As an Energy Star® Partner,International Comfort Products hasdetermined that this product meetsthe ENERGY STAR® guidelines forenergy efficiency.
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. 516 11 2702 05 2/14/11
14 SEER, 12 EER, 8.0 HSPF, PACKAGE HEAT PUMP, 2.5 to 5 TONS208/230−3−60, 460−3−60REFRIGERATION CIRCUIT
• Environmentally sound 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• Hail Guard (3/8” spacing) wire grilles standard on all models
• 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
WARRANTY• 5 year compressor limited warranty• 1 year parts limited warranty
UNIT PERFORMANCE DATA
ModelNumber
COOLING HEATING Unit Dimensions Height x Width x Depth
in (mm)
OperatingWeightlbs (kg)
CapacityBTU/h SEER EER
CapacityBTU/h HSPF
PHD430000H000D 28,600 14.2 12.0 29,000 8.0 441/8 x 481/8 x 325/8 (1121 x 1225 x 829) 340 (154)
PHD436000*000D 35,800 14.5 12.0 34,800 8.0 443/4 x 481/8 x 443/16 (1137 x 1225 x 1123) 418 (190)
PHD442000*000D 40,500 14.5 12.0 40,500 8.0 483/4 x 481/8 x 443/16 (1238 x 1225 x 1123) 464 (210)
PHD448000*000D 46,500 14.5 12.0 45,500 8.0 483/4 x 481/8 x 443/16 (1238 x 1225 x 1123) 452 (205)
PHD460000*000D 57,000 14.5 12.0 60,000 8.0 543/4 x 481/8 x 443/16 (1391 x 1225 x 1123) 506 (230)
* H = 208/230-3-60, L = 460-3-60
ENVIRONM
ENTA
LLY
SO
UN
DR
EFRIGERANT PHD4
Product Specifications
2 SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 516 11 2702 05
MODEL NOMENCLATURE
MODEL SERIES1 2 3 4 5,6 7,8,9 10 11,12 13 14 15
P H D 4 36 000 H 00 0 D 1P = Package
H = Heat Pump
D = Standard TIER
3 = 13
4 = 14 SEER
30 = 30,000 BTUH = 2.5 Tons
36 = 36,000 BTUH = 3 Tons
42 = 42,000 BTUH = 3.5 Tons
48 = 48,000 BTUH = 4 Tons
60 = 60,000 BTUH = 5 Tons NOMINAL COOLING CAPACITY
000 = no factory heat NOMINAL HEATING BTUH (input)H = 208/230−3−60
L = 460−3−60 VOLTAGE
00 = No options FACTORY INSTALLED OPTIONS
0 = Standard FEATURE CODESales Model Digit
Engineering Digit
AHRI* CAPACITIESCOOLING CAPACITIES AND EFFICIENCIES − PHD4
PHD4 NOMINAL TONSSTANDARD
CFMCOOLINGCAPACITY EER SEER
30 2.5 1000 28,600 12.0 14.236 3 1200 35,800 12.0 14.542 3.5 1400 40,500 12.0 14.548 4 1600 46,500 12.0 14.560 5 1750 57,000 12.0 14.5
HEAT PUMP HEATING CAPACITIES AND EFFICIENCIES − PHD4
PHD4
HEATING 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) HSPF30 29,600 3.5 15400 2.2 8.036 35,800 3.5 19800 2.2 8.042 41,500 3.4 23000 2.3 8.048 45,500 3.4 26000 2.3 8.060 59,000 3.5 32000 2.3 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 ARI 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.
3SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE516 11 2702 05
ELECTRICAL DATA − PHD4
MODEL VPHHZRANGE
RLA LRAOFM IFM NOMINAL
kW FLA MCA MOCPMIN MAX FLA FLA
PHD430 208/230360 197 253 9.0 58 1.2 4.1
/ / 16.6 25
3.8/5 10.4/12 29.6/31.8 30/35
7.5/10 20.8/24.1 42.6/46.7 45/50
11.3/15 31.2/36.1 55.6/61.7 60/70
PHD436
208/230360 197 253 11.5 73 1.2 6.0
/ / 21.6 30
3.8/5 10.4/12 34.6/36.6 35/40
7.5/10 20.8/24.1 47.6/51.7 50/60
11.3/15 31.2/36.1 60.6/66.7 70/70
460360 414 506 5.8 38 0.5 3.0
/ / 10.8 15
5 6 18.3 20
10 12 25.8 30
15 18 33.3 35
PHD442
208/230360 197 253 13.5 88 1.2 6.0
/ / 24.1 35
3.8/5 10.4/12 37.1/39.1 40/40
7.5/10 20.8/24.1 50.1/54.2 60/60
11.3/15 31.2/36.1 63.1/69.2 70/70
15/20 41.4/47.9 75.8/84 80/90
460360 414 506 6.1 44 0.5 3.0
/ / 11.1 15
5 6 18.6 20
10 12 26.1 30
15 18 33.6 35
20 24.1 41.3 45
PHD448
208/230360 197 253 16.0 83 1.2 7.6
/ / 28.8 40
3.8/5 10.4/12 41.8/43.8 45/45
7.5/10 20.8/24.1 54.8/58.9 60/60
11.3/15 31.2/36.1 67.8/73.9 70/80
15/20 41.4/47.9 80.6/88.7 90/90
460360 414 506 7.2 41 0.5 3.8
/ / 13.3 20
5 6 20.8 25
10 12 28.3 30
15 18 35.8 40
20 24.1 43.4 45
PHD460
208/230360 197 253 19.9 110 1.2 7.6
/ / 33.7 50
3.8/5 10.4/12 46.7/48.7 50/50
7.5/10 20.8/24.1 59.7/63.8 60/70
11.3/15 31.2/36.1 72.7/78.8 80/80
15/19.91 41.4/47.9 85.4/93.6 90/100
460360 414 506 8.6 52 0.6 3.8
/ / 15.2 20
5 6 22.7 25
10 12 30.2 35
15 18 37.7 4020 24.1 45.3 50
See Legend and Notes.
228 = 1 v229 = 2 v227 = 2 v
LEGEND
FLA -- Full Load AmpsLRA -- Locked Rotor AmpsMCA -- Minimum Circuit AmpsMOCP -- Maximum Overcurrent ProtectionRLA -- Rated Load Amps
NO TES:1. In compliance with NEC (National Electrical Code) requirements
for multimotor and combination load equipment (refer to NE CArticles 430 and 440), the overcurrent protective device for theunit shall be Power Supply fuse. The CGA (Canadian GasAssociation) units may be fuse or circuit break er.
2. Minimum wire size is based on 60 C copper wire. I f other than60 C wire is used, or if length exceeds wire length in table,determine siz e from NEC..
3. Unbalanced 3-Phase Supply VoltageNever operate a motor where a phase imbalance in supply volt-age is greater than 2%. Use the following formula to determinethe percentage of voltage imbalance.
% Voltage imbalance
max voltage deviation from average voltage= 100 xaverage voltage
EXAMPLE: Supply voltage is 230-3-60.AB = 228 vBC = 231 vAC = 227 v
228 + 231 + 227Average Voltage =3
686=3
= 229
Determine maximum deviation from average voltage.(AB) 229 -(BC) 231 -(AC) 229 -
Maximum deviation is 2 v.
Determine percent of voltage imbalance.2% Voltage Imbalance = 100 x
229
= 0.8%
This amount of phase imbalance is satisfactory as it is below themaximum allowable 2%.
IMPORTANT: If the supply voltage phase imbalance ismore than 2%, contact your local electric utility companyimmediately.
(R)
4 SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 516 11 2702 05
PHYSICAL DATA - UNIT PHD4UNIT SIZE 30 36 42 48 60
NOMINAL CAPACITY (ton) 2.5 3 3.5 4 5Shipping Weight (lb) (kg)
346157
426193
472214
460209
506230
Compressor Quantity 1Type ScrollRefrigerant R410ARefrigerant Quantity (lb) Quantity (kg)
10.34.7
9.94.5
11.35.1
12.55.7
15.26.9
Refrigerant Metering Device Indoor TXV, Outdoor Dual OrificeOrifice OD (in) (mm)
0.037 (2)0.94 (2)
0.038 (2)0.97 (2)
0.040 (2)1.02 (2)
0.040 (2)1.02 (2)
0.049 (2)1.24 (2)
Outdoor CoilRows...Fins/in,face area (sq. ft.)
