5 tons gas/ electric units up to 15.5 seer and 13.0 eer up to … · 2017-12-19 · ssdt3 /...
TRANSCRIPT
SS-DTG3 www.daikinac.com 12/17Supersedes 7/17
Cooling Capacity: 35,600 — 60,000 BTU/h
Heating Capacity: 46,000 - 138,000 BTU/h
3 - 5 Tons Gas/ Electric UnitsUp to 15.5 SEER and 13.0 EER
Up to 81% AFUE
DTG Commercial
* Complete warranty details available from your local dealer or at www.daikincomfort.com.
■ Standard Features• Patented tubular heat exchange• High-efficiency scroll compressor• Copper tube/aluminum fin coils• High- and low-pressure switches• Contactor with lugs• High-capacity, steel-cased filter drier• 24-volt terminal strip• Convertible airflow orientation• Easy to service• Built-in filter rack with standard 2” filters• Bottom utility entry• Complies with California Low NOx
emissions standards• AHRI Certified; ETL Listed• 3-phase unit meets the performance
specified as of 1/1/2015 in Table 6.8.1-1 of ASHRAE Standard 90.1-2013
■ Cabinet Features• Heavy-gauge, galvanized-steel cabinet
with UV-resistant powder-paint finish• Full Perimeter Rail• Sloped drain pan
■ ContentsNomenclature ...............................2Product Specifications ..................4Expanded Cooling Data .................6Airflow Data ................................18Crankcase Heater ........................21 Electrical Data .............................22Dimensions ..................................23Wiring Diagrams .........................27 – for Models with DDC Controls ......37Accessories ..................................48
2 www.daikinac.com SS-DTG3
Nomenclature
D T G 060 090 3 B * * * A *1 2 3 4,5,6 7,8,9 10 11 12 13 14 15 16
Revision LevelsMajor & Minor
Brand Factory-Installed OptionsD Daikin X No Options
A Non-powered convenience outletConfiguration B Powered convenience outletC Standard Efficiency (6 - 25 Tons) C Low-ambient kitS Standard Efficiency (3 - 5 Tons) D Return air smoke detectorT High Efficiency (3 - 5 Tons) E Supply air smoke detector
F Non-powered convenience outlet; Application Low-ambient kitC Cooling1 G Non-powered convenience outlet; G Gas Heat Return air smoke detectorH Heat Pump1 H Non-powered convenience outlet;
Supply air smoke detectorNominal Cooling Capacity J Non-powered convenience outlet;036 3 Tons 102 8½ Tons 300 25 Tons Return & Supply air smoke detectors048 4 Tons 120 10 Tons K Non-powered convenience outlet;060 5 Tons 150 12½ tons Low-ambient kit; Supply air smoke detector072 6 Tons 180 15 Tons L Non-powered convenience outlet; 090 7½ Tons 240 20 Tons Low-ambient kit
Return & Supply air smoke detectorsNominal Heating Capacity M Powered convenience outlet;
Gas/Electric A/C H/P Factory-Installed Electric Heat Low-ambient kit045 45,000 BTU/h XXX No Heat N Powered convenience outlet;090 90,000 BTU/h 010 10 kW 030 30 kW Return air smoke detector115 115,000 BTU/h 015 15 kW 031 30 kW O Powered convenience outlet;140 140,000 BTU/h 016 15 kW 045 45 kW Return & Supply air smoke detectors210 210,000 BTU/h 018 18 kW 046 45 kW P Powered convenience outlet;350 350,000 BTU/h 020 20 kW 060 60 kW Supply air smoke detector400 400,000 BTU/h 025 25 kW Q Powered convenience outlet; Low-ambient
See product specifications for heat size(s) available for each capacity. kit; Return air smoke detectorR Powered convenience outlet; Low-ambient
Voltage kit; Supply air smoke detector1 208-230/1/60 4 460/3/60 T Powered convenience outlet; Low-ambient3 208-230/3/60 7 575/3/60 kit; Return & Supply air smoke detectors
U Non-powered convenience outlet;Supply Fan/Drive Type/Motor Low-ambient kit; Return air smoke detectorB Belt Drive (single speed) V Two-Speed Belt Drive (also designates 6-Ton V Low-ambient kit; Return air smoke detectorD Direct Drive (3-5 Tons) with two-stage compressor) W Low-ambient kit; Supply air smoke detector
H High Static (single-speed Belt Drive models only) Y Low-ambient kit; Return & SupplyFactory-Installed Options air smoke detectorsA Ultra Low-Leak Downflow Economizer R Ultra Low-Leak Downflow Economizer; Z Return & Supply air smoke detectorsB DDC-BACnet protocol DDC-BACnet protocol; F Ultra Low-Leak Downflow Economizer; Disconnect Switch (non-fused)
DDC-BACnet protocol V Low-Leak Downflow Economizer Factory-Installed OptionsH Disconnect Switch (non-fused) W Low-Leak Downflow Economizer X Standard Aluminized Heat ExchangerJ Ultra Low-Leak Downflow Economizer; Disconnect Switch (non-fused) S Stainless-Steel Heat Exchanger
Disconnect Switch (non-fused) X No Options D Hinged PanelsM Disconnect Switch (non-fused); DDC-BACnet protocol K Stainless-Steel Heat Exchanger;
Hinged PanelsNote: Not all options available for all products. B Phase Monitor
1 X= No Options in character 13th J Stainless Steel Heat Exchanger; Phase MonitorM Hinged Panel; Phase MonitorL Stainless-Steel Heat Exchanger;
Hinged Panels; Phase Monitor
SS-DTG3 www.daikinac.com 3
Nomenclature
Factory-Installed Options• Stainless-Steel Heat Exchanger (Gas units only): A tubular heat exchanger made of 409-type stainless steel is installed in the unit.• Low-Ambient Kit: Allows for cooling operation at lower outdoor temperatures. On the 3- to 6-ton units, cooling operation is extended
from 60°F ambient temperature to 35°F outside air temperature. On 7½ -20 ton units, cooling operation is extended from 35°F ambient temperature to 0°F outside air temperature. For 25 ton units, cooling operation is extended from 24°F ambient temperature to 0°F outside air temperature.
• Economizers (Downflow): Based on air conditions, can provide outside air to cool the space.• Electric Heat Kits (AC and heat pump units only): Available in all voltage options.• Non-powered Convenience Outlet: A 120V, 15A, GFCI outlet makes it easier for technicians to service the unit once an electrician runs
power to the outlet.• Powered Convenience Outlet: A 120V, 15A, GFCI outlet powered with a transformer built into the unit. When a factory-installed powered
convenience outlet is installed in the equipment, the unit MCA (Min. Circuit Ampacity) will increase by 7.2A/6.5A for 208/230V units, increase by 3.3A for 460V units, and by 2.6A for 575V units. The MOP (Max. Overcurrent Protection) device must be sized accordingly.
• Disconnect Switch (non-fused; 3-phase units only): A disconnect switch is installed in the unit and factory wiring will be complete from the switch to the unit. Please note that for air conditioning (DSC units) and heat pump models (DSH units), the appropriate electric heat kit must be ordered to be factory-installed along with the disconnect switch (non-fused) when it is ordered. Please note that for models with a powered convenience outlet option and a disconnect switch (non-fused) option, the power to the powered convenience outlet will be shut off when the disconnect switch (non-fused) is in the off position.
• Return Air and/or Supply Air Smoke Detectors: Return air and/or supply air smoke detectors are installed in the unit.• Hinged Access Panels: Allows access to unit’s major components. Combined with latches for easy access to control box, compressor,
filters and blower motor. Available on all units.• Two-speed indoor fan blower models are available on 6, 7½, 8½, 10, 12½, 15, 20 & 25 ton units. Section 6.4.3.10.b of ASHRAE Standard
90.1-2010 and Section 6.5.3.2.1.a of ASHRAE Standard 90.1-2013 require a minimum of two fan speeds. Section 140.4(m)1 of California Energy Commission Title 24 2013 contains a similar provision. When the units with the two-speed indoor fan blowers operate on a call for the first stage of cooling, the fan operates at low speed, which is 66% of full speed. When the units operate on a call for the second stage of cooling, the fan operates at full speed. In heating operation, the fan operates at full speed. During ventilation operation, the fan operates at low speed.
• Phase Monitor: Phase monitor (3 phase only), available for 3 - 25 ton DS, DC and DT series models. Phase monitor shall provide protection for motors and compressors against problems caused by phase loss, phase reversal and phase unbalance. Phase monitor is equipped with an LED that provides an ON or FAULT indicator.
• DDC Controller: DDC communicating controller, available for 3 - 25 ton DS, DC and DT series models with on-board BACnet® communication interface.
4 www.daikinac.com SS-DTG3
DTG0360451D***A*
DTG0360901D***A*
DTG0480901D***A*
DTG0481151D***A*
DTG0600901D***A*
DTG0601401D***A*
Cooling CapacityTotal BTU/h 35,600 35,600 45,500 45,500 59,000 59,000Sensible BTU/h 28,000 28,000 35,000 35,000 40,000 40,000SEER / EER 15.5 / 13.0 15.5 / 13.0 15.0/12.0 15.0/12.0 15.0/12.0 15.0/12.0Decibels 78 78 78 78 78 78ARI Reference #s 8377449 8377449 8377450 8377450 8377451 8377451
Heating CapacityHigh Input / Output (kBTU/h) 46 / 37 92 / 75 92 / 75 115 / 93 92 / 75 138 / 112Low Input / Output (kBTU/h) NA 69 / 56 69 / 56 86 / 70 69 / 56 103 / 84Annual Fuel Utilization Efficiency (%) 81.0 81.0 81.0 81.0 81.0 81.0Temperature Rise Range (°F) 25-55 30-60 / 20-50 25-55 / 10-40 35-65 / 20-50 25-55 / 20-50 35-65 / 25-55No. of Burners 2 4 4 5 4 6
Evaporator Motor / CoilMotor Type Direct Direct Direct Direct Direct DirectWheel Dia. X Width 10 X 9 10 X 9 11 X 10 11 X 10 11 X 10 11 X 10Indoor Nominal CFM 1,200 1,200 1,600 1,600 2,000 2,000Motor Speed Tap (Cooling) T3 T3 T3 T3 T3 T3Motor Speed Tap (Heating) T1 T5 T5 T5 T5 T5Horsepower 1/2 1/2 1 1 1 1Piston Size (Cooling) 0.068 0.068 0.076 0.076 0.086 0.086Filter Size (") 14 X 20 X 2 (4) 14 X 20 X 2 (4) 14 X 20 X 2 (4) 14 X 20 X 2 (4) 16 X 20 X 2 (4) 16 X 20 X 2 (4)Drain Size (NPT) 3/4 3/4 3/4 3/4 3/4 3/4R-410A Refrigerant Charge (oz.) 105 105 105 105 153 153Evaporator Coil Face Area (ft²) 7.8 7.8 7.8 7.8 8.9 8.9Rows Deep/ Fins per Inch 4 / 16 4 / 16 4 / 16 4 / 16 4 / 16 4 / 16
Condenser Fan / CoilQuantity of Condenser Fan Motors 1 1 1 1 1 1Horsepower - RPM 1/4-1090 1/4-1090 1/4-1090 1/4-1090 1/3-1090 1/3-1090Fan Diameter/ # Fan Blades 22 / 4 22 / 4 22 / 4 22 / 4 22 / 4 22 / 4Outdoor Nominal CFM 3,800 3,800 3,800 3,800 4,200 4,200Face Area (ft²) 13.0 13.0 13.0 13.0 19.0 19.0Rows Deep/ Fins per Inch 2 / 27 2 / 27 2 / 27 2 / 27 2 / 27 2 / 27
CompressorQuantity / Type (Single Stage) 1 / Scroll / Single 1 / Scroll / Single 1 / Scroll / Single 1 / Scroll / Single 1 / Scroll / Single 1 / Scroll / SingleCompressor RLA / LRA 14.1 / 77.0 14.1 / 77.0 19.0 / 109.0 19.0 / 109.0 25.0 / 134.0 25.0 / 134.0
Electrical DataVoltage-Phase-Frequency 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60Indoor Blower HP / FLA 1/2 / 3.9 1/2 / 3.9 1 / 6.9 1 / 6.9 1 / 6.9 1 / 6.9Max External Static (In. W.C.) 0.5 0.5 0.6 0.6 0.9 0.9Outdoor Fan HP / FLA 1/4-1.4 1/4-1.4 1/4-1.4 1/4-1.4 1/3 - 2.0 1/3 - 2.0Total Unit Amps 19.4 19.4 28.2 28.2 33.9 33.9Min. Circuit Ampacity¹ 22.9 / 22.9 22.9 / 22.9 33.1 / 33.1 33.1 / 33.1 40.2 / 40.2 40.2 / 40.2Max. Overcurrent Protection (amps)² 35 / 35 35 / 35 50 / 50 50 / 50 60 / 60 60 / 60Power Supply Conduit Hole 1-1/8" 1-1/8" 1-1/8" 1-1/8" 1-1/8" 1-1/8"Low-Voltage Conduit Hole 1/2" 1/2" 1/2" 1/2" 1/2" 1/2"
Operating Weight (lbs) 526 536 568 569 609 629Ship Weight (lbs) 553 564 599 597 638 655
¹ Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes.² May use fuses or HACR-type circuit breakers of the same size as noted.Note: Always check the S&R plate for electrical data on the unit being installed.
Product Specifications
SS-DTG3 www.daikinac.com 5
DTG0360453D***A*
DTG0360903D***A*
DTG0480903D***A*
DTG0481153D***A*
DTG0600903D***A*
DTG0601403D***A*
Cooling CapacityTotal BTU/h 36,000 36,000 47,000 47,000 60,000 60,000Sensible BTU/h 25,740 25,740 33,605 33,605 42,900 42,900SEER / EER 15.0/ 13.0 15.0/ 13.0 15.0/ 12.5 15.0/ 12.5 15.0/ 12.5 15.0/ 12.5Decibels 78 78 78 78 78 78ARI Reference #s 8965277 8965277 8965278 8965278 8965279 8965279
Heating CapacityHigh Input / Output (kBTU/h) 46 / 37 92 / 74 92 / 74 115 / 92 92 / 74 138 / 110Low Input / Output (kBTU/h) NA 69 / 55 69 / 55 86 / 69 69 / 55 103 / 82Annual Fuel Utilization Efficiency (%) 80.0 80.0 80.0 80.0 80.0 80.0Temperature Rise Range (°F) 25-55 40-70 / 30-60 30-60 / 15-45 40-70 / 25-55 25-55 / 15-45 35-65 / 25-55No. of Burners 2 4 4 5 4 6
Evaporator Motor / CoilMotor Type Direct Direct Direct Direct Direct DirectWheel Dia. X Width 10 X 9 10 X 9 11 X 10 11 X 10 11 X 10 11 X 10Indoor Nominal CFM 1,200 1,200 1,600 1,600 2,000 2,000Motor Speed Tap (Cooling) T3 T3 T3 T3 T3 T3Motor Speed Tap (Heating) T1 T5 T5 T5 T5 T5Horsepower 0.5 0.5 1.0 1.0 1.0 1.0Piston Size (Cooling) 0.068 0.068 0.076 0.076 0.086 0.086Filter Size (") 14 X 20 X 2 (4) 14 X 20 X 2 (4) 14 X 20 X 2 (4) 14 X 20 X 2 (4) 16 X 20 X 2 (4) 16 X 20 X 2 (4)Drain Size (NPT) 3/4 3/4 3/4 3/4 3/4 3/4R-410A Refrigerant Charge (oz.) 105 105 105 105 153 153Evaporator Coil Face Area (ft²) 7.8 7.8 7.8 7.8 8.9 8.9Rows Deep/ Fins per Inch 4 / 16 4 / 16 4 / 16 4 / 16 4 / 16 4 / 16
Condenser Fan / CoilQuantity of Condenser Fan Motors 1 1 1 1 1 1Horsepower - RPM 1/4-1090 1/4-1090 1/4-1090 1/4-1090 1/3-1090 1/3-1090Fan Diameter/ # Fan Blades 22 / 4 22 / 4 22 / 4 22 / 4 22 / 4 22 / 4Outdoor Nominal CFM 3,800 3,800 3,800 3,800 4,200 4,200Face Area (ft²) 13.0 13.0 13.0 13.0 19.0 19.0Rows Deep/ Fins per Inch 2 / 27 2 / 27 2 / 27 2 / 27 2 / 27 2 / 27
CompressorQuantity / Type (Single Stage) 1 / Scroll / Single 1 / Scroll / Single 1 / Scroll / Single 1 / Scroll / Single 1 / Scroll / Single 1 / Scroll / SingleCompressor RLA / LRA 9.0/71 9.0/71 13.1/83 13.1/83 15.9/110 15.9/110
Electrical DataVoltage-Phase-Frequency 208/230-3-60 208/230-3-60 208/230-3-60 208/230-3-60 208/230-3-60 208/230-3-60Indoor Blower HP / FLA 1/2 / 3.9 1/2 / 3.9 1 / 6.9 1 / 6.9 1 / 6.9 1 / 6.9Max External Static (In. W.C.) 0.5 0.5 0.6 0.6 0.9 0.9Outdoor Fan HP / FLA ¼ / 1.4 ¼ / 1.4 ¼ / 1.4 ¼ / 1.4 1/3 / 2.0 1/3 / 2.0Total Unit Amps 14.3 14.3 21.4 21.4 24.8 24.8Min. Circuit Ampacity¹ 16.5 / 16.5 16.5 / 16.5 24.7 / 24.7 24.7 / 24.7 28.8 / 28.8 28.8 / 28.8Max. Overcurrent Protection (amps)² 25 / 25 25 / 25 35 / 35 35 / 35 40 / 40 40 / 40Power Supply Conduit Hole 1.125" 1.125" 1.125" 1.125" 1.125" 1.125"Low-Voltage Conduit Hole ½" ½" ½" ½" ½" ½"
Operating Weight (lbs) 526 536 568 569 609 629Ship Weight (lbs) 553 564 599 597 638 655
¹ Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes.² May use fuses or HACR-type circuit breakers of the same size as noted.Note: Always check the S&R plate for electrical data on the unit being installed.
Product Specifications
6 www.daikinac.com SS-DTG3
Expanded Cooling Data — 3 Tons (1-Phase Models)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
1350
MBh
34.7
36.0
39.4
-33
.935
.138
.5-
33.1
34.3
37.6
-32
.333
.436
.6-
30.7
31.8
34.8
-28
.429
.432
.2-
S/T
0.75
0.63
0.44
-0.
780.
650.
45-
0.80
0.67
0.46
-0.
830.
690.
48-
0.86
0.72
0.50
-0.
860.
720.
50-
∆T18
1512
-18
1612
-18
1612
-18
1612
-18
1512
-17
1411
-
kW2.
272.
312.
37-
2.42
2.47
2.54
-2.
552.
602.
68-
2.67
2.73
2.81
-2.
782.
832.
92-
2.86
2.92
3.01
-
HI P
R22
524
225
5-
252
271
287
-28
730
932
6-
327
352
371
-36
739
541
8-
406
437
461
-LO
PR
111
118
129
-11
712
513
6-
122
129
141
-12
813
614
8-
134
143
156
-13
914
716
1-
1200
MBh
33.7
34.9
38.2
-32
.934
.137
.4-
32.1
33.3
36.5
-31
.332
.535
.6-
29.8
30.8
33.8
-27
.628
.631
.3-
S/T
0.72
0.60
0.42
-0.
740.
620.
43-
0.76
0.64
0.44
-0.
790.
660.
46-
0.82
0.68
0.47
-0.
820.
690.
48-
∆T19
1612
-19
1612
-19
1612
-19
1612
-19
1612
-17
1511
-
kW2.
252.
292.
36-
2.40
2.45
2.52
-2.
542.
592.
66-
2.65
2.71
2.79
-2.
752.
812.
89-
2.84
2.90
2.99
-
HI P
R22
223
925
3-
250
269
284
-28
430
632
3-
323
348
368
-36
439
241
3-
402
433
457
-LO
PR
110
117
127
-11
612
313
5-
120
128
140
-12
713
514
7-
133
141
154
-13
714
615
9-
1050
MBh
31.1
32.2
35.3
-30
.431
.534
.5-
29.6
30.7
33.7
-28
.930
.032
.8-
27.5
28.5
31.2
-25
.426
.428
.9-
S/T
0.69
0.58
0.40
-0.
720.
600.
42-
0.74
0.61
0.43
-0.
760.
630.
44-
0.79
0.66
0.46
-0.
800.
660.
46-
∆T19
1612
-19
1713
-19
1713
-19
1713
-19
1612
-18
1512
-
kW2.
202.
242.
30-
2.35
2.39
2.46
-2.
482.
532.
60-
2.60
2.65
2.72
-2.
692.
752.
83-
2.78
2.83
2.92
-
HI P
R21
623
224
5-
242
261
275
-27
529
631
3-
314
338
356
-35
338
040
1-
390
420
443
-LO
PR
106
113
124
-11
212
013
1-
117
124
136
-12
313
114
3-
129
137
149
-13
314
215
5-
75
1350
MBh
35.3
36.3
39.3
42.2
34.5
35.5
38.4
41.2
33.6
34.6
37.5
40.2
32.8
33.8
36.6
39.3
31.2
32.1
34.7
37.3
28.9
29.7
32.2
34.5
S/T
0.86
0.77
0.58
0.37
0.89
0.79
0.60
0.39
0.91
0.81
0.62
0.40
0.94
0.84
0.64
0.41
0.97
0.87
0.66
0.42
0.98
0.88
0.67
0.43
∆T21
1916
1121
1916
1121
1916
1121
1916
1121
1916
1119
1815
10
kW2.
282.
322.
392.
462.
442.
482.
552.
632.
572.
622.
702.
782.
692.
752.
832.
922.
802.
852.
943.
032.
892.
943.
033.
13
HI P
R22
724
425
826
925
527
428
930
229
031
232
934
333
035
537
539
137
139
942
244
041
044
146
648
6LO
PR
112
119
130
138
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1200
MBh
34.2
35.3
38.2
41.0
33.5
34.4
37.3
40.0
32.7
33.6
36.4
39.1
31.9
32.8
35.5
38.1
30.3
31.2
33.7
36.2
28.0
28.9
31.2
33.5
S/T
0.82
0.73
0.55
0.36
0.85
0.76
0.57
0.37
0.87
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.94
0.84
0.63
0.41
∆T21
2016
1122
2016
1122
2016
1122
2016
1122
2016
1120
1915
10
kW2.
272.
312.
372.
442.
422.
472.
542.
612.
552.
602.
682.
762.
672.
732.
812.
892.
782.
832.
923.
012.
862.
923.
013.
10
HI P
R22
524
225
526
625
227
128
729
928
730
932
634
032
735
237
138
736
839
641
843
640
643
746
148
1LO
PR
111
118
129
137
117
125
136
145
122
129
141
151
128
136
149
158
134
143
156
166
139
147
161
171
1050
MBh
31.6
32.5
35.2
37.8
30.9
31.8
34.4
36.9
30.1
31.0
33.6
36.1
29.4
30.3
32.8
35.2
27.9
28.8
31.1
33.4
25.9
26.6
28.8
31.0
S/T
0.79
0.70
0.53
0.34
0.82
0.73
0.55
0.36
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.38
0.90
0.80
0.61
0.39
0.90
0.81
0.61
0.39
∆T22
2016
1122
2017
1122
2017
1222
2017
1222
2017
1120
1915
11
kW2.
222.
262.
322.
392.
372.
412.
482.
552.
502.
552.
622.
702.
612.
672.
742.
832.
712.
772.
852.
942.
802.
852.
943.
03
HI P
R21
823
524
825
824
526
327
829
027
829
931
633
031
734
136
037
635
738
440
542
339
442
444
846
7LO
PR
108
114
125
133
114
121
132
141
118
126
137
146
124
132
144
153
130
138
151
161
134
143
156
166
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Desig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
1350
MBh
35.9
36.7
39.2
41.9
35.1
35.8
38.3
40.9
34.2
35.0
37.4
40.0
33.4
34.1
36.5
39.0
31.7
32.4
34.6
37.0
29.4
30.0
32.1
34.3
S/T
0.94
0.88
0.72
0.5
1.00
0.91
0.74
0.6
1.00
0.94
0.76
0.6
1.00
0.97
0.79
0.6
1.00
1.00
0.82
0.6
1.00
1.00
0.82
0.6
∆T23
2219
1524
2219
1523
2219
1523
2220
1622
2219
1520
2018
14.4
kW2.
302.
342.
412.
52.
452.
502.
572.
62.
592.
642.
722.
82.
712.
772.
852.
92.
822.
882.
963.
12.
912.
973.
063.
2
HI P
R22
924
726
127
225
727
729
230
529
331
533
334
733
335
937
939
537
540
442
644
441
444
647
149
1LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1200
MBh
34.9
35.6
38.1
40.7
34.0
34.8
37.2
39.7
33.2
34.0
36.3
38.8
32.4
33.1
35.4
37.8
30.8
31.5
33.6
36.0
28.5
29.2
31.2
33.3
S/T
0.90
0.84
0.68
0.5
0.93
0.87
0.71
0.5
0.95
0.89
0.73
0.5
0.98
0.92
0.75
0.6
1.00
0.96
0.78
0.6
1.00
0.96
0.78
0.6
∆T24
2320
1624
2320
1624
2320
1624
2320
1624
2320
1622
2219
15.0
kW2.
282.
322.
392.
52.
442.
482.
552.
62.
572.
622.
702.
82.
692.
752.
832.
92.
802.
852.
943.
02.
892.
943.
033.
1
HI P
R22
724
425
826
925
527
429
030
229
031
232
934
333
035
537
539
137
140
042
244
041
044
146
648
6LO
PR
112
119
130
139
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1050
MBh
32.2
32.9
35.1
37.5
31.4
32.1
34.3
36.7
30.7
31.3
33.5
35.8
29.9
30.6
32.7
34.9
28.4
29.1
31.0
33.2
26.3
26.9
28.8
30.7
S/T
0.86
0.81
0.66
0.5
0.90
0.84
0.68
0.5
0.92
0.86
0.70
0.5
0.95
0.89
0.72
0.5
0.98
0.92
0.75
0.6
0.99
0.93
0.76
0.6
∆T24
2320
1625
2421
1625
2421
1625
2421
1724
2320
1623
2219
15.2
kW2.
232.
272.
342.
42.
382.
