phd4 - carrier · specifications subject to change without notice. 518 11 2005 07 6/13/19 up to...
TRANSCRIPT
Use of the AHRI Certified TM Mark in-dicates a manufacturer’s participationin the program. For verification of certi-fication for individual products, go towww.ahridirectory.org .
Specifications subject to change without notice. 518 11 2005 07 6/13/19
Up to 14.5 SEER, 12 EER, 8.0 HSPF, PACKAGE HEAT PUMP, 2 to 5 TONS208/230−1−60 Single Phase 2−5 Nominal Tons (Sizes 24−60)208/230−3−60 & 460−3−60 Three Phase, 3−5 Nominal Tons (Sizes 36−60)REFRIGERATION CIRCUIT
• Environmentally balanced R−410A refrigerant• Copper tube/aluminum fin condenser and evaporator coils• Scroll compressor standard on all models• Short−cycling protection for the compressor is built into the defrost control board• Dehumidification mode (airflow reduction) on all models
EASY TO INSTALL AND SERVICE• Installs easily on a rooftop or at ground level• Easy three−panel accessibility for maintenance and installation• Easily converts to down discharge applications• Combination electric heating and cooling
BUILT TO LAST• Direct drive high efficiency ECM blower motor on all models• Pre−painted steel cabinet• Vertical condenser fan discharge• Full perimeter steel base rails• High and low pressure switches provide added reliability for the compressor• Cabinet air leakage of 2.0% or less at .5 in. W.C. when tested in accordance
with ASHRAE standard 193 (Low cabinet air leakage FIOP models only)Models with factory installed options are identified with letters in the 14th and 15th positions in the model number
• Hail guard (3/8” spacing) wire grilles standard on single phase models with optional factory installedtin−plated copper evaporator coil (TP). All other models have 2” spacing wire grilles including3−phase models
• Single and 3−phase models with factory installed option for low cabinet air leakage and tin−platedcopper evaporator main tubes PHD4 (LC)LIMITED WARRANTY*
1 Phase PHD4 “F” Models• 3 year No Hassle Replacement� limited warranty for tin−plated ’TP’ models• 10 year parts limited warranty (including compressor and coils) with timely registration• 5 year parts limited warranty if not registered within 90 days of original installation3 Phase PHD4 “F” Models• 5 year compressor limited warranty• 1 year parts limited warranty* See warranty certificate for details and restrictions
UNIT PERFORMANCE DATA
ModelNumber
COOLING HEATING Unit Dimensions Height x Width x Depth
in (mm)
OperatingWeightlbs (kg)
CapacityBTU/h SEER EER
CapacityBTU/h HSPF
208/230−1−60PHD424000K**0F 23,000 14.5 12.0 22,600 8.0 473/4 x 483/16 x 325/8 (1213 x 1224 x 829) 311 (141)PHD430000K**0F 28,600 14.0 11.5 28,400 8.0 513/4 x 483/16 x 325/8 (1315 x 1224 x 829) 351 (159)PHD436000†**0F 34,200 14.0 11.5 34,400 8.0 483/4 x 483/16 x 443/16 (1238 x 1224 x 1122) 387 (176)PHD442000†**0F 41,000 14.0 11.5 40,000 8.0 543/4 x 483/16 x 443/16 (1391 x 1224 x 1122) 435 (197)PHD448000†**0F 48,000 14.0 12.0 46,000 8.0 543/4 x 483/16 x 443/16 (1391 x 1224 x 1122) 456 (207)PHD460000†**0F 57,500 14.0 11.5 57,500 8.0 483/4 x 483/16 x 443/16 (1238 x 1224 x 1122) 487 (221)
208/230−3−60PHD436000†**0F 34,200 14.0 11.5 34,400 8.0 483/4 x 483/16 x 443/16 (1238 x 1224 x 1122) 387 (176)PHD442000†**0F 41,000 14.0 11.5 40,000 8.0 543/4 x 483/16 x 443/16 (1391 x 1224 x 1122) 435 (197)PHD448000†**0F 48,000 14.0 12.0 46,000 8.0 543/4 x 483/16 x 443/16 (1391 x 1224 x 1122) 456 (207)PHD460000†**0F 57,500 14.0 11.5 57,500 8.0 483/4 x 483/16 x 443/16 (1238 x 1224 x 1122) 487 (221)
460−3−60PHD436000†**0F 34,200 14.0 11.5 34,400 8.0 483/4 x 483/16 x 443/16 (1238 x 1224 x 1122) 387 (176)PHD442000†**0F 41,000 14.0 11.5 40,000 8.0 543/4 x 483/16 x 443/16 (1391 x 1224 x 1122) 435 (197)PHD448000†**0F 48,000 14.0 12.0 46,000 8.0 543/4 x 483/16 x 443/16 (1391 x 1224 x 1122) 456 (207)PHD460000†**0F 57,500 14.0 11.5 57,500 8.0 483/4 x 483/16 x 443/16 (1238 x 1224 x 1122) 487 (221)
‡ K = 208/230−1−60, H = 208/230−3−60, L = 460−3−60** 00 = No Options, TP = Tin−Plated Evaporator Main Tubes (Single Stage), LC = Low Cabinet Air Leakage plus Tin−Plated
Copper Evaporator Main Tubes
PHD4Product Specifications
2 518 11 2005 07Specifications subject to change without notice.
MODEL NUMBER NOMENCLATURE
MODEL NOMENCLATURE
MODEL SERIES1 2 3 4 5,6 7,8,9 10 11,12 13 14 15
P H D 4 36 000 K 00 0 F 1P = Package
H = Heat PumpD = Standard TIER3 = 134 = 145 = 15 SEER24 = 24,000 BTUH = 2 Tons30 = 30,000 BTUH = 2.5 Tons36 = 36,000 BTUH = 3 Tons42 = 42,000 BTUH = 3.5 Tons48 = 48,000 BTUH = 4 Tons60 = 60,000 BTUH = 5 Tons NOMINAL COOLING CAPACITY000 = no factory heat NOMINAL HEATING BTUH (input)K = 208/230−1−60H = 208/230−3−60L = 460−3−60 VOLTAGE00 = No options
TP = Tin−Plated Evaporator Main TubesLC = Low Cabinet Air Leakage plus Tin−Plated Copper Evap Main Tubes
FACTORY INSTALLED OPTIONS
0 = Standard FEATURE CODESales Model DigitEngineering Digit
AHRI* CAPACITIESCOOLING CAPACITIES AND EFFICIENCIES
UNIT NOMINAL TONS STANDARD CFM COOLING CAPACITY EER SEER
24 2 800 23000 12.0 14.5
30 2.5 1000 28600 11.5 14.0
36 3 1200 34200 11.5 14.0
42 3.5 1400 41000 11.5 14.0
48 4 1600 48000 12.0 14.0
60 5 1750 57500 11.5 14.0
HEAT PUMP HEATING CAPACITIES AND EFFICIENCIES
UNITHEATING CAPACITY (BTUH) @
47°F (8.3°C)COP @ 47°F
(8.3°C)HEATING CAPACITY (BTUH) @
17°F (8.3°C)COP @ 17°F
(8.3°C)HSPF
24 22600 3.7 12000 2.30 8.0
30 28400 3.7 15600 2.35 8.0
36 34400 3.6 18600 2.30 8.0
42 40000 3.6 22600 2.40 8.0
48 46000 3.6 25800 2.40 8.0
60 57500 3.7 33000 2.45 8.0
LEGENDdB−Sound Levels (decibels)db—Dry BulbSEER—Seasonal Energy Efficiency Ratiowb—Wet BulbCOP−Coefficient of PerformanceHSPF−Heating Season Performance Factor* Air Conditioning, Heating & Refrigeration Institute.**At “A” conditions−80�F (26.7�C) indoor db/67�F (19.4�C) indoor wb & 95�F(35�C) outdoor db.� Rated in accordance with U.S. Government DOE Department of Energy) testprocedures and/or AHRI Standards 210/240.
Notes:1. Ratings are net values, reflecting the effects of circulating fan heat.Ratings are based on:Cooling Standard: 80°F (26.7�C) db, 67°F (19.4�C) wb indoor entering−airtemperature and 95°F (35�C) db outdoor entering−air temperature.2. Before purchasing this appliance, read important energy cost and efficiencyinformation available from your retailer.
Specifications subject to change without notice.518 11 2005 07 3
PHYSICAL DATA 24 30 36 42 48 60
Unit Size 2 2.5 3 3.5 4 5
Shipping Weight (lb) (kg)
365166
395179
440200
475215
500227
515234
Compressor Quantity 1
Type Scroll
Refrigerant R410A
Refrigerant Quantity (lb) Quantity (kg)
7.53.4
9.04.1
8.94.0
11.25.1
9.94.5
11.95.4
Refrigerant Metering Device Indoor TXV, Outdoor Dual Accuraters
IndoorAccurater,OutdoorDual Accuraters
Indoor TXV, Outdoor DualAccuraters
Orifice ID (in) (mm)
N/A0.080 (1)2.03 (1)
N/A
Orifice OD (in) (mm)
0.032 (2)0.81 (2)
0.035 (2)0.89 (2)
0.040 (2)1.02 (2)
0.046 (2)1.17 (2)
0.046 (2)1.17 (2)
0.052 (2)1.32 (2)
Outdoor CoilRows...Fins/in,face area (sq. ft.)
1...2115.4
1...2118.8
1...2117.5
1...2123.3
1...2123.3
2...2117.5
Outdoor FanNominal Airflow (cfm)Diameter (in.)Diameter (mm)Motor hp (rpm)
250024
6101/12 (810)
300024
6101/10 (810)
360026
6601/5 (810)
400026
6601/5 (810)
400026
6601/5 (810)
380026
6601/4 (810)
Indoor CoilRows...Fins/in,face area (sq. ft.)
3...173.7
3...173.7
2...155.6
3...174.7
3...174.7
3...175.6
Indoor BlowerNominal Airflow (cfm)Size (in.)Size (mm)Motor hp (rpm)
80010 x 10
254 x 2541/2
100010 x 10
254 x 2541/2
120011 x 10
279 x 2541/2
135011 x 10
279 x 2541/2
160011 x 10
279 x 2541
175011 x 10
279 x 2541
High Pressure Switch (psig)CutoutReset (Auto)
650 +/ 15420 +/ 25
LossofCharge/Low Pressure Switch (psig)CutoutReset (Auto)
20 +/ 545 +/ 10
Return Air Filtersdisposable 2 each 20x12x1 in.
508x305x25 mm
1 each 24x16x1 in.610x406x25 mm
24x18x1 in.610x457x25 mm
1 each 24x14x1 in.610x356x25 mm
24x16x1 in.610x406x25 mm
1 each 24x16x1 in.610x406x25 mm
24x18x1 in.610x457x25 mm
*Required filter sizes shown are based on the larger of the AHRI (Air Conditioning Heating and Refrigeration Institute) rated cooling airflow or the heating airflow velocity of300−350 ft/minute for throwaway type or 450 ft/minute for high−capacity type. Air filter pressure drop for non−standard filters must not exceed 0.08 IN. W.C.� If using accessory filter rack refer to the filter rack installation instructions for correct filter size and quantity.
A−WEIGHTED SOUND POWER LEVEL (dBA)
UNIT SIZESTANDARD
RATING (dBA)
TYPICAL OCTAVE BAND SPECTRUM (dBA without tone adjustment)
125 250 500 1000 2000 4000 8000
24 74 55.1 54.3 56.7 54.9 51.7 47.2 42.9
30 75 52.7 53.0 57.9 58.7 54.8 52.2 43.2
36 74 61.9 63.3 58.9 59.9 58.7 56.2 52.4
42 73 52.7 56.9 61.5 60.7 56.7 54.1 47.9
48 74 57.4 57.1 60.9 63.2 57.8 54.8 46.1
60 75 59.3 62.2 62.1 64.1 59.4 55.8 50.2
NOTE: Tested in accordance with AHRI Standard 270−1995 (not listed in AHRI).
4 518 11 2005 07Specifications subject to change without notice.
OPTIONS AND ACCESSORIES
ITEM DESCRIPTION
FACTORYINSTALLED
OPTION
FIELDINSTALLED
ACCESSORY
Compressor Start KitCompressor Start Kit assists compressor start-up by providingadditional starting torque on single phase units only.
X
Corporate ThermostatsThermostats provide control for the system heating and coolingfunctions.
X
Crankcase HeaterCrankcase Heater provides anti-floodback protection for low-load cooling applications.
X
Economizer
Horizontal Economizer with solid state controls and barometricrelief dampers includes filter racks and provide outdoor air duringcooling and reduce compressor operation.
X
Vertical Economizer with solid state controls and barometric reliefdampers includes filter racks and provide outdoor air duringcooling and reduce compressor operation.
X
Electric Heaters Electric Heat Supplement X
Filter RackFilter Rack features easy installation, serviceability, and high-filtering performance for vertical applications. Includes 1-in. filter.
X
Flat Roof CurbsFlat Roof Curbs in 14-in. (356 mm) sizes are available for roofmounted applications.
X
Low Ambient Kit
Low Ambient Kit (Motormaster II Control) allows the use of mechanical cooling down to outdoor temperatures as low as 0°F(-18°C) when properly installed.
X
Manual Outside Air DamperManual Outside Air Damper includes hood and filter rack withadjustable damper blade for up to 25% outdoor air.
X
Square-to-Round Duct TransitionKit
Square-to-Round Duct Transition Kit enable 24-48 size units tobe fitted to 14 in. (356 mm) round ductwork.
X
Cabinet leakageCabinet air leakage less than 2.0% at 0.5 in. W.C. when tested inaccordance with ASHRAE standard 193.
X
Curb Adaptor Adapter curb for new unit with base rail installed on existing curb X
Gasket Kit For field modified existing roof curb with new base rail unit. X
Outdoor Coil Dense Metal Wire Grille3/8” spacing Dense Metal Wire Grille provide hail and vandalismprotection. (Factory installed on single phase with 'TP' and 'LC')
X X
Dual Point Electric Heaters
Allows you to power the electric heater and unit contactor separ-ately by having two individual field power supply circuits connectedrespectively.
X
Electric Heaters
ORDERING NO.