2...2113.6
2...2113.6
2...2117.5
2...2117.5
2...2123.3
Outdoor FanNominal Airflow (cfm)Diameter (in.)Diameter (mm)Motor hp (rpm)
270024610
1/5 (810)
310026660
1/5 (810)
310026
6601/5 (810)
310026
6601/5 (810)
350026
6601/4 (810)
Indoor CoilRows...Fins/in,face area (sq. ft.)
3...173.7
3...174.7
3...174.7
3...175.6
3...175.6
Indoor BlowerNominal Airflow (cfm)Size (in.)Size (mm)Motor hp (rpm)
100010 x 10
254 x 2541/2
120011 x 10
279 x 2543/4
140011 x 10
279 x 2543/4
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 (in) (mm)
20x24x1508x610x25
24x30x1610x762x25
24x36x1610x914x25
*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 of 300 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)
MODEL PHD4
STANDARDRATING(dBA)
TYPICAL OCTAVE BAND SPECTRUM (dBA) (without tone adjustment)
125 250 500 1000 2000 4000 800030 72 61.5 62.5 66.0 66.0 63.0 57.5 50.536 78 62.0 69.0 72.5 73.0 70.5 67.5 62.0
42 75 62.5 62.5 68.5 70.0 67.0 62.0 58.548 78 70.5 69.5 71.0 72.5 69.5 66.0 59.560 79 69.0 69.0 71.5 74.0 72.0 67.5 59.5
NOTE: Tested in accordance with AHRI Standard 270 (not listed in AHRI).
5SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE516 11 2702 05
DRY COIL AIR DELIVERY* − HORIZONTAL AND DOWNFLOW DISCHARGE − UNIT PHD430−60
Unit Motor Speed Wire Color External Static Pressure (in W.C)
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
PHD430
Low Blue cfm 741 638 547 415 MedLow Pink cfm 973 887 823 733 665 538 451 Medium Red cfm 1088 1023 954 881 800 723 658 563 461
MedHigh1 Orange cfm 1140 1064 996 915 840 758 687 564 480High Black cfm 1202 1140 1082 1015 961 881 810 732 631
PHD436
Low Blue cfm 1176 1121 1079 1019 974 920 877 826 754MedLow Pink cfm 1295 1234 1182 1126 1075 1016 955 898 857Medium1 Red cfm 1345 1282 1235 1194 1140 1095 1027 974 921MedHigh Orange cfm 1505 1452 1413 1358 1323 1282 1234 1169 1130
High Black cfm 1705 1643 1607 1568 1518 1483 1448 1404 1360
PHD442
Low Blue cfm 1295 1234 1182 1126 1075 1016 955 898 857MedLow Pink cfm 1345 1282 1235 1194 1140 1095 1027 974 921Medium Red cfm 1505 1452 1413 1358 1323 1282 1234 1169 1130
MedHigh1 Orange cfm 1545 1492 1449 1411 1362 1313 1278 1231 1188High Black cfm 1705 1643 1607 1568 1518 1483 1448 1404 1360
PHD448
Low Blue cfm 1430 1374 1327 1267 1223 1176 1127 1061 1016MedLow Pink cfm 1445 1389 1341 1281 1236 1189 1139 1072 1027Medium1 Red cfm 1678 1635 1602 1558 1513 1474 1438 1404 1349MedHigh Orange cfm 2131 2088 2065 2013 1982 1941 1888 1860 1785
High Black cfm 2461 2409 2339 2286 2192 2140 2062 1968 1874
PHD460
Low Blue cfm 1445 1389 1341 1281 1236 1189 1139 1072 1027MedLow Pink cfm 1678 1635 1602 1558 1513 1474 1438 1404 1349Medium1 Red cfm 1962 1915 1880 1843 1794 1753 1711 1675 1628MedHigh Orange cfm 2131 2088 2065 2013 1982 1941 1888 1860 1785
High Black cfm 2461 2409 2339 2286 2192 2140 2062 1968 1874* Air delivery values are without air filter and are for dry coil (See PHD4-A Wet Coil Pressure Drop Table).1 Factory-shipped cooling/heat pump heating speed
NOTE: For horizontal applications deduct field-supplied air filter pressure drop and wet coil pressure drop to obtain external static pressure available for ducting. Fordownflow applications see Wet Coil Air Delivery table for available static including wet coil, 1-in. (25 mm) filter and economizer.
Shaded areas indicate speed/static combinations that are not permitted for dehumidification speed.
HORIZONTAL WET COIL PRESSURE DROP (in wc)
UNITPHD4
STANDARD CFM (S.C.F.M)500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000
30 0.12 0.15 0.19 0.23 0.27 36 0.07 0.11 0.18 0.26 0.35 42 0.04 0.07 0.1 0.15 0.21 48 0.11 0.14 0.17 0.22 0.28 60 0.1 0.17 0.23 0.31 0.36
WET COIL AIR DELIVERY (CFM) − DOWNFLOW − HIGH SPEED WITH 1−IN. (25 MM) FILTER AND ECONOMIZER
UNIT PHD4EXTERNAL STATIC PRESSURE (in. W.C.)
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.036, 42 1612 1569 1527 1481 1451 1393 1351 1317 1278 1242
48 2298 2239 2180 2110 2044 1951 1862 1777 1697 159160 2000 1926 1825 1820 1759 1705 1634 1496 1412 1328
HORIZONTAL FILTER PRESSURE DROP TABLE (in wc)
FILTER SIZEin. (mm)
STANDARD CFM (S.C.F.M)500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900
20X20X1(508X508X25) 0.05 0.07 0.08 0.1 0.12 0.13 0.14 0.15 — — — — — — —
20X24X1(508X610x25) — — — .09 .10 .11 .13 .14 .15 .16 — — — — —
24X30X1(610X762x25) — — — 0.04 0.05 0.06 0.07 0.07 0.08 0.09 0.1 — — — —
24X36X1(610X914X25) — — — — — — — 0.06 0.07 0.07 0.08 0.09 0.09 0.10 0.11
6 SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 516 11 2702 05
ECONOMIZER 1−IN. (25 MM) FILTER PRESSURE DROP (in wc)UNIT PHD4 PRESSURE DROP
30 0.2036-60 0.25
MULTIPLICATION FACTORSHEATER kW RATING VOLTAGE DISTRIBUTION MULTIPLICATION FACTOR
240
200208230240
0.690.750.921.00
ELECTRIC HEAT PRESSURE DROP TABLE (in wc) SMALL CABINET: PHD430HEATER
CAPACITYSTANDARD CFM (S.C.F.M)
500 600 700 800 900 1000 1100 1200 1300 1400 1500 16005kw 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.02 0.04 0.06 0.07
7.5 kw 0.00 0.00 0.00 0.00 0.00 0.00 0.02 0.03 0.05 0.07 0.08 0.0910 kw 0.00 0.00 0.00 0.00 0.00 0.02 0.04 0.06 0.07 0.09 0.10 0.1115 kw 0.00 0.00 0.00 0.02 0.04 0.06 0.08 0.10 0.12 0.14 0.16 0.18
ELECTRIC HEAT PRESSURE DROP TABLE (in wc) LARGE CABINET PHD436−60HEATER
CAPACITYSTANDARD CFM (S.C.F.M)
1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 25005kw 0.00 0.00 0.00 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0.12
7.5 kw 0.00 0.00 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.1310 kw 0.00 0.00 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.1315 kw 0.00 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.13 0.14 0.1520 kw 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.13 0.14 0.15 0.16
MINIMUM AIRFLOW FOR RELIABLE ELECTRIC HEATER OPERATION (CFM)SIZE PHD430 PHD436 PHD442 PHD448 PHD460
AIRFLOW (CFM) 1025 1250 1400 1710 1800
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 7516 11 2702 05
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E
INDO
OR
AIR
OUT
DOO
R CO
IL E
NTER
ING
AIR
TEM
PERA
TURE
S �
F (�
C)-1
0 (-
23.3
)0
(-17
.8)
10 (-
12.2
)20
(-6.
7)30
(-1.