432.
502.
62.
522.
572.
642.
72.
632.
692.
772.
82.
732.
792.
873.
02.
822.
882.
963.
1
HI P
R22
023
725
026
124
726
628
129
328
130
231
933
332
034
436
437
936
038
840
942
739
842
845
247
2LO
PR
109
116
126
134
115
122
133
142
119
127
139
148
125
133
146
155
131
140
152
162
136
144
158
168
85
1350
MBh
36.5
37.2
39.0
41.6
35.7
36.4
38.1
40.6
34.8
35.5
37.2
39.7
34.0
34.6
36.3
38.7
32.3
32.9
34.5
36.8
29.9
30.5
31.9
34.1
S/T
0.98
0.95
0.86
0.7
1.00
0.98
0.89
0.7
1.00
1.00
0.91
0.7
1.00
1.00
0.94
0.8
1.00
1.00
0.98
0.8
1.00
1.00
0.98
0.8
∆T24
2423
2024
2423
2024
2423
2023
2423
2022
2223
2020
2121
18.5
kW2.
312.
362.
422.
52.
472.
522.
592.
72.
612.
662.
742.
82.
742.
792.
873.
02.
842.
902.
993.
12.
932.
993.
083.
2
HI P
R23
224
926
327
526
028
029
530
829
631
833
635
033
736
238
339
937
940
843
044
941
845
047
549
6LO
PR
114
122
133
141
121
128
140
149
125
133
146
155
132
140
153
163
138
147
160
171
143
152
166
177
1200
MBh
35.5
36.2
37.9
40.4
34.6
35.3
37.0
39.5
33.8
34.5
36.1
38.5
33.0
33.6
35.2
37.6
31.3
31.9
33.5
35.7
29.0
29.6
31.0
33.1
S/T
0.94
0.91
0.82
0.7
0.97
0.94
0.85
0.7
1.00
0.96
0.87
0.7
1.00
0.99
0.90
0.7
1.00
1.00
0.93
0.8
1.00
1.00
0.94
0.8
∆T26
2524
2126
2524
2126
2524
2125
2624
2124
2424
2122
2322
19.3
kW2.
302.
342.
412.
52.
452.
502.
572.
62.
592.
642.
722.
82.
712.
772.
852.
92.
822.
882.
963.
12.
912.
973.
063.
2
HI P
R22
924
726
127
225
727
729
230
529
331
533
334
733
335
937
939
537
540
442
644
441
444
647
149
1LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1050
MBh
32.7
33.4
34.9
37.3
32.0
32.6
34.1
36.4
31.2
31.8
33.3
35.6
30.5
31.0
32.5
34.7
28.9
29.5
30.9
33.0
26.8
27.3
28.6
30.5
S/T
0.91
0.87
0.79
0.6
0.94
0.91
0.82
0.7
0.96
0.93
0.84
0.7
0.99
0.96
0.86
0.7
1.00
0.99
0.90
0.7
1.00
1.00
0.91
0.7
∆T26
2624
2126
2624
2126
2624
2126
2625
2125
2624
2123
2423
19.6
kW2.
252.
292.
352.
42.
402.
452.
522.
62.
542.
582.
662.
72.
652.
712.
792.
92.
752.
812.
893.
02.
842.
902.
993.
1
HI P
R22
223
925
326
425
026
928
429
628
430
532
333
632
334
836
738
336
439
141
343
140
243
245
747
6LO
PR
110
117
127
136
116
123
135
143
120
128
140
149
127
135
147
157
133
141
154
164
137
146
159
170
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Des
ign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AH
RI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
SS-DTG3 www.daikinac.com 7
Expanded Cooling Data — 3 Tons (1-Phase Models) (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
1350
MBh
34.7
36.0
39.4
-33
.935
.138
.5-
33.1
34.3
37.6
-32
.333
.436
.6-
30.7
31.8
34.8
-28
.429
.432
.2-
S/T
0.75
0.63
0.44
-0.
780.
650.
45-
0.80
0.67
0.46
-0.
830.
690.
48-
0.86
0.72
0.50
-0.
860.
720.
50-
∆T18
1512
-18
1612
-18
1612
-18
1612
-18
1512
-17
1411
-
kW2.
272.
312.
37-
2.42
2.47
2.54
-2.
552.
602.
68-
2.67
2.73
2.81
-2.
782.
832.
92-
2.86
2.92
3.01
-
HI P
R22
524
225
5-
252
271
287
-28
730
932
6-
327
352
371
-36
739
541
8-
406
437
461
-LO
PR
111
118
129
-11
712
513
6-
122
129
141
-12
813
614
8-
134
143
156
-13
914
716
1-
1200
MBh
33.7
34.9
38.2
-32
.934
.137
.4-
32.1
33.3
36.5
-31
.332
.535
.6-
29.8
30.8
33.8
-27
.628
.631
.3-
S/T
0.72
0.60
0.42
-0.
740.
620.
43-
0.76
0.64
0.44
-0.
790.
660.
46-
0.82
0.68
0.47
-0.
820.
690.
48-
∆T19
1612
-19
1612
-19
1612
-19
1612
-19
1612
-17
1511
-
kW2.
252.
292.
36-
2.40
2.45
2.52
-2.
542.
592.
66-
2.65
2.71
2.79
-2.
752.
812.
89-
2.84
2.90
2.99
-
HI P
R22
223
925
3-
250
269
284
-28
430
632
3-
323
348
368
-36
439
241
3-
402
433
457
-LO
PR
110
117
127
-11
612
313
5-
120
128
140
-12
713
514
7-
133
141
154
-13
714
615
9-
1050
MBh
31.1
32.2
35.3
-30
.431
.534
.5-
29.6
30.7
33.7
-28
.930
.032
.8-
27.5
28.5
31.2
-25
.426
.428
.9-
S/T
0.69
0.58
0.40
-0.
720.
600.
42-
0.74
0.61
0.43
-0.
760.
630.
44-
0.79
0.66
0.46
-0.
800.
660.
46-
∆T19
1612
-19
1713
-19
1713
-19
1713
-19
1612
-18
1512
-
kW2.
202.
242.
30-
2.35
2.39
2.46
-2.
482.
532.
60-
2.60
2.65
2.72
-2.
692.
752.
83-
2.78
2.83
2.92
-
HI P
R21
623
224
5-
242
261
275
-27
529
631
3-
314
338
356
-35
338
040
1-
390
420
443
-LO
PR
106
113
124
-11
212
013
1-
117
124
136
-12
313
114
3-
129
137
149
-13
314
215
5-
75
1350
MBh
35.3
36.3
39.3
42.2
34.5
35.5
38.4
41.2
33.6
34.6
37.5
40.2
32.8
33.8
36.6
39.3
31.2
32.1
34.7
37.3
28.9
29.7
32.2
34.5
S/T
0.86
0.77
0.58
0.37
0.89
0.79
0.60
0.39
0.91
0.81
0.62
0.40
0.94
0.84
0.64
0.41
0.97
0.87
0.66
0.42
0.98
0.88
0.67
0.43
∆T21
1916
1121
1916
1121
1916
1121
1916
1121
1916
1119
1815
10
kW2.
282.
322.
392.
462.
442.
482.
552.
632.
572.
622.
702.
782.
692.
752.
832.
922.
802.
852.
943.
032.
892.
943.
033.
13
HI P
R22
724
425
826
925
527
428
930
229
031
232
934
333
035
537
539
137
139
942
244
041
044
146
648
6LO
PR
112
119
130
138
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1200
MBh
34.2
35.3
38.2
41.0
33.5
34.4
37.3
40.0
32.7
33.6
36.4
39.1
31.9
32.8
35.5
38.1
30.3
31.2
33.7
36.2
28.0
28.9
31.2
33.5
S/T
0.82
0.73
0.55
0.36
0.85
0.76
0.57
0.37
0.87
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.94
0.84
0.63
0.41
∆T21
2016
1122
2016
1122
2016
1122
2016
1122
2016
1120
1915
10
kW2.
272.
312.
372.
442.
422.
472.
542.
612.
552.
602.
682.
762.
672.
732.
812.
892.
782.
832.
923.
012.
862.
923.
013.
10
HI P
R22
524
225
526
625
227
128
729
928
730
932
634
032
735
237
138
736
839
641
843
640
643
746
148
1LO
PR
111
118
129
137
117
125
136
145
122
129
141
151
128
136
149
158
134
143
156
166
139
147
161
171
1050
MBh
31.6
32.5
35.2
37.8
30.9
31.8
34.4
36.9
30.1
31.0
33.6
36.1
29.4
30.3
32.8
35.2
27.9
28.8
31.1
33.4
25.9
26.6
28.8
31.0
S/T
0.79
0.70
0.53
0.34
0.82
0.73
0.55
0.36
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.38
0.90
0.80
0.61
0.39
0.90
0.81
0.61
0.39
∆T22
2016
1122
2017
1122
2017
1222
2017
1222
2017
1120
1915
11
kW2.
222.
262.
322.
392.
372.
412.
482.
552.
502.
552.
622.
702.
612.
672.
742.
832.
712.
772.
852.
942.
802.
852.
943.
03
HI P
R21
823
524
825
824
526
327
829
027
829
931
633
031
734
136
037
635
738
440
542
339
442
444
846
7LO
PR
108
114
125
133
114
121
132
141
118
126
137
146
124
132
144
153
130
138
151
161
134
143
156
166
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Desig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
1350
MBh
35.9
36.7
39.2
41.9
35.1
35.8
38.3
40.9
34.2
35.0
37.4
40.0
33.4
34.1
36.5
39.0
31.7
32.4
34.6
37.0
29.4
30.0
32.1
34.3
S/T
0.94
0.88
0.72
0.5
1.00
0.91
0.74
0.6
1.00
0.94
0.76
0.6
1.00
0.97
0.79
0.6
1.00
1.00
0.82
0.6
1.00
1.00
0.82
0.6
∆T23
2219
1524
2219
1523
2219
1523
2220
1622
2219
1520
2018
14.4
kW2.
302.
342.
412.
52.
452.
502.
572.
62.
592.
642.
722.
82.
712.
772.
852.
92.
822.
882.
963.
12.
912.
973.
063.
2
HI P
R22
924
726
127
225
727
729
230
529
331
533
334
733
335
937
939
537
540
442
644
441
444
647
149
1LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1200
MBh
34.9
35.6
38.1
40.7
34.0
34.8
37.2
39.7
33.2
34.0
36.3
38.8
32.4
33.1
35.4
37.8
30.8
31.5
33.6
36.0
28.5
29.2
31.2
33.3
S/T
0.90
0.84
0.68
0.5
0.93
0.87
0.71
0.5
0.95
0.89
0.73
0.5
0.98
0.92
0.75
0.6
1.00
0.96
0.78
0.6
1.00
0.96
0.78
0.6
∆T24
2320
1624
2320
1624
2320
1624
2320
1624
2320
1622
2219
15.0
kW2.
282.
322.
392.
52.
442.
482.
552.
62.
572.
622.
702.
82.
692.
752.
832.
92.
802.
852.
943.
02.
892.
943.
033.
1
HI P
R22
724
425
826
925
527
429
030
229
031
232
934
333
035
537
539
137
140
042
244
041
044
146
648
6LO
PR
112
119
130
139
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1050
MBh
32.2
32.9
35.1
37.5
31.4
32.1
34.3
36.7
30.7
31.3
33.5
35.8
29.9
30.6
32.7
34.9
28.4
29.1
31.0
33.2
26.3
26.9
28.8
30.7
S/T
0.86
0.81
0.66
0.5
0.90
0.84
0.68
0.5
0.92
0.86
0.70
0.5
0.95
0.89
0.72
0.5
0.98
0.92
0.75
0.6
0.99
0.93
0.76
0.6
∆T24
2320
1625
2421
1625
2421
1625
2421
1724
2320
1623
2219
15.2
kW2.
232.
272.
342.
42.
382.
432.
502.
62.
522.
572.
642.
72.
632.
692.
772.
82.
732.
792.
873.
02.
822.
882.
963.
1
HI P
R22
023
725
026
124
726
628
129
328
130
231
933
332
034
436
437
936
038
840
942
739
842
845
247
2LO
PR
109
116
126
134
115
122
133
142
119
127
139
148
125
133
146
155
131
140
152
162
136
144
158
168
85
1350
MBh
36.5
37.2
39.0
41.6
35.7
36.4
38.1
40.6
34.8
35.5
37.2
39.7
34.0
34.6
36.3
38.7
32.3
32.9
34.5
36.8
29.9
30.5
31.9
34.1
S/T
0.98
0.95
0.86
0.7
1.00
0.98
0.89
0.7
1.00
1.00
0.91
0.7
1.00
1.00
0.94
0.8
1.00
1.00
0.98
0.8
1.00
1.00
0.98
0.8
∆T24
2423
2024
2423
2024
2423
2023
2423
2022
2223
2020
2121
18.5
kW2.
312.
362.
422.
52.
472.
522.
592.
72.
612.
662.
742.
82.
742.
792.
873.
02.
842.
902.
993.
12.
932.
993.
083.
2
HI P
R23
224
926
327
526
028
029
530
829
631
833
635
033
736
238
339
937
940
843
044
941
845
047
549
6LO
PR
114
122
133
141
121
128
140
149
125
133
146
155
132
140
153
163
138
147
160
171
143
152
166
177
1200
MBh
35.5
36.2
37.9
40.4
34.6
35.3
37.0
39.5
33.8
34.5
36.1
38.5
33.0
33.6
35.2
37.6
31.3
31.9
33.5
35.7
29.0
29.6
31.0
33.1
S/T
0.94
0.91
0.82
0.7
0.97
0.94
0.85
0.7
1.00
0.96
0.87
0.7
1.00
0.99
0.90
0.7
1.00
1.00
0.93
0.8
1.00
1.00
0.94
0.8
∆T26
2524
2126
2524
2126
2524
2125
2624
2124
2424
2122
2322
19.3
kW2.
302.
342.
412.
52.
452.
502.
572.
62.
592.
642.
722.
82.
712.
772.
852.
92.
822.
882.
963.
12.
912.
973.
063.
2
HI P
R22
924
726
127
225
727
729
230
529
331
533
334
733
335
937
939
537
540
442
644
441
444
647
149
1LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1050
MBh
32.7
33.4
34.9
37.3
32.0
32.6
34.1
36.4
31.2
31.8
33.3
35.6
30.5
31.0
32.5
34.7
28.9
29.5
30.9
33.0
26.8
27.3
28.6
30.5
S/T
0.91
0.87
0.79
0.6
0.94
0.91
0.82
0.7
0.96
0.93
0.84
0.7
0.99
0.96
0.86
0.7
1.00
0.99
0.90
0.7
1.00
1.00
0.91
0.7
∆T26
2624
2126
2624
2126
2624
2126
2625
2125
2624
2123
2423
19.6
kW2.
252.
292.
352.
42.
402.
452.
522.
62.
542.
582.
662.
72.
652.
712.
792.
92.
752.
812.
893.
02.
842.
902.
993.
1
HI P
R22
223
925
326
425
026
928
429
628
430
532
333
632
334
836
738
336
439
141
343
140
243
245
747
6LO
PR
110
117
127
136
116
123
135
143
120
128
140
149
127
135
147
157
133
141
154
164
137
146
159
170
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Des
ign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AH
RI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
8 www.daikinac.com SS-DTG3
Expanded Cooling Data — 4 Tons (1-Phase Models)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
1800
MBh
45.6
47.2
51.7
-44
.546
.150
.5-
43.4
45.0
49.3
-42
.443
.948
.1-
40.3
41.7
45.7
-37
.338
.742
.4-
S/T
0.75
0.63
0.44
-0.
780.
650.
45-
0.80
0.67
0.46
-0.
830.
690.
48-
0.86
0.72
0.50
-0.
860.
720.
50-
∆T18
1512
-18
1512
-18
1512
-18
1512
-18
1512
-16
1411
-
kW3.
063.
123.
21-
3.28
3.35
3.45
-3.
483.
553.
66-
3.65
3.73
3.84
-3.
803.
884.
00-
3.92
4.01
4.14
-
HI P
R23
425
226
6-
262
282
298
-29
832
133
9-
340
366
386
-38
241
143
4-
422
454
480
-LO
PR
111
118
129
-11
712
513
6-
122
129
141
-12
813
614
8-
134
143
156
-13
914
716
1-
1600
MBh
44.2
45.9
50.2
-43
.244
.849
.1-
42.2
43.7
47.9
-41
.242
.746
.7-
39.1
40.5
44.4
-36
.237
.541
.1-
S/T
0.72
0.60
0.42
-0.
740.
620.
43-
0.76
0.64
0.44
-0.
790.
660.
46-
0.82
0.68
0.47
-0.
820.
690.
48-
∆T18
1612
-18
1612
-19
1612
-19
1612
-18
1612
-17
1511
-
kW3.
033.
093.
19-
3.25
3.32
3.42
-3.
453.
523.
63-
3.62
3.70
3.81
-3.
773.
853.
97-
3.89
3.98
4.10
-
HI P
R23
124
926
3-
260
279
295
-29
531
833
6-
336
362
382
-37
840
743
0-
418
450
475
-LO
PR
110
117
127
-11
612
313
5-
120
128
140
-12
713
514
7-
133
141
154
-13
714
615
9-
1400
MBh
40.8
42.3
46.4
-39
.941
.345
.3-
38.9
40.4
44.2
-38
.039
.443
.1-
36.1
37.4
41.0
-33
.434
.638
.0-
S/T
0.69
0.58
0.40
-0.
720.
600.
42-
0.74
0.61
0.43
-0.
760.
630.
44-
0.79
0.66
0.46
-0.
800.
660.
46-
∆T19
1612
-19
1612
-19
1612
-19
1612
-19
1612
-17
1511
-
kW2.
963.
023.
11-
3.18
3.24
3.34
-3.
373.
443.
54-
3.53
3.61
3.72
-3.
683.
753.
87-
3.80
3.88
4.00
-
HI P
R22
424
225
5-
252
271
286
-28
630
832
6-
326
351
371
-36
739
541
7-
406
436
461
-LO
PR
106
113
124
-11
212
013
1-
117
124
136
-12
313
114
3-
129
137
149
-13
314
215
5-
75
1800
MBh
46.3
47.7
51.6
55.4
45.3
46.6
50.4
54.1
44.2
45.5
49.2
52.8
43.1
44.4
48.0
51.6
41.0
42.2
45.6
49.0
37.9
39.1
42.3
45.4
S/T
0.86
0.77
0.58
0.37
0.89
0.79
0.60
0.39
0.91
0.81
0.62
0.40
0.94
0.84
0.64
0.41
0.97
0.87
0.66
0.42
0.98
0.88
0.67
0.43
∆T20
1915
1121
1915
1121
1915
1121
1916
1120
1915
1119
1814
10
kW3.
083.
143.
243.
333.
303.
373.
483.
583.
503.
583.
693.
803.
683.
763.
874.
003.
833.
914.
034.
163.
964.
044.
174.
31
HI P
R23
625
426
828
026
528
530
131
430
132
434
235
734
336
939
040
738
641
543
945
842
745
948
550
6LO
PR
112
119
130
138
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1600
MBh
45.0
46.3
50.1
53.8
43.9
45.2
49.0
52.6
42.9
44.2
47.8
51.3
41.9
43.1
46.6
50.1
39.8
40.9
44.3
47.6
36.8
37.9
41.0
44.0
S/T
0.82
0.73
0.55
0.36
0.85
0.76
0.57
0.37
0.87
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.94
0.84
0.63
0.41
∆T21
1916
1121
2016
1121
2016
1122
2016
1121
2016
1120
1815
10
kW3.
063.
123.
213.
313.
283.
353.
453.
563.
483.
553.
663.
773.
653.
733.
843.
973.
803.
884.
004.
133.
924.
014.
144.
27
HI P
R23
425
226
627
726
228
229
831
129
832
133
935
434
036
638
640
338
241
143
445
342
245
448
050
1LO
PR
111
118
129
137
117
125
136
145
122
129
141
151
128
136
149
158
134
143
156
166
139
147
161
171
1400
MBh
41.5
42.8
46.3
49.7
40.6
41.8
45.2
48.5
39.6
40.8
44.1
47.4
38.6
39.8
43.0
46.2
36.7
37.8
40.9
43.9
34.0
35.0
37.9
40.7
S/T
0.79
0.70
0.53
0.34
0.82
0.73
0.55
0.36
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.38
0.90
0.80
0.61
0.39
0.90
0.81
0.61
0.39
∆T21
2016
1122
2016
1122
2016
1122
2017
1122
2016
1120
1915
11
kW2.
993.
053.
143.
233.
203.
273.
373.
473.
393.
463.
573.
683.
563.
643.
753.
873.
713.
783.
904.
033.
833.
914.
044.
17
HI P
R22
724
425
826
925
427
428
930
228
931
132
934
333
035
537
539
137
139
942
143
941
044
146
648
6LO
PR
108
114
125
133
114
121
132
141
118
126
137
146
124
132
144
153
130
138
151
161
134
143
156
166
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Desig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
1800
MBh
47.2
48.2
51.5
55.0
46.1
47.1
50.3
53.8
45.0
46.0
49.1
52.5
43.9
44.8
47.9
51.2
41.7
42.6
45.5
48.6
38.6
39.5
42.1
45.1
S/T
0.94
0.88
0.72
0.5
1.00
0.91
0.74
0.6
1.00
0.94
0.76
0.6
1.00
0.97
0.79
0.6
1.00
1.00
0.82
0.6
1.00
1.00
0.82
0.6
∆T23
2219
1524
2219
1523
2219
1522
2219
1521
2219
1520
2018
14.2
kW3.
103.
173.
263.
43.
333.
403.
503.
63.
533.
603.
723.
83.
713.
793.
914.
03.
863.
944.
074.
23.
994.
074.
214.
3
HI P
R23
825
727
128
326
828
830
431
730
432
834
636
134
737
339
441
139
042
044
346
243
146
449
051
1LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1600
MBh
45.8
46.8
50.0
53.4
44.7
45.7
48.8
52.2
43.7
44.6
47.7
51.0
42.6
43.5
46.5
49.7
40.5
41.3
44.2
47.2
37.5
38.3
40.9
43.7
S/T
0.90
0.84
0.68
0.5
0.93
0.87
0.71
0.5
0.95
0.89
0.73
0.5
0.98
0.92
0.75
0.6
1.00
0.96
0.78
0.6
1.00
0.96
0.78
0.6
∆T24
2320
1624
2320
1624
2320
1624
2320
1623
2320
1622
2118
14.7
kW3.
083.
143.
243.
33.
303.
373.
483.
63.
503.
583.
693.
83.
683.
763.
884.
03.
833.
914.
034.
23.
964.
044.
174.
3
HI P
R23
625
426
828
026
528
530
131
430
132
434
235
734
336
939
040
738
641
543
945
842
745
948
550
6LO
PR
112
119
130
139
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1400
MBh
42.3
43.2
46.1
49.3
41.3
42.2
45.1
48.2
40.3
41.2
44.0
47.0
39.3
40.2
42.9
45.9
37.3
38.2
40.8
43.6
34.6
35.4
37.8
40.4
S/T
0.86
0.81
0.66
0.5
0.90
0.84
0.68
0.5
0.92
0.86
0.70
0.5
0.95
0.89
0.72
0.5
0.98
0.92
0.75
0.6
0.99
0.93
0.76
0.6
∆T24
2320
1624
2320
1624
2320
1624
2320
1624
2320
1623
2219
15.0
kW3.
013.
073.
163.
33.
233.
293.
393.
53.
423.
493.
603.
73.
593.
673.
783.
93.
743.
813.
944.
13.
863.
944.
074.
2
HI P
R22
924
626
027
125
727
729
230
529
231
533
234
633
335
837
839
537
540
342
644
441
444
547
049
0LO
PR
109
116
126
134
115
122
133
142
119
127
139
148
125
133
146
155
131
140
152
162
136
144
158
168
85
1800
MBh
48.0
48.9
51.2
54.7
46.9
47.8
50.0
53.4
45.8
46.6
48.8
52.1
44.6
45.5
47.7
50.8
42.4
43.2
45.3
48.3
39.3
40.0
41.9
44.7
S/T
0.98
0.95
0.86
0.7
1.00
0.98
0.89
0.7
1.00
1.00
0.91
0.7
1.00
1.00
0.94
0.8
1.00
1.00
0.98
0.8
1.00
1.00
0.98
0.8
∆T24
2422
1924
2423
2023
2423
2023
2323
2022
2223
2020
2021
18.2
kW3.
133.
193.
293.
43.
363.
423.
533.
63.
563.
633.
753.
93.
743.
823.
944.
13.
893.
974.
104.
24.
024.
114.
244.
4
HI P
R24
125
927
428
527
029
130
732
030
733
134
936
435
037
739
841
539
442
444
846
743
546
849
551
6LO
PR
114
122
133
141
121
128
140
149
125
133
146
155
132
140
153
163
138
147
160
171
143
152
166
177
1600
MBh
46.6
47.5
49.7
53.1
45.5
46.4
48.6
51.8
44.4
45.3
47.4
50.6
43.3
44.2
46.3
49.4
41.2
42.0
44.0
46.9
38.1
38.9
40.7
43.4
S/T
0.94
0.91
0.82
0.7
0.97
0.94
0.85
0.7
1.00
0.96
0.87
0.7
1.00
0.99
0.90
0.7
1.00
1.00
0.93
0.8
1.00
1.00
0.94
0.8
∆T25
2523
2025
2524
2025
2524
2025
2524
2124
2424
2022
2222
19.0
kW3.
103.
173.
263.
43.
333.
403.
503.
63.
533.
603.
723.
83.
713.
793.
914.
03.
863.
944.
074.
23.
994.
074.
214.
3
HI P
R23
825
727
128
326
828
830
431
730
432
834
636
134
737
339
441
139
042
044
346
243
146
449
051
1LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1400
MBh
43.0
43.8
45.9
49.0
42.0
42.8
44.8
47.8
41.0
41.8
43.8
46.7
40.0
40.8
42.7
45.6
38.0
38.7
40.6
43.3
35.2
35.9
37.6
40.1
S/T
0.91
0.87
0.79
0.6
0.94
0.91
0.82
0.7
0.96
0.93
0.84
0.7
0.99
0.96
0.86
0.7
1.00
0.99
0.90
0.7
1.00
1.00
0.91
0.7
∆T26
2524
2126
2524
2126
2524
2126
2624
2125
2524
2123
2422
19.3
kW3.