NOMINALCAPACITY (kW@ 240 or 480
VOLTS)
USED WITH SIZES
24 30 36 42 48 60
208/230 - SINGLE PHASE - 60 HZ
CPHEATER052B0* 5.0 X X X
CPHEATER064B0* 5.0 X X X X X X
CPHEATER070B0* 7.2 X X X X X X
CPHEATER050B0* 10.0 X X X X X X
CPHEATER066B0* 15.0 X X X X
CPHEATER133B0* 15.0 X
CPHEATER054B0* 20.0 X X X
208/230 - THREE PHASE - 60 HZ
CPHEATER055B0* 5.0 X X X X
CPHEATER056B0* 10.0 X X
CPHEATER068B0* 10.0 X X X X
CPHEATER058B0* 15.0 X X X X
CPHEATER059B0* 20.0 X X X
460 - THREE PHASE - 60 HZ
CPHEATER061B0* 10.0 X X X X
CPHEATER062B0* 15.0 X X X X
CPHEATER063B0* 20.0 X X X
NOTE: Electric heaters are rated at 240v. Refer to Multiplication Factors table for other voltages.X = Approved combination
Minimum Airflow for Reliable Electric Heater Operation (CFM)SIZE 24 30 36 42 48 60
AIRFLOW (CFM) 800 1025 1250 1400 1710 1800
Specifications subject to change without notice.518 11 2005 07 5
ECONOMIZER
COIL
FILTER
SIDE VIEW
CAULK BOTTOM CORNEROF ECONOMIZERON EACH SIDE
BASE
COIL
FLANGEON BASE DETAIL
ECONOMIZER
FI LTER
EV APORATORCOIL
TOP FILTER RACK
BEND FLANGE AT 90° -SCREW TODIVIDER WITH 1-IN. (25 mm) SCREW
BOTTOM FILTERRACK
DAMPERBLADE
MANUAL OUTSIDEAIR HOOD
REPLACEMENTPANEL
ECONOMIZER
FILTER RACK
MANUAL OUTSIDE AIR DAMPER
Vertical Economizer
Horizontal Economizer
A09375
6 518 11 2005 07Specifications subject to change without notice.
UNIT DIMENSIONS − 24−30
A150561
Specifications subject to change without notice.518 11 2005 07 7
UNIT DIMENSIONS − 36−60
A150562
8 518 11 2005 07Specifications subject to change without notice.
ROOF CURB ACCESSORY DIMENSIONS
RETURN AIR
SMALLBASE UNIT
SUPPLYAIR
LARGEBASE UNIT
UNIT PLACEMENT ON COMMON CURB
SMALL/COMMON CURB
SMALL OR LARGE BASE UNITLARGE CURBA180216
UNITSIZE
CATALOGNUMBER
AIN.
(mm)
B (small/commonbase)
IN. (mm)*
B (largebase)
IN. (mm)*
CIN.
(mm)
DIN. (mm)
EIN. (mm)
FIN.
(mm)
GIN. (mm)
HIN. (mm)
Smallor
LargeCPRFCURB011B00 14 (356) 10 (254)
14 (356) 16 (406) 47.8(1214)
32.4 (822)2.7 (69)
30.6 (778)46.1
(1170)Large CPRFCURB013B00 14 (356) 14 (356) 43.9
(1116)42.2
(1072)
* Part Number CPRFCURB011B00 can be used on both small and large basepan units. The cross supports must be located based on whether the unit is a small basepanor a large basepan.NOTES:1. Roof curb must be set up for unit being installed.2. Seal strip must be applied, as required, to unit being installed.3. Roof curb is made of 16−gauge steel.4. Attach ductwork to curb (flanges of duct rest on curb).5. Insulated panels: 1−in. (25 mm) thick fiberglass 1 lb. density.
Specifications subject to change without notice.518 11 2005 07 9
SELECTION PROCEDURE (WITH EXAMPLE)1. Determine cooling and heating requirementsat design conditions:Given:Required Cooling Capacity (TC) 34,500 Btuh. . . . . . .Sensible Heat Capacity (SHC) 26,000 Btuh. . . . . . . .Required Heating Capacity 60,000 Btuh. . . . . . . . . . .Condenser Entering Air Temperature 95°F (35°C). . .Indoor−Air Temperature80°F (27°C) edb 67°F (19°C) ewbEvaporator Air Quantity 1200 CFM. . . . . . . . . . . . . . . . .External Static Pressure 0.200 IN. W.C.. . . . . . . . . . . .Electrical Characteristics 208−1−60. . . . . . . . . . . . . . . .
2. Select unit based on required coolingcapacity.Enter Net Cooling Capacities table at condenser enteringtemperature of 95°F (35°C). Unit 36 at 1200 CFM and 67°F(19°C) ewb (entering wet bulb) will provide a total capacity of35,800 Btuh and a SHC of 26,950 Btuh. Calculate SHCcorrection, if required, using Note 4 under Cooling Capacitiestables.
3. Select heating capacity of unit to providedesign condition requirement.In the Heating Capacities and Efficiencies table, note that the36 size unit will deliver 34,800 BTUH at the AHRI high temprating point. To achieve 60,000 BTUH, accessory electric heatwill be required. Use the Balance Point Worksheet to plot theload line with the unit capacity. The difference between theload line and unit capacity at the design heating temperature isthe amount of electric heat that will be required.
4. Determine fan speed and power require-ments at design conditions.Before entering the air delivery tables, calculate the total staticpressure required. From the given example, the Wet CoilPressure Drop Table, and the Filter Pressure Drop Table:External Static Pressure 0.200 IN. W.C.Filter 0.130 IN. W.C.Wet Coil Pressure Drop 0.18 IN. W.C.Total Static Pressure 0.51 IN. W.C.Enter the table for Dry Coil Air Delivery— At 0.50 IN. W.C.ESP (external static pressure) and MED−LOW speed themotor delivers 1140 CFM. To achieve 1200 CFM, a higherspeed tap is required.
5. Select unit that corresponds to powersource available.The Electrical Data Table shows that the unit is designed tooperate at 208/230−1−60.
Specifications subject to change without notice.518 11 2005 07 10
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7.3
01
5.9
72
.80
72
(22
.2)
29
.60
16
.31
1.5
12
7.5
71
5.5
21
.73
25
.50
14
.71
1.9
62
3.3
91
3.8
82
.21
21
.21
13
.03
2.5
01
8.9
81
2.1
62
.82
*At 7
5�F
(23
.9 �
C)
ente
ring
dry
bulb
—Te
nnes
see
Val
ley
Aut
horit
y [T
VA
] rat
ing
cond
ition
s; a
ll ot
hers
at 8
0�F
(26
.7 �
C)
ente
ring
dry
bulb
. See
Leg
end
and
Not
es.
24 H
eati
ng
Ext
end
ed P
erfo
rman
ce T
able
−10−6
0�F
(−2
3.3−
15.6�C
)IN
DO
OR
AIR
OU
TD
OO
R C
OIL
EN
TE
RIN
G A
IR T
EM
PE
RA
TU
RE
S °
F (
°C)
-10 (
-23.3
)0 (
-17.8
)10 (
-12.2
)20 (
-6.7
)30 (
-1.1
)40 (
4.4
)50 (
10)
60 (
15.6
)
ED
B°F (°C
)C
FM
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
To
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
g
65
(18.3
)
70
05
.16
4.7
41
.30
7.3
46
.76
1.3
69
.88
9.0
71
.42
13
.05
11
.84
1.4
91
6.1
51
4.1
51
.54
19
.76
19
.76
1.6
02
3.9
32
3.9
31
.67
28
.94
28
.94
1.7
8
80
05
.23
4.8
11
.31
7.4
46
.84
1.3
71
0.0
09
.18
1.4
21
3.1
71
1.9
41
.48
16
.30
14
.28
1.5
21
9.9
71
9.9
71
.57
24
.23
24
.23
1.6
42
9.2
62
9.2
61
.71
90
05
.29
4.8
71
.32
7.5
26
.92
1.3
71
0.1
09
.27
1.4
21
3.2
71
2.0
41
.47
16
.43
14
.40
1.5
12
0.1
52
0.1
51
.56
24
.47
24
.47
1.6
12
9.3
12
9.3
11
.67
70
(21.1
)
70
04
.96
4.5
61
.36
7.1
36
.56
1.4
29
.64
8.8
51
.49
12
.86
11
.66
1.5
61
5.9
41
3.9
61
.62
19
.49
19
.49
1.6
82
3.5
92
3.5
91
.76
28
.47
28
.47
1.8
6
80
05
.04
4.6
31
.36
7.2
36
.65
1.4
39
.77
8.9
71
.48
12
.99
11
.78
1.5
51
6.0
91
4.1
01
.60
19
.70
19
.70
1.6
52
3.8
82
3.8
81
.72
28
.78
28
.78
1.8
0
90
05
.11
4.7
01
.37
7.3
16
.73
1.4
39
.88
9.0
71
.48
13
.11
11
.89
1.5
41
6.2
31
4.2
21
.59
19
.88
19
.88
1.6
32
4.1
22
4.1
21
.69
29
.00
29
.00
1.7
6
75
(23.9
)
70
04
.74
4.3
61
.42
6.8
96
.34
1.4
99
.39
8.6
21
.56
12
.31
11
.16
1.6
21
5.7
31
3.7
81
.70
19
.22
19
.22
1.7
62
3.2
82
3.2
81
.84
28
.02
28
.02
1.9
5
80
04
.81
4.4
31
.43
6.9
96
.44
1.4
99
.52
8.7
41
.55
12
.51
11
.34
1.6
11
5.8
91
3.9
21
.68
19
.43
19
.43
1.7
32
3.5
32
3.5
31
.80
28
.43
28
.43
1.9
0
90
04
.89
4.5
01
.44
7.0
86
.52
1.5
09
.63
8.8
41
.55
12
.71
11
.53
1.6
11
6.0
11
4.0
31
.67
19
.61
19
.61
1.7
12
3.7
72
3.7
71
.78
28
.65
28
.65
1.8
5
11 518 11 2005 07Specifications subject to change without notice.
PE
RF
OR
MA
NC
E D
ATA
(C
ON
T)
30 C
oo
ling
Ext
end
ed P
erfo
rman
ce T
able
EV
AP
OR
AT
OR
AIR
CO
ND
EN
SE
R E
NT
ER
ING
AIR
TE
MP
ER
AT
UR
ES
�F
(�C
)
75 (
23.9
)85 (
29.4
)95 (
35)
105 (
40.6
)115 (
46.1
)125 (
51.7
)
CF
M
EW
B°F
(°
C)
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Tota
lS
en
sTo
tal
Se
ns
Tota
lS
en
sTo
tal
Se
ns
Tota
lS
en
sTo
tal
Se
ns
875
57
(13
.9)
29
.07
29
.07
1.8
82
7.2
22
7.2
22
.14
25
.32
25
.32
2.4
32
3.3
72
3.3
72
.76
21
.36
21
.36
3.1
51
9.2
91
9.2
93
.60
62
(16
.7)
29
.99
25
.80
1.8
92
7.8
12
4.7
62
.14
25
.64
23
.67
2.4
32
3.4
72
3.3
02
.76
21
.39
21
.39
3.1
51
9.3
21
9.3
23
.60
63
*(1
7.2
)3
0.4
92
1.0
11
.89
28
.28
20
.08
2.1
52
6.0
51
9.1
12
.43
23
.78
18
.10
2.7
72
1.4
31
7.0
43
.15
19
.04
15
.94
3.6
0
67
(19
.4)
32
.82
21
.81
1.9
13
0.4
52
0.8
82
.16
28
.08
19
.91
2.4
52
5.6
41
8.9
02
.78
23
.16
17
.85
3.1
72
0.6
11
6.7
63
.60
72
(22
.2)
36
.00
17
.71
1.9
33
3.4
41
6.8
42
.19
30
.86
15
.95
2.4
82
8.2
21
5.0
42
.81
25
.53
14
.11
3.1
92
2.7
81
3.1
33
.62
1000
57
(13
.9)
30
.31
30
.31
1.9
22
8.3
42
8.3
42
.18
26
.34
26
.34
2.4
72
4.2
82
4.2
82
.80
22
.17
22
.17
3.1
91
9.9
91
9.9
93
.64
62
(16
.7)
30
.74
27
.66
1.9
22
8.5
22
6.5
02
.18
26
.38
26
.38
2.4
72
4.3
22
4.3
22
.80
22
.20
22
.20
3.1
92
0.0
22
0.0
23
.64
63
*(1
7.2
)3
1.1
82
2.3
71
.93
28
.86
21
.41
2.1
82
6.5
52
0.4
12
.47
24
.19
19
.37
2.8
02
1.7
81
8.2
63
.19
19
.33
17
.11
3.6
3
67
(19
.4)
33
.54
23
.28
1.9
43
1.0
72
2.3
12
.20
28
.60
21
.30
2.4
92
6.0
82
0.2
52
.82
23
.52
19
.15
3.2
02
0.9
11
8.0
23
.64
72
(22
.2)
36
.76
18
.67
1.9
63
4.0
91
7.7
72
.22
31
.41
16
.84
2.5
12
8.6
81
5.9
02
.84
25
.91
14
.92
3.2
22
3.0
81
3.9
13
.66
1125
57
(13
.9)
31
.37
31
.37
1.9
62
9.2
92
9.2
92
.22
27
.19
27
.19
2.5
12
5.0
42
5.0
42
.84
22
.83
22
.83
3.2
32
0.5
72
0.5
73
.67
62
(16
.7)
31
.43
31
.43
1.9
62
9.3
32
9.3
32
.22
27
.23
27
.23
2.5
12
5.0
72
5.0
72
.84
22
.86
22
.86
3.2
32
0.5
92
0.5
93
.67
63
*(1
7.2
)3
1.7
02
3.6
81
.96
29
.31
22
.69
2.2
22
6.9
32
1.6
42
.50
24
.52
20
.54
2.8
42
2.0
51
9.4
13
.22
19
.56
18
.20
3.6
7
67
(19
.4)
34
.09
24
.70
1.9
83
1.5
42
3.6
82
.23
29
.00
22
.63
2.5
22
6.4
22
1.5
32
.85
23
.79
20
.40
3.2
42
1.1
31
9.2
03
.68
72
(22
.2)
37
.37
19
.54
2.0
03
4.6
11
8.6
12
.26
31
.85
17
.66
2.5
52
9.0
31
6.6
92
.88
26
.19
15
.69
3.2
62
3.2
91
4.6
63
.69
*At 7
5�F
(23
.9 �
C)
ente
ring
dry
bulb
—Te
nnes
see
Val
ley
Aut
horit
y [T
VA
] rat
ing
cond
ition
s; a
ll ot
hers
at 8
0�F
(26
.7 �
C)
ente
ring
dry
bulb
. See
Leg
end
and
Not
es.