1)40
(4.4
)50
(10)
60 (1
5.6)
EDB
CFM
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
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city
MBt
uhTo
tal
Sys
KW
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city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
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city
MBt
uhTo
tal
Sys
KWTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
g
6587
59.
068.
341.
9012
.11
11.1
41.
9815
.26
14.0
02.
0418
.55
16.8
22.
1222
.03
19.3
12.
1925
.87
25.8
72.
2830
.37
30.3
72.
3935
.63
35.6
32.
5410
009.
268.
521.
9212
.33
11.3
41.
9915
.48
14.2
12.
0518
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17.0
52.
1022
.30
19.5
42.
1726
.34
26.3
42.
2430
.84
30.8
42.
3436
.27
36.2
72.
4711
259.
438.
681.
9412
.51
11.5
12.
0015
.68
14.3
92.
0519
.00
17.2
42.
1022
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19.7
42.
1626
.65
26.6
52.
2231
.24
31.2
42.
3136
.86
36.8
62.
43
7087
58.
537.
851.
9811
.67
10.7
32.
0614
.87
13.6
52.
1418
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16.5
12.
2221
.71
19.0
32.
3025
.47
25.4
72.
4029
.91
29.9
12.
5235
.05
35.0
52.
6710
008.
738.
032.
0011
.89
10.9
42.
0815
.11
13.8
72.
1418
.46
16.7
42.
2121
.99
19.2
62.
2825
.82
25.8
22.
3630
.36
30.3
62.
4635
.68
35.6
82.
5911
258.
918.
202.
0212
.08
11.1
12.
0915
.31
14.0
52.
1518
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16.9
42.
2122
.22
19.4
72.
2726
.12
26.1
22.
3430
.74
30.7
42.
4236
.20
36.2
02.
55
7587
57.
957.
312.
0611
.18
10.2
92.
1514
.45
13.2
72.
2417
.84
16.1
82.
3321
.38
18.7
32.
4225
.11
25.1
12.
5229
.46
29.4
62.
6434
.49
34.4
92.
8010
008.
157.
502.
0811
.40
10.4
92.
1714
.70
13.4
92.
2418
.10
16.4
12.
3221
.66
18.9
72.
3925
.43
25.4
32.
4829
.90
29.9
02.
5835
.09
35.0
92.
7211
258.
337.
662.
1111
.60
10.6
72.
1814
.90
13.6
82.
2518
.32
16.6
12.
3221
.89
19.1
82.
3825
.72
25.7
22.
4530
.27
30.2
72.
5535
.60
35.6
02.
67S
ee L
eg
en
d a
nd
No
tes fo
llow
ing
tab
les.
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE8 516 11 2702 05
PH
D43
6 C
OO
LIN
G E
XT
EN
DE
D P
ER
FO
RM
AN
CE
TA
BL
E
EVAP
ORA
TOR
AIR
COND
ENSE
R EN
TERI
NG A
IR T
EMPE
RATU
RES �
F (�
C)75
(23.
9)85
(29.
4)95 (3
5)10
5(4
0.6)
115
(46.
1)12
5(5
1.7)
CFM
/ BF
EWB
�F
(�C)
Capa
city
MBt
uhTo
tal S
ysKW
Capa
city
MBt
uhTo
tal S
ysKW
Capa
city
MBt
uhTo
tal S
ysKW
Capa
city
MBt
uhTo
tal S
ysKW
Capa
city
MBt
uhTo
tal S
ysKW
Capa
city
MBt
uhTo
tal S
ysKW
Tota
lSe
nsTo
tal
Sens
Tota
lSe
nsTo
tal
Sens
Tota
lSe
nsTo
tal
Sens
1050
/ 0.
08
57(1
3.8)
38.0
038
.00
2.44
34.8
134
.81
2.69
31.6
831
.68
2.95
28.5
828
.58
3.23
25.5
125
.51
3.53
22.4
322
.43
3.85
62(1
6.6)
39.2
334
.90
2.45
35.6
932
.70
2.69
32.2
330
.51
2.95
28.8
528
.27
3.23
25.5
525
.55
3.53
22.4
322
.43
3.85
63*
(17.
2)39
.74
28.3
62.
4536
.13
26.4
82.
6932
.59
24.6
02.
9529
.11
22.7
63.
2425
.68
20.9
03.
5322
.28
19.0
33.
85
67(1
9.4)
42.9
029
.50
2.46
39.0
127
.57
2.70
35.2
025
.66
2.97
31.4
523
.75
3.25
27.7
721
.86
3.55
24.1
019
.94
3.87
72(2
2.2)
46.9
324
.09
2.47
42.6
922
.40
2.72
38.5
120
.71
2.98
34.4
219
.04
3.27
30.3
817
.37
3.57
26.3
515
.68
3.89
1200
/ 0.
09
57(1
3.8)
39.7
239
.72
2.48
36.3
636
.36
2.72
33.0
433
.04
2.99
29.7
629
.76
3.27
26.5
126
.51
3.57
23.2
623
.26
3.88
62(1
6.6)
40.3
537
.43
2.48
36.7
135
.04
2.72
33.1
233
.12
2.99
29.7
729
.77
3.27
26.5
226
.52
3.57
23.2
623
.26
3.88
63*
(17.
2)40
.77
30.2
02.
4837
.03
28.2
02.
7233
.35
26.2
32.
9929
.75
24.2
83.
2726
.21
22.3
23.
5722
.70
20.3
23.
88
67(1
9.4)
43.9
931
.47
2.49
39.9
529
.42
2.74
36.0
027
.40
3.00
32.1
325
.39
3.28
28.3
123
.39
3.58
24.5
221
.34
3.90
72(2
2.2)
48.0
925
.31
2.51
43.6
923
.54
2.75
39.3
721
.78
3.02
35.1
320
.04
3.30
30.9
518
.29
3.60
26.7
916
.52
3.92
1350
/ 0.
10
57(1
3.8)
41.2
041
.20
2.51
37.6
737
.67
2.76
34.1
934
.19
3.02
30.7
630
.76
3.30
27.3
627
.36
3.60
23.9
523
.95
3.92
62(1
6.6)
41.3
739
.65
2.51
37.6
937
.69
2.76
34.1
934
.19
3.02
30.7
630
.76
3.30
27.3
627
.36
3.60
23.9
523
.95
3.92
63*
(17.
2)41
.60
31.9
62.
5137
.74
29.8
62.
7633
.95
27.7
93.
0230
.25
25.7
43.
3026
.62
23.6
63.
6023
.02
21.5
43.
91
67(1
9.4)
44.8
533
.35
2.52
40.7
031
.21
2.77
36.6
329
.08
3.03
32.6
526
.97
3.31
28.7
324
.84
3.61
24.8
422
.67
3.93
72(2
2.2)
49.0
126
.47
2.54
44.4
824
.63
2.78
40.0
322
.80
3.05
35.6
820
.98
3.33
31.3
919
.16
3.63
27.1
217
.31
3.95
*A
t 7
5�F
(2
3.9
�C
) en
teri
ng
dry
bu
lb—
Ten
nessee V
alle
y A
uth
ori
ty [
TV
A]
ratin
g c
on
ditio
ns;
all
oth
ers
at
80�F
(2
6.7
�C
) en
teri
ng
dry
bu
lb. S
ee L
eg
en
d a
nd
No
tes.
PH
D43
6 H
EA
TIN
G E
XT
EN
DE
D P
ER
FO
RM
AN
CE
TA
BL
E
INDO
OR
AIR
OUT
DOO
R CO
IL E
NTER
ING
AIR
TEM
PERA
TURE
S �
F (�
C)-1
0 (-
23.3
)0
(-17
.8)
10 (-
12.2
)20
(-6.
7)30
(-1.
1)40
(4.4
)50
(10)
60 (1
5.6)
EDB
CFM
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KWTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
g
6510
5011
.29
10.3
92.
2314
.77
13.5
92.
3318
.36
16.8
52.
4222
.15
20.0
92.
5126
.29
23.0
42.
6131
.12
31.1
22.
7436
.45
36.4
52.
8943
.29
43.2
93.
0912
0011
.49
10.5
72.
2514
.97
13.7
82.
3318
.58
17.0
52.
4122
.39
20.3
02.
4826
.60
23.3
12.
5731
.43
31.4
32.
6837
.07
37.0
72.
8243
.51
43.5
12.
9813
5011
.66
10.7
22.