033.
093.
193.
33.
253.
323.
423.
53.
453.
523.
633.
73.
623.
703.
813.
93.
773.
853.
974.
13.
893.
974.
104.
2
HI P
R23
124
926
327
426
027
929
530
829
531
833
535
033
636
238
239
937
840
743
044
841
845
047
549
5LO
PR
110
117
127
136
116
123
135
143
120
128
140
149
127
135
147
157
133
141
154
164
137
146
159
170
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Desig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
SS-DTG3 www.daikinac.com 9
Expanded Cooling Data — 4 Tons (1-Phase Models) (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
1800
MBh
45.6
47.2
51.7
-44
.546
.150
.5-
43.4
45.0
49.3
-42
.443
.948
.1-
40.3
41.7
45.7
-37
.338
.742
.4-
S/T
0.75
0.63
0.44
-0.
780.
650.
45-
0.80
0.67
0.46
-0.
830.
690.
48-
0.86
0.72
0.50
-0.
860.
720.
50-
∆T18
1512
-18
1512
-18
1512
-18
1512
-18
1512
-16
1411
-
kW3.
063.
123.
21-
3.28
3.35
3.45
-3.
483.
553.
66-
3.65
3.73
3.84
-3.
803.
884.
00-
3.92
4.01
4.14
-
HI P
R23
425
226
6-
262
282
298
-29
832
133
9-
340
366
386
-38
241
143
4-
422
454
480
-LO
PR
111
118
129
-11
712
513
6-
122
129
141
-12
813
614
8-
134
143
156
-13
914
716
1-
1600
MBh
44.2
45.9
50.2
-43
.244
.849
.1-
42.2
43.7
47.9
-41
.242
.746
.7-
39.1
40.5
44.4
-36
.237
.541
.1-
S/T
0.72
0.60
0.42
-0.
740.
620.
43-
0.76
0.64
0.44
-0.
790.
660.
46-
0.82
0.68
0.47
-0.
820.
690.
48-
∆T18
1612
-18
1612
-19
1612
-19
1612
-18
1612
-17
1511
-
kW3.
033.
093.
19-
3.25
3.32
3.42
-3.
453.
523.
63-
3.62
3.70
3.81
-3.
773.
853.
97-
3.89
3.98
4.10
-
HI P
R23
124
926
3-
260
279
295
-29
531
833
6-
336
362
382
-37
840
743
0-
418
450
475
-LO
PR
110
117
127
-11
612
313
5-
120
128
140
-12
713
514
7-
133
141
154
-13
714
615
9-
1400
MBh
40.8
42.3
46.4
-39
.941
.345
.3-
38.9
40.4
44.2
-38
.039
.443
.1-
36.1
37.4
41.0
-33
.434
.638
.0-
S/T
0.69
0.58
0.40
-0.
720.
600.
42-
0.74
0.61
0.43
-0.
760.
630.
44-
0.79
0.66
0.46
-0.
800.
660.
46-
∆T19
1612
-19
1612
-19
1612
-19
1612
-19
1612
-17
1511
-
kW2.
963.
023.
11-
3.18
3.24
3.34
-3.
373.
443.
54-
3.53
3.61
3.72
-3.
683.
753.
87-
3.80
3.88
4.00
-
HI P
R22
424
225
5-
252
271
286
-28
630
832
6-
326
351
371
-36
739
541
7-
406
436
461
-LO
PR
106
113
124
-11
212
013
1-
117
124
136
-12
313
114
3-
129
137
149
-13
314
215
5-
75
1800
MBh
46.3
47.7
51.6
55.4
45.3
46.6
50.4
54.1
44.2
45.5
49.2
52.8
43.1
44.4
48.0
51.6
41.0
42.2
45.6
49.0
37.9
39.1
42.3
45.4
S/T
0.86
0.77
0.58
0.37
0.89
0.79
0.60
0.39
0.91
0.81
0.62
0.40
0.94
0.84
0.64
0.41
0.97
0.87
0.66
0.42
0.98
0.88
0.67
0.43
∆T20
1915
1121
1915
1121
1915
1121
1916
1120
1915
1119
1814
10
kW3.
083.
143.
243.
333.
303.
373.
483.
583.
503.
583.
693.
803.
683.
763.
874.
003.
833.
914.
034.
163.
964.
044.
174.
31
HI P
R23
625
426
828
026
528
530
131
430
132
434
235
734
336
939
040
738
641
543
945
842
745
948
550
6LO
PR
112
119
130
138
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1600
MBh
45.0
46.3
50.1
53.8
43.9
45.2
49.0
52.6
42.9
44.2
47.8
51.3
41.9
43.1
46.6
50.1
39.8
40.9
44.3
47.6
36.8
37.9
41.0
44.0
S/T
0.82
0.73
0.55
0.36
0.85
0.76
0.57
0.37
0.87
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.94
0.84
0.63
0.41
∆T21
1916
1121
2016
1121
2016
1122
2016
1121
2016
1120
1815
10
kW3.
063.
123.
213.
313.
283.
353.
453.
563.
483.
553.
663.
773.
653.
733.
843.
973.
803.
884.
004.
133.
924.
014.
144.
27
HI P
R23
425
226
627
726
228
229
831
129
832
133
935
434
036
638
640
338
241
143
445
342
245
448
050
1LO
PR
111
118
129
137
117
125
136
145
122
129
141
151
128
136
149
158
134
143
156
166
139
147
161
171
1400
MBh
41.5
42.8
46.3
49.7
40.6
41.8
45.2
48.5
39.6
40.8
44.1
47.4
38.6
39.8
43.0
46.2
36.7
37.8
40.9
43.9
34.0
35.0
37.9
40.7
S/T
0.79
0.70
0.53
0.34
0.82
0.73
0.55
0.36
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.38
0.90
0.80
0.61
0.39
0.90
0.81
0.61
0.39
∆T21
2016
1122
2016
1122
2016
1122
2017
1122
2016
1120
1915
11
kW2.
993.
053.
143.
233.
203.
273.
373.
473.
393.
463.
573.
683.
563.
643.
753.
873.
713.
783.
904.
033.
833.
914.
044.
17
HI P
R22
724
425
826
925
427
428
930
228
931
132
934
333
035
537
539
137
139
942
143
941
044
146
648
6LO
PR
108
114
125
133
114
121
132
141
118
126
137
146
124
132
144
153
130
138
151
161
134
143
156
166
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Desig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
1800
MBh
47.2
48.2
51.5
55.0
46.1
47.1
50.3
53.8
45.0
46.0
49.1
52.5
43.9
44.8
47.9
51.2
41.7
42.6
45.5
48.6
38.6
39.5
42.1
45.1
S/T
0.94
0.88
0.72
0.5
1.00
0.91
0.74
0.6
1.00
0.94
0.76
0.6
1.00
0.97
0.79
0.6
1.00
1.00
0.82
0.6
1.00
1.00
0.82
0.6
∆T23
2219
1524
2219
1523
2219
1522
2219
1521
2219
1520
2018
14.2
kW3.
103.
173.
263.
43.
333.
403.
503.
63.
533.
603.
723.
83.
713.
793.
914.
03.
863.
944.
074.
23.
994.
074.
214.
3
HI P
R23
825
727
128
326
828
830
431
730
432
834
636
134
737
339
441
139
042
044
346
243
146
449
051
1LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1600
MBh
45.8
46.8
50.0
53.4
44.7
45.7
48.8
52.2
43.7
44.6
47.7
51.0
42.6
43.5
46.5
49.7
40.5
41.3
44.2
47.2
37.5
38.3
40.9
43.7
S/T
0.90
0.84
0.68
0.5
0.93
0.87
0.71
0.5
0.95
0.89
0.73
0.5
0.98
0.92
0.75
0.6
1.00
0.96
0.78
0.6
1.00
0.96
0.78
0.6
∆T24
2320
1624
2320
1624
2320
1624
2320
1623
2320
1622
2118
14.7
kW3.
083.
143.
243.
33.
303.
373.
483.
63.
503.
583.
693.
83.
683.
763.
884.
03.
833.
914.
034.
23.
964.
044.
174.
3
HI P
R23
625
426
828
026
528
530
131
430
132
434
235
734
336
939
040
738
641
543
945
842
745
948
550
6LO
PR
112
119
130
139
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1400
MBh
42.3
43.2
46.1
49.3
41.3
42.2
45.1
48.2
40.3
41.2
44.0
47.0
39.3
40.2
42.9
45.9
37.3
38.2
40.8
43.6
34.6
35.4
37.8
40.4
S/T
0.86
0.81
0.66
0.5
0.90
0.84
0.68
0.5
0.92
0.86
0.70
0.5
0.95
0.89
0.72
0.5
0.98
0.92
0.75
0.6
0.99
0.93
0.76
0.6
∆T24
2320
1624
2320
1624
2320
1624
2320
1624
2320
1623
2219
15.0
kW3.
013.
073.
163.
33.
233.
293.
393.
53.
423.
493.
603.
73.
593.
673.
783.
93.
743.
813.
944.
13.
863.
944.
074.
2
HI P
R22
924
626
027
125
727
729
230
529
231
533
234
633
335
837
839
537
540
342
644
441
444
547
049
0LO
PR
109
116
126
134
115
122
133
142
119
127
139
148
125
133
146
155
131
140
152
162
136
144
158
168
85
1800
MBh
48.0
48.9
51.2
54.7
46.9
47.8
50.0
53.4
45.8
46.6
48.8
52.1
44.6
45.5
47.7
50.8
42.4
43.2
45.3
48.3
39.3
40.0
41.9
44.7
S/T
0.98
0.95
0.86
0.7
1.00
0.98
0.89
0.7
1.00
1.00
0.91
0.7
1.00
1.00
0.94
0.8
1.00
1.00
0.98
0.8
1.00
1.00
0.98
0.8
∆T24
2422
1924
2423
2023
2423
2023
2323
2022
2223
2020
2021
18.2
kW3.
133.
193.
293.
43.
363.
423.
533.
63.
563.
633.
753.
93.
743.
823.
944.
13.
893.
974.
104.
24.
024.
114.
244.
4
HI P
R24
125
927
428
527
029
130
732
030
733
134
936
435
037
739
841
539
442
444
846
743
546
849
551
6LO
PR
114
122
133
141
121
128
140
149
125
133
146
155
132
140
153
163
138
147
160
171
143
152
166
177
1600
MBh
46.6
47.5
49.7
53.1
45.5
46.4
48.6
51.8
44.4
45.3
47.4
50.6
43.3
44.2
46.3
49.4
41.2
42.0
44.0
46.9
38.1
38.9
40.7
43.4
S/T
0.94
0.91
0.82
0.7
0.97
0.94
0.85
0.7
1.00
0.96
0.87
0.7
1.00
0.99
0.90
0.7
1.00
1.00
0.93
0.8
1.00
1.00
0.94
0.8
∆T25
2523
2025
2524
2025
2524
2025
2524
2124
2424
2022
2222
19.0
kW3.
103.
173.
263.
43.
333.
403.
503.
63.
533.
603.
723.
83.
713.
793.
914.
03.
863.
944.
074.
23.
994.
074.
214.
3
HI P
R23
825
727
128
326
828
830
431
730
432
834
636
134
737
339
441
139
042
044
346
243
146
449
051
1LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1400
MBh
43.0
43.8
45.9
49.0
42.0
42.8
44.8
47.8
41.0
41.8
43.8
46.7
40.0
40.8
42.7
45.6
38.0
38.7
40.6
43.3
35.2
35.9
37.6
40.1
S/T
0.91
0.87
0.79
0.6
0.94
0.91
0.82
0.7
0.96
0.93
0.84
0.7
0.99
0.96
0.86
0.7
1.00
0.99
0.90
0.7
1.00
1.00
0.91
0.7
∆T26
2524
2126
2524
2126
2524
2126
2624
2125
2524
2123
2422
19.3
kW3.
033.
093.
193.
33.
253.
323.
423.
53.
453.
523.
633.
73.
623.
703.
813.
93.
773.
853.
974.
13.
893.
974.
104.
2
HI P
R23
124
926
327
426
027
929
530
829
531
833
535
033
636
238
239
937
840
743
044
841
845
047
549
5LO
PR
110
117
127
136
116
123
135
143
120
128
140
149
127
135
147
157
133
141
154
164
137
146
159
170
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Desig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
10 www.daikinac.com SS-DTG3
Expanded Cooling Data — 5 Tons (1-Phase Models)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
2300
MBh
58.3
60.4
66.2
-56
.959
.064
.7-
55.6
57.6
63.1
-54
.256
.261
.6-
51.5
53.4
58.5
-47
.749
.554
.2-
S/T
0.65
0.55
0.38
-0.
680.
570.
39-
0.69
0.58
0.40
-0.
720.
600.
41-
0.74
0.62
0.43
-0.
750.
630.
43-
∆T15
1310
-15
1310
-15
1310
-16
1310
-15
1310
-14
129
-
kW3.
944.
014.
13-
4.21
4.30
4.43
-4.
464.
554.
69-
4.68
4.77
4.92
-4.
864.
965.
12-
5.02
5.13
5.29
-
HI P
R24
626
427
9-
276
297
313
-31
433
735
6-
357
384
406
-40
243
245
7-
444
478
504
-LO
PR
111
118
129
-11
712
513
6-
122
129
141
-12
813
614
8-
134
143
156
-13
914
716
1-
2000
MBh
56.6
58.7
64.3
-55
.357
.362
.8-
54.0
55.9
61.3
-52
.754
.659
.8-
50.0
51.8
56.8
-46
.348
.052
.6-
S/T
0.62
0.52
0.36
-0.
650.
540.
37-
0.66
0.55
0.38
-0.
680.
570.
40-
0.71
0.59
0.41
-0.
710.
600.
41-
∆T16
1411
-16
1411
-16
1411
-17
1411
-16
1411
-15
1310
-
kW3.
913.
984.
10-
4.18
4.27
4.39
-4.
434.
524.
65-
4.64
4.74
4.88
-4.
824.
925.
08-
4.98
5.09
5.25
-
HI P
R24
326
227
6-
273
294
310
-31
033
435
3-
354
381
402
-39
842
845
2-
440
473
499
-LO
PR
110
117
127
-11
612
313
5-
120
128
140
-12
713
514
7-
133
141
154
-13
714
615
9-
1700
MBh
52.2
54.2
59.3
-51
.052
.958
.0-
49.8
51.6
56.6
-48
.650
.455
.2-
46.2
47.9
52.4
-42
.844
.348
.6-
S/T
0.60
0.50
0.35
-0.
620.
520.
36-
0.64
0.53
0.37
-0.
660.
550.
38-
0.68
0.57
0.40
-0.
690.
580.
40-
∆T17
1511
-17
1511
-17
1511
-17
1511
-17
1511
-16
1410
-
kW3.
823.
904.
01-
4.09
4.17
4.29
-4.
334.
414.
54-
4.53
4.63
4.77
-4.
714.
814.
96-
4.86
4.97
5.12
-
HI P
R23
625
426
8-
265
285
301
-30
132
434
2-
343
369
390
-38
641
543
8-
426
459
484
-LO
PR
106
113
124
-11
212
013
1-
117
124
136
-12
313
114
3-
129
137
149
-13
314
215
5-
75
2300
MBh
59.3
61.0
66.1
70.9
57.9
59.6
64.5
69.3
56.5
58.2
63.0
67.6
55.2
56.8
61.5
66.0
52.4
53.9
58.4
62.7
48.5
50.0
54.1
58.1
S/T
0.74
0.66
0.50
0.32
0.77
0.69
0.52
0.33
0.79
0.71
0.53
0.34
0.81
0.73
0.55
0.35
0.84
0.76
0.57
0.37
0.85
0.76
0.58
0.37
∆T18
1613
918
1613
918
1613
918
1714
918
1613
917
1512
9
kW3.
964.
044.
164.
284.
254.
334.
464.
604.
494.
594.
734.
874.
714.
814.
965.
124.
905.
005.
165.
325.
065.
175.
335.
50
HI P
R24
826
728
229
427
930
031
633
031
734
136
037
536
138
841
042
840
643
746
148
144
848
351
053
1LO
PR
112
119
130
138
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
2000
MBh
57.6
59.3
64.2
68.9
56.2
57.9
62.7
67.3
54.9
56.5
61.2
65.7
53.6
55.1
59.7
64.1
50.9
52.4
56.7
60.8
47.1
48.5
52.5
56.4
S/T
0.71
0.63
0.48
0.31
0.73
0.66
0.50
0.32
0.75
0.67
0.51
0.33
0.78
0.69
0.53
0.34
0.81
0.72
0.55
0.35
0.81
0.73
0.55
0.35
∆T19
1714
1019
1714
1019
1714
1019
1814
1019
1714
1018
1613
9
kW3.
944.
014.
134.
254.
214.
304.
434.
564.
464.
554.
694.
834.
684.
774.
925.
084.
864.
965.
125.
285.
025.
135.
295.
46
HI P
R24
626
427
929
127
629
731
332
731
433
735
637
235
738
440
642
340
243
245
747
644
447
850
552
6LO
PR
111
118
129
137
117
125
136
145
122
129
141
151
128
136
149
158
134
143
156
166
139
147
161
171
1700
MBh
53.1
54.7
59.2
63.6
51.9
53.4
57.8
62.1
50.7
52.2
56.5
60.6
49.4
50.9
55.1
59.1
47.0
48.3
52.3
56.2
43.5
44.8
48.5
52.0
S/T
0.68
0.61
0.46
0.30
0.71
0.63
0.48
0.31
0.73
0.65
0.49
0.32
0.75
0.67
0.51
0.33
0.78
0.69
0.53
0.34
0.78
0.70
0.53
0.34
∆T20
1815
1020
1815
1020
1815
1020
1815
1020
1815
1018
1714
10
kW3.
853.
924.
044.
164.
124.
204.
334.
464.
364.
454.
584.
724.
574.
664.
814.
954.
754.
855.
005.
154.
905.
015.
165.
32
HI P
R23
825
727
128
326
728
830
431
730
432
734
636
134
637
339
441
139
041
944
346
243
146
348
951
0LO
PR
108
114
125
133
114
121
132
141
118
126
137
146
124
132
144
153
130
138
151
161
134
143
156
166
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Des
ign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AH
RI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
xxx
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB
Airfl
ow59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
2300
MBh
60.3
61.7
65.9
70.4
58.9
60.2
64.3
68.8
57.5
58.8
62.8
67.2
56.1
57.4
61.3
65.5
53.3
54.5
58.2
62.2
49.4
50.5
53.9
57.7
S/T
0.81
0.76
0.62
0.5
0.84
0.79
0.64
0.5
0.86
0.81
0.66
0.5
0.89
0.84
0.68
0.5
0.93
0.87
0.71
0.5
0.93
0.88
0.71
0.5
∆T20
1916
1320
1917
1320
1917
1320
1917
1320
1916
1318
1815
12.3
kW3.
994.
074.
194.
34.
284.
364.
494.
64.
534.
624.
764.
94.
754.
855.
005.
24.
945.
045.
205.
45.
105.
215.
375.
5
HI P
R25
127
028
529
728
130
332
033
332
034
436
437
936
439
241
443
241
044
146
648
645
348
751
553
7LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
2000
MBh
58.6
59.9
64.0
68.4
57.2
58.5
62.5
66.8
55.9
57.1
61.0
65.2
54.5
55.7
59.5
63.6
51.8
52.9
56.5
60.4
48.0
49.0
52.4
56.0
S/T
0.78
0.73
0.59
0.4
0.80
0.75
0.61
0.5
0.82
0.77
0.63
0.5
0.85
0.80
0.65
0.5
0.88
0.83
0.67
0.5
0.89
0.84
0.68
0.5
∆T21
2017
1421
2018
1421
2018
1421
2018
1421
2018
1420
1916
13.1
kW3.
974.
044.
164.
34.
254.
334.
464.
64.
504.
594.
734.
94.
714.
814.
965.
14.
905.
005.
165.
35.
065.
175.
335.
5
HI P
R24
826
728
229
427
930
031
733
031
734
136
037
536
138
841
042
840
643
746
148
144
848
351
053
2LO
PR
112
119
130
139
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1700
MBh
54.1
55.3
59.0
63.1
52.8
54.0
57.7
61.6
51.6
52.7
56.3
60.2
50.3
51.4
54.9
58.7
47.8
48.8
52.2
55.8
44.3
45.2
48.3
51.7
S/T
0.75
0.70
0.57
0.4
0.78
0.73
0.59
0.4
0.80
0.75
0.61
0.5
0.82
0.77
0.63
0.5
0.85
0.80
0.65
0.5
0.86
0.81
0.66
0.5
∆T22
2118
1522
2118
1522
2118
1522
2119
1522
2118
1521
2017
13.7
kW3.
883.
954.
074.
24.
154.
234.
364.
54.
394.
484.
624.
84.
604.
704.
845.
04.
794.
885.
045.
24.
945.
045.
205.
4
HI P
R24
125
927
428
527
029
130
732
030
733
134
936
435
037
739
841
539
442
444
746
743
546
849
451
6LO
PR
109
116
126
134
115
122
133
142
119
127
139
148
125
133
146
155
131
140
152
162
136
144
158
168
85
2300
MBh
61.4
62.6
65.6
69.9
60.0
61.1
64.0
68.3
58.5
59.7
62.5
66.7
57.1
58.2
61.0
65.1
54.3
55.3
57.9
61.8
50.3
51.2
53.7
57.2
S/T
0.85
0.82
0.74
0.6
0.88
0.85
0.77
0.6
0.91
0.88
0.79
0.6
0.94
0.90
0.82
0.7
0.97
0.94
0.85
0.7
0.98
0.95
0.85
0.7
∆T21
2119
1721
2120
1721
2120
1721
2120
1721
2120
1720
1918
15.8
kW4.
024.
104.
224.
34.
314.
404.
534.
74.
564.
664.
804.
94.
794.
895.
045.
24.
985.
085.
245.
45.
145.
255.
425.
6
HI P
R25
327
228
830
028
430
632
333
732
334
836
738
336
839
641
843
641
444
647
149
145
749
252
054
2LO
PR
114
122
133
141
121
128
140
149
125
133
146
155
132
140
153
163
138
147
160
171
143
152
166
177
2000
MBh
59.6
60.8
63.6
67.9
58.2
59.4
62.2
66.3
56.8
57.9
60.7
64.7
55.5
56.5
59.2
63.2
52.7
53.7
56.2
60.0
48.8
49.7
52.1
55.6
S/T
0.81
0.79
0.71
0.6
0.84
0.81
0.73
0.6
0.86
0.83
0.75
0.6
0.89
0.86
0.78
0.6
0.93
0.89
0.81
0.7
0.93
0.90
0.81
0.7
∆T22
2221
1823
2221
1823
2221
1823
2221
1822
2221
1821
2119
16.9
kW3.
994.
074.
194.
34.
284.
364.
494.
64.
534.
624.
764.
94.
754.
855.
005.
24.
945.
045.
205.
45.
105.
215.
375.
5
HI P
R25
127
028
529
728
130
332
033
332
034
436
437
936
439
241
443
241
044
146
648
645
348
751
553
7LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1700
MBh
55.0
56.1
58.7
62.7
53.7
54.8
57.4
61.2
52.5
53.5
56.0
59.8
51.2
52.2
54.6
58.3
48.6
49.6
51.9
55.4
45.0
45.9
48.1
51.3
S/T
0.78
0.76
0.68
0.6
0.81
0.78
0.71
0.6
0.83
0.80
0.73
0.6
0.86
0.83
0.75
0.6
0.89
0.86
0.78
0.6
0.90
0.87
0.78
0.6
∆T23
2322
1924
2322
1924
2322
1924
2322
1923
2322
1922
2220
17.7
kW3.
913.
984.
104.
24.
184.
274.
394.
54.
434.
524.
654.
84.
644.
744.
885.
04.
824.
925.
085.
24.
985.
085.
245.
4
HI P
R24
326
227
628
827
329
431
032
331
033
435
336
835
338
040
241
939
842
845
247
143
947
349
952
1LO
PR
110
117
127
136
116
123
135
143
120
128
140
149
127
135
147
157
133
141
154
164
137
146
159
170
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Des
ign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AH
RI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
SS-DTG3 www.daikinac.com 11
Expanded Cooling Data — 5 Tons (1-Phase Models) (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
2300
MBh
58.3
60.4
66.2
-56
.959
.064
.7-
55.6
57.6
63.1
-54
.256
.261
.6-
51.5
53.4
58.5
-47
.749
.554
.2-
S/T
0.65
0.55
0.38
-0.
680.
570.
39-
0.69
0.58
0.40
-0.
720.
600.
41-
0.74
0.62
0.43
-0.
750.
630.
43-
∆T15
1310
-15
1310
-15
1310
-16
1310
-15
1310
-14
129
-
kW3.
944.
014.
13-
4.21
4.30
4.43
-4.
464.
554.
69-
4.68
4.77
4.92
-4.
864.
965.
12-
5.02
5.13
5.29
-
HI P
R24
626
427
9-
276
297
313
-31
433
735
6-
357
384
406
-40
243
245
7-
444
478
504
-LO
PR
111
118
129
-11
712
513
6-
122
129
141
-12
813
614
8-
134
143
156
-13
914
716
1-
2000
MBh
56.6
58.7
64.3
-55
.357
.362
.8-
54.0
55.9
61.3
-52
.754
.659
.8-
50.0
51.8
56.8
-46
.348
.052
.6-
S/T
0.62
0.52
0.36
-0.
650.
540.
37-
0.66
0.55
0.38
-0.
680.
570.
40-
0.71
0.59
0.41
-0.
710.
600.
41-
∆T16
1411
-16
1411
-16
1411
-17
1411
-16
1411
-15
1310
-
kW3.
913.
984.
10-
4.18
4.27
4.39
-4.
434.
524.
65-
4.64
4.74
4.88
-4.
824.
925.
08-
4.98
5.09
5.25
-
HI P
R24
326
227
6-
273
294
310
-31
033
435
3-
354
381
402
-39
842
845
2-
440
473
499
-LO
PR
110
117
127
-11
612
313
5-
120
128
140
-12
713
514
7-
133
141
154
-13
714
615
9-
1700
MBh
52.2
54.2
59.3
-51
.052
.958
.0-
49.8
51.6
56.6
-48
.650
.455
.2-
46.2
47.9
52.4
-42
.844
.348
.6-
S/T
0.60
0.50
0.35
-0.