30 H
eati
ng
Ext
end
ed P
erfo
rman
ce T
able
−10−6
0�F
(−2
3.3−
15.6�C
)IN
DO
OR
AIR
OU
TD
OO
R C
OIL
EN
TE
RIN
G A
IR T
EM
PE
RA
TU
RE
S°F
(°
C)
-10 (
-23.3
)0 (
-17.8
)10 (
-12.2
)20 (
-6.7
)30 (
-1.1
)40 (
4.4
)50 (
10)
60 (
15.6
)
ED
B°F (°C
)C
FM
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
To
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
g
65
(18.3
)
87
57
.37
6.7
81
.70
10
.15
9.3
41
.76
13
.27
12
.18
1.8
21
6.9
21
5.3
51
.88
20
.92
18
.33
1.9
52
5.0
82
5.0
82
.01
29
.90
29
.90
2.0
93
5.7
13
5.7
12
.21
10
00
7.5
26
.92
1.7
21
0.3
39
.50
1.7
71
3.4
71
2.3
71
.82
17
.43
15
.81
1.8
92
1.1
31
8.5
11
.93
25
.36
25
.36
1.9
83
0.2
93
0.2
92
.06
36
.23
36
.23
2.1
6
11
25
7.6
67
.04
1.7
41
0.4
99
.65
1.7
91
3.6
61
2.5
31
.83
17
.61
15
.97
1.8
92
1.3
21
8.6
81
.93
25
.59
25
.59
1.9
73
0.6
13
0.6
12
.04
36
.66
36
.66
2.1
4
70
(21.1
)
87
56
.96
6.4
01
.77
9.7
68
.98
1.8
41
2.8
91
1.8
31
.90
16
.44
14
.91
1.9
72
0.6
51
8.1
02
.04
24
.77
24
.77
2.1
12
9.4
82
9.4
82
.19
35
.19
35
.19
2.3
1
10
00
7.1
16
.54
1.7
99
.94
9.1
51
.85
13
.09
12
.02
1.9
01
6.7
01
5.1
51
.96
20
.88
18
.30
2.0
32
5.0
52
5.0
52
.08
29
.87
29
.87
2.1
63
5.7
03
5.7
02
.26
11
25
7.2
46
.66
1.8
11
0.0
99
.28
1.8
71
3.2
71
2.1
81
.91
16
.95
15
.37
1.9
72
1.0
71
8.4
62
.02
25
.28
25
.28
2.0
73
0.1
83
0.1
82
.13
36
.11
36
.11
2.2
3
75
(23.9
)
87
56
.52
6.0
01
.85
9.3
48
.59
1.9
21
2.4
81
1.4
61
.99
16
.02
14
.53
2.0
62
0.4
01
7.8
72
.15
24
.46
24
.46
2.2
12
9.0
92
9.0
92
.30
34
.68
34
.68
2.4
2
10
00
6.6
76
.13
1.8
79
.52
8.7
61
.93
12
.69
11
.65
1.9
91
6.2
81
4.7
62
.05
20
.61
18
.06
2.1
32
4.7
32
4.7
32
.18
29
.44
29
.44
2.2
63
5.1
73
5.1
72
.37
11
25
6.8
06
.25
1.8
99
.67
8.9
01
.95
12
.87
11
.82
2.0
01
6.4
91
4.9
62
.06
20
.80
18
.22
2.1
22
4.9
62
4.9
62
.17
29
.75
29
.75
2.2
43
5.5
83
5.5
82
.34
Specifications subject to change without notice.518 11 2005 07 12
PE
RF
OR
MA
NC
E D
ATA
(C
ON
T)
36 C
oo
ling
Ext
end
ed P
erfo
rman
ce T
able
EV
AP
OR
AT
OR
AIR
CO
ND
EN
SE
R E
NT
ER
ING
AIR
TE
MP
ER
AT
UR
ES
�F
(�C
)
75 (
23.9
)85 (
29.4
)95 (
35)
105 (
40.6
)115 (
46.1
)125 (
51.7
)
CF
M
EW
B°F
(°
C)
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Tota
lS
en
sTo
tal
Se
ns
Tota
lS
en
sTo
tal
Se
ns
Tota
lS
en
sTo
tal
Se
ns
1050
57
(13
.9)
34
.29
34
.29
2.2
83
1.9
73
1.9
72
.57
29
.65
29
.65
2.9
12
7.2
92
7.2
93
.30
24
.91
24
.91
3.7
52
2.5
12
2.5
14
.28
62
(16
.7)
35
.83
31
.87
2.2
83
3.1
13
0.4
12
.58
30
.40
28
.91
2.9
12
7.6
92
7.3
73
.30
24
.97
24
.97
3.7
52
2.5
42
2.5
44
.28
63
*(1
7.2
)3
6.5
82
6.0
62
.29
33
.81
24
.75
2.5
83
1.0
22
3.4
32
.92
28
.22
22
.09
3.3
12
5.4
02
0.7
53
.76
22
.56
19
.38
4.2
8
67
(19
.4)
39
.49
27
.08
2.3
03
6.5
12
5.7
52
.60
33
.53
24
.42
2.9
43
0.5
42
3.0
73
.33
27
.53
21
.71
3.7
82
4.5
02
0.3
34
.29
72
(22
.2)
43
.46
22
.18
2.3
34
0.2
22
0.9
72
.63
36
.98
19
.76
2.9
73
3.7
31
8.5
33
.36
30
.47
17
.30
3.8
02
7.1
81
6.0
44
.31
1200
57
(13
.9)
35
.76
35
.76
2.3
13
3.3
23
3.3
22
.61
30
.86
30
.86
2.9
52
8.3
82
8.3
83
.34
25
.88
25
.88
3.7
92
3.3
62
3.3
64
.31
62
(16
.7)
36
.70
34
.09
2.3
23
3.9
13
2.5
12
.61
31
.14
30
.87
2.9
52
8.4
32
8.4
33
.34
25
.91
25
.91
3.7
92
3.3
82
3.3
84
.31
63
*(1
7.2
)3
7.4
32
7.6
42
.32
34
.56
26
.28
2.6
23
1.6
62
4.9
12
.95
28
.77
23
.53
3.3
42
5.8
62
2.1
33
.79
22
.94
20
.71
4.3
1
67
(19
.4)
40
.37
28
.77
2.3
43
7.2
92
7.3
92
.64
34
.20
26
.00
2.9
73
1.1
12
4.6
03
.36
28
.01
23
.19
3.8
12
4.8
92
1.7
64
.32
72
(22
.2)
44
.39
23
.24
2.3
64
1.0
52
2.0
02
.67
37
.70
20
.75
3.0
13
4.3
51
9.4
93
.39
30
.98
18
.21
3.8
42
7.6
01
6.9
34
.35
1350
57
(13
.9)
37
.01
37
.01
2.3
53
4.4
63
4.4
62
.65
31
.89
31
.89
2.9
82
9.3
02
9.3
03
.37
26
.69
26
.69
3.8
32
4.0
62
4.0
64
.35
62
(16
.7)
37
.46
36
.08
2.3
53
4.5
63
4.5
62
.65
31
.92
31
.92
2.9
82
9.3
32
9.3
33
.37
26
.72
26
.72
3.8
32
4.0
92
4.0
94
.35
63
*(1
7.2
)3
8.1
02
9.1
42
.35
35
.13
27
.74
2.6
53
2.1
72
6.3
22
.98
29
.19
24
.89
3.3
72
6.2
12
3.4
43
.82
23
.24
21
.94
4.3
4
67
(19
.4)
41
.06
30
.38
2.3
73
7.8
82
8.9
52
.67
34
.72
27
.51
3.0
13
1.5
52
6.0
73
.39
28
.36
24
.61
3.8
42
5.1
92
3.1
14
.35
72
(22
.2)
45
.13
24
.24
2.4
04
1.6
82
2.9
62
.70
38
.26
21
.68
3.0
43
4.8
12
0.3
93
.43
31
.36
19
.09
3.8
72
7.9
11
7.7
74
.38
*At 7
5�F
(23
.9 �
C)
ente
ring
dry
bulb
—Te
nnes
see
Val
ley
Aut
horit
y [T
VA
] rat
ing
cond
ition
s; a
ll ot
hers
at 8
0�F
(26
.7 �
C)
ente
ring
dry
bulb
. See
Leg
end
and
Not
es.
36 H
eati
ng
Ext
end
ed P
erfo
rman
ce T
able
−10−6
0�F
(−2
3.3−
15.6�C
)IN
DO
OR
AIR
OU
TD
OO
R C
OIL
EN
TE
RIN
G A
IR T
EM
PE
RA
TU
RE
S °
F (
°C)
-10 (
-23.3
)0 (
-17.8
)10 (
-12.2
)20 (
-6.7
)30 (
-1.1
)40 (
4.4
)50 (
10)
60 (
15.6
)
ED
B°F (°C
)C
FM
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
To
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
g
65
(18.3
)
10
50
8.9
18
.20
1.9
91
2.0
91
1.1
22
.10
15
.84
14
.54
2.2
02
0.1
61
8.2
92
.31
25
.50
22
.34
2.4
63
0.5
13
0.5
12
.59
36
.18
36
.18
2.7
44
2.8
94
2.8
92
.94
12
00
9.0
88
.35
2.0
01
2.2
91
1.3
12
.10
16
.09
14
.77
2.1
92
0.4
81
8.5
72
.29
25
.78
22
.58
2.4
23
0.8
53
0.8
52
.54
36
.62
36
.62
2.6
84
3.5
14
3.5
12
.86
13
50
9.2
38
.49
2.0
21
2.4
71
1.4
82
.11
16
.30
14
.96
2.1
92
0.7
41
8.8
12
.28
25
.99
22
.77
2.4
03
1.1
43
1.1
42
.51
36
.99
36
.99
2.6
34
4.0
34
4.0
32
.80
70
(21.1
)
10
50
8.3
87
.71
2.0
91
1.5
71
0.6
42
.20
15
.32
14
.06
2.3
01
9.6
21
7.8
02
.42
25
.09
21
.99
2.5
83
0.1
03
0.1
02
.71
35
.72
35
.72
2.8
74
2.2
84
2.2
83
.08
12
00
8.5
57
.86
2.1
01
1.7
71
0.8
32
.20
15
.57
14
.29
2.3
01
9.9
31
8.0
82
.40
25
.40
22
.25
2.5
43
0.4
43
0.4
42
.66
36
.14
36
.14
2.8
04
2.8
94
2.8
92
.99
13
50
8.6
98
.00
2.1
21
1.9
51
0.9
92
.21
15
.78
14
.49
2.3
02
0.2
01
8.3
22
.39
25
.64
22
.47
2.5
23
0.7
33
0.7
32
.63
36
.50
36
.50
2.7
64
3.3
94
3.3
92
.93
75
(23.9
)
10
50
7.8
37
.20
2.2
01
1.0
21
0.1
42
.30
14
.78
13
.56
2.4
11
9.0
61
7.2
92
.53
24
.02
21
.05
2.6
72
9.7
02
9.7
02
.85
35
.30
35
.30
3.0
14
1.6
84
1.6
83
.22
12
00
7.9
87
.34
2.2
11
1.2
21
0.3
22
.31
15
.02
13
.79
2.4
11
9.3
71
7.5
72
.51
24
.54
21
.50
2.6
43
0.0
33
0.0
32
.79
35
.70
35
.70
2.9
44
2.2
74
2.2
73
.13
13
50
8.1
27
.47
2.2
21
1.4
01
0.4
92
.32
15
.24
13
.98
2.4
11
9.6
31
7.8
02
.50
25
.23
22
.10
2.6
43
0.3
13
0.3
12
.75
36
.01
36
.01
2.8
94
2.7
64
2.7
63
.07
13 518 11 2005 07Specifications subject to change without notice.
PE
RF
OR
MA
NC
E D
ATA
(C
ON
T)
42 C
oo
ling
Ext
end
ed P
erfo
rman
ce T
able
EV
AP
OR
AT
OR
AIR
CO
ND
EN
SE
R E
NT
ER
ING
AIR
TE
MP
ER
AT
UR
ES
�F
(�C
)
75 (
23.9
)85 (
29.4
)95 (
35)
105 (
40.6
)115 (
46.1
)125 (
51.7
)
CF
M
EW
B°F
(°
C)
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Tota
lS
en
sTo
tal
Se
ns
Tota
lS
en
sTo
tal
Se
ns
Tota
lS
en
sTo
tal
Se
ns
1175
57
(13
.9)
41
.22
41
.22
2.6
73
8.6
53
8.6
53
.02
36
.03
36
.03
3.4
33
3.3
63
3.3
63
.92
30
.67
30
.67
4.5
02
7.9
52
7.9
55
.18
62
(16
.7)
42
.88
35
.64
2.6
83
9.8
23
3.6
73
.03
36
.79
31
.68
3.4
53
3.7
42
9.6
63
.93
30
.72
30
.72
4.5
02
8.0
02
8.0
05
.18
63
*(1
7.2
)4
3.4
52
9.0
52
.69
40
.36
27
.34
3.0
43
7.2
82
5.6
43
.45
34
.17
23
.94
3.9
43
1.0
52
2.2
54
.51
27
.90
20
.56
5.1
8
67
(19
.4)
46
.78
30
.15
2.7
34
3.4
22
8.3
83
.08
40
.10
26
.62
3.5
03
6.7
72
4.8
84
.00
33
.43
23
.16
4.5
83
0.0
82
1.4
55
.25
72
(22
.2)
51
.06
24
.68
2.7
84
7.4
02
3.0
73
.14
43
.79
21
.48
3.5
74
0.2
01
9.9
14
.08
36
.60
18
.37
4.6
83
2.9
91
6.8
45
.37
1350
57
(13
.9)
43
.16
43
.16
2.7
34
0.3
84
0.3
83
.08
37
.57
37
.57
3.5
03
4.7
53
4.7
54
.00
31
.90
31
.90
4.5
82
9.0
22
9.0
25
.26
62
(16
.7)
44
.08
38
.33
2.7
44
0.9
23
6.1
83
.09
37
.79
33
.95
3.5
13
4.8
13
4.8
13
.99
31
.95
31
.95
4.5
82
9.0
62
9.0
65
.26
63
*(1
7.2
)4
4.5
93
0.9
82
.75
41
.33
29
.18
3.1
03
8.1
02
7.3
93
.51
34
.87
25
.62
4.0
03
1.6
42
3.8
44
.57
28
.39
22
.06
5.2
4
67
(19
.4)
47
.99
32
.21
2.7
84
4.4
53
0.3
53
.14
41
.00
28
.50
3.5
73
7.5
42
6.6
84
.06
34
.07
24
.87
4.6
43
0.6
02
3.0
65
.32
72
(22
.2)
52
.34
25
.96
2.8
44
8.5
32
4.2
83
.21
44
.76
22
.63
3.6
44
1.0
22
1.0
14
.15
37
.28
19
.40
4.7
53
3.5
51
7.8
35
.44
1525
57
(13
.9)
44
.79
44
.79
2.7
94
1.8
14
1.8
13
.15
38
.87
38
.87
3.5
73
5.9
03
5.9
04
.07
32
.91
32
.91
4.6
62
9.9
02
9.9
05
.34
62
(16
.7)
45
.17
40
.72
2.7
94
1.8
84
1.8
83
.15
38
.92
38
.92
3.5
73
5.9
53
5.9
54
.07
32
.96
32
.96
4.6
62
9.9
42
9.9
45
.35
63
*(1
7.2
)4
5.4
93
2.8
22
.80
42
.10
30
.94
3.1
53
8.7
72
9.0
83
.57
35
.43
27
.21
4.0
63
2.0
92
5.3
44
.63
28
.77
23
.46
5.3
0
67
(19
.4)
48
.94
34
.19
2.8
44
5.2
73
2.2
33
.20
41
.68
30
.32
3.6
23
8.1
02
8.4
04
.12
34
.56
26
.50
4.7
13
1.0
02
4.5
85
.39
72
(22
.2)
53
.35
27
.17
2.9
04
9.4
02
5.4
33
.27
45
.51
23
.72
3.7
04
1.6
52
2.0
44
.21
37
.80
20
.39
4.8
13
3.9
71
8.7
75
.51
*At 7
5�F
(23
.9 �
C)
ente
ring
dry
bulb
—Te
nnes
see
Val
ley
Aut
horit
y [T
VA
] rat
ing
cond
ition
s; a
ll ot
hers
at 8
0�F
(26
.7 �
C)
ente
ring
dry
bulb
. See
Leg
end
and
Not
es.