2615
.15
13.9
42.
3418
.77
17.2
32.
4022
.59
20.4
92.
4726
.87
23.5
42.
5531
.76
31.7
62.
6437
.79
37.7
92.
7742
.96
42.9
62.
92
7010
5010
.75
9.89
2.33
14.3
313
.18
2.43
17.9
916
.51
2.53
21.8
219
.79
2.64
25.9
022
.70
2.74
30.6
330
.63
2.88
35.8
935
.89
3.03
42.5
442
.54
3.25
1200
10.9
510
.08
2.34
14.5
413
.38
2.43
18.2
216
.72
2.52
22.0
620
.01
2.61
26.2
122
.96
2.70
31.0
131
.01
2.82
36.4
236
.42
2.96
43.0
743
.07
3.13
1350
11.1
310
.24
2.35
14.7
213
.55
2.44
18.4
116
.90
2.52
22.2
720
.20
2.60
26.4
723
.19
2.68
31.4
831
.48
2.78
37.1
237
.12
2.91
42.7
842
.78
3.06
7510
5010
.16
9.34
2.42
13.8
312
.73
2.54
17.5
716
.13
2.65
21.4
619
.46
2.76
25.5
522
.39
2.88
30.2
230
.22
3.02
35.3
635
.36
3.18
41.7
641
.76
3.40
1200
10.3
69.
532.
4314
.06
12.9
42.
5417
.81
16.3
52.
6421
.71
19.6
92.
7425
.83
22.6
32.
8430
.58
30.5
82.
9635
.87
35.8
73.
1042
.56
42.5
63.
2913
5010
.53
9.69
2.45
14.2
513
.11
2.55
18.0
116
.53
2.64
21.9
219
.88
2.72
26.0
722
.84
2.81
30.8
930
.89
2.92
36.3
736
.37
3.05
42.4
842
.48
3.21
See L
eg
en
d a
nd
No
tes fo
llow
ing
tab
les.
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 9516 11 2702 05
PH
D44
2 C
OO
LIN
G E
XT
EN
DE
D P
ER
FO
RM
AN
CE
TA
BL
E
EVAP
ORA
TOR
AIR
COND
ENSE
R EN
TERI
NG A
IR T
EMPE
RATU
RES �
F (�
C)75
(23.
9)85
(29.
4)95 (3
5)10
5(4
0.6)
115
(46.
1)12
5(5
1.7)
CFM
/BF
EWB
�F
(�C)
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Tota
lSe
nsTo
tal
Sens
Tota
lSe
nsTo
tal
Sens
Tota
lSe
nsTo
tal
Sens
1225
/0.
19
57(1
3.8)
39.5
439
.54
2.66
37.8
637
.86
2.97
36.0
436
.04
3.31
34.0
934
.09
3.68
33.2
733
.27
3.64
29.4
129
.41
4.50
62(1
6.6)
41.0
737
.14
2.68
39.0
535
.92
2.99
36.9
334
.59
3.32
34.6
733
.19
3.69
33.7
432
.57
3.64
29.4
629
.46
4.50
63*
(17.
2)41
.31
30.0
42.
6839
.26
28.9
22.
9937
.09
27.7
33.
3234
.77
26.4
63.
6933
.77
25.9
23.
6429
.35
23.4
64.
50
67(1
9.4)
44.6
431
.32
2.72
42.4
430
.19
3.03
40.1
028
.99
3.36
37.5
827
.69
3.73
36.6
427
.22
3.69
31.6
424
.59
4.54
72(2
2.2)
48.4
725
.70
2.76
46.0
524
.64
3.07
43.4
923
.53
3.41
40.7
222
.32
3.77
39.7
921
.91
3.74
34.1
219
.42
4.59
1400
/0.
21
57(1
3.8)
41.2
241
.22
2.72
39.4
139
.41
3.03
37.4
737
.47
3.37
35.3
735
.37
3.74
34.5
634
.56
3.70
30.3
330
.33
4.56
62(1
6.6)
42.1
739
.64
2.73
40.0
838
.31
3.04
37.8
936
.85
3.38
35.5
235
.52
3.74
34.6
634
.66
3.70
30.3
430
.34
4.56
63*
(17.
2)42
.36
31.7
52.
7440
.21
30.5
73.
0437
.94
29.3
23.
3735
.51
27.9
83.
7434
.52
27.4
43.
7029
.83
24.8
04.
55
67(1
9.4)
45.7
633
.17
2.78
43.4
531
.97
3.08
41.0
030
.70
3.42
38.3
629
.32
3.78
37.4
328
.87
3.75
32.1
326
.08
4.59
72(2
2.2)
49.6
526
.83
2.82
47.1
125
.72
3.13
44.4
324
.56
3.46
41.5
223
.28
3.83
40.6
322
.89
3.80
34.6
320
.24
4.64
1575
/0.
23
57(1
3.8)
42.6
542
.65
2.78
40.7
340
.73
3.09
38.6
738
.67
3.43
36.4
536
.45
3.80
35.6
535
.65
3.76
31.0
831
.08
4.62
62(1
6.6)
43.1
441
.90
2.79
40.9
440
.94
3.09
38.7
538
.75
3.43
36.4
536
.45
3.80
35.6
535
.65
3.76
31.0
831
.08
4.62
63*
(17.
2)43
.20
33.3
62.
7940
.97
32.1
33.
0938
.61
30.8
23.
4236
.08
29.4
13.
7935
.10
28.8
83.
7530
.20
26.1
04.
60
67(1
9.4)
46.6
634
.92
2.83
44.2
633
.67
3.13
41.7
132
.33
3.47
38.9
730
.89
3.83
38.0
630
.44
3.80
32.5
027
.49
4.64
72(2
2.2)
50.5
927
.89
2.87
47.9
526
.72
3.18
45.1
725
.51
3.51
42.1
424
.18
3.88
41.2
923
.80
3.86
35.0
121
.00
4.69
*A
t 7
5�F
(2
3.9
�C
) en
teri
ng
dry
bu
lb—
Ten
nessee V
alle
y A
uth
ori
ty [
TV
A]
ratin
g c
on
ditio
ns;
all
oth
ers
at
80�F
(2
6.7
�C
) en
teri
ng
dry
bu
lb. S
ee L
eg
en
d a
nd
No
tes.
PH
D44
2 H
EA
TIN
G E
XT
EN
DE
D P
ER
FO
RM
AN
CE
TA
BL
E
INDO
OR
AIR
OUT
DOO
R CO
IL E
NTER
ING
AIR
TEM
PERA
TURE
S �
F (�
C)-1
0 (-
23.3
)0
(-17
.8)
10 (-
12.2
)20
(-6.
7)30
(-1.
1)40
(4.4
)50
(10)
60 (1
5.6)
EDB
CFM
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KWTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
g
6512
2513
.75
12.6
52.
4517
.57
16.1
72.
5621
.58
19.8
12.
6825
.83
23.4
32.
8130
.61
26.8
22.
9636
.10
36.1
03.
1442
.45
42.4
53.
3650
.07
50.0
73.
6614
0013
.97
12.8
52.
4717
.81
16.3
82.
5721
.83
20.0
42.
6826
.10
23.6
72.
7930
.97
27.1
32.
9236
.56
36.5
63.
0843
.06
43.0
63.
2950
.69
50.6
93.
5515
7514
.17
13.0
32.
4918
.01
16.5
72.
5822
.05
20.2
32.
6826
.32
23.8
72.
7831
.28
27.4
02.
9036
.94
36.9
43.
0543
.53
43.5
33.
2650
.61
50.6
13.
51
7012
2513
.24
12.1
82.
5717
.15
15.7
82.
7021
.21
19.4
72.
8225
.49
23.1
22.
9630
.16
26.4
23.
1135
.59
35.5
93.
3041
.83
41.8
33.
5349
.28
49.2
83.
8414
0013
.47
12.3
92.
5917
.39
16.0
02.
7021
.46
19.7
02.
8225
.76
23.3
72.
9430
.51
26.7
43.
0736
.03
36.0
33.
2442
.41
42.4
13.
4550
.08
50.0
83.
7215
7513
.67
12.5
72.
6117
.60
16.1
92.
7221
.68
19.9
02.
8226
.00
23.5
82.
9330
.82
27.0
03.