620.
520.
36-
0.64
0.53
0.37
-0.
660.
550.
38-
0.68
0.57
0.40
-0.
690.
580.
40-
∆T17
1511
-17
1511
-17
1511
-17
1511
-17
1511
-16
1410
-
kW3.
823.
904.
01-
4.09
4.17
4.29
-4.
334.
414.
54-
4.53
4.63
4.77
-4.
714.
814.
96-
4.86
4.97
5.12
-
HI P
R23
625
426
8-
265
285
301
-30
132
434
2-
343
369
390
-38
641
543
8-
426
459
484
-LO
PR
106
113
124
-11
212
013
1-
117
124
136
-12
313
114
3-
129
137
149
-13
314
215
5-
75
2300
MBh
59.3
61.0
66.1
70.9
57.9
59.6
64.5
69.3
56.5
58.2
63.0
67.6
55.2
56.8
61.5
66.0
52.4
53.9
58.4
62.7
48.5
50.0
54.1
58.1
S/T
0.74
0.66
0.50
0.32
0.77
0.69
0.52
0.33
0.79
0.71
0.53
0.34
0.81
0.73
0.55
0.35
0.84
0.76
0.57
0.37
0.85
0.76
0.58
0.37
∆T18
1613
918
1613
918
1613
918
1714
918
1613
917
1512
9
kW3.
964.
044.
164.
284.
254.
334.
464.
604.
494.
594.
734.
874.
714.
814.
965.
124.
905.
005.
165.
325.
065.
175.
335.
50
HI P
R24
826
728
229
427
930
031
633
031
734
136
037
536
138
841
042
840
643
746
148
144
848
351
053
1LO
PR
112
119
130
138
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
2000
MBh
57.6
59.3
64.2
68.9
56.2
57.9
62.7
67.3
54.9
56.5
61.2
65.7
53.6
55.1
59.7
64.1
50.9
52.4
56.7
60.8
47.1
48.5
52.5
56.4
S/T
0.71
0.63
0.48
0.31
0.73
0.66
0.50
0.32
0.75
0.67
0.51
0.33
0.78
0.69
0.53
0.34
0.81
0.72
0.55
0.35
0.81
0.73
0.55
0.35
∆T19
1714
1019
1714
1019
1714
1019
1814
1019
1714
1018
1613
9
kW3.
944.
014.
134.
254.
214.
304.
434.
564.
464.
554.
694.
834.
684.
774.
925.
084.
864.
965.
125.
285.
025.
135.
295.
46
HI P
R24
626
427
929
127
629
731
332
731
433
735
637
235
738
440
642
340
243
245
747
644
447
850
552
6LO
PR
111
118
129
137
117
125
136
145
122
129
141
151
128
136
149
158
134
143
156
166
139
147
161
171
1700
MBh
53.1
54.7
59.2
63.6
51.9
53.4
57.8
62.1
50.7
52.2
56.5
60.6
49.4
50.9
55.1
59.1
47.0
48.3
52.3
56.2
43.5
44.8
48.5
52.0
S/T
0.68
0.61
0.46
0.30
0.71
0.63
0.48
0.31
0.73
0.65
0.49
0.32
0.75
0.67
0.51
0.33
0.78
0.69
0.53
0.34
0.78
0.70
0.53
0.34
∆T20
1815
1020
1815
1020
1815
1020
1815
1020
1815
1018
1714
10
kW3.
853.
924.
044.
164.
124.
204.
334.
464.
364.
454.
584.
724.
574.
664.
814.
954.
754.
855.
005.
154.
905.
015.
165.
32
HI P
R23
825
727
128
326
728
830
431
730
432
734
636
134
637
339
441
139
041
944
346
243
146
348
951
0LO
PR
108
114
125
133
114
121
132
141
118
126
137
146
124
132
144
153
130
138
151
161
134
143
156
166
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Des
ign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AH
RI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
xxx
Out
door
Am
bien
t Tem
pera
ture
6575
8595
105
115
Ente
ring
Indo
or W
et B
ulb
Tem
pera
ture
IDB
Airfl
ow59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
2300
MBh
60.3
61.7
65.9
70.4
58.9
60.2
64.3
68.8
57.5
58.8
62.8
67.2
56.1
57.4
61.3
65.5
53.3
54.5
58.2
62.2
49.4
50.5
53.9
57.7
S/T
0.81
0.76
0.62
0.5
0.84
0.79
0.64
0.5
0.86
0.81
0.66
0.5
0.89
0.84
0.68
0.5
0.93
0.87
0.71
0.5
0.93
0.88
0.71
0.5
∆T20
1916
1320
1917
1320
1917
1320
1917
1320
1916
1318
1815
12.3
kW3.
994.
074.
194.
34.
284.
364.
494.
64.
534.
624.
764.
94.
754.
855.
005.
24.
945.
045.
205.
45.
105.
215.
375.
5
HI P
R25
127
028
529
728
130
332
033
332
034
436
437
936
439
241
443
241
044
146
648
645
348
751
553
7LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
2000
MBh
58.6
59.9
64.0
68.4
57.2
58.5
62.5
66.8
55.9
57.1
61.0
65.2
54.5
55.7
59.5
63.6
51.8
52.9
56.5
60.4
48.0
49.0
52.4
56.0
S/T
0.78
0.73
0.59
0.4
0.80
0.75
0.61
0.5
0.82
0.77
0.63
0.5
0.85
0.80
0.65
0.5
0.88
0.83
0.67
0.5
0.89
0.84
0.68
0.5
∆T21
2017
1421
2018
1421
2018
1421
2018
1421
2018
1420
1916
13.1
kW3.
974.
044.
164.
34.
254.
334.
464.
64.
504.
594.
734.
94.
714.
814.
965.
14.
905.
005.
165.
35.
065.
175.
335.
5
HI P
R24
826
728
229
427
930
031
733
031
734
136
037
536
138
841
042
840
643
746
148
144
848
351
053
2LO
PR
112
119
130
139
118
126
137
146
123
131
143
152
129
137
150
160
135
144
157
167
140
149
163
173
1700
MBh
54.1
55.3
59.0
63.1
52.8
54.0
57.7
61.6
51.6
52.7
56.3
60.2
50.3
51.4
54.9
58.7
47.8
48.8
52.2
55.8
44.3
45.2
48.3
51.7
S/T
0.75
0.70
0.57
0.4
0.78
0.73
0.59
0.4
0.80
0.75
0.61
0.5
0.82
0.77
0.63
0.5
0.85
0.80
0.65
0.5
0.86
0.81
0.66
0.5
∆T22
2118
1522
2118
1522
2118
1522
2119
1522
2118
1521
2017
13.7
kW3.
883.
954.
074.
24.
154.
234.
364.
54.
394.
484.
624.
84.
604.
704.
845.
04.
794.
885.
045.
24.
945.
045.
205.
4
HI P
R24
125
927
428
527
029
130
732
030
733
134
936
435
037
739
841
539
442
444
746
743
546
849
451
6LO
PR
109
116
126
134
115
122
133
142
119
127
139
148
125
133
146
155
131
140
152
162
136
144
158
168
85
2300
MBh
61.4
62.6
65.6
69.9
60.0
61.1
64.0
68.3
58.5
59.7
62.5
66.7
57.1
58.2
61.0
65.1
54.3
55.3
57.9
61.8
50.3
51.2
53.7
57.2
S/T
0.85
0.82
0.74
0.6
0.88
0.85
0.77
0.6
0.91
0.88
0.79
0.6
0.94
0.90
0.82
0.7
0.97
0.94
0.85
0.7
0.98
0.95
0.85
0.7
∆T21
2119
1721
2120
1721
2120
1721
2120
1721
2120
1720
1918
15.8
kW4.
024.
104.
224.
34.
314.
404.
534.
74.
564.
664.
804.
94.
794.
895.
045.
24.
985.
085.
245.
45.
145.
255.
425.
6
HI P
R25
327
228
830
028
430
632
333
732
334
836
738
336
839
641
843
641
444
647
149
145
749
252
054
2LO
PR
114
122
133
141
121
128
140
149
125
133
146
155
132
140
153
163
138
147
160
171
143
152
166
177
2000
MBh
59.6
60.8
63.6
67.9
58.2
59.4
62.2
66.3
56.8
57.9
60.7
64.7
55.5
56.5
59.2
63.2
52.7
53.7
56.2
60.0
48.8
49.7
52.1
55.6
S/T
0.81
0.79
0.71
0.6
0.84
0.81
0.73
0.6
0.86
0.83
0.75
0.6
0.89
0.86
0.78
0.6
0.93
0.89
0.81
0.7
0.93
0.90
0.81
0.7
∆T22
2221
1823
2221
1823
2221
1823
2221
1822
2221
1821
2119
16.9
kW3.
994.
074.
194.
34.
284.
364.
494.
64.
534.
624.
764.
94.
754.
855.
005.
24.
945.
045.
205.
45.
105.
215.
375.
5
HI P
R25
127
028
529
728
130
332
033
332
034
436
437
936
439
241
443
241
044
146
648
645
348
751
553
7LO
PR
113
120
131
140
119
127
139
148
124
132
144
154
130
139
152
161
137
145
159
169
141
150
164
175
1700
MBh
55.0
56.1
58.7
62.7
53.7
54.8
57.4
61.2
52.5
53.5
56.0
59.8
51.2
52.2
54.6
58.3
48.6
49.6
51.9
55.4
45.0
45.9
48.1
51.3
S/T
0.78
0.76
0.68
0.6
0.81
0.78
0.71
0.6
0.83
0.80
0.73
0.6
0.86
0.83
0.75
0.6
0.89
0.86
0.78
0.6
0.90
0.87
0.78
0.6
∆T23
2322
1924
2322
1924
2322
1924
2322
1923
2322
1922
2220
17.7
kW3.
913.
984.
104.
24.
184.
274.
394.
54.
434.
524.
654.
84.
644.
744.
885.
04.
824.
925.
085.
24.
985.
085.
245.
4
HI P
R24
326
227
628
827
329
431
032
331
033
435
336
835
338
040
241
939
842
845
247
143
947
349
952
1LO
PR
110
117
127
136
116
123
135
143
120
128
140
149
127
135
147
157
133
141
154
164
137
146
159
170
IDB
= En
terin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
kW =
Tot
al s
yste
m p
ower
Hig
h &
low
pre
ssur
es a
re m
easu
red
at th
e liq
uid
& s
uctio
n se
rvic
e po
rts.
Amps
: Uni
t am
ps (c
omp.
+ ev
apor
ator
+ c
onde
nser
fan
mot
ors)
Des
ign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AH
RI 9
5 te
st c
ondi
tions
. Des
ign
Supe
rhea
t 8±3
°F @
the
com
pres
sor s
uctio
n ac
cess
fitti
ng c
onne
ction
.
12 www.daikinac.com SS-DTG3
Expanded Cooling Data — 3 Tons (3-Phase Models)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
1347
MBh
35.1
36.4
39.9
-34
.335
.639
.0-
33.5
34.7
38.0
-32
.733
.937
.1-
31.0
32.2
35.2
-28
.729
.832
.6-
S/T
0.74
0.62
0.43
-0.
770.
640.
45-
0.79
0.66
0.46
-0.
820.
680.
47-
0.85
0.71
0.49
-0.
850.
710.
49-
Del
ta T
1815
12-
1816
12-
1816
12-
1816
12-
1816
12-
1714
11-
KW2.
162.
202.
27-
2.31
2.36
2.43
-2.
452.
502.
58-
2.57
2.62
2.70
-2.
672.
732.
81-
2.76
2.82
2.91
-AM
PS7.
37.
47.
6-
7.8
7.9
8.1
-8.
38.
58.
7-
8.8
8.9
9.2
-9.
29.
49.
7-
9.7
9.9
10.1
-H
I PR
221
237
251
-24
726
628
1-
281
303
320
-32
134
536
4-
361
388
410
-39
842
945
3-
LO P
R11
512
313
4-
122
130
141
-12
713
514
7-
133
141
154
-13
914
816
2-
144
153
167
-
1199
MBh
34.1
35.3
38.7
-33
.334
.537
.8-
32.5
33.7
36.9
-31
.732
.936
.0-
30.1
31.2
34.2
-27
.928
.931
.7-
S/T
0.71
0.59
0.41
-0.
730.
610.
43-
0.75
0.63
0.44
-0.
780.
650.
45-
0.81
0.67
0.47
-0.
810.
680.
47-
Del
ta T
1916
12-
1916
12-
1916
12-
1916
12-
1916
12-
1715
11-
KW2.
142.
192.
25-
2.30
2.34
2.41
-2.
432.
482.
56-
2.55
2.60
2.68
-2.
652.
712.
79-
2.74
2.79
2.88
-AM
PS7.
37.
47.
6-
7.7
7.9
8.1
-8.
28.
48.
6-
8.7
8.9
9.1
-9.
19.
39.
6-
9.6
9.8
10.1
-H
I PR
218
235
248
-24
526
427
8-
279
300
317
-31
734
236
1-
357
384
406
-39
442
544
8-
LO P
R11
412
113
3-
121
128
140
-12
513
314
6-
132
140
153
-13
814
716
0-
143
152
166
-
1062
MBh
32.4
33.6
36.8
-31
.632
.835
.9-
30.9
32.0
35.1
-30
.131
.234
.2-
28.6
29.7
32.5
-26
.527
.530
.1-
S/T
0.68
0.57
0.39
-0.
700.
590.
41-
0.72
0.60
0.42
-0.
740.
620.
43-
0.77
0.65
0.45
-0.
780.
650.
45-
Del
ta T
1916
13-
1917
13-
1917
13-
1917
13-
1917
13-
1815
12-
KW2.
112.
152.
22-
2.26
2.31
2.37
-2.
392.
442.
52-
2.51
2.56
2.64
-2.
612.
662.
75-
2.69
2.75
2.84
-AM
PS7.
27.
37.
5-
7.6
7.7
7.9
-8.
18.
38.
5-
8.6
8.7
9.0
-9.
09.
29.
4-
9.4
9.6
9.9
-H
I PR
214
230
243
-24
025
827
3-
273
294
310
-31
133
535
3-
350
377
398
-38
741
643
9-
LO P
R11
211
913
0-
118
126
137
-12
313
114
3-
129
137
150
-13
514
415
7-
140
149
162
-
75
1347
MBh
35.7
36.8
39.8
42.7
34.9
35.9
38.9
41.7
34.1
35.1
37.9
40.7
33.2
34.2
37.0
39.7
31.6
32.5
35.2
37.7
29.2
30.1
32.6
35.0
S/T
0.84
0.76
0.57
0.37
0.88
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.96
0.86
0.65
0.42
0.97
0.87
0.66
0.42
Del
ta T
2119
1611
2119
1611
2119
1611
2119
1611
2119
1611
1918
1510
KW2.
182.
222.
282.
352.
332.
382.
452.
522.
472.
522.
602.
682.
592.
642.
722.
812.
692.
752.
832.
932.
782.
842.
933.
02AM
PS7.
47.
57.
77.
97.
88.
08.
28.
48.
48.
58.
79.
08.
89.
09.
29.
59.
39.
59.
710
.09.
79.
910
.210
.5H
I PR
223
240
253
264
250
269
284
296
284
306
323
337
324
348
368
384
364
392
414
432
402
433
457
477
LO P
R11
612
413
514
412
313
114
315
212
813
614
815
813
414
315
616
614
115
016
317
414
615
516
918
0
1199
MBh
34.7
35.7
38.6
41.5
33.9
34.9
37.7
40.5
33.1
34.0
36.8
39.5
32.3
33.2
35.9
38.6
30.6
31.5
34.1
36.6
28.4
29.2
31.6
33.9
S/T
0.81
0.72
0.55
0.35
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.37
0.88
0.79
0.60
0.38
0.92
0.82
0.62
0.40
0.93
0.83
0.63
0.40
Del
ta T
2120
1611
2220
1611
2220
1611
2220
1611
2220
1611
2019
1510
KW2.
162.
202.
272.
332.
312.
362.
432.
502.
452.
502.
582.
662.
572.
622.
702.
792.
672.
732.
812.
902.
762.
822.
913.
00AM
PS7.
37.
47.
67.
97.
87.
98.
18.
48.
38.
58.
78.
98.
88.
99.
29.
59.
29.
49.
710
.09.
79.
910
.110
.5H
I PR
221
237
251
261
248
266
281
293
281
303
320
334
321
345
364
380
361
388
410
427
399
429
453
472
LO P
R11
512
313
414
312
213
014
115
112
713
514
715
713
314
115
416
413
914
816
217
214
415
316
717
8
1062
MBh
32.9
33.9
36.7
39.4
32.2
33.1
35.9
38.5
31.4
32.3
35.0
37.6
30.6
31.5
34.1
36.6
29.1
30.0
32.4
34.8
27.0
27.8
30.0
32.3
S/T
0.77
0.69
0.52
0.34
0.80
0.72
0.54
0.35
0.82
0.73
0.56
0.36
0.85
0.76
0.57
0.37
0.88
0.79
0.59
0.38
0.89
0.79
0.60
0.39
Del
ta T
2220
1711
2221
1712
2221
1712
2221
1712
2220
1712
2119
1611
KW2.
132.
172.
232.
302.
282.
322.
392.
472.
412.
462.
542.
612.
532.
582.
662.
742.
632.
682.
772.
862.
722.
772.
862.
95AM
PS7.
27.
37.
57.
77.
77.
88.
08.
28.
28.
38.
68.
88.
68.
89.
09.
39.
19.
39.
59.
89.
59.
710
.010
.3H
I PR
216
233
246
256
243
261
276
287
276
297
313
327
314
338
357
372
353
380
402
419
391
420
444
463
LO P
R11
312
013
114
011
912
713
914
812
413
214
415
313
013
915
116
113
714
515
916
914
115
016
417
5ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
ACCA
(TVA
) con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)De
sign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AHR
I 95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
1347
MBh
36.3
37.1
39.7
42.4
35.5
36.3
38.8
41.4
34.7
35.4
37.8
40.4
33.8
34.5
36.9
39.5
32.1
32.8
35.1
37.5
29.8
30.4
32.5
34.7
S/T
0.93
0.87
0.71
0.53
0.96
0.90
0.73
0.55
1.00
0.92
0.75
0.56
1.00
0.95
0.78
0.58
1.00
1.00
0.81
0.60
1.00
1.00
0.81
0.61
Del
ta T
2322
1915
2322
1915
2422
1916
2322
2016
2222
1915
2021
1814
KW2.
192.
232.
302.
372.
352.
402.
472.
542.
492.
542.
622.
702.
612.
662.
752.
832.
712.
772.
862.
952.
802.
862.
953.
05AM
PS7.
47.
67.
78.
07.
98.
08.
28.
58.
48.
68.
89.
18.
99.
19.
39.
69.
49.
59.
810
.19.
810
.010
.310
.6H
I PR
225
242
256
267
253
272
287
299
287
309
326
340
327
352
372
388
368
396
418
436
407
438
462
482
LO P
R11
812
513
714
512
413
214
415
412
913
715
016
013
614
415
816
814
215
116
517
614
715
617
118
2
1199
MBh
35.3
36.1
38.5
41.2
34.5
35.2
37.6
40.2
33.6
34.4
36.7
39.3
32.8
33.5
35.8
38.3
31.2
31.9
34.0
36.4
28.9
29.5
31.5
33.7
S/T
0.88
0.83
0.67
0.50
0.92
0.86
0.70
0.52
0.94
0.88
0.72
0.54
0.97
0.91
0.74
0.55
1.00
0.94
0.77
0.57
1.00
0.95
0.77
0.58
Del
ta T
2423
2016
2423
2016
2423
2016
2423
2016
2423
2016
2222
1915
KW2.
182.
222.
282.
352.
332.
382.
452.
522.
472.
522.
602.
682.
592.
642.
732.
812.
692.
752.
832.
932.
782.
842.
933.
02AM
PS7.
47.
57.
77.
97.
88.
08.
28.
48.
48.
58.
89.
08.
89.
09.
29.
59.
39.
59.
710
.09.
79.
910
.210
.5H
I PR
223
240
253
264
250
269
284
296
284
306
323
337
324
348
368
384
364
392
414
432
403
433
457
477
LO P
R11
612
413
514
412
313
114
315
212
813
614
915
813
414
315
616
614
115
016
317
414
615
516
918
0
1062
MBh
33.5
34.3
36.6
39.1
32.7
33.5
35.7
38.2
32.0
32.7
34.9
37.3
31.2
31.9
34.0
36.4
29.6
30.3
32.3
34.6
27.4
28.0
30.0
32.0
S/T
0.85
0.79
0.65
0.48
0.88
0.82
0.67
0.50
0.90
0.84
0.69
0.51
0.93
0.87
0.71
0.53
0.96
0.90
0.74
0.55
0.97
0.91
0.74
0.55
Del
ta T
2524
2016
2524
2117
2524
2117
2524
2117
2524
2116
2322
1915
KW2.
142.
192.
252.
322.
302.
342.
412.
492.
432.
482.
562.
632.
552.
602.
682.
772.
652.
712.
792.
882.
742.
792.
882.
97AM
PS7.
37.
47.
67.
87.
77.
98.
18.
38.
28.
48.
68.
98.
78.
99.
19.
49.
19.
39.
69.
99.
69.
810
.110
.4H
I PR
218
235
248
259
245
264
278
290
279
300
317
330
317
342
361
376
357
384
406
423
394
425
448
468
LO P
R11
412
113
314
112
112
814
014
912
513
314
615
513
214
015
316
313
814
716
017
114
315
216
617
6
85
1347
MBh
37.0
37.7
39.5
42.1
36.1
36.8
38.6
41.1
35.3
35.9
37.6
40.2
34.4
35.1
36.7
39.2
32.7
33.3
34.9
37.2
30.3
30.9
32.3
34.5
S/T
0.97
0.94
0.85
0.69
1.00
0.97
0.88
0.71
1.00
1.00
0.90
0.73
1.00
1.00
0.93
0.75
1.00
1.00
0.96
0.78
1.00
1.00
0.97
0.79
Del
ta T
2524
2320
2524
2320
2424
2320
2324
2320
2223
2320
2121
2119
KW2.
212.
252.
322.
392.
372.
412.
492.
562.
512.
562.
642.
722.
632.
682.
772.
862.
732.
792.
882.
972.
832.
892.
983.
07AM
PS7.
57.
67.
88.
07.
98.
18.
38.
68.
58.
68.
99.
29.
09.
19.
49.
79.
49.
69.
910
.29.
910
.110
.410
.7H
I PR
227
245
258
269
255
274
290
302
290
312
330
344
330
356
375
392
372
400
422
440
411
442
467
487
LO P
R11
912
613
814
712
613
414
615
513
013
915
116
113
714
615
916
914
415
316
717
814
915
817
318
4
1199
MBh
35.9
36.6
38.3
40.9
35.1
35.7
37.4
39.9
34.2
34.9
36.5
39.0
33.4
34.0
35.7
38.0
31.7
32.3
33.9
36.1
29.4
30.0
31.4
33.5
S/T
0.93
0.89
0.81
0.65
0.96
0.93
0.84
0.68
0.98
0.95
0.86
0.70
1.00
0.98
0.89
0.72
1.00
1.00
0.92
0.75
1.00
1.00
0.93
0.75
Del
ta T
2625
2421
2625
2421
2625
2421
2626
2421
2425
2421
2323
2219
KW2.
192.
232.
302.
372.
352.
402.
472.
542.
492.
542.
622.
702.
612.
662.
752.
832.
712.
772.
862.
952.
802.
862.
953.
05AM
PS7.
47.
67.
78.
07.
98.
08.
28.
58.
48.
68.
89.
18.
99.
19.
39.
69.
49.
59.
810
.19.
810
.010
.310
.6H
I PR
225
242
256
267
253
272
287
299
287
309
326
340
327
352
372
388
368
396
418
436
407
438
462
482
LO P
R11
812
513
714
512
413
214
415
412
913
715
016
013
614
415
816
814
215
116
517
614
715
617
118
2
1062
MBh
34.1
34.8
36.4
38.8
33.3
34.0
35.6
37.9
32.5
33.2
34.7
37.0
31.7
32.3
33.9
36.1
30.1
30.7
32.2
34.3
27.9
28.5
29.8
31.8
S/T
0.89
0.86
0.77
0.63
0.92
0.89
0.80
0.65
0.94
0.91
0.82
0.67
0.97
0.94
0.85
0.69
1.00
0.97
0.88
0.71
1.00
0.98
0.89
0.72
Del
ta T
2626
2421
2726
2521
2726
2521
2726
2522
2626
2521
2424
2320
KW2.
162.
202.
272.
332.
312.
362.
432.
502.
452.
502.
582.
662.
572.
622.
702.
792.
672.
732.
812.
902.
762.
822.
913.
00AM
PS7.
37.
47.
67.
97.
87.
98.
18.
48.
38.
58.
78.
98.
88.
99.
29.
59.
29.
49.
710
.09.
79.
910
.110
.5H
I PR
221
237
251
261
247
266
281
293
281
303
320
334
321
345
364
380
361
388
410
427
398
429
453
472
LO P
R11
512
313
414
312
213
014
115
112
713
514
715
713
314
115
416
413
914
816
217
214
415
316
717
8ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
AHRI
con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)D
esig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI
95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
SS-DTG3 www.daikinac.com 13
Expanded Cooling Data — 3 Tons (3-Phase Models) (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
1347
MBh
35.1
36.4
39.9
-34
.335
.639
.0-
33.5
34.7
38.0
-32
.733
.937
.1-
31.0
32.2
35.2
-28
.729
.832
.6-
S/T
0.74
0.62
0.43
-0.
770.
640.
45-
0.79
0.66
0.46
-0.
820.
680.
47-
0.85
0.71
0.49
-0.
850.
710.
49-
Del
ta T
1815
12-
1816
12-
1816
12-
1816
12-
1816
12-
1714
11-
KW2.
162.
202.
27-
2.31
2.36
2.43
-2.
452.
502.
58-
2.57
2.62
2.70
-2.
672.
732.
81-
2.76
2.82
2.91
-AM
PS7.
37.
47.
6-
7.8
7.9
8.1
-8.
38.
58.
7-
8.8
8.9
9.2
-9.
29.
49.