42 H
eati
ng
Ext
end
ed P
erfo
rman
ce T
able
−10−6
0�F
(−2
3.3−
15.6�C
)IN
DO
OR
AIR
OU
TD
OO
R C
OIL
EN
TE
RIN
G A
IR T
EM
PE
RA
TU
RE
S °
F (
°C)
-10 (
-23.3
)0 (
-17.8
)10 (
-12.2
)20 (
-6.7
)30 (
-1.1
)40 (
4.4
)50 (
10)
60 (
15.6
)
ED
B°F (°C
)C
FM
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
h
To
tal
Sys
KW
To
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
g
65
(18.3
)
11
75
10
.12
9.3
12
.30
14
.66
13
.49
2.5
01
9.4
01
7.8
12
.66
24
.41
22
.14
2.8
02
9.7
52
6.0
62
.94
35
.60
35
.60
3.1
14
1.9
14
1.9
13
.32
48
.00
48
.00
3.5
6
13
50
10
.35
9.5
22
.33
14
.93
13
.74
2.5
21
9.7
41
8.1
22
.67
24
.85
22
.53
2.7
93
0.2
82
6.5
32
.92
36
.96
36
.96
3.0
94
2.4
64
2.4
63
.25
48
.76
48
.76
3.4
7
15
25
10
.56
9.7
12
.36
15
.19
13
.97
2.5
42
0.0
51
8.4
02
.69
25
.21
22
.86
2.8
03
0.7
22
6.9
22
.91
37
.37
37
.37
3.0
74
2.9
34
2.9
33
.21
49
.39
49
.39
3.4
1
70
(21.1
)
11
75
9.4
88
.72
2.4
21
3.9
61
2.8
42
.62
18
.67
17
.13
2.7
82
3.6
82
1.4
82
.92
28
.98
25
.39
3.0
73
4.7
23
4.7
23
.24
41
.44
41
.44
3.4
84
7.3
24
7.3
23
.73
13
50
9.7
18
.94
2.4
51
4.2
51
3.1
12
.64
19
.04
17
.47
2.7
92
4.1
22
1.8
82
.92
29
.51
25
.86
3.0
53
5.4
53
5.4
53
.21
41
.94
41
.94
3.4
14
8.0
44
8.0
43
.64
15
25
9.9
19
.12
2.4
81
4.5
11
3.3
62
.66
19
.35
17
.76
2.8
12
4.4
92
2.2
12
.93
29
.96
26
.25
3.0
43
6.7
93
6.7
93
.21
42
.34
42
.34
3.3
74
8.6
54
8.6
53
.57
75
(23.9
)
11
75
8.7
08
.01
2.5
41
3.1
71
2.1
22
.74
17
.88
16
.41
2.9
02
2.8
92
0.7
63
.05
28
.17
24
.68
3.2
03
3.8
63
3.8
63
.38
40
.88
40
.88
3.6
54
6.6
84
6.6
83
.92
13
50
8.9
38
.22
2.5
71
3.4
71
2.4
02
.76
18
.25
16
.75
2.9
12
3.3
42
1.1
73
.05
28
.70
25
.15
3.1
83
4.5
23
4.5
23
.35
41
.42
41
.42
3.5
74
7.3
64
7.3
63
.81
15
25
9.1
48
.41
2.6
11
3.7
41
2.6
42
.79
18
.57
17
.04
2.9
32
3.7
22
1.5
13
.06
29
.16
25
.55
3.1
83
5.0
63
5.0
63
.33
41
.87
41
.87
3.5
34
7.9
44
7.9
43
.75
Specifications subject to change without notice.518 11 2005 07 14
PE
RF
OR
MA
NC
E D
ATA
(C
ON
T)
48 C
oo
ling
Ext
end
ed P
erfo
rman
ce T
able
EV
AP
OR
AT
OR
AIR
CO
ND
EN
SE
R E
NT
ER
ING
AIR
TE
MP
ER
AT
UR
ES
�F
(�C
)
75 (
23.9
)85 (
29.4
)95 (
35)
105 (
40.6
)115 (
46.1
)125 (
51.7
)
CF
M
EW
B°F
(°
C)
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
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tal
Sys
KW
Cap
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yM
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tal
Sys
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Tota
lS
en
sTo
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ns
Tota
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en
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tal
Se
ns
Tota
lS
en
sTo
tal
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ns
1400
57
(13
.9)
50
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50
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3.1
04
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6.7
73
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43
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43
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3.9
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23
9.2
24
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34
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34
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4.8
83
0.6
53
0.6
55
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62
(16
.7)
51
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44
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04
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1.4
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3.9
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13
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0.7
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6.3
53
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48
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33
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3.4
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4.6
33
0.9
93
.91
39
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28
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4.3
73
4.4
62
4.9
24
.87
29
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21
.95
5.4
5
67
(19
.4)
55
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37
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3.1
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1.5
73
4.4
53
.51
47
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31
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3.9
44
3.5
32
9.4
64
.42
38
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26
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4.9
73
2.9
72
3.5
55
.53
72
(22
.2)
59
.62
29
.72
3.1
55
5.3
92
7.4
13
.53
50
.95
25
.03
3.9
74
6.4
72
2.6
54
.46
42
.63
20
.90
5.0
13
7.8
11
8.7
45
.62
1600
57
(13
.9)
51
.78
51
.78
3.1
64
8.2
94
8.2
93
.54
44
.77
44
.77
3.9
74
1.2
44
1.2
44
.46
36
.65
36
.65
4.9
93
2.1
23
2.1
25
.57
62
(16
.7)
52
.53
47
.41
3.1
64
8.7
04
3.9
63
.54
44
.85
44
.85
3.9
74
1.3
14
1.3
14
.46
36
.71
36
.71
4.9
93
2.1
73
2.1
75
.58
63
*(1
7.2
)5
3.2
33
8.4
03
.17
49
.26
35
.59
3.5
44
5.2
53
2.8
13
.97
40
.90
30
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4.4
63
5.2
82
6.8
24
.95
29
.90
23
.64
5.5
2
67
(19
.4)
56
.41
39
.18
3.1
95
2.2
83
6.3
63
.57
48
.00
33
.50
4.0
04
3.9
43
1.0
14
.49
39
.39
28
.67
5.0
33
3.6
82
5.4
15
.62
72
(22
.2)
60
.37
30
.80
3.2
15
6.0
52
8.4
43
.59
51
.53
25
.98
4.0
34
6.9
12
3.5
14
.53
42
.97
21
.80
5.0
83
8.2
61
9.8
05
.69
1800
57
(13
.9)
53
.08
53
.08
3.2
24
9.4
74
9.4
73
.60
45
.76
45
.76
4.0
44
2.4
84
2.4
84
.53
38
.09
38
.09
5.0
83
3.4
03
3.4
05
.67
62
(16
.7)
53
.36
49
.71
3.2
24
9.5
44
9.5
43
.60
45
.79
45
.79
4.0
44
2.5
34
2.5
34
.53
38
.15
38
.15
5.0
83
3.4
53
3.4
55
.67
63
*(1
7.2
)5
3.8
64
0.3
53
.23
49
.82
37
.43
3.6
14
5.7
03
4.5
14
.04
41
.62
32
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4.5
13
5.9
72
8.6
15
.03
30
.48
25
.13
5.6
0
67
(19
.4)
57
.01
41
.09
3.2
55
2.8
13
8.1
93
.63
48
.44
35
.21
4.0
64
4.1
93
2.4
14
.55
39
.90
30
.52
5.0
93
4.3
02
7.1
65
.70
72
(22
.2)
60
.93
31
.81
3.2
75
6.5
52
9.4
03
.65
51
.95
26
.88
4.0
94
7.2
32
4.3
54
.59
43
.19
22
.58
5.1
53
8.5
72
0.7
75
.75
*At 7
5�F
(23
.9 �
C)
ente
ring
dry
bulb
—Te
nnes
see
Val
ley
Aut
horit
y [T
VA
] rat
ing
cond
ition
s; a
ll ot
hers
at 8
0�F
(26
.7 �
C)
ente
ring
dry
bulb
. See
Leg
end
and
Not
es.
48 H
eati
ng
Ext
end
ed P
erfo
rman
ce T
able
−10−6
0�F
(−2
3.3−
15.6�C
)IN
DO
OR
AIR
OU
TD
OO
R C
OIL
EN
TE
RIN
G A
IR T
EM
PE
RA
TU
RE
S �
F (
°C)
-10 (
-23.3
)0 (
-17.8
)10 (
-12.2
)20 (
-6.7
)30 (
-1.1
)40 (
4.4
)50 (
10)
60 (
15.6
)
ED
B°F (°C
)C
FM
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
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yM
Btu
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KW
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KW
Cap
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Btu
hTo
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Sys
KW
Cap
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To
tal
Inte
gTo
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Inte
gTo
tal
Inte
gTo
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Inte
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Inte
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Inte
gTo
tal
Inte
gTo
tal
Inte
g
65
(18.3
)
14
00
12
.87
11
.84
2.6
11
7.2
31
5.8
62
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22
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02
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5.1
83
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34
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30
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3.2
54
0.9
74
0.9
73
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48
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48
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3.5
95
6.8
55
6.8
53
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16
00
13
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12
.11
2.6
41
7.5
71
6.1
72
.78
22
.53
20
.68
2.9
22
8.1
92
5.5
73
.07
35
.00
30
.66
3.2
34
1.4
14
1.4
13
.36
48
.82
48
.82
3.5
35
7.7
05
7.7
03
.74
18
00
13
.42
12
.35
2.6
81
7.8
71
6.4
42
.81
22
.86
20
.98
2.9
42
8.5
82
5.9
23
.08
35
.31
30
.94
3.2
34
1.8
04
1.8
03
.35
49
.33
49
.33
3.5
05
8.4
15
8.4
13
.70
70
(21.1
)
14
00
12
.17
11
.19
2.7
11
6.5
71
5.2
42
.87
21
.48
19
.71
3.0
22
7.0
92
4.5
63
.19
34
.27
30
.03
3.4
04
0.5
64
0.5
63
.56
47
.61
47
.61
3.7
55
6.0
55
6.0
53
.99
16
00
12
.45
11
.45
2.7
51
6.9
01
5.5
52
.89
21
.85
20
.06
3.0
42
7.5
32
4.9
63
.20
34
.66
30
.37
3.3
84
0.9
74
0.9
73
.52
48
.20
48
.20
3.7
05
6.8
45
6.8
43
.90
18
00
12
.71
11
.69
2.7
91
7.1
81
5.8
02
.92
22
.19
20
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3.0
62
7.9
12
5.3
13
.21
34
.99
30
.66
3.3
84
1.3
44
1.3
43
.50
48
.71
48
.71
3.6
75
7.5
85
7.5
83
.87
75
(23.9
)
14
00
11
.44
10
.52
2.8
21
5.8
61
4.5
92
.99
20
.79
19
.09
3.1
52
6.3
92
3.9
43
.33
32
.89
28
.81
3.5
14
0.1
04
0.1
03
.73
47
.02
47
.02
3.9
35
5.2
75
5.2
74
.18
16
00
11
.72
10
.78
2.8
61
6.1
81
4.8
93
.01
21
.17
19
.43
3.1
72
6.8
32
4.3
43
.33
33
.55
29
.40
3.5
04
0.5
64
0.5
63
.69
47
.59
47
.59
3.8
75
6.0
45
6.0
44
.09
18
00
11
.97
11
.01
2.9
01
6.4
71
5.1
63
.04
21
.50
19
.73
3.1
92
7.2
12
4.6
83
.34
34
.55
30
.27
3.5
34
0.9
24
0.9
23
.67
48
.08
48
.08
3.8
35
6.7
35
6.7
34
.04
15 518 11 2005 07Specifications subject to change without notice.