0536
.40
36.4
03.
2142
.88
42.8
83.
4150
.18
50.1
83.
67
7512
2512
.69
11.6
72.
6916
.68
15.3
52.
8320
.80
19.0
92.
9725
.13
22.7
93.
1229
.77
26.0
83.
2835
.10
35.1
03.
4741
.22
41.2
23.
7148
.53
48.5
34.
0214
0012
.91
11.8
82.
7116
.93
15.5
72.
8421
.07
19.3
42.
9625
.41
23.0
43.
0930
.09
26.3
73.
2435
.53
35.5
33.
4141
.79
41.7
93.
6349
.30
49.3
03.
9115
7513
.12
12.0
72.
7417
.14
15.7
72.
8521
.29
19.5
42.
9725
.65
23.2
63.
0830
.37
26.6
13.
2135
.88
35.8
83.
3742
.24
42.2
43.
5849
.68
49.6
83.
84S
ee L
eg
en
d a
nd
No
tes fo
llow
ing
tab
les.
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE10 516 11 2702 05
PH
D44
8 C
OO
LIN
G E
XT
EN
DE
D P
ER
FO
RM
AN
CE
TA
BL
E
EVAP
ORA
TOR
AIR
COND
ENSE
R EN
TERI
NG A
IR T
EMPE
RATU
RES �
F (�
C)75
(23.
9)85
(29.
4)95 (3
5)10
5(4
0.6)
115
(46.
1)12
5(5
1.7)
CFM
/BF
EWB
�F
(�C)
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Tota
lSe
nsTo
tal
Sens
Tota
lSe
nsTo
tal
Sens
Tota
lSe
nsTo
tal
Sens
1400
/0.
09
57(1
3.8)
48.0
748
.07
2.99
44.6
044
.60
3.35
41.1
141
.11
3.74
37.5
937
.59
4.18
33.9
733
.97
4.66
30.2
030
.20
5.18
62(1
6.6)
49.2
442
.95
3.00
45.3
840
.81
3.35
41.5
438
.58
3.75
37.6
837
.68
4.18
33.9
733
.97
4.66
30.2
030
.20
5.18
63*
(17.
2)49
.85
34.7
43.
0045
.89
32.9
13.
3541
.92
31.0
33.
7537
.95
29.1
44.
1833
.92
27.1
84.
6629
.77
25.0
95.
17
67(1
9.4)
53.7
236
.13
3.02
49.4
534
.25
3.38
45.1
632
.34
3.77
40.8
530
.39
4.21
36.4
828
.37
4.68
31.9
626
.23
5.20
72(2
2.2)
58.7
029
.21
3.05
54.0
027
.52
3.41
49.2
625
.79
3.80
44.5
324
.03
4.24
39.7
122
.21
4.72
34.7
420
.27
5.23
1600
/0.
10
57(1
3.8)
50.0
850
.08
3.05
46.4
046
.40
3.41
42.7
042
.70
3.81
38.9
538
.95
4.25
35.1
135
.11
4.72
31.1
131
.11
5.24
62(1
6.6)
50.5
445
.92
3.06
46.5
943
.48
3.41
42.7
142
.71
3.81
38.9
538
.95
4.25
35.1
135
.11
4.72
31.1
131
.11
5.24
63*
(17.
2)50
.98
36.9
63.
0646
.86
35.0
33.
4142
.75
33.0
63.
8138
.62
31.0
54.
2434
.44
28.9
64.
7230
.16
26.7
55.
23
67(1
9.4)
54.9
038
.50
3.08
50.4
636
.52
3.44
46.0
034
.50
3.83
41.5
332
.45
4.27
37.0
030
.30
4.74
32.3
428
.01
5.26
72(2
2.2)
59.9
530
.65
3.11
55.0
528
.88
3.47
50.1
427
.08
3.86
45.2
425
.24
4.30
40.2
523
.33
4.77
35.1
221
.31
5.28
1800
/0.
11
57(1
3.8)
51.7
751
.77
3.11
47.9
147
.91
3.47
44.0
144
.01
3.87
40.0
640
.06
4.31
36.0
336
.03
4.79
31.8
231
.82
5.30
62(1
6.6)
51.7
951
.79
3.11
47.9
147
.91
3.47
44.0
244
.02
3.87
40.0
640
.06
4.31
36.0
336
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4.79
31.8
231
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5.30
63*
(17.
2)51
.85
39.0
83.
1147
.61
37.0
53.
4743
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34.9
93.
8739
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32.8
64.
3034
.84
30.6
44.
7830
.46
28.2
45.
29
67(1
9.4)
55.8
140
.79
3.14
51.2
438
.71
3.50
46.6
336
.58
3.89
42.0
434
.40
4.33
37.3
932
.12
4.80
32.6
129
.67
5.31
72(2
2.2)
60.9
132
.02
3.17
55.8
630
.17
3.53
50.8
028
.29
3.92
45.7
626
.38
4.36
40.6
524
.40
4.83
35.3
822
.30
5.34
*A
t 7
5�F
(2
3.9
�C
) en
teri
ng
dry
bu
lb—
Ten
nessee V
alle
y A
uth
ori
ty [
TV
A]
ratin
g c
on
ditio
ns;
all
oth
ers
at
80�F
(2
6.7
�C
) en
teri
ng
dry
bu
lb. S
ee L
eg
en
d a
nd
No
tes.
PH
D44
8 H
EA
TIN
G E
XT
EN
DE
D P
ER
FO
RM
AN
CE
TA
BL
E
INDO
OR
AIR
OUT
DOO
R CO
IL E
NTER
ING
AIR
TEM
PERA
TURE
S �
F (�
C)-1
0 (-
23.3
)0
(-17
.8)
10 (-
12.2
)20
(-6.
7)30
(-1.
1)40
(4.4
)50
(10)
60 (1
5.6)
EDB
CFM
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KW
Capa
city
MBt
uhTo
tal
Sys
KWTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
gTo
tal
Inte
g
6514
0015
.21
14.0
03.
1919
.74
18.1
63.
2924
.43
22.4
33.
4029
.38
26.6
43.
5134
.68
30.3
83.
6340
.60
40.6
03.
7847
.66
47.6
63.
9755
.91
55.9
14.
2216
0015
.51
14.2
73.
2220
.06
18.4
53.
3124
.77
22.7
43.
4029
.73
26.9
73.
5035
.08
30.7
43.
6141
.18
41.1
83.
7448
.35
48.3
53.
9057
.32
57.3
24.
1218
0015
.79
14.5
23.
2620
.34
18.7
13.
3525
.07
23.0
13.
4230
.04
27.2
53.
5135
.44
31.0
53.
6041
.70
41.7
03.
7248
.93
48.9
33.
8757
.75
57.7
54.
06
7014
0014
.51
13.3
53.
3219
.15
17.6
23.
4423
.92
21.9
63.
5628
.91
26.2
23.
6834
.20
29.9
73.
8139
.99
39.9
93.
9746
.96
46.9
64.
1755
.04
55.0
44.
4216
0014
.81
13.6
33.
3619
.47
17.9
23.
4624
.26
22.2
73.
5729
.28
26.5
53.
6734
.61
30.3
33.
7940
.53
40.5
33.
9247
.63
47.6
34.
0956
.25
56.2
54.
3218
0015
.09
13.8
83.
4019
.76
18.1
83.
5024
.57
22.5
53.
5929
.60
26.8
43.
6834
.97
30.6
43.
7840
.99
40.9
93.
9048
.19
48.1
94.
0657
.10
57.1
04.
25
7514
0013
.74
12.6
43.
4618
.50
17.0
23.
5923
.36
21.4
43.
7228
.41
25.7
73.
8633
.71
29.5
44.
0039
.42
39.4
24.
1646
.29
46.2
94.
3754
.20
54.2
04.
6316
0014
.04
12.9
23.
4918
.83
17.3
23.
6223
.71
21.7
73.
7328
.79
26.1
13.
8534
.13
29.9
03.
9739
.91
39.9
14.
1146
.93
46.9
34.
2955
.09
55.0
94.
5218
0014
.32
13.1
73.
5419
.12
17.5
93.
6524
.02
22.0
53.
7529
.12
26.4
13.
8534
.49
30.2
23.
9640
.36
40.3
64.
0847
.48
47.4
84.