7-
9.7
9.9
10.1
-H
I PR
221
237
251
-24
726
628
1-
281
303
320
-32
134
536
4-
361
388
410
-39
842
945
3-
LO P
R11
512
313
4-
122
130
141
-12
713
514
7-
133
141
154
-13
914
816
2-
144
153
167
-
1199
MBh
34.1
35.3
38.7
-33
.334
.537
.8-
32.5
33.7
36.9
-31
.732
.936
.0-
30.1
31.2
34.2
-27
.928
.931
.7-
S/T
0.71
0.59
0.41
-0.
730.
610.
43-
0.75
0.63
0.44
-0.
780.
650.
45-
0.81
0.67
0.47
-0.
810.
680.
47-
Del
ta T
1916
12-
1916
12-
1916
12-
1916
12-
1916
12-
1715
11-
KW2.
142.
192.
25-
2.30
2.34
2.41
-2.
432.
482.
56-
2.55
2.60
2.68
-2.
652.
712.
79-
2.74
2.79
2.88
-AM
PS7.
37.
47.
6-
7.7
7.9
8.1
-8.
28.
48.
6-
8.7
8.9
9.1
-9.
19.
39.
6-
9.6
9.8
10.1
-H
I PR
218
235
248
-24
526
427
8-
279
300
317
-31
734
236
1-
357
384
406
-39
442
544
8-
LO P
R11
412
113
3-
121
128
140
-12
513
314
6-
132
140
153
-13
814
716
0-
143
152
166
-
1062
MBh
32.4
33.6
36.8
-31
.632
.835
.9-
30.9
32.0
35.1
-30
.131
.234
.2-
28.6
29.7
32.5
-26
.527
.530
.1-
S/T
0.68
0.57
0.39
-0.
700.
590.
41-
0.72
0.60
0.42
-0.
740.
620.
43-
0.77
0.65
0.45
-0.
780.
650.
45-
Del
ta T
1916
13-
1917
13-
1917
13-
1917
13-
1917
13-
1815
12-
KW2.
112.
152.
22-
2.26
2.31
2.37
-2.
392.
442.
52-
2.51
2.56
2.64
-2.
612.
662.
75-
2.69
2.75
2.84
-AM
PS7.
27.
37.
5-
7.6
7.7
7.9
-8.
18.
38.
5-
8.6
8.7
9.0
-9.
09.
29.
4-
9.4
9.6
9.9
-H
I PR
214
230
243
-24
025
827
3-
273
294
310
-31
133
535
3-
350
377
398
-38
741
643
9-
LO P
R11
211
913
0-
118
126
137
-12
313
114
3-
129
137
150
-13
514
415
7-
140
149
162
-
75
1347
MBh
35.7
36.8
39.8
42.7
34.9
35.9
38.9
41.7
34.1
35.1
37.9
40.7
33.2
34.2
37.0
39.7
31.6
32.5
35.2
37.7
29.2
30.1
32.6
35.0
S/T
0.84
0.76
0.57
0.37
0.88
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.96
0.86
0.65
0.42
0.97
0.87
0.66
0.42
Del
ta T
2119
1611
2119
1611
2119
1611
2119
1611
2119
1611
1918
1510
KW2.
182.
222.
282.
352.
332.
382.
452.
522.
472.
522.
602.
682.
592.
642.
722.
812.
692.
752.
832.
932.
782.
842.
933.
02AM
PS7.
47.
57.
77.
97.
88.
08.
28.
48.
48.
58.
79.
08.
89.
09.
29.
59.
39.
59.
710
.09.
79.
910
.210
.5H
I PR
223
240
253
264
250
269
284
296
284
306
323
337
324
348
368
384
364
392
414
432
402
433
457
477
LO P
R11
612
413
514
412
313
114
315
212
813
614
815
813
414
315
616
614
115
016
317
414
615
516
918
0
1199
MBh
34.7
35.7
38.6
41.5
33.9
34.9
37.7
40.5
33.1
34.0
36.8
39.5
32.3
33.2
35.9
38.6
30.6
31.5
34.1
36.6
28.4
29.2
31.6
33.9
S/T
0.81
0.72
0.55
0.35
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.37
0.88
0.79
0.60
0.38
0.92
0.82
0.62
0.40
0.93
0.83
0.63
0.40
Del
ta T
2120
1611
2220
1611
2220
1611
2220
1611
2220
1611
2019
1510
KW2.
162.
202.
272.
332.
312.
362.
432.
502.
452.
502.
582.
662.
572.
622.
702.
792.
672.
732.
812.
902.
762.
822.
913.
00AM
PS7.
37.
47.
67.
97.
87.
98.
18.
48.
38.
58.
78.
98.
88.
99.
29.
59.
29.
49.
710
.09.
79.
910
.110
.5H
I PR
221
237
251
261
248
266
281
293
281
303
320
334
321
345
364
380
361
388
410
427
399
429
453
472
LO P
R11
512
313
414
312
213
014
115
112
713
514
715
713
314
115
416
413
914
816
217
214
415
316
717
8
1062
MBh
32.9
33.9
36.7
39.4
32.2
33.1
35.9
38.5
31.4
32.3
35.0
37.6
30.6
31.5
34.1
36.6
29.1
30.0
32.4
34.8
27.0
27.8
30.0
32.3
S/T
0.77
0.69
0.52
0.34
0.80
0.72
0.54
0.35
0.82
0.73
0.56
0.36
0.85
0.76
0.57
0.37
0.88
0.79
0.59
0.38
0.89
0.79
0.60
0.39
Del
ta T
2220
1711
2221
1712
2221
1712
2221
1712
2220
1712
2119
1611
KW2.
132.
172.
232.
302.
282.
322.
392.
472.
412.
462.
542.
612.
532.
582.
662.
742.
632.
682.
772.
862.
722.
772.
862.
95AM
PS7.
27.
37.
57.
77.
77.
88.
08.
28.
28.
38.
68.
88.
68.
89.
09.
39.
19.
39.
59.
89.
59.
710
.010
.3H
I PR
216
233
246
256
243
261
276
287
276
297
313
327
314
338
357
372
353
380
402
419
391
420
444
463
LO P
R11
312
013
114
011
912
713
914
812
413
214
415
313
013
915
116
113
714
515
916
914
115
016
417
5ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
ACCA
(TVA
) con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)De
sign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AHR
I 95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
1347
MBh
36.3
37.1
39.7
42.4
35.5
36.3
38.8
41.4
34.7
35.4
37.8
40.4
33.8
34.5
36.9
39.5
32.1
32.8
35.1
37.5
29.8
30.4
32.5
34.7
S/T
0.93
0.87
0.71
0.53
0.96
0.90
0.73
0.55
1.00
0.92
0.75
0.56
1.00
0.95
0.78
0.58
1.00
1.00
0.81
0.60
1.00
1.00
0.81
0.61
Del
ta T
2322
1915
2322
1915
2422
1916
2322
2016
2222
1915
2021
1814
KW2.
192.
232.
302.
372.
352.
402.
472.
542.
492.
542.
622.
702.
612.
662.
752.
832.
712.
772.
862.
952.
802.
862.
953.
05AM
PS7.
47.
67.
78.
07.
98.
08.
28.
58.
48.
68.
89.
18.
99.
19.
39.
69.
49.
59.
810
.19.
810
.010
.310
.6H
I PR
225
242
256
267
253
272
287
299
287
309
326
340
327
352
372
388
368
396
418
436
407
438
462
482
LO P
R11
812
513
714
512
413
214
415
412
913
715
016
013
614
415
816
814
215
116
517
614
715
617
118
2
1199
MBh
35.3
36.1
38.5
41.2
34.5
35.2
37.6
40.2
33.6
34.4
36.7
39.3
32.8
33.5
35.8
38.3
31.2
31.9
34.0
36.4
28.9
29.5
31.5
33.7
S/T
0.88
0.83
0.67
0.50
0.92
0.86
0.70
0.52
0.94
0.88
0.72
0.54
0.97
0.91
0.74
0.55
1.00
0.94
0.77
0.57
1.00
0.95
0.77
0.58
Del
ta T
2423
2016
2423
2016
2423
2016
2423
2016
2423
2016
2222
1915
KW2.
182.
222.
282.
352.
332.
382.
452.
522.
472.
522.
602.
682.
592.
642.
732.
812.
692.
752.
832.
932.
782.
842.
933.
02AM
PS7.
47.
57.
77.
97.
88.
08.
28.
48.
48.
58.
89.
08.
89.
09.
29.
59.
39.
59.
710
.09.
79.
910
.210
.5H
I PR
223
240
253
264
250
269
284
296
284
306
323
337
324
348
368
384
364
392
414
432
403
433
457
477
LO P
R11
612
413
514
412
313
114
315
212
813
614
915
813
414
315
616
614
115
016
317
414
615
516
918
0
1062
MBh
33.5
34.3
36.6
39.1
32.7
33.5
35.7
38.2
32.0
32.7
34.9
37.3
31.2
31.9
34.0
36.4
29.6
30.3
32.3
34.6
27.4
28.0
30.0
32.0
S/T
0.85
0.79
0.65
0.48
0.88
0.82
0.67
0.50
0.90
0.84
0.69
0.51
0.93
0.87
0.71
0.53
0.96
0.90
0.74
0.55
0.97
0.91
0.74
0.55
Del
ta T
2524
2016
2524
2117
2524
2117
2524
2117
2524
2116
2322
1915
KW2.
142.
192.
252.
322.
302.
342.
412.
492.
432.
482.
562.
632.
552.
602.
682.
772.
652.
712.
792.
882.
742.
792.
882.
97AM
PS7.
37.
47.
67.
87.
77.
98.
18.
38.
28.
48.
68.
98.
78.
99.
19.
49.
19.
39.
69.
99.
69.
810
.110
.4H
I PR
218
235
248
259
245
264
278
290
279
300
317
330
317
342
361
376
357
384
406
423
394
425
448
468
LO P
R11
412
113
314
112
112
814
014
912
513
314
615
513
214
015
316
313
814
716
017
114
315
216
617
6
85
1347
MBh
37.0
37.7
39.5
42.1
36.1
36.8
38.6
41.1
35.3
35.9
37.6
40.2
34.4
35.1
36.7
39.2
32.7
33.3
34.9
37.2
30.3
30.9
32.3
34.5
S/T
0.97
0.94
0.85
0.69
1.00
0.97
0.88
0.71
1.00
1.00
0.90
0.73
1.00
1.00
0.93
0.75
1.00
1.00
0.96
0.78
1.00
1.00
0.97
0.79
Del
ta T
2524
2320
2524
2320
2424
2320
2324
2320
2223
2320
2121
2119
KW2.
212.
252.
322.
392.
372.
412.
492.
562.
512.
562.
642.
722.
632.
682.
772.
862.
732.
792.
882.
972.
832.
892.
983.
07AM
PS7.
57.
67.
88.
07.
98.
18.
38.
68.
58.
68.
99.
29.
09.
19.
49.
79.
49.
69.
910
.29.
910
.110
.410
.7H
I PR
227
245
258
269
255
274
290
302
290
312
330
344
330
356
375
392
372
400
422
440
411
442
467
487
LO P
R11
912
613
814
712
613
414
615
513
013
915
116
113
714
615
916
914
415
316
717
814
915
817
318
4
1199
MBh
35.9
36.6
38.3
40.9
35.1
35.7
37.4
39.9
34.2
34.9
36.5
39.0
33.4
34.0
35.7
38.0
31.7
32.3
33.9
36.1
29.4
30.0
31.4
33.5
S/T
0.93
0.89
0.81
0.65
0.96
0.93
0.84
0.68
0.98
0.95
0.86
0.70
1.00
0.98
0.89
0.72
1.00
1.00
0.92
0.75
1.00
1.00
0.93
0.75
Del
ta T
2625
2421
2625
2421
2625
2421
2626
2421
2425
2421
2323
2219
KW2.
192.
232.
302.
372.
352.
402.
472.
542.
492.
542.
622.
702.
612.
662.
752.
832.
712.
772.
862.
952.
802.
862.
953.
05AM
PS7.
47.
67.
78.
07.
98.
08.
28.
58.
48.
68.
89.
18.
99.
19.
39.
69.
49.
59.
810
.19.
810
.010
.310
.6H
I PR
225
242
256
267
253
272
287
299
287
309
326
340
327
352
372
388
368
396
418
436
407
438
462
482
LO P
R11
812
513
714
512
413
214
415
412
913
715
016
013
614
415
816
814
215
116
517
614
715
617
118
2
1062
MBh
34.1
34.8
36.4
38.8
33.3
34.0
35.6
37.9
32.5
33.2
34.7
37.0
31.7
32.3
33.9
36.1
30.1
30.7
32.2
34.3
27.9
28.5
29.8
31.8
S/T
0.89
0.86
0.77
0.63
0.92
0.89
0.80
0.65
0.94
0.91
0.82
0.67
0.97
0.94
0.85
0.69
1.00
0.97
0.88
0.71
1.00
0.98
0.89
0.72
Del
ta T
2626
2421
2726
2521
2726
2521
2726
2522
2626
2521
2424
2320
KW2.
162.
202.
272.
332.
312.
362.
432.
502.
452.
502.
582.
662.
572.
622.
702.
792.
672.
732.
812.
902.
762.
822.
913.
00AM
PS7.
37.
47.
67.
97.
87.
98.
18.
48.
38.
58.
78.
98.
88.
99.
29.
59.
29.
49.
710
.09.
79.
910
.110
.5H
I PR
221
237
251
261
247
266
281
293
281
303
320
334
321
345
364
380
361
388
410
427
398
429
453
472
LO P
R11
512
313
414
312
213
014
115
112
713
514
715
713
314
115
416
413
914
816
217
214
415
316
717
8ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
AHRI
con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)D
esig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI
95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
14 www.daikinac.com SS-DTG3
Expanded Cooling Data — 4 Tons (3-Phase Models)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
1796
MBh
46.4
48.1
52.7
-45
.347
.051
.4-
44.2
45.8
50.2
-43
.144
.749
.0-
41.0
42.5
46.5
-38
.039
.443
.1-
S/T
0.77
0.65
0.45
-0.
800.
670.
46-
0.82
0.69
0.48
-0.
850.
710.
49-
0.88
0.74
0.51
-0.
890.
740.
51-
Del
ta T
1816
12-
1916
12-
1916
12-
1916
12-
1816
12-
1715
11-
KW2.
943.
003.
09-
3.16
3.23
3.33
-3.
363.
433.
54-
3.53
3.61
3.73
-3.
683.
763.
89-
3.81
3.89
4.02
-AM
PS9.
49.
69.
8-
10.0
10.2
10.5
-10
.710
.911
.2-
11.3
11.5
11.9
-11
.912
.212
.5-
12.5
12.8
13.1
-H
I PR
236
254
268
-26
528
530
1-
301
324
342
-34
336
939
0-
386
415
439
-42
745
948
5-
LO P
R11
211
913
0-
119
126
138
-12
313
114
3-
130
138
150
-13
614
415
8-
140
149
163
-
1538
MBh
45.0
46.7
51.1
-44
.045
.649
.9-
42.9
44.5
48.8
-41
.943
.447
.6-
39.8
41.2
45.2
-36
.938
.241
.9-
S/T
0.74
0.62
0.43
-0.
760.
640.
44-
0.78
0.65
0.45
-0.
810.
680.
47-
0.84
0.70
0.49
-0.
850.
710.
49-
Del
ta T
2017
13-
2017
13-
2017
13-
2018
13-
2017
13-
1916
12-
KW2.
922.
983.
07-
3.14
3.20
3.31
-3.
333.
413.
51-
3.51
3.58
3.70
-3.
653.
733.
85-
3.78
3.86
3.99
-AM
PS9.
39.
59.
8-
9.9
10.1
10.4
-10
.610
.811
.1-
11.2
11.4
11.8
-11
.812
.112
.4-
12.4
12.7
13.0
-H
I PR
234
252
266
-26
228
229
8-
298
321
339
-34
036
638
6-
382
411
434
-42
245
548
0-
LO P
R11
111
812
9-
117
125
136
-12
213
014
2-
128
136
149
-13
414
315
6-
139
148
161
-
1416
MBh
44.4
46.0
50.4
-43
.344
.949
.2-
42.3
43.8
48.0
-41
.342
.846
.9-
39.2
40.6
44.5
-36
.337
.641
.2-
S/T
0.71
0.59
0.41
-0.
740.
620.
43-
0.76
0.63
0.44
-0.
780.
650.
45-
0.81
0.68
0.47
-0.
820.
680.
47-
Del
ta T
2018
13-
2118
14-
2118
14-
2118
14-
2118
14-
1917
13-
KW2.
882.
943.
03-
3.10
3.16
3.26
-3.
293.
363.
47-
3.46
3.53
3.65
-3.
603.
683.
80-
3.72
3.81
3.93
-AM
PS9.
29.
49.
6-
9.8
10.0
10.3
-10
.510
.711
.0-
11.1
11.3
11.6
-11
.711
.912
.2-
12.2
12.5
12.9
-H
I PR
230
247
261
-25
827
729
3-
293
316
333
-33
435
938
0-
376
404
427
-41
544
747
2-
LO P
R10
911
612
7-
115
123
134
-12
012
813
9-
126
134
146
-13
214
115
3-
137
145
159
-
75
1796
MBh
47.2
48.6
52.6
56.4
46.1
47.4
51.3
55.1
45.0
46.3
50.1
53.8
43.9
45.2
48.9
52.5
41.7
42.9
46.5
49.9
38.6
39.8
43.0
46.2
S/T
0.88
0.79
0.60
0.38
0.91
0.81
0.62
0.40
0.93
0.84
0.63
0.41
0.96
0.86
0.65
0.42
1.00
0.90
0.68
0.44
1.00
0.90
0.68
0.44
Del
ta T
2120
1611
2120
1611
2220
1611
2220
1611
2120
1611
2018
1510
KW2.
963.
033.
123.
223.
193.
263.
363.
473.
393.
463.
573.
693.
563.
643.
763.
893.
713.
803.
924.
053.
843.
934.
064.
19AM
PS9.
59.
69.
910
.210
.110
.310
.510
.910
.811
.011
.311
.711
.411
.611
.912
.312
.012
.312
.613
.012
.612
.913
.213
.7H
I PR
239
257
271
283
268
288
304
317
304
328
346
361
347
373
394
411
390
420
443
462
431
464
490
511
LO P
R11
312
113
214
012
012
813
914
812
513
314
515
413
113
915
216
213
714
615
917
014
215
116
517
5
1538
MBh
45.8
47.2
51.0
54.8
44.7
46.1
49.8
53.5
43.7
45.0
48.7
52.2
42.6
43.9
47.5
51.0
40.5
41.7
45.1
48.4
37.5
38.6
41.8
44.8
S/T
0.84
0.75
0.57
0.37
0.87
0.78
0.59
0.38
0.89
0.80
0.60
0.39
0.92
0.82
0.62
0.40
0.95
0.85
0.65
0.42
0.96
0.86
0.65
0.42
Del
ta T
2321
1712
2321
1812
2321
1812
2322
1812
2321
1712
2220
1611
KW2.
943.
003.
103.
193.
163.
233.
333.
443.
363.
433.
543.
663.
533.
613.
733.
853.
683.
763.
894.
023.
813.
904.
024.
16AM
PS9.
49.
69.
810
.110
.010
.210
.510
.810
.710
.911
.211
.611
.311
.511
.912
.211
.912
.212
.512
.912
.512
.813
.113
.6H
I PR
236
254
268
280
265
285
301
314
301
324
342
357
343
369
390
407
386
416
439
458
427
459
485
506
LO P
R11
212
013
013
911
912
613
814
712
313
114
315
313
013
815
016
013
614
415
816
814
014
916
317
4
1416
MBh
45.1
46.4
50.3
54.0
44.1
45.4
49.1
52.7
43.0
44.3
47.9
51.4
42.0
43.2
46.8
50.2
39.9
41.0
44.4
47.7
36.9
38.0
41.2
44.2
S/T
0.81
0.72
0.55
0.35
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.37
0.89
0.79
0.60
0.39
0.92
0.82
0.62
0.40
0.93
0.83
0.63
0.40
Del
ta T
2422
1812
2422
1812
2422
1813
2422
1813
2422
1812
2220
1712
KW2.
902.
963.
053.
153.
123.
193.
293.
393.
313.
393.
493.
613.
493.
563.
683.
803.
633.
713.
833.
963.
763.
843.
974.
10AM
PS9.
39.
59.
710
.09.
910
.110
.310
.710
.610
.811
.111
.411
.211
.411
.712
.111
.812
.012
.312
.712
.312
.613
.013
.4H
I PR
232
250
264
275
260
280
296
309
296
319
337
351
337
363
383
400
380
408
431
450
419
451
477
497
LO P
R11
011
712
813
711
712
413
514
412
112
914
115
012
713
514
815
813
314
215
516
513
814
716
017
1ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
ACCA
(TVA
) con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)De
sign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AHR
I 95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
1796
MBh
48.0
49.1
52.4
56.0
46.9
47.9
51.2
54.7
45.8
46.8
50.0
53.4
44.7
45.6
48.8
52.1
42.4
43.4
46.3
49.5
39.3
40.2
42.9
45.9
S/T
0.96
0.90
0.74
0.55
1.00
0.94
0.76
0.57
1.00
0.96
0.78
0.58
1.00
1.00
0.81
0.60
1.00
1.00
0.84
0.63
1.00
1.00
0.84
0.63
Del
ta T
2423
2016
2423
2016
2323
2016
2323
2016
2222
2016
2021
1915
KW2.
993.
053.
143.
253.
213.
283.
393.
503.
423.
493.
603.
723.
593.
673.
793.
923.
743.
833.
954.
093.
873.
964.
094.
23AM
PS9.
59.
710
.010
.310
.210
.310
.611
.010
.911
.111
.411
.711
.511
.712
.012
.412
.112
.312
.713
.112
.713
.013
.313
.8H
I PR
241
259
274
286
270
291
307
320
307
331
349
364
350
377
398
415
394
424
448
467
435
468
495
516
LO P
R11
512
213
314
212
112
914
115
012
613
414
615
613
214
115
416
313
914
716
117
114
315
216
617
7
1538
MBh
46.6
47.6
50.9
54.4
45.5
46.5
49.7
53.1
44.4
45.4
48.5
51.9
43.4
44.3
47.3
50.6
41.2
42.1
45.0
48.1
38.2
39.0
41.7
44.5
S/T
0.92
0.86
0.70
0.52
0.95
0.89
0.73
0.54
0.98
0.92
0.75
0.56
1.00
0.95
0.77
0.58
1.00
0.98
0.80
0.60
1.00
0.99
0.81
0.60
Del
ta T
2625
2117
2625
2217
2625
2217
2625
2217
2525
2117
2323
2016
KW2.
963.
033.
123.
223.
193.
263.
363.
473.
393.
463.
573.
693.
563.
643.
763.
893.
713.
803.
924.
053.
843.
934.
064.
20AM
PS9.
59.
69.
910
.210
.110
.310
.510
.910
.811
.011
.311
.711
.411
.612
.012
.312
.012
.312
.613
.012
.612
.913
.213
.7H
I PR
239
257
271
283
268
288
304
317
304
328
346
361
347
373
394
411
390
420
443
462
431
464
490
511
LO P
R11
312
113
214
012
012
813
914
812
513
314
515
413
113
915
216
213
714
615
917
014
215
116
517
5
1416
MBh
45.9
46.9
50.1
53.6
44.8
45.8
49.0
52.3
43.8
44.7
47.8
51.1
42.7
43.6
46.6
49.8
40.6
41.5
44.3
47.3
37.6
38.4
41.0
43.9
S/T
0.89
0.83
0.68
0.51
0.92
0.86
0.70
0.52
0.94
0.88
0.72
0.54
0.97
0.91
0.74
0.56
1.01
0.95
0.77
0.58
1.00
0.95
0.78
0.58
Del
ta T
2625
2218
2726
2218
2726
2218
2726
2218
2725
2218
2424
2117
KW2.
922.
983.
083.
183.
153.
213.
313.
423.
343.
413.
523.
643.
513.
593.
713.
833.
663.
743.
863.
993.
793.
874.
004.
13AM
PS9.
39.
59.
810
.110
.010
.110
.410
.710
.610
.911
.211
.511
.211
.511
.812
.211
.812
.112
.412
.812
.412
.713
.113
.5H
I PR
234
252
266
278
263
283
299
312
299
322
340
355
341
367
387
404
383
413
436
454
424
456
481
502
LO P
R11
211
913
013
811
812
513
714
612
213
014
215
112
913
714
915
913
514
315
716
713
914
816
217
2
85
1796
MBh
48.8
49.8
52.1
55.6
47.7
48.6
50.9
54.3
46.6
47.5
49.7
53.0
45.4
46.3
48.5
51.8
43.2
44.0
46.1
49.2
40.0
40.8
42.7
45.5
S/T
1.00
0.98
0.88
0.71
1.00
1.00
0.91
0.74
1.00
1.00
0.94
0.76
1.00
1.00
0.97
0.78
1.00
1.00
1.00
0.81
1.00
1.00
1.00
0.82
Del
ta T
2525
2420
2425
2421
2424
2421
2324
2421
2223
2420
2021
2219
KW3.
013.
073.
173.
273.
243.
313.
423.
533.
443.
523.
633.
753.
623.
703.
823.
953.
783.
863.
994.
123.
913.
994.
134.
27AM
PS9.
69.
810
.010
.310
.210
.410
.711
.010
.911
.211
.511
.811
.611
.812
.112
.512
.212
.412
.813
.212
.813
.113
.513
.9H
I PR
243
262
277
288
273
294
310
324
311
334
353
368
354
381
402
419
398
428
452
472
440
473
500
521
LO P
R11
612
313
414
312
213
014
215
112
713
514
815
713
414
215
516
514
014
916
217
314
515
416
817
9
1538
MBh
47.4
48.3
50.6
54.0
46.3
47.2
49.5
52.8
45.2
46.1
48.3
51.5
44.1
45.0
47.1
50.2
41.9
42.7
44.7
47.7
38.8
39.6
41.4
44.2
S/T
0.96
0.93
0.84
0.68
1.00
0.96
0.87
0.71
1.00
0.99
0.89
0.72
1.00
1.00
0.92
0.75
1.00
1.00
0.96
0.78
1.00
1.00
0.96
0.78
Del
ta T
2727
2522
2827
2622
2727
2622
2627
2622
2526
2622
2324
2421
KW2.
993.
053.
143.
253.
213.
283.
393.
503.
423.
493.
603.
723.
593.
673.
793.
923.
743.
833.