PE
RF
OR
MA
NC
E D
ATA
(C
ON
T)
60 C
oo
ling
Ext
end
ed P
erfo
rman
ce T
able
EV
AP
OR
AT
OR
AIR
CO
ND
EN
SE
R E
NT
ER
ING
AIR
TE
MP
ER
AT
UR
ES
�F
(�C
)
75 (
23.9
)85 (
29.4
)95 (
35)
105 (
40.6
)115 (
46.1
)125 (
51.7
)
CF
M
EW
B�F
(�C
)
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Cap
acit
yM
Btu
hTo
tal
Sys
KW
Tota
lS
en
sTo
tal
Se
ns
Tota
lS
en
sTo
tal
Se
ns
Tota
lS
en
sTo
tal
Se
ns
1750
57
(13
.9)
59
.01
59
.01
3.8
65
5.8
45
5.8
44
.36
52
.53
52
.53
4.9
54
9.0
14
9.0
15
.63
45
.25
45
.25
6.4
24
1.2
54
1.2
57
.30
62
(16
.7)
60
.65
51
.45
3.8
75
6.9
44
9.6
64
.37
53
.07
47
.70
4.9
64
9.1
04
9.1
05
.63
45
.32
45
.32
6.4
24
1.3
14
1.3
17
.30
63
*(1
7.2
)6
1.4
24
1.5
93
.88
57
.58
40
.01
4.3
85
3.6
63
8.3
64
.96
49
.53
36
.63
5.6
44
5.1
63
4.8
06
.42
40
.58
32
.86
7.2
9
67
(19
.4)
65
.91
43
.15
3.9
06
1.7
74
1.5
14
.41
57
.50
39
.80
5.0
05
3.0
23
8.0
15
.68
48
.31
36
.13
6.4
64
3.4
03
4.1
77
.34
72
(22
.2)
71
.65
34
.81
3.9
36
7.1
33
3.2
44
.45
62
.46
31
.58
5.0
55
7.5
92
9.8
65
.73
52
.50
28
.06
6.5
24
7.2
12
6.1
87
.40
2000
57
(13
.9)
61
.36
61
.36
3.9
55
7.9
35
7.9
34
.46
54
.38
54
.38
5.0
55
0.6
45
0.6
45
.73
46
.62
46
.62
6.5
24
2.3
94
2.3
97
.41
62
(16
.7)
62
.11
54
.99
3.9
65
8.1
95
7.6
14
.46
54
.45
54
.45
5.0
55
0.7
05
0.7
05
.73
46
.68
46
.68
6.5
24
2.4
54
2.4
57
.41
63
*(1
7.2
)6
2.6
64
4.1
83
.96
58
.67
42
.54
4.4
65
4.5
64
0.8
35
.05
50
.26
39
.04
5.7
34
5.7
13
7.1
26
.51
41
.01
35
.05
7.3
8
67
(19
.4)
67
.23
45
.93
3.9
86
2.8
94
4.2
24
.49
58
.43
42
.45
5.0
95
3.7
54
0.5
95
.77
48
.89
38
.64
6.5
54
3.8
53
6.5
57
.43
72
(22
.2)
73
.06
36
.47
4.0
16
8.3
43
4.8
44
.53
63
.48
33
.14
5.1
35
8.4
13
1.3
55
.82
53
.15
29
.51
6.6
14
7.6
92
7.5
97
.49
2250
57
(13
.9)
63
.30
63
.30
4.0
45
9.6
55
9.6
54
.55
55
.89
55
.89
5.1
45
1.9
25
1.9
25
.83
47
.72
47
.72
6.6
24
3.3
24
3.3
27
.51
62
(16
.7)
63
.38
63
.38
4.0
45
9.7
35
9.7
34
.55
55
.96
55
.96
5.1
45
1.9
85
1.9
85
.83
47
.77
47
.77
6.6
24
3.3
64
3.3
67
.51
63
*(1
7.2
)6
3.6
34
6.6
94
.04
59
.48
44
.99
4.5
55
5.2
34
3.2
15
.14
50
.79
41
.33
5.8
24
6.1
53
9.2
86
.60
41
.34
37
.04
7.4
8
67
(19
.4)
68
.23
48
.62
4.0
66
3.7
54
6.8
74
.58
59
.13
45
.03
5.1
75
4.3
34
3.0
95
.86
49
.34
41
.00
6.6
44
4.1
93
8.7
57
.52
72
(22
.2)
74
.14
38
.06
4.0
96
9.2
63
6.3
84
.61
64
.22
34
.62
5.2
25
9.0
23
2.8
15
.91
53
.61
30
.91
6.7
04
8.0
22
8.9
57
.59
*At 7
5�F
(23
.9 �
C)
ente
ring
dry
bulb
—Te
nnes
see
Val
ley
Aut
horit
y [T
VA
] rat
ing
cond
ition
s; a
ll ot
hers
at 8
0�F
(26
.7 �
C)
ente
ring
dry
bulb
. See
Leg
end
and
Not
es.
60 H
eati
ng
Ext
end
ed P
erfo
rman
ce T
able
−10−6
0�F
(−2
3.3−
15.6�C
)
IND
OO
R A
IRO
UT
DO
OR
CO
IL E
NT
ER
ING
AIR
TE
MP
ER
AT
UR
ES
°F
(°C
)
-10 (
-23.3
)0 (
-17.8
)10 (
-12.2
)20 (
-6.7
)30 (
-1.1
)40 (
4.4
)50 (
10)
60 (
15.6
)
ED
B°F (°C
)
Cap
acit
yM
Btu
hTo
tal
Sys
Cap
acit
yM
Btu
hTo
tal
Sys
Cap
acit
yM
Btu
hTo
tal
Sys
Cap
acit
yM
Btu
hTo
tal
Sys
Cap
acit
yM
Btu
hTo
tal
Sys
Cap
acit
yM
Btu
hTo
tal
Sys
Cap
acit
yM
Btu
hTo
tal
Sys
Cap
acit
yM
Btu
hTo
tal
Sys
CF
MTo
tal
Inte
g
Sys
KW
To
tal
Inte
g
Sys
KW
To
tal
Inte
g
Sys
KW
To
tal
Inte
g
Sys
KW
To
tal
Inte
g
Sys
KW
To
tal
Inte
g
Sys
KW
To
tal
Inte
g
Sys
KW
To
tal
Inte
g
Sys
KW
65
(18.3
)
17
50
17
.66
16
.25
3.7
62
3.1
62
1.3
13
.84
29
.24
26
.84
3.9
53
5.9
43
2.6
04
.09
43
.49
38
.10
4.2
65
2.2
85
2.2
84
.47
60
.79
60
.79
4.6
77
0.8
27
0.8
24
.91
20
00
18
.08
16
.63
3.8
22
3.6
32
1.7
53
.89
29
.77
27
.32
3.9
93
6.5
43
3.1
44
.11
44
.35
38
.86
4.2
65
2.9
35
2.9
34
.45
61
.57
61
.57
4.6
27
1.8
57
1.8
54
.83
22
50
18
.45
16
.97
3.8
92
4.0
62
2.1
33
.95
30
.23
27
.75
4.0
43
7.0
63
3.6
14
.15
45
.80
40
.13
4.3
15
3.4
75
3.4
74
.45
62
.27
62
.27
4.6
07
2.7
37
2.7
34
.79
70
(21.1
)
17
50
16
.61
15
.28
3.8
92
2.1
82
0.4
13
.98
28
.31
25
.98
4.1
03
5.0
33
1.7
74
.25
42
.48
37
.22
4.4
35
1.6
75
1.6
74
.67
60
.02
60
.02
4.8
86
9.8
36
9.8
35
.12
20
00
17
.01
15
.65
3.9
52
2.6
42
0.8
44
.03
28
.83
26
.46
4.1
43
5.6
23
2.3
14
.27
43
.19
37
.84
4.4
35
2.2
55
2.2
54
.64
60
.78
60
.78
4.8
27
0.8
57
0.8
55
.04
22
50
17
.37
15
.98
4.0
22
3.0
52
1.2
14
.09
29
.29
26
.88
4.1
83
6.1
43
2.7
74
.31
43
.80
38
.38
4.4
55
2.8
05
2.8
04
.64
61
.42
61
.42
4.8
07
1.7
17
1.7
15
.00
75
(23.9
)
17
50
15
.54
14
.30
4.0
32
1.1
81
9.4
94
.13
27
.35
25
.10
4.2
63
4.1
03
0.9
34
.42
41
.52
36
.38
4.6
15
0.9
95
0.9
94
.88
59
.24
59
.24
5.0
96
8.8
76
8.8
75
.35
20
00
15
.92
14
.65
4.0
92
1.6
21
9.8
94
.18
27
.86
25
.57
4.3
03
4.6
83
1.4
54
.44
42
.20
36
.98
4.6
15
1.6
35
1.6
34
.84
59
.98
59
.98
5.0
36
9.8
46
9.8
45
.26
22
50
16
.27
14
.97
4.1
62
2.0
32
0.2
74
.24
28
.31
25
.99
4.3
43
5.1
93
1.9
24
.47
42
.78
37
.48
4.6
35
2.1
55
2.1
54
.84
60
.64
60
.64
5.0
17
0.6
97
0.6
95
.21
Specifications subject to change without notice.518 11 2005 07 16
PE
RF
OR
MA
NC
E D
ATA
(C
ON
T)
LE
GE
ND
BF
— B
yp
ass F
acto
red
b—
En
terin
g D
ry-
Bu
lbE
wb
— E
nte
rin
g W
et-
Bu
lbkW
—
To
tal U
nit P
ow
er
Inp
ut
SH
C —
Sen
sib
le H
eat C
ap
acity (
1000 B
tuh
)T
C
— T
ota
l C
ap
acity (
1000 B
tuh
) (n
et)
rh—
Rela
tive
Hu
mid
ity
CO
OL
ING
NO
TE
S:
1. R
atin
gs a
re n
et;
th
ey a
cco
un
t fo
r th
e e
ffects
of th
e e
vap
ora
tor-
fan
mo
tor
po
wer
an
d h
eat.
2. D
irect in
terp
ola
tio
n is p
erm
issib
le. D
o n
ot ext
rap
ola
te.
3. T
he fo
llow
ing
fo
rmu
las m
ay b
e u
sed
:
Sen
sib
le c
ap
acit
y (
Btu
h)
1.1
0 x
CF
Mt ld
b =
te
db
-
Wet-
bu
lb t
em
pera
ture
co
rresp
on
din
g t
o e
nth
alp
y
air
leavin
g e
vap
ora
tor
co
il (
hlw
b)
t lw
b =
tota
l cap
acit
y (
Btu
h)
hlw
b =
hew
b -
4.5
x C
FM
Wh
ere
: hew
b =
En
thalp
y o
f air e
nte
rin
g e
vap
ora
tor
co
il
4. The S
HC
is b
ase
d o
n 8
0�F (
26.6�C
) ed
b tem
pera
ture
of air e
nte
rin
g e
vap
ora
tor
co
il. B
elo
w 8
0�F
(26.6�C
) ed
b, su
btr
act (c
orr
facto
rx C
FM
) fr
om
SH
C.
Ab
ove
80�F
(2
6.6�C
) ed
b, ad
d (
co
rr facto
r x
CF
M)
to S
HC
. C
orr
ectio
n F
acto
r =
1.1
0 x
(1 +
BF
) x
(ed
b -
80).
5. In
teg
rate
d c
ap
acity is m
axim
um
(in
sta
nta
neo
us)
cap
acity less
the e
ffect o
f fro
st o
n the o
utd
oo
r co
il and
the h
eat re
quired
to
defro
stit.
Mu
ltip
licat
ion
Fac
tors
HE
AT
ER
VO
LT R
AT
ING
VO
LTA
GE
DIS
TR
IBU
TIO
NM
ULT
IPL
ICA
TIO
N F
AC
TOR
240
200
208
230
240
0.69
0.75
0.92
1.00
480
460
0.92
17 518 11 2005 07Specifications subject to change without notice.
Dry
Co
il A
ir D
eliv
ery*
− H
ori
zon
tal a
nd
Do
wn
flo
w D
isch
arg
e −
Siz
es 2
4−60
208
/230
VA
C −
1 P
has
e
Un
it S
ize
Mo
tor
Sp
ee
dW
ire
Co
lor
Exte
rnal S
tati
c P
ressu
re (
IN. W
.C.)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
24
Lo
wB
lue
CF
M6
69
58
05
25
42
33
03
--
--
--
--
--
--
--
-B
HP
0.0
90
.10
0.1
10
.11
0.1
2-
--
--
--
--
--
--
--
Med
-Lo
w1
Pin
kC
FM
82
97
52
68
06
02
54
94
55
31
3-
--
--
--
--
BH
P0
.14
0.1
50
.15
0.1
60
.17
0.1
70
.18
--
--
--
--
-
Med
ium
Red
CF
M1
01
49
29
88
48
18
74
66
83
60
05
37
40
53
05
BH
P0
.24
0.2
40
.24
0.2
50
.26
0.2
60
.27
0.2
70
.27
0.2
9
Med
-H
igh
Ora
ng
eC
FM
10
41
97
29
16
85
07
82
71
36
31
58
14
65
34
0B
HP
0.2
50
.26
0.2
60
.26
0.2
60
.27
0.2
80
.29
0.3
00
.31
Hig
hB
lack
CF
M1
18
71
12
41
06
19
96
93
08
96
84
07
76
69
86
10
BH
P0
.36
0.3
60
.37
0.3
70
.38
0.3
80
.39
0.3
90
.39
0.4
0
30
Lo
wB
lue
CF
M6
69
58
05
25
42
33
03
--
--
--
--
--
--
--
-B
HP
0.0
90
.10
0.1
10
.11
0.1
2-
--
--
--
--
--
--
--
Med
-Lo
wP
ink
CF
M8
29
75
26
80
60
25
49
45
53
13
--
--
--
--
-B
HP
0.1
40
.15
0.1
50
.16
0.1
70
.17
0.1
8-
--
--
--
--
Med
ium
1R
ed
CF
M1
01
49
29
88
48
18
74
66
83
60
05
37
40
53
05
BH
P0
.24
0.2
40
.24
0.2
50
.26
0.2
60
.27
0.2
70
.27
0.2
9
Med
-H
igh
Ora
ng
eC
FM
10
41
97
29
16
85
07
82
71
36
31
58
14
65
34
0B
HP
0.2
50
.26
0.2
60
.26
0.2
60
.27
0.2
80
.29
0.3
00
.31
Hig
hB
lack
CF
M1
18
71
12
41
06
19
96
93
08
96
84
07
76
69
86
10
BH
P0
.36
0.3
60
.37
0.3
70
.38
0.3
80
.39
0.3
90
.39
0.4
0
36
Lo
wB
lue
CF
M1
11
71
04
29
69
89
38
69
80
27
41
67
75
90
58
2B
HP
0.1
70
.18
0.1
90
.19
0.2
10
.21
0.2
20
.23
0.2
40
.25
Med
-Lo
wP
ink
CF
M1
17
01
09
41
02
79
55
88
38
70
81
07
48
68
05
91
BH
P0
.19
0.2
00
.21
0.2
20
.23
0.2
40
.24
0.2
50
.26
0.2
6
Med
ium
1R
ed
CF
M1
29
21
24
61
18
31
12
41
05
99
95
92
48
77
85
68
19
BH
P0
.25
0.2
60
.28
0.2
90
.30
0.3
10
.32
0.3
30
.34
0.3
4
Med
-H
igh
Ora
ng
eC
FM
13
11
12
25
11
99
11
45
10
81
10
15
95
29
02
88
58
43
BH
P0
.26
0.2
70
.28
0.3
00
.31
0.3
20
.33
0.3
30
.35
0.3
5
Hig
hB
lack
CF
M1
60
21
53
51
46
91
40
41
33
31
26
01
24
61
19
21
19
11
13
1B
HP
0.4
60
.47
0.4
80
.50
0.5
00
.51
0.5
20
.53
0.5
40
.55
42
Lo
wB
lue
CF
M1
00
19
02
83
37
77
71
76
50
57
55
27
46
64
19
BH
P0
.13
0.1
30
.14
0.1
40
.15
0.1
60
.17
0.1
80
.19
0.2
0
Med
-Lo
wP
ink
CF
M1
01
69
50
90
28
42
78
37
21
65
55
90
54
14
80
BH
P0
.13
0.1
40
.15
0.1
60
.17
0.1
80
.19
0.2
00
.21
0.2
2
Med
ium
1R
ed
CF
M1
40
31
35
81
31
61
26
51
21
71
16
71
11
61
06
71
01
29
56
BH
P0
.29
0.3
00
.31
0.3
30
.34
0.3
50
.36
0.3
70
.38
0.3
9
Med
-H
igh
Ora
ng
eC
FM
14
61
14
11
13
67
13
27
12
75
12
20
11
74
11
27
10
74
10
22
BH
P0
.32
0.3
30
.35
0.3
60
.37
0.3
80
.39
0.4
00
.41
0.4
2
Hig
hB
lack
CF
M1
57
51
52
81
48
81
44
71
40
61
36
01
31
41
26
41
21
31
15
9B
HP
0.4
00
.42
0.4
30
.44
0.4
50
.46
0.4
70
.48
0.4
90
.50
Specifications subject to change without notice.518 11 2005 07 18
Dry
Co
il A
ir D
eliv
ery*
− H
ori
zon
tal a
nd
Do
wn
flo
w D
isch
arg
e −
Siz
es 2
4−60
208
/230
VA
C −
1 P
has
e (C
on
t.)