2556
.24
56.2
44.
46S
ee L
eg
en
d a
nd
No
tes fo
llow
ing
tab
les.
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 11516 11 2702 05
PH
D46
0 C
OO
LIN
G E
XT
EN
DE
D P
ER
FO
RM
AN
CE
TA
BL
E
EVAP
ORA
TOR
AIR
COND
ENSE
R EN
TERI
NG A
IR T
EMPE
RATU
RES �
F (�
C)75
(23.
9)85
(29.
4)95 (3
5)10
5(4
0.6)
115
(46.
1)12
5(5
1.7)
CFM
/BF
EWB
�F
(�C)
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Capa
city
MBt
uhTo
tal
Sys
KWCa
paci
ty M
Btuh
Tota
lSy
s KW
Tota
lSe
nsTo
tal
Sens
Tota
lSe
nsTo
tal
Sens
Tota
lSe
nsTo
tal
Sens
1750
/0.
07
57(1
3.8)
63.5
363
.53
3.78
58.7
858
.78
4.29
53.9
753
.97
4.86
49.0
949
.09
5.49
44.0
144
.01
6.19
42.4
242
.42
6.41
62(1
6.6)
65.0
451
.03
3.79
59.7
450
.40
4.30
54.4
449
.51
4.86
49.1
549
.15
5.50
44.0
144
.01
6.19
38.6
638
.66
6.95
63*(
17.2
)65
.92
41.2
83.
8060
.47
40.6
54.
3154
.99
39.8
44.
8749
.48
38.8
55.
5043
.83
37.6
06.
1942
.07
38.1
66.
4067
(19.
4)70
.86
42.8
53.
8564
.96
42.2
24.
3559
.00
41.4
04.
9252
.98
40.4
05.
5446
.84
39.1
16.
2340
.50
37.4
06.
9872
(22.
2)77
.33
34.4
83.
9070
.80
33.7
34.
4164
.19
32.7
94.
9857
.55
31.6
75.
6050
.77
30.2
96.
2943
.78
28.5
87.
03
2000
/0.
08
57(1
3.8)
66.0
566
.05
3.88
61.0
061
.00
4.40
55.8
855
.88
4.97
50.6
550
.65
5.60
45.2
645
.26
6.30
39.5
839
.58
7.06
62(1
6.6)
66.6
154
.49
3.89
61.1
361
.13
4.40
55.8
855
.88
4.97
50.6
650
.66
5.60
45.2
545
.25
6.30
39.5
739
.57
7.06
63*(
17.2
)67
.26
43.8
93.
8961
.59
43.2
44.
4055
.88
42.4
14.
9750
.16
41.3
55.
5944
.32
39.9
96.
2938
.33
38.2
17.
0467
(19.
4)72
.23
45.6
43.
9466
.09
45.0
04.
4559
.87
44.1
45.
0153
.63
43.0
75.
6447
.29
41.7
06.
3340
.75
39.9
17.
0872
(22.
2)78
.76
36.1
54.
0071
.95
35.3
64.
5165
.10
34.3
85.
0758
.23
33.2
25.
7051
.25
31.7
86.
3844
.04
29.9
97.
12
2250
/0.
09
57(1
3.8)
68.1
668
.16
3.98
62.8
362
.83
4.50
57.4
157
.41
5.07
51.9
051
.90
5.70
46.2
246
.22
6.40
40.2
740
.27
7.16
62(1
6.6)
68.1
768
.17
3.98
62.8
362
.83
4.50
57.4
157
.41
5.07
51.9
051
.90
5.71
46.2
246
.22
6.40
40.2
740
.27
7.16
63*(
17.2
)68
.27
46.4
13.
9862
.41
45.7
24.
4956
.54
44.8
45.
0650
.64
43.7
15.
6944
.66
42.2
46.
3838
.53
40.2
57.
1367
(19.
4)73
.27
48.3
54.
0366
.92
47.6
84.
5460
.50
46.7
75.
1054
.10
45.6
45.
7347
.60
44.1
66.
4240
.92
42.1
47.
1772
(22.
2)79
.84
37.7
44.
0972
.79
36.9
14.
6065
.73
35.9
15.
1658
.70
34.7
05.
7951
.53
33.2
36.
4844
.15
31.3
97.
22*A
t 7
5�F
(2
3.9
�C
) en
teri
ng
dry
bu
lb—
Ten
nessee V
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uth
ori
ty [
TV
A]
ratin
g c
on
ditio
ns;
all
oth
ers
at
80�F
(2
6.7
�C
) en
teri
ng
dry
bu
lb. S
ee L
eg
en
d a
nd
No
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PH
D46
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OR
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F (�
C)-1
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23.3
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(-17
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10 (-
12.2
)20
(-6.
7)30
(-1.
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(4.4
)50
(10)
60 (1
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CFM
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city
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city
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Inte
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Inte
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Inte
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tal
Inte
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Inte
g
6517
5021
.44
19.7
23.
8527
.02
24.8
63.
9732
.88
30.1
84.
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35.4
94.
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40.4
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4054
.26
54.2
64.
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63.9
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8674
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74.8
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.85
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55.0
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7874
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2647
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53.5
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7517
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18.4
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47L
EG
EN
DB
F—
Byp
ass F
acto
red
b—
En
teri
ng
Dry
-B
ulb
Ew
b
— E
nte
rin
g W
et-
Bu
lbkW
—
To
tal U
nit P
ow
er
Inp
ut
SH
C
— S
en
sib
le H
eat
Cap
acity (
1000 B
tuh
)T
C
— T
ota
l C
ap
acity (
10
00
Btu
h)
(net)
rh—
Rela
tive H
um
idity
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
inte
rpo
latio
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
acity (
Btu
h)
1.1
0 x
cfm
t ldb
= t
ed
b -
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 (h
lwb
)t lw
b =
tota
l cap
acity (
Btu
h)
4.5
x c
fm
hlw
b =
hew
b -
Wh
ere
: hew
b =
En
thalp
y o
f air
en
teri
ng
evap
ora
tor
co
il
4. The S
HC
is b
ase
d o
n 8
0�F
(2
6.7
�C
) ed
b tem
pera
ture
of air e
nte
rin
g e
vap
ora
tor
co
il. B
elo
w 8
0�F
(26.7�C
) ed
b, su
btr
act
(co
rr facto
r x
cfm
) fr
om
SH
C. A
bo
ve 8
0�F
(2
6.7�C
) ed
b, ad
d (
co
rr facto
r x
cfm
) to
SH
C.
Co
rrectio
n F
acto
r =
1.1
0 x
(1
+ B
F)
x (e
db
+ 8
0).
5. In
teg
rate
d c
ap
acity is m
axi
mu
m (
insta
nta
neo
us)
cap
acity less t
he e
ffect
of fr
ost
on
th
e o
utd
oo
r co
il an
d t
he h
eat
re
qu
ired
to
defr
ost
it.
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE12 516 11 2702 05
UNIT DIMENSIONS − PHD430
Un
itP
HD
4
Un
itP
HD
4
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 13516 11 2702 05
UNIT DIMENSIONS − PHD436−60
Un
itP
HD
4
Un
itP
HD
4
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE14 516 11 2702 05
CONNECTION WIRING SCHEMATIC − 208/230−3−60
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 15516 11 2702 05
LADDER WIRING SCHEMATIC − 208/230−3−60
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE16 516 11 2702 05
CONNECTION WIRING SCHEMATIC − 460−3−60
FIELD
SUPPLY
C F
SCHEMATIC
460−3−60
1
1
0G
ENERGIZED
TG
DE−ENERGIZED
0
W45BR
TW
T+45
BR
ENERGIZED DE−ENERGIZED
T+90
HEATING FAN LOGIC
COOLING FAN LOGIC
EQUIP_GND
COMP
T1
T2
T3
OFM
CAP1
YEL
BRN
C
11 21
13 23
YEL
BLU
COMPRESSOR PLUG
BLU
BLK
BLK
CCH
GRN
NOTES:
1. IF ANY OF THE ORIGINAL WIRES FURNISHED ARE REPLACED,
THEY MUST BE REPLACED WITH THE SAME WIRE OR ITS EQUIVALENT.2. SEE PRICE PAGES FOR THERMOSTATS.