954.
093.
873.
964.
094.
23AM
PS9.
59.
710
.010
.310
.210
.310
.611
.010
.911
.111
.411
.711
.511
.712
.012
.412
.112
.312
.713
.112
.713
.013
.313
.8H
I PR
241
259
274
286
270
291
307
320
307
331
349
364
350
377
398
415
394
424
448
467
435
468
495
516
LO P
R11
512
213
314
212
112
914
115
012
613
414
615
613
214
115
416
313
914
716
117
114
315
216
617
7
1416
MBh
46.7
47.6
49.9
53.2
45.6
46.5
48.7
52.0
44.5
45.4
47.6
50.7
43.5
44.3
46.4
49.5
41.3
42.1
44.1
47.0
38.2
39.0
40.8
43.6
S/T
0.93
0.90
0.81
0.66
0.96
0.93
0.84
0.68
0.99
0.95
0.86
0.70
1.00
0.98
0.89
0.72
1.00
1.00
0.92
0.75
1.00
1.00
0.93
0.75
Del
ta T
2828
2623
2928
2723
2928
2723
2828
2723
2727
2623
2525
2521
KW2.
953.
013.
103.
203.
173.
243.
343.
453.
373.
443.
553.
673.
543.
623.
743.
863.
693.
773.
904.
033.
823.
904.
034.
17AM
PS9.
49.
69.
810
.110
.010
.210
.510
.810
.710
.911
.211
.611
.311
.611
.912
.311
.912
.212
.512
.912
.512
.813
.213
.6H
I PR
237
255
269
281
266
286
302
315
302
325
343
358
344
370
391
408
387
417
440
459
428
460
486
507
LO P
R11
312
013
113
911
912
713
814
712
413
214
415
313
013
815
116
113
614
515
816
814
115
016
417
4ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
AHRI
con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)D
esig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI
95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
SS-DTG3 www.daikinac.com 15
Expanded Cooling Data — 4 Tons (3-Phase Models) (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
1796
MBh
46.4
48.1
52.7
-45
.347
.051
.4-
44.2
45.8
50.2
-43
.144
.749
.0-
41.0
42.5
46.5
-38
.039
.443
.1-
S/T
0.77
0.65
0.45
-0.
800.
670.
46-
0.82
0.69
0.48
-0.
850.
710.
49-
0.88
0.74
0.51
-0.
890.
740.
51-
Del
ta T
1816
12-
1916
12-
1916
12-
1916
12-
1816
12-
1715
11-
KW2.
943.
003.
09-
3.16
3.23
3.33
-3.
363.
433.
54-
3.53
3.61
3.73
-3.
683.
763.
89-
3.81
3.89
4.02
-AM
PS9.
49.
69.
8-
10.0
10.2
10.5
-10
.710
.911
.2-
11.3
11.5
11.9
-11
.912
.212
.5-
12.5
12.8
13.1
-H
I PR
236
254
268
-26
528
530
1-
301
324
342
-34
336
939
0-
386
415
439
-42
745
948
5-
LO P
R11
211
913
0-
119
126
138
-12
313
114
3-
130
138
150
-13
614
415
8-
140
149
163
-
1538
MBh
45.0
46.7
51.1
-44
.045
.649
.9-
42.9
44.5
48.8
-41
.943
.447
.6-
39.8
41.2
45.2
-36
.938
.241
.9-
S/T
0.74
0.62
0.43
-0.
760.
640.
44-
0.78
0.65
0.45
-0.
810.
680.
47-
0.84
0.70
0.49
-0.
850.
710.
49-
Del
ta T
2017
13-
2017
13-
2017
13-
2018
13-
2017
13-
1916
12-
KW2.
922.
983.
07-
3.14
3.20
3.31
-3.
333.
413.
51-
3.51
3.58
3.70
-3.
653.
733.
85-
3.78
3.86
3.99
-AM
PS9.
39.
59.
8-
9.9
10.1
10.4
-10
.610
.811
.1-
11.2
11.4
11.8
-11
.812
.112
.4-
12.4
12.7
13.0
-H
I PR
234
252
266
-26
228
229
8-
298
321
339
-34
036
638
6-
382
411
434
-42
245
548
0-
LO P
R11
111
812
9-
117
125
136
-12
213
014
2-
128
136
149
-13
414
315
6-
139
148
161
-
1416
MBh
44.4
46.0
50.4
-43
.344
.949
.2-
42.3
43.8
48.0
-41
.342
.846
.9-
39.2
40.6
44.5
-36
.337
.641
.2-
S/T
0.71
0.59
0.41
-0.
740.
620.
43-
0.76
0.63
0.44
-0.
780.
650.
45-
0.81
0.68
0.47
-0.
820.
680.
47-
Del
ta T
2018
13-
2118
14-
2118
14-
2118
14-
2118
14-
1917
13-
KW2.
882.
943.
03-
3.10
3.16
3.26
-3.
293.
363.
47-
3.46
3.53
3.65
-3.
603.
683.
80-
3.72
3.81
3.93
-AM
PS9.
29.
49.
6-
9.8
10.0
10.3
-10
.510
.711
.0-
11.1
11.3
11.6
-11
.711
.912
.2-
12.2
12.5
12.9
-H
I PR
230
247
261
-25
827
729
3-
293
316
333
-33
435
938
0-
376
404
427
-41
544
747
2-
LO P
R10
911
612
7-
115
123
134
-12
012
813
9-
126
134
146
-13
214
115
3-
137
145
159
-
75
1796
MBh
47.2
48.6
52.6
56.4
46.1
47.4
51.3
55.1
45.0
46.3
50.1
53.8
43.9
45.2
48.9
52.5
41.7
42.9
46.5
49.9
38.6
39.8
43.0
46.2
S/T
0.88
0.79
0.60
0.38
0.91
0.81
0.62
0.40
0.93
0.84
0.63
0.41
0.96
0.86
0.65
0.42
1.00
0.90
0.68
0.44
1.00
0.90
0.68
0.44
Del
ta T
2120
1611
2120
1611
2220
1611
2220
1611
2120
1611
2018
1510
KW2.
963.
033.
123.
223.
193.
263.
363.
473.
393.
463.
573.
693.
563.
643.
763.
893.
713.
803.
924.
053.
843.
934.
064.
19AM
PS9.
59.
69.
910
.210
.110
.310
.510
.910
.811
.011
.311
.711
.411
.611
.912
.312
.012
.312
.613
.012
.612
.913
.213
.7H
I PR
239
257
271
283
268
288
304
317
304
328
346
361
347
373
394
411
390
420
443
462
431
464
490
511
LO P
R11
312
113
214
012
012
813
914
812
513
314
515
413
113
915
216
213
714
615
917
014
215
116
517
5
1538
MBh
45.8
47.2
51.0
54.8
44.7
46.1
49.8
53.5
43.7
45.0
48.7
52.2
42.6
43.9
47.5
51.0
40.5
41.7
45.1
48.4
37.5
38.6
41.8
44.8
S/T
0.84
0.75
0.57
0.37
0.87
0.78
0.59
0.38
0.89
0.80
0.60
0.39
0.92
0.82
0.62
0.40
0.95
0.85
0.65
0.42
0.96
0.86
0.65
0.42
Del
ta T
2321
1712
2321
1812
2321
1812
2322
1812
2321
1712
2220
1611
KW2.
943.
003.
103.
193.
163.
233.
333.
443.
363.
433.
543.
663.
533.
613.
733.
853.
683.
763.
894.
023.
813.
904.
024.
16AM
PS9.
49.
69.
810
.110
.010
.210
.510
.810
.710
.911
.211
.611
.311
.511
.912
.211
.912
.212
.512
.912
.512
.813
.113
.6H
I PR
236
254
268
280
265
285
301
314
301
324
342
357
343
369
390
407
386
416
439
458
427
459
485
506
LO P
R11
212
013
013
911
912
613
814
712
313
114
315
313
013
815
016
013
614
415
816
814
014
916
317
4
1416
MBh
45.1
46.4
50.3
54.0
44.1
45.4
49.1
52.7
43.0
44.3
47.9
51.4
42.0
43.2
46.8
50.2
39.9
41.0
44.4
47.7
36.9
38.0
41.2
44.2
S/T
0.81
0.72
0.55
0.35
0.84
0.75
0.57
0.36
0.86
0.77
0.58
0.37
0.89
0.79
0.60
0.39
0.92
0.82
0.62
0.40
0.93
0.83
0.63
0.40
Del
ta T
2422
1812
2422
1812
2422
1813
2422
1813
2422
1812
2220
1712
KW2.
902.
963.
053.
153.
123.
193.
293.
393.
313.
393.
493.
613.
493.
563.
683.
803.
633.
713.
833.
963.
763.
843.
974.
10AM
PS9.
39.
59.
710
.09.
910
.110
.310
.710
.610
.811
.111
.411
.211
.411
.712
.111
.812
.012
.312
.712
.312
.613
.013
.4H
I PR
232
250
264
275
260
280
296
309
296
319
337
351
337
363
383
400
380
408
431
450
419
451
477
497
LO P
R11
011
712
813
711
712
413
514
412
112
914
115
012
713
514
815
813
314
215
516
513
814
716
017
1ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
ACCA
(TVA
) con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)De
sign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AHR
I 95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
1796
MBh
48.0
49.1
52.4
56.0
46.9
47.9
51.2
54.7
45.8
46.8
50.0
53.4
44.7
45.6
48.8
52.1
42.4
43.4
46.3
49.5
39.3
40.2
42.9
45.9
S/T
0.96
0.90
0.74
0.55
1.00
0.94
0.76
0.57
1.00
0.96
0.78
0.58
1.00
1.00
0.81
0.60
1.00
1.00
0.84
0.63
1.00
1.00
0.84
0.63
Del
ta T
2423
2016
2423
2016
2323
2016
2323
2016
2222
2016
2021
1915
KW2.
993.
053.
143.
253.
213.
283.
393.
503.
423.
493.
603.
723.
593.
673.
793.
923.
743.
833.
954.
093.
873.
964.
094.
23AM
PS9.
59.
710
.010
.310
.210
.310
.611
.010
.911
.111
.411
.711
.511
.712
.012
.412
.112
.312
.713
.112
.713
.013
.313
.8H
I PR
241
259
274
286
270
291
307
320
307
331
349
364
350
377
398
415
394
424
448
467
435
468
495
516
LO P
R11
512
213
314
212
112
914
115
012
613
414
615
613
214
115
416
313
914
716
117
114
315
216
617
7
1538
MBh
46.6
47.6
50.9
54.4
45.5
46.5
49.7
53.1
44.4
45.4
48.5
51.9
43.4
44.3
47.3
50.6
41.2
42.1
45.0
48.1
38.2
39.0
41.7
44.5
S/T
0.92
0.86
0.70
0.52
0.95
0.89
0.73
0.54
0.98
0.92
0.75
0.56
1.00
0.95
0.77
0.58
1.00
0.98
0.80
0.60
1.00
0.99
0.81
0.60
Del
ta T
2625
2117
2625
2217
2625
2217
2625
2217
2525
2117
2323
2016
KW2.
963.
033.
123.
223.
193.
263.
363.
473.
393.
463.
573.
693.
563.
643.
763.
893.
713.
803.
924.
053.
843.
934.
064.
20AM
PS9.
59.
69.
910
.210
.110
.310
.510
.910
.811
.011
.311
.711
.411
.612
.012
.312
.012
.312
.613
.012
.612
.913
.213
.7H
I PR
239
257
271
283
268
288
304
317
304
328
346
361
347
373
394
411
390
420
443
462
431
464
490
511
LO P
R11
312
113
214
012
012
813
914
812
513
314
515
413
113
915
216
213
714
615
917
014
215
116
517
5
1416
MBh
45.9
46.9
50.1
53.6
44.8
45.8
49.0
52.3
43.8
44.7
47.8
51.1
42.7
43.6
46.6
49.8
40.6
41.5
44.3
47.3
37.6
38.4
41.0
43.9
S/T
0.89
0.83
0.68
0.51
0.92
0.86
0.70
0.52
0.94
0.88
0.72
0.54
0.97
0.91
0.74
0.56
1.01
0.95
0.77
0.58
1.00
0.95
0.78
0.58
Del
ta T
2625
2218
2726
2218
2726
2218
2726
2218
2725
2218
2424
2117
KW2.
922.
983.
083.
183.
153.
213.
313.
423.
343.
413.
523.
643.
513.
593.
713.
833.
663.
743.
863.
993.
793.
874.
004.
13AM
PS9.
39.
59.
810
.110
.010
.110
.410
.710
.610
.911
.211
.511
.211
.511
.812
.211
.812
.112
.412
.812
.412
.713
.113
.5H
I PR
234
252
266
278
263
283
299
312
299
322
340
355
341
367
387
404
383
413
436
454
424
456
481
502
LO P
R11
211
913
013
811
812
513
714
612
213
014
215
112
913
714
915
913
514
315
716
713
914
816
217
2
85
1796
MBh
48.8
49.8
52.1
55.6
47.7
48.6
50.9
54.3
46.6
47.5
49.7
53.0
45.4
46.3
48.5
51.8
43.2
44.0
46.1
49.2
40.0
40.8
42.7
45.5
S/T
1.00
0.98
0.88
0.71
1.00
1.00
0.91
0.74
1.00
1.00
0.94
0.76
1.00
1.00
0.97
0.78
1.00
1.00
1.00
0.81
1.00
1.00
1.00
0.82
Del
ta T
2525
2420
2425
2421
2424
2421
2324
2421
2223
2420
2021
2219
KW3.
013.
073.
173.
273.
243.
313.
423.
533.
443.
523.
633.
753.
623.
703.
823.
953.
783.
863.
994.
123.
913.
994.
134.
27AM
PS9.
69.
810
.010
.310
.210
.410
.711
.010
.911
.211
.511
.811
.611
.812
.112
.512
.212
.412
.813
.212
.813
.113
.513
.9H
I PR
243
262
277
288
273
294
310
324
311
334
353
368
354
381
402
419
398
428
452
472
440
473
500
521
LO P
R11
612
313
414
312
213
014
215
112
713
514
815
713
414
215
516
514
014
916
217
314
515
416
817
9
1538
MBh
47.4
48.3
50.6
54.0
46.3
47.2
49.5
52.8
45.2
46.1
48.3
51.5
44.1
45.0
47.1
50.2
41.9
42.7
44.7
47.7
38.8
39.6
41.4
44.2
S/T
0.96
0.93
0.84
0.68
1.00
0.96
0.87
0.71
1.00
0.99
0.89
0.72
1.00
1.00
0.92
0.75
1.00
1.00
0.96
0.78
1.00
1.00
0.96
0.78
Del
ta T
2727
2522
2827
2622
2727
2622
2627
2622
2526
2622
2324
2421
KW2.
993.
053.
143.
253.
213.
283.
393.
503.
423.
493.
603.
723.
593.
673.
793.
923.
743.
833.
954.
093.
873.
964.
094.
23AM
PS9.
59.
710
.010
.310
.210
.310
.611
.010
.911
.111
.411
.711
.511
.712
.012
.412
.112
.312
.713
.112
.713
.013
.313
.8H
I PR
241
259
274
286
270
291
307
320
307
331
349
364
350
377
398
415
394
424
448
467
435
468
495
516
LO P
R11
512
213
314
212
112
914
115
012
613
414
615
613
214
115
416
313
914
716
117
114
315
216
617
7
1416
MBh
46.7
47.6
49.9
53.2
45.6
46.5
48.7
52.0
44.5
45.4
47.6
50.7
43.5
44.3
46.4
49.5
41.3
42.1
44.1
47.0
38.2
39.0
40.8
43.6
S/T
0.93
0.90
0.81
0.66
0.96
0.93
0.84
0.68
0.99
0.95
0.86
0.70
1.00
0.98
0.89
0.72
1.00
1.00
0.92
0.75
1.00
1.00
0.93
0.75
Del
ta T
2828
2623
2928
2723
2928
2723
2828
2723
2727
2623
2525
2521
KW2.
953.
013.
103.
203.
173.
243.
343.
453.
373.
443.
553.
673.
543.
623.
743.
863.
693.
773.
904.
033.
823.
904.
034.
17AM
PS9.
49.
69.
810
.110
.010
.210
.510
.810
.710
.911
.211
.611
.311
.611
.912
.311
.912
.212
.512
.912
.512
.813
.213
.6H
I PR
237
255
269
281
266
286
302
315
302
325
343
358
344
370
391
408
387
417
440
459
428
460
486
507
LO P
R11
312
013
113
911
912
713
814
712
413
214
415
313
013
815
116
113
614
515
816
814
115
016
417
4ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
AHRI
con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)D
esig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI
95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
16 www.daikinac.com SS-DTG3
Expanded Cooling Data — 5 Tons (3-Phase Models)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
2244
MBh
59.1
61.3
67.1
-57
.759
.865
.6-
56.4
58.4
64.0
-55
.057
.062
.4-
52.2
54.1
59.3
-48
.450
.254
.9-
S/T
0.75
0.63
0.43
-0.
780.
650.
45-
0.80
0.67
0.46
-0.
820.
690.
48-
0.85
0.71
0.49
-0.
860.
720.
50-
Del
ta T
1816
12-
1816
12-
1816
12-
1916
12-
1816
12-
1715
11-
KW3.
763.
833.
95-
4.03
4.11
4.24
-4.
274.
364.
49-
4.48
4.58
4.72
-4.
664.
764.
91-
4.82
4.92
5.08
-AM
PS11
.912
.212
.5-
12.7
12.9
13.2
-13
.513
.714
.1-
14.2
14.5
14.9
-14
.915
.215
.6-
15.6
16.0
16.4
-H
I PR
239
258
272
-26
928
930
5-
306
329
347
-34
837
539
6-
392
421
445
-43
346
649
2-
LO P
R11
211
913
0-
118
126
137
-12
313
114
3-
129
137
150
-13
514
415
7-
140
149
163
-
2004
MBh
58.2
60.4
66.1
-56
.959
.064
.6-
55.5
57.6
63.1
-54
.256
.161
.5-
51.5
53.3
58.4
-47
.749
.454
.1-
S/T
0.72
0.60
0.42
-0.
740.
620.
43-
0.76
0.64
0.44
-0.
790.
660.
46-
0.82
0.68
0.47
-0.
820.
690.
48-
Del
ta T
1917
13-
1917
13-
1917
13-
2017
13-
1917
13-
1816
12-
KW3.
743.
813.
93-
4.01
4.09
4.21
-4.
254.
344.
47-
4.46
4.55
4.69
-4.
644.
744.
88-
4.79
4.89
5.05
-AM
PS11
.912
.112
.4-
12.6
12.8
13.2
-13
.413
.714
.0-
14.1
14.4
14.8
-14
.915
.215
.6-
15.6
15.9
16.3
-H
I PR
238
256
270
-26
728
730
3-
303
327
345
-34
637
239
3-
389
418
442
-43
046
248
8-
LO P
R11
111
812
9-
117
125
136
-12
213
014
2-
128
136
149
-13
414
315
6-
139
148
161
-
1770
MBh
55.3
57.3
62.8
-54
.056
.061
.4-
52.8
54.7
59.9
-51
.553
.358
.4-
48.9
50.7
55.5
-45
.346
.951
.4-
S/T
0.69
0.57
0.40
-0.
710.
600.
41-
0.73
0.61
0.42
-0.
750.
630.
44-
0.78
0.65
0.45
-0.
790.
660.
46-
Del
ta T
2017
13-
2017
13-
2017
13-
2017
13-
2017
13-
1916
12-
KW3.
683.
763.
87-
3.95
4.03
4.15
-4.
184.
274.
40-
4.39
4.48
4.62
-4.
564.
664.
81-
4.71
4.81
4.97
-AM
PS11
.711
.912
.2-
12.4
12.7
13.0
-13
.213
.513
.8-
13.9
14.2
14.6
-14
.614
.915
.3-
15.3
15.6
16.1
-H
I PR
233
251
265
-26
228
129
7-
297
320
338
-33
936
538
5-
381
410
433
-42
145
347
8-
LO P
R10
911
612
7-
115
122
134
-12
012
713
9-
126
134
146
-13
214
015
3-
136
145
158
-
75
2244
MBh
60.1
61.9
67.0
71.9
58.7
60.5
65.4
70.2
57.3
59.0
63.9
68.6
55.9
57.6
62.3
66.9
53.1
54.7
59.2
63.5
49.2
50.7
54.8
58.9
S/T
0.85
0.76
0.58
0.37
0.88
0.79
0.60
0.38
0.91
0.81
0.61
0.39
0.94
0.84
0.63
0.41
0.97
0.87
0.66
0.42
0.98
0.88
0.66
0.43
Del
ta T
2119
1611
2120
1611
2120
1611
2120
1611
2119
1611
2018
1510
KW3.
793.
863.
984.
104.
064.
144.
274.
404.
304.
394.
534.
674.
524.
614.
764.
914.
704.
804.
955.
114.
864.
965.
125.
29AM
PS12
.012
.212
.512
.912
.713
.013
.313
.713
.613
.914
.214
.614
.314
.615
.015
.415
.115
.315
.816
.215
.816
.116
.517
.0H
I PR
242
260
275
287
271
292
308
322
309
332
351
366
352
378
400
417
396
426
450
469
437
470
497
518
LO P
R11
312
013
114
012
012
713
914
812
413
214
415
413
013
915
216
113
714
515
916
914
115
016
417
5
2004
MBh
59.2
61.0
66.0
70.8
57.8
59.6
64.5
69.2
56.5
58.1
62.9
67.5
55.1
56.7
61.4
65.9
52.3
53.9
58.3
62.6
48.5
49.9
54.0
58.0
S/T
0.82
0.73
0.55
0.36
0.85
0.76
0.57
0.37
0.87
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.94
0.84
0.63
0.41
Del
ta T
2220
1712
2221
1712
2221
1712
2321
1712
2221
1712
2119
1611
KW3.
773.
843.
964.
084.
044.
124.
254.
384.
284.
374.
504.
654.
494.
594.
734.
884.
674.
774.
925.
084.
834.
935.
095.
26AM
PS12
.012
.212
.512
.812
.712
.913
.213
.613
.513
.814
.114
.614
.214
.514
.915
.415
.015
.315
.716
.215
.716
.016
.417
.0H
I PR
240
259
273
285
270
290
306
319
307
330
348
363
349
376
397
414
393
423
446
466
434
467
493
514
LO P
R11
212
013
013
911
912
613
814
712
313
114
315
313
013
815
016
013
614
415
816
814
014
916
317
4
1770
MBh
56.3
57.9
62.7
67.3
55.0
56.6
61.2
65.7
53.6
55.2
59.8
64.2
52.3
53.9
58.3
62.6
49.7
51.2
55.4
59.5
46.1
47.4
51.3
55.1
S/T
0.78
0.70
0.53
0.34
0.81
0.73
0.55
0.35
0.83
0.74
0.56
0.36
0.86
0.77
0.58
0.37
0.89
0.80
0.60
0.39
0.90
0.80
0.61
0.39
Del
ta T
2321
1712
2321
1712
2321
1712
2321
1812
2321
1712
2120
1611
KW3.
713.
783.
904.
013.
984.
064.
184.
314.
214.
304.
434.
574.
424.
524.
664.
804.
604.
704.
855.
004.
754.
855.
015.
17AM
PS11
.812
.012
.312
.712
.512
.713
.113
.413
.313
.613
.914
.314
.014
.314
.715
.114
.815
.015
.415
.915
.515
.816
.216
.7H
I PR
235
253
268
279
264
284
300
313
300
323
341
356
342
368
389
406
385
414
437
456
425
458
483
504
LO P
R11
011
712
813
611
612
413
514
412
112
914
015
012
713
514
715
713
314
215
516
513
814
616
017
0ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
ACCA
(TVA
) con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)De
sign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AHR
I 95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
2244
MBh
61.2
62.5
66.8
71.4
59.8
61.1
65.2
69.7
58.3
59.6
63.7
68.1
56.9
58.2
62.1
66.4
54.1
55.2
59.0
63.1
50.1
51.2
54.7
58.4
S/T
0.94
0.88
0.71
0.53
0.97
0.91
0.74
0.55
1.00
0.93
0.76
0.57
1.00
0.96
0.78
0.59
1.00
1.00
0.81
0.61
1.00
1.00
0.82
0.61
Del
ta T
2322
2016
2423
2016
2423
2016
2323
2016
2223
2016
2121
1815
KW3.
823.
894.
014.
134.
094.
184.
304.
444.
344.
434.
574.
714.
554.
654.
804.
954.
744.
844.
995.
154.
905.
005.
165.
33AM
PS12
.112
.312
.613
.012
.813
.113
.413
.813
.714
.014
.314
.714
.414
.715
.115
.615
.215
.515
.916
.415
.916
.216
.717
.2H
I PR
244
263
278
290
274
295
312
325
312
336
354
370
355
382
404
421
400
430
454
474
441
475
502
523
LO P
R11
412
213
314
112
112
814
014
912
513
314
615
513
214
015
316
313
814
716
017
114
315
216
617
7
2004
MBh
60.3
61.6
65.8
70.3
58.9
60.2
64.3
68.7
57.5
58.7
62.7
67.1
56.1
57.3
61.2
65.4
53.3
54.4
58.2
62.2
49.3
50.4
53.9
57.6
S/T
0.90
0.84
0.68
0.51
0.93
0.87
0.71
0.53
0.95
0.89
0.73
0.54
0.98
0.92
0.75
0.56
1.00
0.96
0.78
0.58
1.00
0.96
0.78
0.59
Del
ta T
2524
2116
2524
2117
2524
2117
2524
2117
2424
2117
2322
1915
KW3.
803.
873.
994.
114.
074.
154.
284.
414.
314.
404.
544.
684.
534.
624.
774.
924.
714.
814.
965.
134.
874.
975.
135.
30AM
PS12
.012
.312
.612
.912
.813
.013
.313
.713
.613
.914
.214
.714
.414
.615
.015
.515
.115
.415
.816
.315
.816
.116
.617
.1H
I PR
243
261
276
288
272
293
309
323
310
333
352
367
353
380
401
418
397
427
451
470
438
472
498
520
LO P
R11
312
113
214
012
012
813
914
812
513
314
515
413
113
915
216
213
714
615
917
014
215
116
517
5
1770
MBh
57.3
58.5
62.5
66.8
55.9
57.2
61.1
65.3
54.6
55.8
59.6
63.7
53.3
54.4
58.2
62.2
50.6
51.7
55.2
59.1
46.9
47.9
51.2
54.7
S/T
0.86
0.80
0.65
0.49
0.89
0.83
0.68
0.51
0.91
0.86
0.70
0.52
0.94
0.88
0.72
0.54
0.98
0.92
0.75
0.56
0.99
0.92
0.75
0.56
Del
ta T
2624
2117
2625
2217
2625
2217
2625
2217
2625
2117
2423
2016
KW3.