Un
it S
ize
Mo
tor
Sp
ee
dW
ire
Co
lor
Exte
rnal S
tati
c P
ressu
re (
IN. W
.C.)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
48
Lo
wB
lue
CF
M1
37
81
34
41
29
51
26
01
21
61
17
91
13
51
08
71
03
59
95
BH
P0
.26
0.2
70
.29
0.3
10
.31
0.3
30
.34
0.3
60
.36
0.3
8
Med
-Lo
w1
Pin
kC
FM
16
96
16
71
16
31
16
07
15
74
15
39
15
07
14
63
14
32
13
93
BH
P0
.45
0.4
70
.49
0.5
00
.52
0.5
20
.54
0.5
50
.57
0.5
8
Med
ium
Red
CF
M1
99
41
96
81
94
31
91
01
88
21
83
51
77
41
70
21
61
41
51
2B
HP
0.7
20
.73
0.7
50
.76
0.7
80
.78
0.7
60
.73
0.7
00
.66
Med
-H
igh
Ora
ng
eC
FM
20
54
20
13
19
86
19
64
19
19
18
54
17
79
16
95
16
05
14
98
BH
P0
.77
0.7
90
.80
0.8
20
.81
0.8
00
.76
0.7
40
.69
0.6
5
Hig
hB
lack
CF
M2
26
72
20
12
13
32
07
11
99
71
92
31
83
51
73
91
65
41
55
1B
HP
1.0
31
.00
0.9
70
.93
0.8
90
.86
0.8
20
.78
0.7
40
.69
60
Lo
wB
lue
CF
M1
33
01
27
71
23
21
19
11
14
71
10
31
06
01
00
49
63
91
9B
HP
0.2
60
.27
0.2
90
.30
0.3
10
.32
0.3
30
.34
0.3
60
.37
Med
-Lo
wP
ink
CF
M1
47
51
43
61
39
91
35
11
31
71
27
01
23
61
18
81
15
21
10
5B
HP
0.3
50
.36
0.3
70
.38
0.4
00
.41
0.4
20
.43
0.4
50
.45
Med
ium
1R
ed
CF
M1
73
61
71
01
66
81
63
01
60
01
55
71
52
21
47
91
45
01
40
6B
HP
0.5
30
.54
0.5
50
.58
0.5
90
.60
0.6
20
.63
0.6
40
.65
Med
-H
igh
Ora
ng
eC
FM
19
35
19
09
18
67
18
36
18
08
17
66
16
96
16
19
15
35
14
54
BH
P0
.71
0.7
30
.74
0.7
60
.78
0.7
90
.77
0.7
50
.72
0.6
8
Hig
hB
lack
CF
M2
20
52
15
02
07
82
01
11
94
11
85
21
77
91
67
21
57
21
47
3B
HP
1.0
41
.02
0.9
90
.95
0.9
20
.87
0.8
50
.79
0.7
50
.70
* A
ir de
liver
y va
lues
are
with
out a
ir fil
ter
and
are
for
dry
coil
(See
Wet
Coi
l Pre
ssur
e D
rop
Tabl
e).
1 F
acto
ry−
ship
ped
heat
pum
p he
atin
g sp
eed
NO
TE
: Ded
uct f
ield−
supp
lied
air
filte
r pr
essu
re d
rop
and
wet
coi
l pre
ssur
e dr
op to
obt
ain
exte
rnal
sta
tic p
ress
ure
avai
labl
e fo
r du
ctin
g.
Sh
ad
ed
are
as in
dic
ate
sp
eed
/sta
tic c
om
bin
atio
ns t
hat
are
no
t p
erm
itte
d fo
r d
eh
um
idific
atio
n s
peed
.
19 518 11 2005 07Specifications subject to change without notice.
Dry
Co
il A
ir D
eliv
ery
CF
M* −
Ho
rizo
nta
l Dis
char
ge
Siz
es 3
6−60
3−P
has
e M
od
els
On
ly
Un
itM
oto
rS
pe
ed
Wir
eC
olo
r
Exte
rnal S
tati
c P
ressu
re (
IN. W
.C.)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
36
Lo
wB
lue
CF
M9
83
84
87
64
69
36
12
54
25
09
45
03
74
Med
-Lo
wP
ink
CF
M1
00
89
01
83
87
57
69
36
18
55
05
32
47
1
Med
ium
1R
ed
CF
M1
22
21
23
61
19
51
14
81
10
11
05
21
00
49
57
91
6
Med
-H
igh
Ora
ng
eC
FM
13
11
12
42
12
19
11
61
10
98
10
32
96
99
07
84
1
Hig
hB
lack
CF
M1
53
61
47
01
40
51
33
31
26
31
20
41
23
91
18
11
12
2
42
Lo
wB
lue
CF
M9
52
88
28
06
74
66
71
60
55
30
55
14
86
Med
-Lo
wP
ink
CF
M1
00
29
36
87
58
21
74
86
87
61
35
54
56
5
Med
ium
Red
CF
M1
25
51
21
01
14
51
07
41
00
89
40
87
88
95
83
8
Med
-H
igh
1O
ran
ge
CF
M1
33
51
26
71
24
61
17
61
10
91
04
99
88
92
68
72
Hig
hB
lack
CF
M1
47
21
40
11
32
61
25
11
27
51
19
81
13
91
08
51
02
3
48
Lo
wB
lue
CF
M1
40
21
35
11
31
11
26
31
22
41
17
21
13
61
08
01
04
1
Med
-Lo
wP
ink
CF
M1
45
71
40
41
36
71
31
81
28
41
23
31
19
71
14
41
10
4
Med
ium
1R
ed
CF
M1
73
61
69
51
64
21
60
11
55
31
51
21
46
51
42
71
38
1
Med
-H
igh
Ora
ng
eC
FM
21
49
21
11
20
62
20
26
19
80
19
45
19
05
18
64
17
93
Hig
hB
lack
CF
M2
34
42
30
62
25
92
20
32
14
12
07
01
99
11
90
21
80
3
60
Lo
wB
lue
CF
M1
44
51
38
91
34
11
28
11
23
61
18
91
13
91
07
21
02
7
Med
-Lo
wP
ink
CF
M1
67
81
63
51
60
21
55
81
51
31
47
41
43
81
40
41
34
9
Med
ium
1R
ed
CF
M1
96
21
91
51
88
01
84
31
79
41
75
31
71
11
67
51
62
8
Med
-H
igh
Ora
ng
eC
FM
21
31
20
88
20
65
20
13
19
82
19
41
18
88
18
60
17
85
Hig
hB
lack
CF
M2
46
12
40
92
33
92
28
62
19
22
14
02
06
21
96
81
87
4
1 F
acto
ry−s
hipp
ed h
eat p
ump
heat
ing
spee
d.N
OT
E: D
educ
t fie
ld−s
uppl
ied
air
filte
r pr
essu
re d
rop
and
wet
coi
l pre
ssur
e dr
op to
obt
ain
exte
rnal
sta
tic p
ress
ure
avai
labl
e fo
r du
ctin
g.
Sh
ad
ed
are
as in
dic
ate
sp
eed
/sta
tic c
om
bin
atio
ns t
hat
are
no
t p
erm
itte
d fo
r d
eh
um
idific
atio
n s
peed
.
Specifications subject to change without notice.518 11 2005 07 20
Dry
Co
il A
ir D
eliv
ery −
Do
wn
flo
w D
isch
arg
e −
36−6
0 3
Ph
ase
Mo
del
s O
nly
Un
itM
oto
rS
pe
ed
Wir
eC
olo
r
Exte
rnal S
tati
c P
ressu
re (
IN. W
.C.)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
36
Lo
wB
lue
CF
M9
83
84
87
64
69
36
12
54
25
09
45
03
74
--
-W
AT
TS
11
51
07
11
31
23
12
81
38
14
41
54
15
9-
--
BH
P0
.12
0.1
10
.12
0.1
30
.14
0.1
50
.15
0.1
70
.17
--
-
Med
-Lo
wP
ink
CF
M1
00
89
01
83
87
57
69
36
18
55
05
32
47
14
02
WA
TT
S1
23
12
11
32
13
71
48
15
41
64
17
01
81
18
5B
HP
0.1
30
.13
0.1
40
.15
0.1
60
.17
0.1
80
.18
0.1
90
.20
Med
ium
1R
ed
CF
M1
22
21
23
61
19
51
14
81
10
11
05
21
00
49
57
91
68
68
WA
TT
S2
33
22
12
32
24
42
51
26
42
75
28
52
91
30
4B
HP
0.2
50
.24
0.2
50
.26
0.2
70
.28
0.2
90
.31
0.3
10
.33
Med
-H
igh
Ora
ng
eC
FM
13
11
12
42
12
19
11
61
10
98
10
32
96
99
07
84
18
59
WA
TT
S2
56
27
02
83
28
93
01
31
33
20
33
13
43
34
9B
HP
0.2
70
.29
0.3
00
.31
0.3
20
.34
0.3
40
.35
0.3
70
.37
Hig
hB
lack
CF
M1
53
61
47
01
40
51
33
31
26
31
20
41
23
91
18
11
12
21
05
5W
AT
TS
41
14
23
42
94
41
45
34
64
47
34
77
48
84
89
BH
P0
.44
0.4
50
.46
0.4
70
.49
0.5
00
.51
0.5
10
.52
0.5
2
42
Lo
wB
lue
CF
M9
52
88
28
06
74
66
71
60
55
30
55
14
86
43
5W
AT
TS
12
41
34
14
01
50
15
61
66
17
11
82
18
81
98
BH
P0
.13
0.1
40
.15
0.1
60
.17
0.1
80
.18
0.2
00
.20
0.2
1
Med
-Lo
wP
ink
CF
M1
00
29
36
87
58
21
74
86
87
61
35
54
56
55
18
WA
TT
S1
44
15
51
61
17
11
76
18
71
93
20
32
09
22
0B
HP
0.1
50
.17
0.1
70
.18
0.1
90
.20
0.2
10
.22
0.2
20
.24
Med
ium
Red
CF
M1
25
51
21
01
14
51
07
41
00
89
40
87
88
95
83
87
85
WA
TT
S2
49
27
22
84
29
23
05
31
93
20
32
93
36
34
7B
HP
0.2
70
.29
0.3
00
.31
0.3
30
.34
0.3
40
.35
0.3
60
.37
Med
-H
igh
1O
ran
ge
CF
M1
33
51
26
71
24
61
17
61
10
91
04
99
88
92
68
72
89
1W
AT
TS
31
13
23
33
03
42
35
63
67
37
83
85
39
54
03
BH
P0
.33
0.3
50
.35
0.3
70
.38
0.3
90
.41
0.4
10
.42
0.4
3
Hig
hB
lack
CF
M1
47
21
40
11
32
61
25
11
27
51
19
81
13
91
08
51
02
39
61
WA
TT
S4
01
41
44
26
44
04
71
46
24
73
47
84
86
49
1B
HP
0.4
30
.44
0.4
60
.47
0.5
10
.50
0.5
10
.51
0.5
20
.53
21 518 11 2005 07Specifications subject to change without notice.
Dry
Co
il A
ir D
eliv
ery −
Do
wn
flo
w
Dis
char
ge −
Siz
es 3
6−60
3 P
has
e M
od
els
On
ly (
Co
nt.
)
Un
itM
oto
rS
pe
ed
Wir
eC
olo
r
Exte
rnal S
tati
c P
ressu
re (
IN. W
.C.)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
48
Lo
wB
lue
CF
M1
50
31
45
71
42
31
37
41
33
01
28
71
24
11
19
91
15
31
11
1W
AT
TS
22
52
33
24
62
54
26
92
82
29
23
07
31
43
29
BH
P0
.24
0.2
50
.26
0.2
70
.29
0.3
00
.31
0.3
30
.34
0.3
5
Med
-Lo
wP
ink
CF
M1
55
61
50
81
46
11
43
21
38
81
34
61
30
21
25
61
22
11
16
8W
AT
TS
24
42
61
26
82
81
29
03
05
31
93
30
34
53
53
BH
P0
.26
0.2
80
.29
0.3
00
.31
0.3
30
.34
0.3
50
.37
0.3
8
Med
ium
1R
ed
CF
M1
86
11
82
21
78
61
75
81
71
61
68
81
66
01
61
91
58
31
53
9W
AT
TS
40
04
17
42
64
41
45
24
67
48
24
92
50
75
19
BH
P0
.43
0.4
50
.46
0.4
70
.48
0.5
00
.52
0.5
30
.54
0.5
6
Med
-H
igh
Ora
ng
eC
FM
23
19
22
91
22
55
22
30
21
93
21
66
21
18
20
57
19
92
18
87
WA
TT
S7
58
76
97
87
79
98
08
82
38
22
80
57
80
73
7B
HP
0.8
10
.82
0.8
40
.86
0.8
70
.88
0.8
80
.86
0.8
40
.79
Hig
hB
lack
CF
M2
53
22
48
72
44
42
39
12
33
02
25
92
17
92
11
12
03
31
94
9W
AT
TS
10
14
10
22
10
15
99
49
65
93
58
98
85
88
23
78
6B
HP
1.0
91
.10
1.0
91
.07
1.0
31
.00
0.9
60
.92
0.8
80
.84
60
Lo
wB
lue
CF
M1
47
91
43
61
38
71
34
61
29
81
25
31
20
61
16
01
11
41
06
1W
AT
TS
22
42
39
24
72
62
27
02
84
30
03
07
31
93
30
BH
P0
.24
0.2
60
.26
0.2
80
.29
0.3
00
.32
0.3
30
.34
0.3
5
Med
-Lo
wP
ink
CF
M1
84
11
79
61
76
11
72
41
69
01
65
11
61
61
57
81
52
71
47
8W
AT
TS
42
54
34
45
34
60
47
64
85
50
15
08
52
55
42
BH
P0
.46
0.4
70
.49
0.4
90
.51
0.5
20
.54
0.5
40
.56
0.5
8
Med
ium
1R
ed
CF
M1
94
41
91
31
87
21
83
81
80
11
77
11
73
11
69
81
65
51
61
3W
AT
TS
48
65
01
51
15
29
53
75
54
56
55
78
59
56
03
BH
P0
.52
0.5
40
.55
0.5
70
.58
0.5
90
.61
0.6
20
.64
0.6
5
Med
-H
igh
Ora
ng
eC
FM
21
78
21
48
21
05
20
73
20
36
20
02
19
67
19
19
18
45
17
51
WA
TT
S6
74
69
17
03
71
77
33
74
37
58
75
47
34
70
1B
HP
0.7
20
.74
0.7
50
.77
0.7
90
.80
0.8
10
.81
0.7
90
.75
Hig
hB
lack
CF
M2
48
02
43
22
37
52
32
22
23
62
16
12
08
52
00
61
91
71
80
8W
AT
TS
10
29
10
12
99
59
75
94
19
08
86
98
36
79
67
51
BH
P1
.10
1.0
91
.07
1.0
51
.01
0.9
70
.93
0.9
00
.85
0.8
1
** A
ir de
liver
y va
lues
are
with
out a
ir fil
ter
and
are
for
dry
coil
(See
Wet
Coi
l Pre
ssur
e D
rop
tabl
e).