3. USE 75 DEG. COPPER CONDUCTORS FOR FIELD INSTALLATION.
4. SEE INSTALLATION INSTRUCTIONS
FOR PROPER HEATING AND COOLING CONNECTIONS
FOR YOUR UNIT. INDOOR FAN MOTOR PLUGS
− �DO NOT DISCONNECT UNDER LOAD�
5. THESE FUSES ARE MANUFACTURED BY COOPER BUSSMANN,
P/N FNQ−R−5.
6. THIS FUSE IS MANUFACTURED BY LITTELFUSE, P/N 257003.
7. REMOVE YELLOW SPLICE WHEN ECONOMIZER AND ECONOMIZER
RELAYS ARE USED AND CONNECT TO RELAY R1 AS SHOWN.
8. WHEN ECONOMIZER AND ECONOMIZER RELAYS ARE USED,
CONNECT THE YELLOW AND BLACK WIRES TO RELAY �R� AS
SHOWN. RELAY KIT REQURED WITH ECONOMIZER AND HEAT
9. WHEN ECONOMIZER AND ECONOMIZER RELAYS ARE USED, INSTALL
WIRES AS SHOWN ONTO THE COILS OF RELAY R AND RELAY R1.
10.DEHUM FEATURE CANNOT BE USED WHEN ECONOMIZER IS INSTALLED.
UNIT FACTORY−SHIPPED IN STD MODE.
RED
BLKBLK
YEL
DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING
YEL
RED
GRN
VIO
Y1
R
G
V
COLOR CODE
BLK BLACK
BLU BLUE
BRN BROWN
GRY GRAY
GRN GREEN
ORN ORANGE
PNK PINK
RED RED
VIO VIOLET
WHT WHITE
YEL YELLOW
BRNC
YEL
O
BLU
BLU
LPS
PNK
RVS
DFT
DIP SWITCH SETTINGS
30 MINUTES 60 MINUTES ON
90
DEFAULT
90 MINUTES
OR
OFF
SHIFT
(DEFAULT)
QUIET
OROR
60
FIELD SELECTABLE OPTIONS FOR TIME PERIOD
BETWEEN DEFROST CYCLES (MINUTES)
1) MOMENTARILY SHORT PINS AND RELEASE TO BYPASS
COMPRESSOR OFF DELAY.
2) SHORT FOR 5+ SEC. AND RELEASE FOR FORCED DEFROST.
3) PERMANENT SHORT WILL BE IGNORED.
DEFROST WILL TERMINATE IN 30 SEC. IF DFT OPEN.
DEFROST WILL TERMINATE NORMALLY IF DFT IS CLOSED.
THE COMPRESSOR WILL SHUT OFF FOR 30 SEC. ON DEFROST
INITIATION AND TERMINATION IN THE �QUIET SHIFT� ON
POSITION
SPEED
UPJUMPERED TEST PINS (USE METAL
OBJECT) FIELD SPEED−UP CYCLE
1 1 1113 3 3 332 2 2 2230
60
30
120
90
UP
SPEED
P1 P3
P2
CTD
DEFROST BOARD (DB)
DR
OF2
OF1
0
W2
R
Y
DFT
T2
T1
O
R
Y
C
C
C
BLK BRN
BRN
PNK
IF USED
BLK BLK
OFR
1 3
WHT
ORN
BLK
RED
BLU
PNK ORN
RED
120 MINUTES
P4
P2
P1R
C
COM
HIGH
3A
FUSE
Y
1
2
4
3
5
1
2
3
4
Y
R
W2
C
W2
W3
W3
C
W2
COM
24VAC
COM
5
4
3
2
1
6
7W3
W2
G
Y2/DH
Y1/Y
R
C
IFB
WHTW
BRN
ACCESSORY ELECTRIC HEAT
HR1 (5 KW)
HR1 & 2 (10 KW)
HR1,2 & 3 (15 KW)
HR1,2,3 & 4 (20 KW)
HR3
HR2
HR4
HR1
BRN
BRN
BRN
BRN
BRN
1
1
1
1
1
WHT
VIO
PNK
GRY
BRN
WHT
VIO
PNKGRY
BRN
BLU
WHT
VIO
PNK
GRY
BRN
COMP COMPRESSOR MOTOR
EQUIP EQUIPMENT
GND GROUND
IFM INDOOR FAN MOTOR
OFM OUTDOOR FAN MOTOR
TRAN TRANSFORMER
IFB INDOOR FAN BOARD
LPS LOW PRESSURE SWITCH
HPS HIGH PRESSURE SWITCH
T−STAT THERMOSTAT
DB DEFROST BOARD
DFT DEFROST TEMPERATURE
SWITCH
DR DEFROST RELAY
HR HEATER RELAY
RVS REVERSING VALVE
L1
L3
L2
OFR OUTDOOR FAN RELAY
LEGEND
FIELD SPLICE
TERMINAL (MARKED)
TERMINAL (UNMARKED)
SPLICE
SPLICE (MARKED)
FACTORY WIRING
FIELD CONTROL WIRING
FIELD POWER WIRING
ACCESSORY OR OPTIONAL
WIRING
C CONTACTOR
CAP 1 CAPACITOR, COMP
CCH CRANK CASE HEATER
AT AUTO TRANSFORMER
460V − 230V
PRIMARY
460V
TRAN
SECONDARY
24V24V24V
460460
YEL
IFM
G
N
L
C
1 24 35
BRN
RED
BRN
GRN/YEL
BLK
FU1 5 AMP
FU2 5 AMP
RED
RED
BLK
BLKYEL
BLK
41 2 3
230V460VCC
YEL
BLK
AUTOTRANSFORMER
BLK
RED
SEE NOTE 5
WHT
ORN
RED
BRN
OFRBLU BRN
BLU
BLU
BLU
SEE NOTE 6
FU FUSE
R ECON RELAY
R1 ECON RELAY
7
6
11
10
8
2
3
4
1
5
9
12
BLK
BRN
RED
YEL
GRY
ECON PLUG
SAT
BLU
BLU
ECON
BLK
R
1
2
3
R1
1
2
3
YEL
YEL
BLK
GRYY2
T−STAT
YEL
RED
BRN
CC1 C2
BRN
R1C1 C2
RC1 C2
SEE
NOTE 4
FOR WIRING WITH
ELECTRIC HEATERS
SEE SCHEMATIC
ON HEATER ACCESSORY.
DH DEHUMIDIFICATION MODE
DEHUM DEHUMIDIFICATION MODE
ECON ECONOMIZER
DEHUM
STD
BLUDH
STD STANDARD MODE
LOW
YEL
SEE
NOTE 7
SEE
NOTE 8
SEE NOTE 9
SEE NOTE 10
BLK
HPS
P
P
BLK BLK BLU BLU
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 17516 11 2702 05
LADDER WIRING SCHEMATIC − 460−3−60
BLK
50EZ500354 E
DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING
YEL
C21
L1
CCH
(IF USED)C
11
13
COMP
C R
S
OFM
CAP
F
C
23
T3T1
T2
BLK
YEL
YEL
YEL
BLK
RED BLK
L3
BLKG/Y
BRN
USE COPPER CONDUCTORS ONLY
FIELD SUPPLY
460 VAC, 60 HZ, 3PH
GRN
11
TRAN
PRIMARY 460V460V
24V
460V
24VSECONDARY 24V
1
1
1
R
G
W
Y1
C
T’STAT
BLK YEL
BRN
24VAC R
FUSE
3A
P2−2�Y�
P1−1�R�
P1−4�G�
P1−6�W2�
P2−3�W�
P2−4�R�
P1−3�Y1/Y�
HIGH
12
435 IFM
BLU
ORN
BRN
COM C
IFB−C
COM
IFB P1−2
IFB
11 13
WHT
RED
RED
PNK
RED
BLK
BLU
DB
PNK
PNK
DFT
LPS
BLU
Y BLU
T1
BLU
T2
O
BLK BRN
RVS
P3−2
P3−1
C
BRN
P2−1
P2−4
P1−6,W2
P1−5,Y
P1−8,O
P1−7,R
1
O ORN
WHT
BRN
ORN
Y
P2−1�C�BRN
DB−C
IFB
IFB
1
V P1−7�W3�
P1−2�C�
P1−4,CBRN
RED
BLU
L2
OFR
1 3
OFROF2 BLU
OF1 BLU
IFB
24V SPLICE
DISCONNECT
PER NEC
EQUIP.