743.
813.
934.
054.
014.
094.
214.
344.
254.
344.
474.
614.
464.
554.
694.
844.
644.
744.
885.
044.
794.
895.
055.
21AM
PS11
.912
.112
.412
.712
.612
.813
.213
.513
.413
.714
.014
.514
.114
.414
.815
.214
.915
.215
.616
.015
.615
.916
.316
.8H
I PR
238
256
270
282
267
287
303
316
303
327
345
360
346
372
393
410
389
418
442
461
430
462
488
509
LO P
R11
111
812
913
811
712
513
614
512
213
014
215
112
813
614
915
913
414
315
616
613
914
816
117
2
85
2244
MBh
62.2
63.5
66.5
70.9
60.8
62.0
64.9
69.3
59.4
60.5
63.4
67.6
57.9
59.0
61.8
66.0
55.0
56.1
58.7
62.7
51.0
51.9
54.4
58.0
S/T
0.98
0.95
0.85
0.69
1.00
0.98
0.89
0.72
1.00
1.00
0.91
0.74
1.00
1.00
0.94
0.76
1.00
1.00
0.97
0.79
1.00
1.00
0.98
0.80
Del
ta T
2525
2320
2525
2420
2425
2420
2424
2421
2323
2320
2121
2219
KW3.
843.
924.
044.
164.
124.
214.
344.
474.
374.
464.
604.
754.
594.
694.
844.
994.
784.
885.
035.
204.
945.
045.
205.
37AM
PS12
.212
.412
.713
.112
.913
.213
.513
.913
.814
.114
.414
.814
.514
.815
.215
.715
.315
.616
.016
.516
.016
.316
.817
.3H
I PR
247
266
280
293
277
298
315
328
315
339
358
373
359
386
408
425
404
434
459
478
446
480
507
528
LO P
R11
512
313
414
312
213
014
215
112
713
514
715
713
314
215
516
513
914
816
217
314
415
416
817
8
2004
MBh
61.3
62.5
65.5
69.9
59.9
61.1
64.0
68.2
58.5
59.6
62.4
66.6
57.1
58.2
60.9
65.0
54.2
55.2
57.9
61.7
50.2
51.2
53.6
57.2
S/T
0.94
0.91
0.82
0.66
0.97
0.94
0.85
0.69
1.00
0.96
0.87
0.71
1.00
0.99
0.90
0.73
1.00
1.00
0.93
0.76
1.00
1.00
0.94
0.76
Del
ta T
2626
2521
2726
2522
2726
2522
2627
2522
2525
2521
2323
2320
KW3.
823.
904.
024.
144.
104.
194.
314.
454.
354.
444.
584.
724.
574.
664.
814.
964.
754.
855.
005.
174.
915.
015.
175.
34AM
PS12
.112
.312
.713
.012
.913
.113
.413
.813
.714
.014
.314
.814
.514
.715
.115
.615
.215
.515
.916
.415
.916
.216
.717
.2H
I PR
245
264
279
290
275
296
313
326
313
337
355
371
356
383
405
422
401
431
455
475
443
477
503
525
LO P
R11
512
213
314
212
112
914
115
012
613
414
615
613
214
115
416
313
914
716
117
114
315
216
617
7
1770
MBh
58.3
59.4
62.2
66.4
56.9
58.0
60.8
64.8
55.6
56.6
59.3
63.3
54.2
55.2
57.9
61.7
51.5
52.5
55.0
58.6
47.7
48.6
50.9
54.3
S/T
0.90
0.87
0.78
0.64
0.93
0.90
0.81
0.66
0.96
0.92
0.83
0.68
0.99
0.95
0.86
0.70
1.00
0.99
0.89
0.72
1.00
1.00
0.90
0.73
Del
ta T
2727
2522
2827
2622
2827
2622
2827
2622
2727
2522
2525
2421
KW3.
773.
843.
964.
084.
044.
124.
254.
384.
284.
374.
504.
654.
494.
594.
734.
884.
674.
774.
925.
084.
834.
935.
095.
26AM
PS12
.012
.212
.512
.812
.712
.913
.213
.613
.513
.814
.114
.614
.214
.514
.915
.415
.015
.315
.716
.215
.716
.016
.416
.9H
I PR
240
258
273
285
270
290
306
319
307
330
348
363
349
376
397
414
393
423
446
465
434
467
493
514
LO P
R11
211
913
013
911
912
613
814
712
313
114
315
313
013
815
016
013
614
415
816
814
014
916
317
4ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
AHRI
con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)D
esig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI
95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
SS-DTG3 www.daikinac.com 17
Expanded Cooling Data — 5 Tons (3-Phase Models) (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
70
2244
MBh
59.1
61.3
67.1
-57
.759
.865
.6-
56.4
58.4
64.0
-55
.057
.062
.4-
52.2
54.1
59.3
-48
.450
.254
.9-
S/T
0.75
0.63
0.43
-0.
780.
650.
45-
0.80
0.67
0.46
-0.
820.
690.
48-
0.85
0.71
0.49
-0.
860.
720.
50-
Del
ta T
1816
12-
1816
12-
1816
12-
1916
12-
1816
12-
1715
11-
KW3.
763.
833.
95-
4.03
4.11
4.24
-4.
274.
364.
49-
4.48
4.58
4.72
-4.
664.
764.
91-
4.82
4.92
5.08
-AM
PS11
.912
.212
.5-
12.7
12.9
13.2
-13
.513
.714
.1-
14.2
14.5
14.9
-14
.915
.215
.6-
15.6
16.0
16.4
-H
I PR
239
258
272
-26
928
930
5-
306
329
347
-34
837
539
6-
392
421
445
-43
346
649
2-
LO P
R11
211
913
0-
118
126
137
-12
313
114
3-
129
137
150
-13
514
415
7-
140
149
163
-
2004
MBh
58.2
60.4
66.1
-56
.959
.064
.6-
55.5
57.6
63.1
-54
.256
.161
.5-
51.5
53.3
58.4
-47
.749
.454
.1-
S/T
0.72
0.60
0.42
-0.
740.
620.
43-
0.76
0.64
0.44
-0.
790.
660.
46-
0.82
0.68
0.47
-0.
820.
690.
48-
Del
ta T
1917
13-
1917
13-
1917
13-
2017
13-
1917
13-
1816
12-
KW3.
743.
813.
93-
4.01
4.09
4.21
-4.
254.
344.
47-
4.46
4.55
4.69
-4.
644.
744.
88-
4.79
4.89
5.05
-AM
PS11
.912
.112
.4-
12.6
12.8
13.2
-13
.413
.714
.0-
14.1
14.4
14.8
-14
.915
.215
.6-
15.6
15.9
16.3
-H
I PR
238
256
270
-26
728
730
3-
303
327
345
-34
637
239
3-
389
418
442
-43
046
248
8-
LO P
R11
111
812
9-
117
125
136
-12
213
014
2-
128
136
149
-13
414
315
6-
139
148
161
-
1770
MBh
55.3
57.3
62.8
-54
.056
.061
.4-
52.8
54.7
59.9
-51
.553
.358
.4-
48.9
50.7
55.5
-45
.346
.951
.4-
S/T
0.69
0.57
0.40
-0.
710.
600.
41-
0.73
0.61
0.42
-0.
750.
630.
44-
0.78
0.65
0.45
-0.
790.
660.
46-
Del
ta T
2017
13-
2017
13-
2017
13-
2017
13-
2017
13-
1916
12-
KW3.
683.
763.
87-
3.95
4.03
4.15
-4.
184.
274.
40-
4.39
4.48
4.62
-4.
564.
664.
81-
4.71
4.81
4.97
-AM
PS11
.711
.912
.2-
12.4
12.7
13.0
-13
.213
.513
.8-
13.9
14.2
14.6
-14
.614
.915
.3-
15.3
15.6
16.1
-H
I PR
233
251
265
-26
228
129
7-
297
320
338
-33
936
538
5-
381
410
433
-42
145
347
8-
LO P
R10
911
612
7-
115
122
134
-12
012
713
9-
126
134
146
-13
214
015
3-
136
145
158
-
75
2244
MBh
60.1
61.9
67.0
71.9
58.7
60.5
65.4
70.2
57.3
59.0
63.9
68.6
55.9
57.6
62.3
66.9
53.1
54.7
59.2
63.5
49.2
50.7
54.8
58.9
S/T
0.85
0.76
0.58
0.37
0.88
0.79
0.60
0.38
0.91
0.81
0.61
0.39
0.94
0.84
0.63
0.41
0.97
0.87
0.66
0.42
0.98
0.88
0.66
0.43
Del
ta T
2119
1611
2120
1611
2120
1611
2120
1611
2119
1611
2018
1510
KW3.
793.
863.
984.
104.
064.
144.
274.
404.
304.
394.
534.
674.
524.
614.
764.
914.
704.
804.
955.
114.
864.
965.
125.
29AM
PS12
.012
.212
.512
.912
.713
.013
.313
.713
.613
.914
.214
.614
.314
.615
.015
.415
.115
.315
.816
.215
.816
.116
.517
.0H
I PR
242
260
275
287
271
292
308
322
309
332
351
366
352
378
400
417
396
426
450
469
437
470
497
518
LO P
R11
312
013
114
012
012
713
914
812
413
214
415
413
013
915
216
113
714
515
916
914
115
016
417
5
2004
MBh
59.2
61.0
66.0
70.8
57.8
59.6
64.5
69.2
56.5
58.1
62.9
67.5
55.1
56.7
61.4
65.9
52.3
53.9
58.3
62.6
48.5
49.9
54.0
58.0
S/T
0.82
0.73
0.55
0.36
0.85
0.76
0.57
0.37
0.87
0.78
0.59
0.38
0.90
0.80
0.61
0.39
0.93
0.83
0.63
0.40
0.94
0.84
0.63
0.41
Del
ta T
2220
1712
2221
1712
2221
1712
2321
1712
2221
1712
2119
1611
KW3.
773.
843.
964.
084.
044.
124.
254.
384.
284.
374.
504.
654.
494.
594.
734.
884.
674.
774.
925.
084.
834.
935.
095.
26AM
PS12
.012
.212
.512
.812
.712
.913
.213
.613
.513
.814
.114
.614
.214
.514
.915
.415
.015
.315
.716
.215
.716
.016
.417
.0H
I PR
240
259
273
285
270
290
306
319
307
330
348
363
349
376
397
414
393
423
446
466
434
467
493
514
LO P
R11
212
013
013
911
912
613
814
712
313
114
315
313
013
815
016
013
614
415
816
814
014
916
317
4
1770
MBh
56.3
57.9
62.7
67.3
55.0
56.6
61.2
65.7
53.6
55.2
59.8
64.2
52.3
53.9
58.3
62.6
49.7
51.2
55.4
59.5
46.1
47.4
51.3
55.1
S/T
0.78
0.70
0.53
0.34
0.81
0.73
0.55
0.35
0.83
0.74
0.56
0.36
0.86
0.77
0.58
0.37
0.89
0.80
0.60
0.39
0.90
0.80
0.61
0.39
Del
ta T
2321
1712
2321
1712
2321
1712
2321
1812
2321
1712
2120
1611
KW3.
713.
783.
904.
013.
984.
064.
184.
314.
214.
304.
434.
574.
424.
524.
664.
804.
604.
704.
855.
004.
754.
855.
015.
17AM
PS11
.812
.012
.312
.712
.512
.713
.113
.413
.313
.613
.914
.314
.014
.314
.715
.114
.815
.015
.415
.915
.515
.816
.216
.7H
I PR
235
253
268
279
264
284
300
313
300
323
341
356
342
368
389
406
385
414
437
456
425
458
483
504
LO P
R11
011
712
813
611
612
413
514
412
112
914
015
012
713
514
715
713
314
215
516
513
814
616
017
0ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
ACCA
(TVA
) con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)De
sign
Subc
oolin
g, 1
2±3
°F @
the
liqui
d ac
cess
fitti
ng c
onne
ction
AHR
I 95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
reID
BAi
rflo
w59
6367
7159
6367
7159
6367
7159
6367
7159
6367
7159
6367
71
80
2244
MBh
61.2
62.5
66.8
71.4
59.8
61.1
65.2
69.7
58.3
59.6
63.7
68.1
56.9
58.2
62.1
66.4
54.1
55.2
59.0
63.1
50.1
51.2
54.7
58.4
S/T
0.94
0.88
0.71
0.53
0.97
0.91
0.74
0.55
1.00
0.93
0.76
0.57
1.00
0.96
0.78
0.59
1.00
1.00
0.81
0.61
1.00
1.00
0.82
0.61
Del
ta T
2322
2016
2423
2016
2423
2016
2323
2016
2223
2016
2121
1815
KW3.
823.
894.
014.
134.
094.
184.
304.
444.
344.
434.
574.
714.
554.
654.
804.
954.
744.
844.
995.
154.
905.
005.
165.
33AM
PS12
.112
.312
.613
.012
.813
.113
.413
.813
.714
.014
.314
.714
.414
.715
.115
.615
.215
.515
.916
.415
.916
.216
.717
.2H
I PR
244
263
278
290
274
295
312
325
312
336
354
370
355
382
404
421
400
430
454
474
441
475
502
523
LO P
R11
412
213
314
112
112
814
014
912
513
314
615
513
214
015
316
313
814
716
017
114
315
216
617
7
2004
MBh
60.3
61.6
65.8
70.3
58.9
60.2
64.3
68.7
57.5
58.7
62.7
67.1
56.1
57.3
61.2
65.4
53.3
54.4
58.2
62.2
49.3
50.4
53.9
57.6
S/T
0.90
0.84
0.68
0.51
0.93
0.87
0.71
0.53
0.95
0.89
0.73
0.54
0.98
0.92
0.75
0.56
1.00
0.96
0.78
0.58
1.00
0.96
0.78
0.59
Del
ta T
2524
2116
2524
2117
2524
2117
2524
2117
2424
2117
2322
1915
KW3.
803.
873.
994.
114.
074.
154.
284.
414.
314.
404.
544.
684.
534.
624.
774.
924.
714.
814.
965.
134.
874.
975.
135.
30AM
PS12
.012
.312
.612
.912
.813
.013
.313
.713
.613
.914
.214
.714
.414
.615
.015
.515
.115
.415
.816
.315
.816
.116
.617
.1H
I PR
243
261
276
288
272
293
309
323
310
333
352
367
353
380
401
418
397
427
451
470
438
472
498
520
LO P
R11
312
113
214
012
012
813
914
812
513
314
515
413
113
915
216
213
714
615
917
014
215
116
517
5
1770
MBh
57.3
58.5
62.5
66.8
55.9
57.2
61.1
65.3
54.6
55.8
59.6
63.7
53.3
54.4
58.2
62.2
50.6
51.7
55.2
59.1
46.9
47.9
51.2
54.7
S/T
0.86
0.80
0.65
0.49
0.89
0.83
0.68
0.51
0.91
0.86
0.70
0.52
0.94
0.88
0.72
0.54
0.98
0.92
0.75
0.56
0.99
0.92
0.75
0.56
Del
ta T
2624
2117
2625
2217
2625
2217
2625
2217
2625
2117
2423
2016
KW3.
743.
813.
934.
054.
014.
094.
214.
344.
254.
344.
474.
614.
464.
554.
694.
844.
644.
744.
885.
044.
794.
895.
055.
21AM
PS11
.912
.112
.412
.712
.612
.813
.213
.513
.413
.714
.014
.514
.114
.414
.815
.214
.915
.215
.616
.015
.615
.916
.316
.8H
I PR
238
256
270
282
267
287
303
316
303
327
345
360
346
372
393
410
389
418
442
461
430
462
488
509
LO P
R11
111
812
913
811
712
513
614
512
213
014
215
112
813
614
915
913
414
315
616
613
914
816
117
2
85
2244
MBh
62.2
63.5
66.5
70.9
60.8
62.0
64.9
69.3
59.4
60.5
63.4
67.6
57.9
59.0
61.8
66.0
55.0
56.1
58.7
62.7
51.0
51.9
54.4
58.0
S/T
0.98
0.95
0.85
0.69
1.00
0.98
0.89
0.72
1.00
1.00
0.91
0.74
1.00
1.00
0.94
0.76
1.00
1.00
0.97
0.79
1.00
1.00
0.98
0.80
Del
ta T
2525
2320
2525
2420
2425
2420
2424
2421
2323
2320
2121
2219
KW3.
843.
924.
044.
164.
124.
214.
344.
474.
374.
464.
604.
754.
594.
694.
844.
994.
784.
885.
035.
204.
945.
045.
205.
37AM
PS12
.212
.412
.713
.112
.913
.213
.513
.913
.814
.114
.414
.814
.514
.815
.215
.715
.315
.616
.016
.516
.016
.316
.817
.3H
I PR
247
266
280
293
277
298
315
328
315
339
358
373
359
386
408
425
404
434
459
478
446
480
507
528
LO P
R11
512
313
414
312
213
014
215
112
713
514
715
713
314
215
516
513
914
816
217
314
415
416
817
8
2004
MBh
61.3
62.5
65.5
69.9
59.9
61.1
64.0
68.2
58.5
59.6
62.4
66.6
57.1
58.2
60.9
65.0
54.2
55.2
57.9
61.7
50.2
51.2
53.6
57.2
S/T
0.94
0.91
0.82
0.66
0.97
0.94
0.85
0.69
1.00
0.96
0.87
0.71
1.00
0.99
0.90
0.73
1.00
1.00
0.93
0.76
1.00
1.00
0.94
0.76
Del
ta T
2626
2521
2726
2522
2726
2522
2627
2522
2525
2521
2323
2320
KW3.
823.
904.
024.
144.
104.
194.
314.
454.
354.
444.
584.
724.
574.
664.
814.
964.
754.
855.
005.
174.
915.
015.
175.
34AM
PS12
.112
.312
.713
.012
.913
.113
.413
.813
.714
.014
.314
.814
.514
.715
.115
.615
.215
.515
.916
.415
.916
.216
.717
.2H
I PR
245
264
279
290
275
296
313
326
313
337
355
371
356
383
405
422
401
431
455
475
443
477
503
525
LO P
R11
512
213
314
212
112
914
115
012
613
414
615
613
214
115
416
313
914
716
117
114
315
216
617
7
1770
MBh
58.3
59.4
62.2
66.4
56.9
58.0
60.8
64.8
55.6
56.6
59.3
63.3
54.2
55.2
57.9
61.7
51.5
52.5
55.0
58.6
47.7
48.6
50.9
54.3
S/T
0.90
0.87
0.78
0.64
0.93
0.90
0.81
0.66
0.96
0.92
0.83
0.68
0.99
0.95
0.86
0.70
1.00
0.99
0.89
0.72
1.00
1.00
0.90
0.73
Del
ta T
2727
2522
2827
2622
2827
2622
2827
2622
2727
2522
2525
2421
KW3.
773.
843.
964.
084.
044.
124.
254.
384.
284.
374.
504.
654.
494.
594.
734.
884.
674.
774.
925.
084.
834.
935.
095.
26AM
PS12
.012
.212
.512
.812
.712
.913
.213
.613
.513
.814
.114
.614
.214
.514
.915
.415
.015
.315
.716
.215
.716
.016
.416
.9H
I PR
240
258
273
285
270
290
306
319
307
330
348
363
349
376
397
414
393
423
446
465
434
467
493
514
LO P
R11
211
913
013
911
912
613
814
712
313
114
315
313
013
815
016
013
614
415
816
814
014
916
317
4ID
B =
Ente
ring
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
AHRI
con
ditio
nskW
= T
otal
sys
tem
pow
erH
igh
& lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d &
suc
tion
serv
ice
port
s.Am
ps: U
nit a
mps
(com
p.+
evap
orat
or +
con
dens
er fa
n m
otor
s)D
esig
n Su
bcoo
ling,
12±
3 °F
@ th
e liq
uid
acce
ss fi
tting
con
necti
on A
HRI
95
test
con
ditio
ns. D
esig
n Su
perh
eat 8
±3 °F
@ th
e co
mpr
esso
r suc
tion
acce
ss fi
tting
con
necti
on.
18 www.daikinac.com SS-DTG3
Airflow Data — 3 Tons
Downshot Horizontal
SPEEDTAP
ESPin w.c. CFM Amps Watts RPM SPEED
TAPESP
in w.c. CFM Amps Watts RPM
T1
0.1 966 0.5 108 657
T1
0.1 1018 0.47 101 6150.2 850 0.52 115 710 0.2 969 0.49 109 6530.3 773 0.55 122 763 0.3 881 0.53 117 7120.4 678 0.59 130 819 0.4 818 0.55 125 7680.5 593 0.62 141 875 0.5 732 0.59 135 8330.6 --- --- --- --- 0.6 658 0.63 142 8900.7 --- --- --- --- 0.7 616 0.65 148 9380.8 --- --- --- --- 0.8 --- --- --- ---0.9 --- --- --- --- 0.9 --- --- --- ---
T2
0.1 1057 0.6 134 693
T2
0.1 1128 0.56 126 6450.2 956 0.62 140 740 0.2 1070 0.59 132 6920.3 868 0.66 144 787 0.3 994 0.62 138 7270.4 788 0.69 156 839 0.4 915 0.66 149 7910.5 700 0.73 166 898 0.5 839 0.69 156 8380.6 618 0.76 174 946 0.6 776 0.73 169 9090.7 --- --- --- --- 0.7 698 0.77 179 9630.8 --- --- --- --- 0.8 649 0.8 183 10030.9 --- --- --- --- 0.9 --- --- --- ---
T3
0.1 1234 0.86 199 784
T3
0.1 1293 0.81 186 7330.2 1146 0.89 206 822 0.2 1252 0.84 193 7650.3 1068 0.92 213 863 0.3 1198 0.87 204 8030.4 977 0.96 221 910 0.4 1130 0.91 212 8440.5 911 1.0 232 949 0.5 1075 0.94 218 8860.6 842 1.04 245 998 0.6 1015 0.98 230 9300.7 776 1.08 253 1031 0.7 941 1.02 242 9840.8 703 1.11 263 1082 0.8 870 1.08 253 10450.9 682 1.13 266 1107 0.9 817 1.11 262 1080
T4
0.1 1363 1.03 242 822
T4
0.1 1404 0.99 232 7890.2 1253 1.09 251 874 0.2 1367 1.02 240 8170.3 1176 1.12 260 910 0.3 1334 1.05 244 8450.4 1110 1.15 270 940 0.4 1265 1.09 257 8820.5 1034 1.19 279 981 0.5 1207 1.13 265 9220.6 966 1.23 290 1028 0.6 1153 1.17 272 9580.7 899 1.27 301 1074 0.7 1090 1.21 283 10050.8 836 1.33 312 1117 0.8 1029 1.25 299 10520.9 778 1.35 319 1146 0.9 947 1.31 312 1111
T5
0.1 1413 1.14 268 849
T5
0.1 1457 1.08 254 8050.2 1299 1.18 275 899 0.2 1413 1.12 266 8390.3 1233 1.23 259 933 0.3 1359 1.16 273 8700.4 1166 1.26 296 963 0.4 1307 1.2 285 9110.5 1096 1.3 307 1000 0.5 1253 1.23 291 9400.6 1026 1.34 318 1040 0.6 1197 1.28 304 9780.7 960 1.39 330 1052 0.7 1138 1.31 310 10170.8 889 1.44 340 1132 0.8 1082 1.36 322 10590.9 835 1.47 347 1169 0.9 1029 1.41 335 1105
Notes:Table represent dry coil without filter, to compensate for filter add 0.08" to measured E.S.P.. SCFM correction for wet coil = 4%. Models are shipped from the factory with speed tap set on T4.
SS-DTG3 www.daikinac.com 19
Airflow Data — 4 Tons
Downshot Horizontal
SPEEDTAP
ESPin w.c. CFM Amps Watts RPM SPEED
TAPESP
in w.c. CFM Amps Watts RPM
T1
0.1 1286 0.82 187 667
T1
0.1 1346 0.77 176 6220.2 1205 0.86 198 704 0.2 1286 0.8 186 6570.3 1139 0.8 205 731 0.3 1211 0.84 198 6980.4 1052 0.92 212 764 0.4 1144 0.88 204 7300.5 982 0.95 215 790 0.5 1068 0.92 214 7680.6 911 0.97 224 814 0.6 996 0.95 222 7980.7 840 1 230 837 0.7 923 0.98 229 8290.8 779 1.02 235 855 0.8 839 1.01 235 8570.9 717 1.04 242 879 0.9 777 1.04 242 881
T2
0.1 1470 1.09 251 726
T2
0.1 1534 1.01 234 6810.2 1399 1.12 260 758 0.2 1482 1.05 246 7100.3 1315 1.16 271 790 0.3 1412 1.09 256 7450.4 1253 1.19 281 814 0.4 1352 1.13 263 7740.5 1180 1.22 287 842 0.5 1286 1.17 272 8060.6 1110 1.26 292 867 0.6 1216 1.19 281 8390.7 1042 1.29 300 891 0.7 1147 1.24 289 8680.8 973 1.32 308 914 0.8 1077 1.27 299 8920.9 916 1.34 314 933 0.9 1002 1.31 309 922
T3
0.1 1747 1.75 413 855
T3
0.1 1515 1.61 382 7870.2 1668 1.8 414 884 0.2 1762 1.65 392 8090.3 1609 1.84 436 908 0.3 1697 1.69 399 8350.4 1557 1.88 442 931 0.4 1651 1.74 416 8630.5 1489 1.92 453 957 0.5 1598 1.79 423 8920.6 1419 1.97 476 984 0.6 1533 1.85 438 9220.7 1377 2 472 1002 0.7 1464 1.89 447 9510.8 1311 2.03 479 1022 0.8 1417 1.94 458 9750.9 1256 2.07 488 1044 0.9 1361 1.97 475 999
T4
0.1 1879 2.11 504 908
T4
0.1 1941 1.96 464 8340.2 1799 2.16 512 935 0.2 1888 1.99 471 8530.3 1730 2.2 525 955 0.3 1847 2.04 491 8760.4 1677 2.26 539 981 0.4 1790 2.09 502 9060.5 1630 2.31 547 1006 0.5 1742 2.14 509 9280.6 1558 2.35 557 1032 0.6 1682 2.19 537 9570.7 1508 2.38 553 1049 0.7 1620 2.26 5337 9870.8 1443 2.43 588 1072 0.8 1576 2.28 547 10100.9 1389 2.48 585 1091 0.9 1521 2.33 556 1034
T5
0.1 1903 2.28 542 931
T5
0.1 1994 2.09 497 8450.2 1838 2.31 561 952 0.2 1946 2.16 511 8760.3 1785 2.38 571 977 0.3 1893 2.15 518 8960.4 1723 2.41 574 1002 0.4 1865 2.28 536 9230.5 1666 2.46 585 1020 0.5 1795 2.26 548 3510.6 1612 2.51 596 1048 0.6 1741 2.39 555 3760.7 1547 2.56 611 1067 0.7 1681 2.38 572 9990.8 1505 2.59 607 1083 0.8 1630 2.47 597 10230.9 1445 2.63 613 1109 0.9 1576 2.47 595 1046
Notes:Table represent dry coil without filter, to compensate for filter add 0.08" to measured E.S.P.. SCFM correction for wet coil = 4%. Models are shipped from the factory with speed tap set on T4.