1 F
acto
ry−
ship
ped
heat
pum
p he
atin
g sp
eed
Not
e: D
educ
t fie
ld−
supp
lied
air
filte
r pr
essu
re d
rop
and
wet
coi
l pre
ssur
e dr
op to
obt
ain
exte
rnal
sta
tic p
ress
ure
avai
labl
e fo
r du
ctin
g.
Sh
ad
ed
are
as in
dic
ate
sp
eed
/sta
tic c
om
bin
atio
ns t
hat
are
no
t p
erm
itte
d fo
r d
eh
um
idific
atio
n s
peed
.
Specifications subject to change without notice.518 11 2005 07 22
PE
RF
OR
MA
NC
E D
ATA
(C
ON
T)
Filt
er P
ress
ure
Dro
p T
able
(IN
. W.C
.)F
ILT
ER
SIZ
E IN
. (M
M)
CO
OL
ING
TON
SS
TAN
DA
RD
CF
M (
SC
FM
)60
070
080
090
010
0011
0012
0013
0014
0015
0016
0017
0018
0019
0020
0021
0022
00 6
00−1
400
CF
M12
x20x
1+12
x20x
1(3
05x5
08x2
5+30
5x50
8x25
)
2.0,
2.5
0.03
0.04
0.05
0.06
0.06
0.07
0.07
0.08
0.08
−−
−−
−−
−−
120
0−18
00C
FM
16x2
4x1+
14x2
4x1
(406
x610
x25+
356x
610x
25)
3.0,
3.5,
4.0
−−
−−
0.04
0.05
0.06
0.07
0.08
0.09
0.09
0.10
0.11
0.12
0.12
−−
150
0−22
00C
FM
16x2
4x1+
18x2
4x1
(406
x610
x25+
457x
610x
25)
5.0
−−
−−
−−
−−
−0.
040.
060.
080.
100.
110.
130.
140.
15
Wet
Co
il P
ress
ure
Dro
p (
IN. W
.C.)
UN
ITS
IZE
STA
ND
AR
D C
FM
(SC
FM
)60
070
080
090
010
0011
0012
0013
0014
0015
0016
0017
0018
0019
0020
0021
0022
0024
0.03
0.04
0.04
0.05
0.06
30
0.05
0.06
0.07
0.08
0.11
36
0.
060.
060.
090.
100.
110.
14
42
0.05
0.05
0.06
0.07
0.08
0.08
0.09
0.09
0.11
48
0.
040.
060.
090.
100.
100.
110.
120.
130.
14
60
0.
060.
070.
010.
080.
090.
100.
120.
13
Eco
no
miz
er w
ith
1−i
n. F
ilter
Pre
ssu
re D
rop
(IN
. W.C
.)F
ILT
ER
SIZ
E IN
. (M
M)
CO
OL
ING
TON
SS
TAN
DA
RD
CF
M (
SC
FM
)60
070
080
090
010
0011
0012
0013
0014
0015
0016
0017
0018
0019
0020
0021
0022
00 6
00−1
400
CF
M12
x20x
1+12
x20x
1(3
05x5
08x2
5+30
5x50
8x25
)
2.0,
2.5
−−
0.08
0.09
0.10
0.11
0.11
0.13
0.14
−−
−−
−−
−−
120
0−18
00C
FM
16x2
4x1+
14x2
4x1
(406
x610
x25+
356x
610x
25)
3.0,
3.5,
4.0
−−
−−
−0.
090.
090.
100.
120.
130.
150.
170.
170.
190.
21−
−
150
0−22
00C
FM
16x2
4x1+
18x2
4x1
(406
x610
x25+
457x
610x
25)
5.0
−−
−−
−−
−−
−0.
150.
170.
180.
200.
210.
220.
230.
23
Ele
ctri
c H
eat
Pre
ssu
re D
rop
Tab
le (
IN. W
.C.)
Sm
all
Cab
inet
: 24−3
0S
TAT
ICS
TAN
DA
RD
CF
M (
SC
FM
)500
600
700
800
900
1000
1100
1200
1300
1400
1500
1600
5 k
w0
.00
0.0
00
.00
0.0
00
.00
0.0
00
.00
0.0
00
.02
0.0
40
.06
0.0
7
7.5
kw
0.0
00
.00
0.0
00
.00
0.0
00
.00
0.0
20
.03
0.0
50
.07
0.0
80
.09
10 k
w0
.00
0.0
00
.00
0.0
00
.00
0.0
20
.04
0.0
60
.07
0.0
90
.10
0.1
1
15 k
w0
.00
0.0
00
.00
0.0
20
.04
0.0
60
.08
0.1
00
.12
0.1
40
.16
0.1
8
20 k
w0
.00
0.0
00
.02
0.0
40
.06
0.0
80
.09
0.1
10
.13
0.1
50
.17
0.1
9
Ele
ctri
c H
eat
Pre
ssu
re D
rop
Tab
le (
IN. W
.C.)
Lar
ge
Cab
inet
36−
60S
TAT
ICS
TA
ND
AR
D C
FM
(S
CF
M)
1100
1200
1300
1400
1500
1600
1700
1800
1900
2000
2100
2200
2300
2400
2500
5 k
w0
.00
0.0
00
.00
0.0
10
.02
0.0
30
.04
0.0
50
.06
0.0
70
.08
0.0
90
.10
0.1
10
.12
7.5
kw
0.0
00
.00
0.0
10
.02
0.0
30
.04
0.0
50
.06
0.0
70
.08
0.0
90
.10
0.1
10
.12
0.1
3
10 k
w0
.00
0.0
00
.01
0.0
20
.03
0.0
40
.05
0.0
60
.07
0.0
80
.09
0.1
00
.11
0.1
20
.13
15 k
w0
.00
0.0
20
.03
0.0
40
.05
0.0
60
.07
0.0
80
.09
0.1
00
.11
0.1
20
.13
0.1
40
.15
20 k
w0
.02
0.0
30
.04
0.0
50
.06
0.0
70
.08
0.0
90
.10
0.1
10
.12
0.1
30
.14
0.1
50
.16
Specifications subject to change without notice.518 11 2005 07 23
TYPICAL PIPING AND WIRINGINDOORTHERMOSTAT
DISCONNECTPER NEC*
FROMPOWERSOURCE
RETURNAIR
TOP COVER
POWER ENTRY
CONTROL ENTRY
*NEC - National Electrical CodeA09240
APPLICATION DATACondensate trap — A 2−in. (51 mm) condensate trap must befield supplied.Ductwork — Secure downflow discharge ductwork to roofcurb. For horizontal discharge applications, attach ductwork tounit with flanges.To convert a unit to downflow discharge — Units areequipped with factory−installed inserts in the downflowopenings. Removal of the inserts is similar to removing anelectrical knock−out. Units installed in horizontal dischargeorientation do not require duct covers.
Maximum cooling airflow — To minimize the possibility ofcondensate blow−off from the evaporator, airflow through theunits should not exceed 450 CFM per ton.Minimum cooling airflow — Minimum cooling airflow is 350CFM per ton in cooling mode. Airflow can be lower in certainmodes when humidity removal is an issue however, low airflowcould result in indoor coil freezing and/or refrigerant floodback.Minimum ambient cooling operation temperature — Allstandard units have a minimum ambient cooling operatingtemperature of 40�F (4.4�C). With accessory low ambienttemperature kit, units can operate at temperatures down to 0�F(17.8�C).Maximum operating outdoor air temperature for cooling is125�F (51.7�C).
24 518 11 2005 07Specifications subject to change without notice.
BALANCE POINT WORKSHEET
0.0
2.9
5.9
8.8
11.7
14.6
17.6
20.5
23.4
0 10 20 30 40 50 60 70 80
-100
1020
3040
5060
70
kW
BUILDING HEAT LOSS, UNIT INTEGRATED HEATING CAPACITY, MBTUH
OU
TDO
OR
TEMPER
ATUR
E, ºF
BA
LAN
CE PO
INT W
OR
KSH
EET
60
BA
SE
D O
N IN
DO
OR
EN
T. AIR
A
T 70 ºF AN
D A
T RA
TED C
FM
24 4842
3630
A150725
Specifications subject to change without notice.518 11 2005 07 25
ELECTRICAL DATA
MODELNOMINALV−PH−HZ
VOLTAGERANGE
COMPRES-SOR OFM IFM
NOMINALELECTRIC
HEAT POWER SUPPLY
MIN MAX RLA LRA FLA FLA kW FLA MCA MOCP
24 208/230−1−60 197 253 13.5 58.3 0.6 3.8
−/− −/− 21.3 303.8/5 18.1/20.8 43.9/47.3 45/50
5.4/7.2 25.9/30 53.7/58.8 60/607.5/10 36.1/41.7 66.4/73.4 70/80
30 208/230−1−60 197 253 14.1 73 0.7 3.8
−/− −/− 22.1 353.8/5 18.1/20.8 44.8/48.1 45/50
5.4/7.2 25.9/30 54.5/59.6 60/607.5/10 36.1/41.7 67.3/74.3 70/8011.3/15 54.2/62.5 89.9/100.3 90/110
36
208/230−1−60 197 253 16.7 79 1 3.8
−/− −/− 25.8 403.8/5 18.1/20.8 48.4/51.7 50/60
5.4/7.2 25.9/30 58.1/63.2 60/707.5/10 36.1/41.7 70.9/77.9 80/8011.3/15 54.2/62.5 93.5/103.9 100/110
208/230−3−60 197 253 10.4 73 1 4.1
−/− −/− 18.2 253.8/5 10.4/12 31.2/33.2 35/357.5/10 20.8/24.1 44.2/48.3 45/5011.3/15 31.2/36.1 57.2/63.3 60/70
460−3−60 414 506 5.8 38 0.5 3.2−/− −/− 11 1510 12/12 26/26 30/3015 18/18 33.5/33.5 35/35
42
208/230−1−60 197 253 19.3 112 1 3.8
−/− −/− 29 453.8/5 18.1/20.8 51.6/55 60/60
5.4/7.2 25.9/30 61.4/66.5 70/707.5/10 36.1/41.7 74.1/81.1 80/9011.3/15 54.2/62.5 96.7/107.1 100/11015/20 72.2/83.3 119.2/133.1 125/150
208/230−3−60 197 253 13.5 88 1 4.1
−/− −/− 22.1 353.8/5 10.4/12 35/37 35/407.5/10 20.8/24.1 48/52.2 50/6011.3/15 31.2/36.1 61/67.2 70/7015/20 41.4/47.9 73.8/81.9 80/90
460−3−60 414 506 6 44 0.5 3.2
−/− −/− 11.2 1510 12/12 26.2/26.2 30/3015 18/18 33.7/33.7 35/3520 24.1/24.1 41.4/41.4 45/45
48
208/230−1−60 197 253 19.6 130 1.1 7.6
−/− −/− 33.2 503.8/5 18.1/20.8 55.8/59.2 60/60
5.4/7.2 25.9/30 65.5/70.7 70/807.5/10 36.1/41.7 78.3/85.3 80/9011.3/15 54.2/62.5 100.9/111.3 110/12515/20 72.2/83.3 123.4/137.3 125/150
208/230−3−60 197 253 13.7 83.1 1 7.6
−/− −−−− 25.8 353.8/5 10.4/12 38.8/40.8 40/457.5/10 20.8/24.1 51.8/55.9 60/6011.3/15 31.2/36.1 64.8/70.9 70/8015/20 41.4/47.9 77.5/85.7 80/90
460−3−60 414 506 6.2 41 0.5 4
−/− −/− 12.3 1510 12/12 27.3/27.3 30/3015 18/18 34.8/34.8 35/3520 24.1/24.1 42.4/42.4 45/45
26 518 11 2005 07Specifications subject to change without notice.
ELECTRICAL DATA (CONT)
MODELNOMINALV−PH−HZ
VOLTAGERANGE
COMPRES-SOR OFM IFM
NOMINALELECTRIC
HEAT POWER SUPPLY
MIN MAX RLA LRA FLA FLA kW FLA MCA MOCP
60
208/230−1−60 197 253 24.4 144.2 1.3 7.7
−/− −/− 39.5 603.8/5 18.1/20.8 62.1/65.5 70/70
5.4/7.2 25.9/30 71.9/77 80/807.5/10 36.1/41.7 84.6/91.6 90/10011.3/15 54.2/62.5 107.3/117.6 110/12515/20 72.2/83.3 129.8/143.6 150/150
208/230−3−60 197 253 16 110 1 7.6
−/− −/− 28.7 403.8/5 10.4/12 41.7/43.7 45/457.5/10 20.8/24.1 54.7/58.8 60/6011.3/15 31.2/36.1 67.7/73.8 70/8015/20 41.4/47.9 80.4/88.5 90/90
460−3−60 414 506 7.8 52 0.5 4
−/− −/− 14.3 2010 12/12 29.3/29.3 30/3015 18/18 36.8/36.8 40/4020 24.1/24.1 44.4/44.4 45/45
See Legend and Notes.
