
------
------
- STA
RT
AS
SIS
TS
C --
-----
------
STA
RT
CA
PAC
ITO
R F
OR
CO
MPR
ESS
OR
(OPT
ION
AL)
SR
----
------
--- S
TAR
T R
ELA
Y FO
R C
OM
PRE
SSO
R (O
PTIO
NA
L)C
ON
TRO
LS S
HO
WN
WIT
H T
HE
RM
OST
AT IN
'OFF
' PO
SIT
ION
.
OU
TDO
OR
PO
WE
R S
UPP
LYS
EE
RAT
ING
PLA
TE
WIR
ING
CODE
FACT
ORY
WIR
ING
HIG
H VO
LTAG
ELO
W V
OLT
AGE
OPT
ION
AL H
IGH
VO
LTAG
E
FIE L
D W
IRIN
GHI
GH
VOLT
AGE
LOW
VO
LTAG
E
LVJB
CO
NTR
OL
BOX
SC
RD
BL
L2T2
L1T1
C
BK
BKB
KR
D RD
BL
RD
RCC
F
FC
HER
MYL
YL
YL
BRR
DPU
YL
RD
SR
5 21
BK YL
BL
IO CM
AU
X
MAI
N
BRPU
YLC
R
S
RD
BK
AU
X
MAI
NC
OM
P
YL/
PK
LPS
EQ
UIP
ME
NT
GR
OU
ND
DF1 DF2
CH
LVD
R
R
CN
T
IND
OO
R P
OW
ER
SU
PP
LY
DFT
C
Y
DC
DFT
WH
W2
DC
BL/P
K
HP
SO
C
RV
C
W2
R
HV
DR
YL/P
K
BK
RD
BKP
UB
K
BL
BL
PU
CHS
R-D
FT
O-R
VC
-RV
LPS
PS2
R-P
S1 O
WC
HPS
CCR
}FIE
LD L
OW
VOLT
AGE
CO
NN
ECTI
ONS
RD
BK
CH
CH
S
RD
SA
(IF U
SED
)N
OTE
2
DFT
RV
C
RD
BKBL
/PK
BK
GR
Y
T1 L1
T2 L2
ALTE
RN
ATE
DOU
BLE
POLE
CON
TAC
TOR
R
DF1
DF2
0
0-RV
C-RV
W
LVDR
HVDR
CCR CNT
0
DFT
R-DF
T
R-PS
1
Y
Y
CR C C
PS2
YL/
PK
YL/
PK
RD
RD
BL/
PKW
HO
R
BK
BK
SEE
NO
TE 4
SEE
NOTE
5 &
6
SEE
NO
TE
4S
EE N
OTE
3
BK
BKR
D
NOTE
1
IO
Wiring is subject to change, always refer to the wiring diagram on the unit for the most up-to-date wiring.