GND
OFM
CONTROL BOX AREA
COMP
C
S
R
CAP
H CF
IFM
UNIT COMPONENT ARRANGEMENT
OUTDOOR FAN
SECTION
COMPRESSOR
SECTION
INDOOR FAN
SECTION
TRAN
SINGLE PT.
CONNECTION
FOR
ELECT.HEAT
SEE HEATER
SCHEMATIC
FOR WIRING
24V POWER ENTRY
LPS
BOX
CCH
AT
SEE NOTE 6
REDBLK
IFM
XNGLCGRN/YEL
FU1 5 AMP FU2 5 AMP
BLK YEL
AUTOTRANSFORMER
PRIMARY 460V − SECONDARY 230V
BLK RED
SEE NOTE 5 SEE NOTE 5
C2123
13 11
FU1
FU2
OFR
4
2
3
7
5
6
8
Y2
GRY
RED
ECON
PLUG
IFB
COM
BLK
BRN
PNK BLU
PNK BLUSAT
R
R1
R
1
2
3
R1
1
2
3
BLK
YEL
YEL
BLK
YEL
BRN
YEL
C
C
CAP 1
CF
DB
R R1
DH P1−5�Y2/DH�
RED
GRN
WHT
YEL
BRN
VIO
BLU
LOW
SEE NOTE 4
SEE NOTE 8
YEL
SEE NOTE 7DEHUM
STD
SEE
NOTE 10
SEE NOTE 9
HPS
HPS
P4−5�W3�GRY
P4−4�W3�PNK
P4−3�W2�VIO
P4−2�W2�WHT
P4−1�C�BRN
TO ACCY
HEATER
GRY
YEL
BLU BLK
BLK
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE18 516 11 2702 05
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, deenergizing C.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 temperature control,which includes a field−selectable time period (dip switch 1 and 2on the board) between checks for defrost (30, 60, 90, or 120minutes). Electronic timer and defrost cycle start only whencontactor is energized and defrost thermostat (DFT) is closed.The defrost board is also equipped with a third dip switch forselecting Quiet Shift operation. The Quiet Shift operation turnscompressor off at defrost initiation and termination. Unit isfactory shipped with quiet shift turned off.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 defrost controlboard.
2. Defrost control board has built in 5 minute compressordelay; once the compressor has started and then stopped,it cannot be restarted again until 5 minutes have elapsed.
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 19516 11 2702 05
PHD4 ACCESSORIES
ECONOMIZER, FILTER RACK, and MANUAL OUTSIDE AIR DAMPER
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
Horizontal Economizer
Vertical Economizer
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE20 516 11 2702 05
PHD4 ACCESSORIES
ROOF CURBS
RETURN AIR
SMALLBASE UNIT
SUPPLYAIR
LARGEBASE UNIT
UNIT PLACEMENT ON COMMON CURB
C
B
A
F
D
E
LARGE CURB
C
B
A
F
DE
Dashed lines show cross supportlocation for large basepan units.
SMALL OR LARGE BASE UNIT
COMMON CURB
ROOF CURB DETAIL
Wood nailer*
Roofcurb*
Insulation(field supplied)
*Provided with roofcurb
Cant stripfield supplied
Roofing materialfield supplied
Flashing fieldsupplied
HVAC unitbase rails
Roofcurb
SealingGasket
HVAC unitbasepan
Anchor screw
A09090
A09095
A09096
A09094
UNIT SIZECATALOGNUMBER
AIN. (mm)
B (small base)IN. (mm)*
B (large base)IN. (mm)*
CIN. (mm)
DIN. (mm)
EIN. (mm)
FIN. (mm)
Small orLarge
CPRFCURB010A00 11 (279)10 (254)
14 (356) 16 (406) 47.8 (1214)32.4 (822)
2.7 (69)CPRFCURB011A00 14 (356)
LargeCPRFCURB012A00 11 (279)
N/A 43.9 (1116)CPRFCURB013A00 14 (356)
* Part Numbers CPRCURB010A00 and CPRCURB011A00 can be used on both small and large basepan units. The cross supports must be located based on whether theunit is a small basepan or 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. (25.4 mm) thick fiberglass 1 lb. density.
International Comfort Products, LLCLewisburg, Tennessee 37091 USA
www.GoHeil.comSPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE 21516 11 2702 05
PHD4 ACCESSORIES (Continued)Accessory Model Number Description Use With
CURBSCPRFCURB010A00 Roof Curb, 11” High 30 − 60CPRFCURB011A00 Roof Curb, 14” High 30 − 60CPRFCURB012A00 Roof Curb, 11” High 36 − 60CPRFCURB013A00 Roof Curb, 14” High 36 − 60
Note: CPRFCURB010A00 AND CPRFCURB011A00 can be used with 42−60 size units with some overhang.
ADAPTER CURBS*CPADCURB001A00 Adapter curb for use with NPRFCURB006A00 & NPRFCURB007A00 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 curbs CPRFCURB010A00, CPRFCURB011A00) Small CurbNPCONADP002A00 For 18” round duct (use with curbs CPRFCURB012A00, CPRFCURB013A00) Large Curb
CONCENTRIC DIFFUSERS − (Ceiling or under roof)AXB020CSA* Step Down Diffuser − Fits 2’ x 4’ Ceiling Grid (16” round collars for flex conn.) 30 − 42AXB020CFA* Flush Mount Diffuser − Fits 2’ x 4’ Ceiling Grid (16” round collars for flex conn.) 30 − 42AXB030CSA Step Down Diffuser − Fits 2’ x 4’ Ceiling Grid (18” round collars for flex conn.) 30 − 60AXB030CFA Flush Mount Diffuser − Fits 2’ x 4’ Ceiling Grid (18” round collars for flex conn.) 30 − 60
* A field supplied 18” to 16” round reducer required when used with NP concentric adaptor
ECONOMIZERSCPECOMZR007A00 Dedicated Vertical Economizer − Internal with solid state controller, gear driven,
fully modulating damper, spring return actuator, up to 50% barometric relief, sup-ply and dry bulb outdoor air sensors. Includes filter rack with 1” filters*.
30CPECOMZR008A00 36, 42CPECOMZR009A00 48, 60CPECOMZR010A00 Dedicated Horizontal Economizer − Internal with solid state controller, fully
modulating damper, spring return actuator, supply and dry bulb outdoor airsensor, and low ambient compressor lockout switch included. Includes filter rackwith 1−inch filters*.
30
CPECOMZR011A00 36, 42
CPECOMZR012A00 48, 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 kit
DAMPERSCPMANDPR007A00
Manual Outside Air Damper − (Includes filter rack and 1” filter, same asCPFILTRK kit)
30CPMANDPR008A00 36, 42CPMANDPR009A00 48, 60
INTERNAL FILTER RACKSCPFILTRK007A00
Internal Filter Rack (includes 1−inch filters)30
CPFILTRK008A00 36, 42CPFILTRK009A00 48, 60
LOW AMBIENT, ANTI−CYCLE TIMER
CPLOWAMB001A00Low Ambient Control − enables cooling system to operate down to 0 Deg. F bycycling condenser fan on and off.
ALL
NRTIMEGD001A00 Five Minute Compressor Delay ALL
ELECTRIC HEATERS Nominal Capacity kW / Fuses
208/230−3−60EHNA05H0N 3.8 − 5.0 kW / 0 ALLEHNA10H0N 7.5 − 10.0 kW / 0 30 − 42EHNA10H6F 7.5 − 10.0 kW / 6 ALLEHNA15H6F 11.3 − 15.0 kW / 6 ALL
EHNA20H6F 15 − 20.0 kW / 6 42 − 60
460−3−60EHNA05L0N 5.0 kW / 0 ALLEHNA10L0N 10.0 kW / 0 ALLEHNA15L0N 15.0 kW / 0 ALL
EHNA20L0N 20.0 kW / 0 42 − 60
DUAL POINT WIRING KITCPDUALPT001A00 Dual Point Wiring kit, 5−20kW Heaters ALL
DUCT TRANSITIONSNPDUCFLG002A00 Square to 14” Round (1 set of 2, use with horizontal duct flanges only) 30−48
NOTE: Crankcase heaters standard on all models.