LEGEND
FLA - Full Load AmpsIFM - Indoor Fan MotorLRA -Locked Rotor AmpsMCA - Minimum Circuit AmpsMOCP - Maximum Over Current ProtectionOFM - Outdoor Fan MotorRLA - Rated Load Amps
A09604
Specifications subject to change without notice.518 11 2005 07 27
TYPICAL CONNECTION WIRING SCHEMATIC − 208/230−1−60
A150518
28 518 11 2005 07Specifications subject to change without notice.
TYPICAL LADDER WIRING SCHEMATIC − 208/230−1−60
A150519
Specifications subject to change without notice.518 11 2005 07 29
TYPICAL CONNECTION WIRING SCHEMATIC − 208/230−3−60
A150520
30 518 11 2005 07Specifications subject to change without notice.
TYPICAL LADDER WIRING SCHEMATIC − 208/230−3−60
A150521
Specifications subject to change without notice.518 11 2005 07 31
TYPICAL CONNECTION WIRING SCHEMATIC − 460−3−60
A150522
32 518 11 2005 07Specifications subject to change without notice.
TYPICAL LADDER WIRING SCHEMATIC − 460−3−60
A150523
Specifications subject to change without notice.518 11 2005 07 33
CONTROLSOperating sequenceWhen power is supplied to unit, the transformer (TRAN) isenergized.On units with crankcase heater, heater is also energized.Cooling — With the thermostat in the cooling position, thethermostat makes circuit R−O. This energizes the reversingvalve solenoid (RVS) and places the unit in standby conditionfor cooling.As the space temperature rises, the thermostat closes circuitR−Y. A circuit is made to contactor (C), starting the compressor(COMP) and outdoor−fan motor (OFM). Circuit R−G is made atthe same time and starts the indoor−fan motor (IFM).When the thermostat is satisfied, contacts open, deenergizingC. The COMP and OFM stop, and the IFM stops after thepreselected time delay.Heating — On a call for heat, thermostat makes circuits R−Yand R−G.A circuit is made to C, starting COMP and OFM. Circuit R−Galso is completed, energizing IFR and starting IFM after theselected time delay.Should room temperature continue to fall, circuit R−W is madethrough second−stage thermostat. If optional electric heatpackage is used, a relay is energized, bringing on first bank ofsupplemental electric heat. When thermostat is satisfied,contacts open, deenergizing contactor and relay; motors andheaters deenergize.Defrost — Defrost board (DB) is a time and temperaturecontrol, which includes a field−selectable time period (dipswitch 1 and 2 on the board) between checks for defrost (30,60, 90, or 120 minutes). Electronic timer and defrost cycle startonly when contactor is energized and defrost thermostat (DFT)is closed.Defrost mode is identical to cooling mode, except outdoor fanmotor stops and a bank of optional electric heat turns on towarm air supplying the conditioned space.NOTE:
1. Compressor time delay occurs through the defrostcontrol board.
2. Defrost control board has built in 5 minute compressordelay; once the compressor has started and thenstopped, it cannot be restarted again until 5 minuteshave elapsed.
GUIDE SPECIFICATIONSPackaged Heat Pump SystemHVAC Guide SpecificationsSize Range: 2 to 5 Tons, Nominal Cooling
Part 1�GeneralSYSTEM DESCRIPTION
Outdoor, packaged, air−to−air heat pump unit utilizing ahermetic scroll compressor for cooling duty and optionalelectric heating. Unit shall discharge supply air vertically orhorizontally as shown on contract drawings. Outdoor fan/coilsection shall have a draw−thru design with vertical dischargefor minimum sound levels.
QUALITY ASSURANCEA. Unit shall be rated in accordance with AHRI Standards
210/240 and 270.B. Unit shall be designed in accordance with UL Standard
1995.
C. Unit shall be manufactured in a facility registered to ISO9001 manufacturing quality standard.
D. Unit shall be UL listed and c−UL certified as a totalpackage for safety requirements.
E. Roof curb shall be designed to conform to NRCAStandards.
F. Insulation and adhesives shall meet NFPA 90Arequirements for flame spread and smoke generation.
G. Cabinet insulation shall meet ASHRAE Standard 62P.
DELIVERY, STORAGE AND HANDLINGUnit shall be stored and handled per manufacturer’srecommendations.
Part 2 � ProductsEQUIPMENTA. General:
Factory−assembled, single−piece, heat pump unit.Contained within the enclosure shall be all factory wiring,piping, controls, refrigerant charge (R−410A), and specialfeatures required prior to field start−up.
B. Unit Cabinet:1. Unit cabinet shall be constructed of phosphated,
zinc−coated, pre−painted steel capable of withstanding500 hours of salt spray.
2. Normal service shall be through 3 removable cabinetpanels.
3. The unit shall be constructed on a rust proof unit basethat has an externally trapped, integrated sloped drain.
4. Indoor fan compartment top surface shall be insulatedwith a minimum 1/2−in. (13 mm) thick, flexible fiberglassinsulation, coated on the air side and retained byadhesive and mechanical means. The indoor wallsections will be insulated with a minimum semi−rigid,foil−faced board capable of being wiped clean.Aluminum foil−faced fiberglass insulation shall be usedin the entire indoor air cavity section.
5. Unit shall have a field−supplied condensate trap.6. Metal Insulated Duct Covers for side discharge will be
standard on all sizes.7. Unit insulation conforms to ASHRAE 62P.
C. Fans:1. The indoor fan shall be 5−speed, direct−drive, as shown
on equipment drawings.2. Fan wheel shall be made from steel and shall be
double−inlet type with forward−curved blades withcorrosion resistant finish. Fan wheel shall bedynamically balanced.
3. Outdoor fan shall be direct−drive, propeller−type withaluminum blades riveted to corrosion resistant steelspiders, be dynamically balanced, and discharge airvertically.
D. Compressor:1. Fully hermetic compressors with factory−installed
vibration isolation.2. Scroll compressors shall be standard on all units.
E. Coils:Indoor and outdoor coils shall have aluminum plate finsmechanically bonded to seamless copper tubes with all jointsbrazed. Tube sheet openings shall be belled to prevent tubewear.
F. Refrigerant Metering Device:Refrigerant metering device shall be thermostatic expan-sion valve or fixed orifice for cooling, and fixed orifice forheating.
34 518 11 2005 07Specifications subject to change without notice.
GUIDE SPECIFICATIONS (CONT)G. Filters:
Filter section shall consist of field−installed, throwaway,1−in. (25 mm) − thick fiberglass filters of commerciallyavailable sizes.
H. Controls and Safeties:1. Unit controls shall be complete with a self−contained,
low− voltage control circuit.2. Units shall incorporate an internal compressor protector
that provides reset capability.I. Operating Characteristics:
1. Unit shall be capable of starting and running at 125�F(51.7�C) ambient outdoor temperature.
2. Compressor with standard controls shall be capable ofoperation down to 40�F (4.4�C) ambient outdoortemperature in cooling mode.
3. Unit shall be provided with 90−second fan time delayafter the thermostat is satisfied.
J. Electrical Requirements:All unit power wiring shall enter the unit cabinet at a singlelocation.
K. Motors:1. Compressor motors shall be of the refrigerant−cooled
type with line−break thermal and current overloadprotection.
2. All fan motors shall have permanently lubricatedbearings, and inherent, automatic reset, thermaloverload protection.
3. Condenser fan motor shall be totally enclosed.4. Evaporator fan motor to be ECM Motor.
L. Special Features Available:1. Compressor Start Kit (single phase units only):
Shall provide additional starting torque for single−phasecompressors.
2. Thermostat:To provide for two−stage heating and one−stage coolingin addition manual or automatic changeover and indoorfan control.
3. Crankcase Heater:Shall provide anti−floodback protection for lowload cool-ing applications.
4. Economizer:(Horizontal − Field installed accessory)(Vertical − Field installed accessory)a. Economizer controls capable of providing free
cooling using outside air.b. Equipped with low leakage dampers not to exceed
3% leakage, at 1.0 in. W.C. pressure differential.c. Spring return motor shuts off outdoor damper on
power failure.5. Electric Heaters
a. Electric heater shall be available as a field installedoption.
b. Heater elements shall be open wire type, adequatelysupported and insulated with ceramic bushings.
c. Electric heater packages must provide single pointpower connection capability.
6. Filter Rack Kit:Shall provide filter mounting for downflow applications.Offered as a field installed accessory.
7. Flat Roof Curb:Curbs shall have seal strip and a wood nailer for flashingand shall be installed per manufacturer’s instructions.
8. Low Ambient Package:Shall consist of a solid−state control and outdoor coiltemperature sensor for controlling outdoor−fan motor op-eration, which shall allow unit to operate down to 0�F(−17.7�C) outdoor ambient temperature.
9. Manual Outdoor Air Damper:Package shall consist of damper, birdscreen, and rain-hood which can be preset to admit outdoor air for year−round ventilation.
10. Square−To−Round Duct Transitions (24−48 size):Shall have the ability to convert the supply and returnopenings from rectangular to round.
11. Cabinet LeakageCabinet air leakage less than 2.0% at 0.5 inch W.C.when tested in accordance with ASHRAE standard 193.Available as a factory installed option.
12. Dual Point Electric Heaters:Allows you to power the electric heater and unitcontactor separately by having two individual field powersupply circuits connected respectively.
Specifications subject to change without notice.518 11 2005 07 35
PHD4 ACCESSORIESAccessory Model Number Description Use With
CURBSCPRFCURB011B00 Roof Curb, 14” High 24 − 30CPRFCURB013B00 Roof Curb, 14” High 36 − 60
Note: CPRFCURB011B00 can be used with 42−60 size units with some overhang.ADAPTER CURBS*
CPADCURB001A00 Adapter curb for use with NPRFCURB006A00 & NPRFCURB007A00 24 − 30CPADCURB002A00 Adapter curb for use with NPRFCURB008A00 & NPRFCURB009A00 36 − 60
* Can also be used when replacing other manufacturer’s older generation units that contain a composite base without a metal base rail.
CONCENTRIC ADAPTERS − (Use with curb only)NPCONADP001A00 For 18” round duct (use with curb CPRFCURB011B00) Small CurbNPCONADP002A00 For 18” round duct (use with curb CPRFCURB013B00) Large Curb
ECONOMIZERS
CPECOMZR007B00 Dedicated Vertical Economizer − Internal with solid state controller, geardriven, fully modulating damper, spring return actuator, up to 50% baro-metric relief, supply and dry bulb outdoor air sensors. Includes filter rackwith 1” filters.
24, 30
CPECOMZR008A00 42, 48
CPECOMZR009A00 36, 60
CPECOMZR010A00 Dedicated Horizontal Economizer − Internal with solid state controller,fully modulating damper, spring return actuator, supply and dry bulboutdoor air sensor, and low ambient compressor lockout switch included.Includes filter rack with 1−inch filters.
24, 30
CPECOMZR011A00 42, 48
CPECOMZR012A00 36, 60
CPRLYKIT001A00 Economizer Relay for Heat Pumps ALLAXB078ENT Outdoor Enthalpy Control ALL
* Outdoor enthalpy available as field installed accessory; Filter rack and 1” filter, same as CPFILTRK kitDAMPERS
CPMANDPR007A00Manual Outside Air Damper (Includes filter rack and 1” filter, same as CPFILTRK kit)
24, 30CPMANDPR008A00 42, 48CPMANDPR009A00 36, 60
INTERNAL FILTER RACKSCPFILTRK007A00
Internal Filter Rack (includes 1−inch filters)
24, 30CPFILTRK008A00 42, 48CPFILTRK009A00 36, 60
CRANKCASE HEATERS
CPCRKHTR008A00240V Crankcase Heater
24 − 36
CPCRKHTR004A00 42 − 60
CPCRKHTR009A00460V Crankcase Heater
24 − 36
CPCRKHTR005A00 42 − 60
LOW AMBIENT, ANTI−CYCLE TIMER, COMPRESSOR START ASSIST
CPLOWAMB001A00Low Ambient Control − enables cooling system to operate down to 0Deg. F by cycling condenser fan on and off. ALL
NRTIMEGD001A00 Five Minute Compressor Delay ALL
CPHSTART002A00 PTC Compressor Start Assist Kit (All single phase) ALL
HAIL GUARDS / COIL PROTECTION (Factory installed on PHD4 “TP” models)
NAPA00901GR 3/8” spacing dense wire grilles 18” 24
NAPA01401GR 3/8” spacing dense wire grilles 22” 30
NAPA01001GR 3/8” spacing dense wire grilles 18” 36, 60
NAPA01301GR 3/8” spacing dense wire grilles 24” 42, 48
DUCT TRANSITIONSNPDUCFLG002A00 Square to Round (1 set of 2, use with horizontal duct flanges only) 24 − 48
36 518 11 2005 07Specifications subject to change without notice.
PHD4 ACCESSORIES (CONT.)ELECTRIC HEATERS Voltage / Nominal Capacity kW / Fuses
PART NO. NOMINAL CAPACITY (kW) FUSED STAGES USED WITH208/230V − 1 PHASE − 60 HZ
CPHEATER052B0* 3.8 / 5.0 NO 1 24 − 36CPHEATER064B0* 3.8 / 5.0 YES 1 ALLCPHEATER070B0* 5.4 / 7.2 YES 1 ALLCPHEATER050B0* 7.5 / 10.0 YES 1 ALLCPHEATER066B0* 11.3 / 15.0 YES 2 36 − 60CPHEATER133B0* 13.3 / 15.0 YES 2 30CPHEATER054B0* 15.0 / 20.0 YES 2 42 − 60
208/230V − 3 PHASE − 60 HZCPHEATER055B0* 3.8 / 5.0 NO 1 36 − 60CPHEATER056B0* 7.5 / 10.0 NO 1 36 − 42CPHEATER068B0* 7.5 / 10.0 YES 1 36 − 60CPHEATER058B0* 11.3 / 15.0 YES 1 36 − 60CPHEATER059B0* 15.0 / 20.0 YES 1 42 − 60
460V − 3 PHASE − 60 HZCPHEATER061B0* 10.0 NO 1 36 − 60CPHEATER062B0* 15.0 NO 1 36 − 60CPHEATER063B0* 20.0 NO 1 42 − 60
* Denotes digit can be 0, 1, or 2NOTE: If installing an accessory heater, the thermostat must have capability to energize “G” (fan) on a call for “W” (electric heat).TSTAT0406 and TSTAT0408 contain this feature.
Copyright 2019 International Comfort ProductsLewisburg, Tennessee 37091 USA
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