20 www.daikinac.com SS-DTG3
Airflow Data —5 Tons
Downshot Horizontal
SPEEDTAP
ESPin w.c. CFM Amps Watts RPM SPEED
TAPESP
in w.c. CFM Amps Watts RPM
T1
0.1 1334 1.65 180 627
T1
0.1 1355 1.57 174 5990.2 1286 1.75 192 665 0.2 1281 1.66 182 6510.3 1212 1.83 202 715 0.3 1235 1.76 196 6930.4 1144 1.94 216 759 0.4 1168 1.81 202 7260.5 1077 1.99 222 792 0.5 1118 1.94 218 7750.6 1039 2.10 238 830 0.6 1049 2.03 232 8190.7 953 2.17 248 874 0.7 982 2.10 240 8580.8 904 2.27 258 913 0.8 922 2.14 246 8850.9 825 2.30 266 940 0.9 871 2.25 260 927
T2
0.1 1512 2.12 240 682
T2
0.1 1544 2.04 234 6600.2 1469 2.24 254 720 0.2 1490 2.17 250 7040.3 1397 2.31 264 759 0.3 1427 2.25 260 7420.4 1333 2.44 282 803 0.4 1370 2.35 276 7810.5 1285 2.54 296 836 0.5 1319 2.42 282 8090.6 1221 2.59 304 874 0.6 1274 2.52 296 8490.7 1173 2.72 322 913 0.7 1210 2.62 316 8910.8 1118 2.77 328 946 0.8 1137 2.73 326 9350.9 1049 2.90 344 984 0.9 1106 2.77 336 957
T3
0.1 2053 4.27 540 869
T3
0.1 2099 4.13 516 8250.2 2014 4.39 558 896 0.2 2068 4.25 536 8520.3 1999 4.60 576 929 0.3 2029 4.37 552 8850.4 1947 4.68 588 957 0.4 1971 4.48 568 9130.5 1897 4.79 608 989 0.5 1911 4.61 586 9500.6 1857 4.87 620 1012 0.6 1876 4.73 604 9730.7 1763 4.99 640 1050 0.7 1821 4.86 622 10120.8 1741 5.06 650 1072 0.8 1792 4.91 630 10280.9 1669 5.19 668 1105 0.9 1740 5.03 648 1067
T4
0.1 2137 4.95 634 913
T4
0.1 2233 4.76 608 8630.2 2093 5.07 652 940 0.2 2168 4.91 628 8960.3 2095 5.19 670 962 0.3 2125 5.02 640 9240.4 2026 5.28 682 990 0.4 2070 5.14 660 9510.5 1980 5.40 698 1018 0.5 2050 5.27 678 9790.6 1961 5.49 720 1039 0.6 1980 5.41 696 10120.7 1914 5.58 732 1072 0.7 1954 5.47 704 10340.8 1845 5.70 742 1100 0.8 1893 5.60 724 10670.9 1766 5.69 740 1127 0.9 1852 5.70 736 1089
T5
0.1 2299 5.70 742 942
T5
0.1 2322 5.44 710 9040.2 2233 5.80 748 969 0.2 2294 5.55 726 9340.3 2217 5.90 768 990 0.3 2254 5.68 742 9580.4 2157 6.07 786 1018 0.4 2201 5.80 766 9900.5 2131 6.12 804 1045 0.5 2147 5.93 782 10170.6 2060 6.21 816 1073 0.6 2117 6.01 788 10390.7 2015 6.30 820 1095 0.7 2081 6.12 808 10600.8 1940 6.27 816 1111 0.8 2017 6.22 822 10940.9 1862 6.13 790 1128 0.9 1932 6.10 804 1111
Notes:Table represent dry coil without filter, to compensate for filter add 0.08" to measured E.S.P.. SCFM correction for wet coil = 4%. Models are shipped from the factory with speed tap set on T4.
Airflow Pressure Drop of Downflow Economizer for 3 to 6 Ton Rooftop Units (100% Return Air)SCFM 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 2800
in. WG 0.02 0.04 0.05 0.07 0.09 0.12 0.14 0.17 0.21 0.24 0.28
SS-DTG3 www.daikinac.com 21
0.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
0.45
0.50
0 700600500400300200100
Air Velocity (FPM)
Resi
stan
ce (i
n. w
.g.)
2" Deep
Flanders Pre Pleat M13Air Velocity vs Resistance
(Test Size: 24" x 24" x 2" High Capacity)
High Efficiency MERV 13 Air Filter Option
Crankcase Heater, High Efficiency MERV 13 Air Filter Option
Crankcase Heater Selection TableZP/ZPS… Compressor Diameter Compressor Voltage Crankcase
Heater Watts230V 460V 575V16-31 5.5" 0163R00002S 0163R00031S 0163R00032S 4039-83 6.58/7.3" 0130L00017S 0130L00018S 0130L00019S 70
103-137 9.14” 0130L00020S 0130L00021S 0130L00022S 90
DC*,DT* & DS* Tonnage Compressor Voltage Crankcase Heater Watts230V 460V 575V
3 Ton 0163R00002S 0163R00031S 0163R00032S 40
4 Ton-5 Ton 0130L00017S 0130L00018S 0130L00019S 70
*Includes C,G&H models.
Tonnage: Filter Nominal Size: Part Number: Order QTY:
3 24 x 24 x 2 0160L00203 1
4 14 x 20 x 2 0160L00204 4
5 16 x 20 x 2 0160L00205 4
22 www.daikinac.com SS-DTG3
Electrical Data
4 Tons
5 Tons
Model Number Electrical Rating
Compressor Circuit 1 Compressor Circuit 2 Outdoor Fan Motor Indoor Fan Motor Optional Powered Convienience Outlet Power Supply
RLA LRA RLA LRA QTY HP FLA Type HP FLA FLA MCA MOP
DTG036***1D 208/230-1-60 14.1 77.0 1 0.25 1.40 Standard - Direct Drive 0.50 3.90
- 22.9 / 22.9 35 / 35
7.2 / 6.5 30.1 / 29.4 40 / 40
DTG036***3D 208/230-3-60 9.0 71.0 1 0.25 1.40 Standard - Direct Drive 0.50 3.90
- 16.5 / 16.5 25 / 25
7.2 / 6.5 23.7 / 23.0 30 / 30
Model Number Electrical Rating
Compressor Circuit 1 Compressor Circuit 2 Outdoor Fan Motor Indoor Fan Motor Optional Powered Convienience Outlet Power Supply
RLA LRA RLA LRA QTY HP FLA Type HP FLA FLA MCA MOP
DTG048XXX1D 208/230-1-60 19.9 109.0 1 0.25 1.40 Standard - Direct Drive 1.00 6.90
- 33.1 / 33.1 50 / 50
7.2 / 6.5 40.3 / 39.6 60 / 50
DTG048XXX3D 208/230-3-60 13.1 83.1 1 0.25 1.40 Standard - Direct Drive 1.00 6.90
- 24.7 / 24.7 35 / 35
7.2 / 6.5 31.9 / 31.2 45 / 40
Model Number Electrical Rating
Compressor Circuit 1 Compressor Circuit 2 Outdoor Fan Motor Indoor Fan Motor Optional Powered Convienience Outlet Power Supply
RLA LRA RLA LRA QTY HP FLA Type HP FLA FLA MCA MOP
DTG060XXX1D 208/230-1-60 25.0 134.0 1 0.33 2.00 Standard - Direct Drive 1.00 6.90
- 40.2 / 40.2 60 / 60
7.2 / 6.5 47.4 / 46.7 70 / 70
DTG060XXX3D 208/230-3-60 15.9 110.0 1 0.33 2.00 Standard - Direct Drive 1.00 6.90
- 28.8 / 28.8 40 / 40
7.2 / 6.5 36.0 / 35.3 50 / 50
3 Tons
SS-DTG3 www.daikinac.com 23
Dimensions
11.2
65
33.8
05
73.9
4548
.196
6.19
610
.060
12.0
00
7.16
517
.000
31.5
4011
.000
20.8
53
4.47
5
ALL
DIM
EN
SIO
NS
GIV
EN
AR
E IN
INC
HE
SA
LL D
IME
NS
ION
S A
ND
SP
EC
IFIC
AT
ION
S A
RE
SU
BJE
CT
TO
CH
AN
GE
WIT
HO
UT
NO
TIC
E
DT
*036
-060
***
3 T
HR
U 5
-TO
N C
OM
ME
RC
IAL
GA
S L
INE
EN
TR
AN
CE
CO
MB
US
TIO
N A
IR IN
LET
(G
AS
UN
ITS
)
FLU
E/V
EN
T O
UT
LET
FR
ON
T V
IEW
TO
P V
IEW
FO
RK
HO
LES
BO
TH
SID
ES
A
ND
BO
TH
EN
DS
CO
ND
EN
SA
TE
DR
AIN
OU
TLE
T
LIF
TIN
G S
HA
CK
LE
HO
LES
BO
TH
SID
ES
A
ND
EN
DS
SU
PP
LY A
IR D
UC
T
RE
TU
RN
AIR
DU
CT
RIG
HT
EN
D V
IEW
25.0
00
24 www.daikinac.com SS-DTG3
Dimensions (cont.)
7.984
"C"
"B"
10.37
2
5.872
8.555
11.00
0
17.00
0
6.192
23.44
2
48.31
2
20.90
5
5.104
12.00
0
19.47
0
5.558
25.00
0
74.06
1
"A"
LINE
WIR
E EN
TRAN
CE
TSTA
T W
IRE
ENTR
ANCE
LEFT
END
VIE
W
SUPP
LY A
IR D
UCT
COND
ENSA
TEDR
AIN
BOTT
OM E
XIT
RETU
RN A
IR D
UCT
BASE
PAN
VIE
W(V
IEW
ED F
ROM
TOP)
MODE
L TON
NAGE
S"A
""B
""C
"
3-TO
N CO
MMER
CIAL
GAS,
HT
PUMP
, AIR
CON
DITI
ONER
38.84
016
.555
26.05
5
4-TO
N CO
MMER
CIAL
GAS,
HT
PUMP
, AIR
CON
DITI
ONER
38
.840
16.55
526
.055
5-TO
N CO
MMER
CIAL
GAS,
HT
PUMP
, AIR
CON
DITI
ONER
42
.840
20.55
530
.055
DISC
ONNE
CTLO
CATI
ON
SS-DTG3 www.daikinac.com 25
Unit Clearances
ElEctrical EntrancE locations
30¼”
12⅜”
Low-Voltage Entrance
(Remove Plug)High-Voltage Entrance
3½” Dia.
47½”7½”
Power Thru the Curb
Low-Voltage Entrance
Maintain an adequate clearance around the unit for safety, service, maintenance, and proper unit operation. Leave a clearance of 48" on all sides of the unit for possible compressor removal or service access, and to ensure proper ventilation and condenser airflow. Do not install the unit Beneath any obstruction. Install the unit away from all building exhausts to inhibit ingestion of exhaust air into the unit’s fresh-air intake.
48"
48"
48"
48"
26 www.daikinac.com SS-DTG3
Roof Curb Installation — Rigging
Provisions for forks have been included in the unit base frame. No other fork locations are approved.
• Unit must be lifted by the four lifting holes located at the base frame corners.
• Lifting cables should be attached to the unit with shackles.
• The distance between the crane hook and the top of the unit must not be less than 60”.
• Two spreader bars must span over the unit to prevent damage to the cabinet by the lift cables. Spreader bars must be of sufficient length so that cables do not come in contact with the unit during transport. Remove wood struts mounted beneath unit base frame before setting unit on roof curb. These struts are in-tended to protect unit base frame from fork lift damage. To remove the struts, ex-tract the sheet metal retainers and pull the struts through the base of the unit. Refer to rigging label on the unit.
Important: If using bottom discharge with roof curb, duct-work should be attached to the curb prior to installing the unit. Duct-work dimensions are shown in Roof Curb Installation Instructions Manual.
Refer to the Roof Curb Installation Instructions for proper curb installation. Curbing must be installed in compliance with the National Roofing Contractors Association Manual.
Lower unit carefully onto roof mounting curb. While rigging the unit, the center of gravity will cause the condenser end to be lower than the supply air end.
Bring condenser end of unit into alignment with the curb. With condenser end of the unit resting on curb member and using curb as a fulcrum, lower opposite end of the unit until entire unit is seated on the curb. When a rectangular cantilever curb is used, take care to center the unit. Check for proper alignment and orientation of supply and return openings with duct.
To assist in determining rigging requirements, unit weights are shown below.
cornEr & cEntEr-of-Gravity locations
A
B
C
D
CGSUPPLY
RETURN
EVAPORATOR COILCONDENSER
COIL
COMPRESSOR
Y
X
Compressor
Return
Evaporator Coil
Supply
CondenserCoil
Curb installations must comply with local codes and should follow the established guidelines of the National Roofing Contractors Association.
Proper unit installation requires that the roof curb be firmly and permanently attached to the roof structure. Check for adequate fastening method prior to setting the unit on the curb.
Full perimeter roof curbs are available from the factory and are shipped unassembled. The installing contractor is responsible for field assembly, squaring, leveling, and mounting on the roof structure. All required hardware necessary for the assembly of the sheet metal curb is included in the curb accessory package.
• Determine sufficient structural support before locating and mounting the curb and package unit.• Duct-work must be constructed using industry guidelines. The duct-work must be placed into the roof curb before mounting the package unit.
Our full perimeter curbs include duct connection frames to be assembled with the curb. Cantilevered-type curbs are not available from the factory.
• Contractor furnishes curb insulation, cant strips, flashing, and general roofing material.• Support curbs on parallel sides with roof members. To prevent damage to the unit, the roof members cannot penetrate supply and return
duct openings.Note: The unit and curb accessories are designed to allow Down Shot duct installation before unit placement. Duct installation after unit placement is not recommended.
See the manual shipped with the roof curb for assembly and installation instructions.
Model X (In) Y (In)ShippingWeight
(Lbs)
OperatingWeight
(Lbs)
Corner Weights (Lbs.)
A B C D
DTG036045*DXXX 39.1 26.1 553 526 194 81 39 212
DTG036090*DXXX 38.3 26.3 564 536 174 100 60 202
DTG048090*DXXX 41.4 26.7 599 568 193 121 50 204
DTG048115*DXXX 38.8 27.2 597 569 156 138 81 194
DTG060090*DXXX 41 27.2 638 609 146 188 108 167
DTG060140*DXXX 46.4 28.1 655 629 186 204 65 174
SS-DTG3 www.daikinac.com 27
Wiring Diagram — DTG0360451D*** (230V, Single Phase, Direct Drive)
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
POWER SUPPLY240/1/60
BL
BREAK FOR TW
O STAGE
T2
COM
PRESSOR
RCCF
L2C
T2
L1
T1
NOTE 2
S R C
COMP
CM
VMR
C
24VTR
C22
SPEED-UP
MO
UNT
T1
P2
REQUIREDSCREW
P3135
120
150
FUSE 3 AMP MAX
F1
LS
118129
7 1042 5
631
FS
NOTE 6SEE
COO
L
DI
L1HEAT
UNUSEDL2P1
ECON
ALS
PS
RS
GAS VALVE
MV
21 4
5
W. R.GAS VALVE
(ALT.) HONEYWELL
3 6
1 2 3
MV
FSIGN
VM
GVGV
TB1
LPS
HPS
1 5
EM
Y2Y1
GNDYL
RD
YL
WH
BREAK FOR TW
O STAGE
T2
COM
PRESSOR
RD
RCCF
RD
YL
RD
BK
BKRD
BL
BK
BK
PU
RD
S R C
COMP
BKPU
CM
BR
PK
240
PKVMR
BL
C
24VTR
BL
208
C22
OR
SPEED-UP
MO
UNT
T1
P2
REQUIREDSCREW
P3135
120
150
FUSE 3 AMP MAX
F1
LS RD
RD
WH
GR
YL
RD
RD
118129
7 1042 5
631
FS
RD
BRNOTE 6SEE
COO
L
DI
L1HEAT
UNUSEDL2
BL
WH
YLYL
PU
RDBL
BL
BL
BL
ECON
RD
GR
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVE
MV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YL
PU
PU
PU
1 2 3
BR
ORRD
MV
FSIGN
VM
BL
BL
YLWH
BR
BL
GVGV
TB1
PU
YL
F
WH
H C
YL
LPS
HPS
YL/PK
BK
1 5
BL
NOTE 3 & 7
G
T4
EML
T3T2T1
C
RD
BK
N
T5
YLWH
TB1
BL
YL/PK
GR
SEENOTE 8
S1S2 R CW1 G
GR
WHRD
BLPUYL
TO THERMOSTAT
W2
RD
BK
BK
BK
YLPU
BRWH
OR
WH
WH
SEE NOTE 5
3
1
2
789
BR
RD
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
BR WH
BL YL
0140
L048
17
28 www.daikinac.com SS-DTG3
Wiring Diagram — DTG0360451D*** (230V, Single Phase, Direct Drive) cont.
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
GR
5
79
Y2Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
C
4
3 2 1
5 6
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSORCOMPALS
TB1
TB1
TB1
TR TRANSFORMER
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
EML N
CR
SCOMP
H CRCCF
CM
VM
C
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
COOLING SPEED (YELLOW WIRE)
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T4 AND T5 TERMINALS. CHANGE HEATING SPEED AT MOTOR T1. T2, AND T3 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZER ACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL. (USE COPPER CONDUCTOR ONLY).
T3 - LOW SPEEDT4 - HIGH SPEED
NOTES
FACTORY WIRING
LOW VOLTAGE
BL
RD
YL
W
BL
GR
W
NO ECONOMIZER
G
RD
PK
WH
W
R RD
WHGR
C
RYL
GRGWH
C
GR
BL
C
2 STAGE COOLING
TB1
GR
W
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
STAT
STAT
STAT
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLE
WH WHITE
BK BLACK
BR BROWN
OR ORANGE
YL YELLOW
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUE OF THE UNIT.8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
3 1
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
GR
5
79ECON
IIC
W1 Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLFCNOTE 4
4
3 2 1
5 6
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)
VMRVM
PSPLF
TB1RS
RUN CAPACITOR FOR COMPRESSOR/FAN
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSOR
COMPONENT LEGEND
COMPALS
TB1
TB1
TB1
TR TRANSFORMER
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
EML N
CR
SCOMP
H CRCCF
CMF
VM
C
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
T3 - LOW SPEEDT4 - HIGH SPEED
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
HIGH VOLTAGE
OPTIONAL HIGH VOLTAGEOPTIONAL LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
BL
RDY1
YL
W
BL
GR
W
G
YL
RDY1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
WIRE CODE
PK PINK
RD RED
SEE UNIT RATING PLATE FOR TYPE AND SIZEOF OVER CURRENT PROTECTION .
W2
3 1
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRE FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
78 9
S1 S2
Y2
Y2
Y2
240/1/60 0140L04817-A
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)
OVERCURRENTPROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
++
++
SS-DTG3 www.daikinac.com 29
Wiring Diagram — DTG0360-48-60901***, DTG0481151*** (230V, Single Phase, Direct Drive)
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
GR
5
79
Y2Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
C
4
3 2 1
56
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSORCOMPALS
TB1
TB1
POWER SUPPLY240/1/60
BL
BREAK FOR TWO STAGE
T2
COMPRESSOR
RCCF
L2C
T2
L1
T1
NOTE 2
S R C
COMP
CM
VMR
C
24VTR
C22
SPEED-UP
MOUNT
T1
P2
REQUIREDSCREW
P3135
120
150
FUSE 3 AMP MAX
F1
LS118
1297 104
2 563
1
FS
NOTE 6SEE
COOL
DI
L1HEAT
UNUSEDL2P1
ECON
ALS
PS
RS
GAS VALVE
MV
21 4
5
W. R.GAS VALVE
(ALT.) HONEYWELL
3 6
1 2 3
MV
FSIGN
VM
GVGV
TB1
TB1
TR TRANSFORMER
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
EML N
CR
SCOMP
H CRCCF
CM
VM
C
LPS
HPS
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
COOLING SPEED (YELLOW WIRE)
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T4 AND T5 TERMINALS. CHANGE HEATING SPEED AT MOTOR T1. T2, AND T3 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZER ACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL. (USE COPPER CONDUCTOR ONLY).
T3 - LOW SPEEDT4 - HIGH SPEED
NOTES
FACTORY WIRING
LOW VOLTAGE
BL
RD
YL
W
BL
GR
W
NO ECONOMIZER
G
RD
PK
WH
W
R RD
WHGR
C
RYL
GRGWH
C
GR
BL
C
2 STAGE COOLING
TB1
GR
W
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
STAT
STAT
STAT
1 5
EM
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLE
WH WHITE
BK BLACK
BR BROWN
OR ORANGE
YL YELLOW
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUE OF THE UNIT.8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
Y2Y1
3 1
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
GR
5
79ECON
IIC
W1 Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLFCNOTE 4
4
3 2 1
56
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)
VMRVM
PSPLF
TB1RS
RUN CAPACITOR FOR COMPRESSOR/FAN
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSOR
COMPONENT LEGEND
COMPALS
TB1
TB1
GNDYL
RD
YL
WH
BREAK FOR TWO STAGE
T2
COMPRESSOR
RD
RCCF
RD
YL
RD
BK
BKRD
BL
BK
BK
PU
RD
S R C
COMP
BKPU
CM
BR
PK
240
PKVMR
BL
C
24VTR
BL
208
C22
OR
SPEED-UP
MOUNT
T1
P2
REQUIREDSCREW
P3135
120
150
FUSE 3 AMP MAX
F1
LS RD
RD
WH
GR
YL
RD
RD
118129
7 1042 5
631
FS
RD
BRNOTE 6SEE
COOL
DI
L1HEAT
UNUSEDL2
BL
WH
YLYL
PU
RDBL
BL
BLBL
ECON
RD
GR
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVE
MV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YLBR WH
BL YL
PU
PU
PU
1 2 3
BR
ORRD
MV
FSIGN
VM
BL
BL
YLWH
BR
BL
GVGV
TB1
TB1
TR TRANSFORMER
PU
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
YL
EML N
CR
SCOMP
H CRCCF
CMF
VM
C
F
WH
H C
YL
LPS
HPS
YL/PK
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
BK
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
T3 - LOW SPEEDT4 - HIGH SPEED
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
HIGH VOLTAGE
OPTIONAL HIGH VOLTAGEOPTIONAL LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
BL
RDY1
YL
W
BL
GR
W
G
YL
RDY1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
1 5
BL
NOTE 3 & 7
G
T4
EML
T3T2T1
C
RD
BK
N
T5
YLWH
TB1
BL
YL/PK
WIRE CODE
PK PINK
RD RED
GR
SEENOTE 8
S1S2 RC W1 G
GR
WHRD
BLPUYL
TO THERMOSTAT
W2
BR
BR
RD
BK
BK
BK
SEE UNIT RATING PLATE FOR TYPE AND SIZEOF OVER CURRENT PROTECTION .
YLPU
BRWH
OR
WH
WH
SEE NOTE 5
W2
3 1
3
1
2
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRE FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
789
789
BR
RD
S1 S2
Y2
Y2
Y2
240/1/60 0140L02912-B
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)
OVERCURRENTPROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
++
++
0140
L029
12-B
30 www.daikinac.com SS-DTG3
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
Wiring Diagram — DTG0360-48-60901***, DTG0481151*** (230V, Single Phase, Direct Drive) cont.
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
GR
5
79
Y2Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
C
4
3 2 1
56
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSORCOMPALS
TB1
TB1
POWER SUPPLY240/1/60
BL
BRE
AK FOR
TWO
STAGE
T2
CO
MPR
ESSOR
RCCF
L2C
T2
L1
T1
NOTE 2
S R C
COMP
CM
VMR
C
24VTR
C22
SPE
ED-U
P
MO
UN
T
T1
P2
RE
QU
IRED
SC
RE
W
P3135
120
150
FUSE 3 AMP MAX
F1
LS
118129
7 1042 5
631
FS
NOTE 6SEE
CO
OL
DI
L1H
EA
TU
NU
SE
DL2P
1
EC
ON
ALS
PS
RS
GAS VALVE
MV
21 4
5
W. R.GAS VALVE
(ALT.) HONEYWELL
3 6
1 2 3
MV
FSIGN
VM
GVGV
TB1
TB1
TR TRANSFORMER
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
EML N
CR
SCOMP
H CRCCF
CM
VM
C
LPS
HPS
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
COOLING SPEED (YELLOW WIRE)
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T4 AND T5 TERMINALS. CHANGE HEATING SPEED AT MOTOR T1. T2, AND T3 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZER ACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL. (USE COPPER CONDUCTOR ONLY).
T3 - LOW SPEEDT4 - HIGH SPEED
NOTES
FACTORY WIRING
LOW VOLTAGE
BL
RD
YL
W
BL
GR
W
NO ECONOMIZER
G
RD
PK
WH
W
R RD
WHGR
C
RYL
GRGWH
C
GR
BL
C
2 STAGE COOLING
TB1
GR
W
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
STAT
STAT
STAT
1 5
EM
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLE
WH WHITE
BK BLACK
BR BROWN
OR ORANGE
YL YELLOW
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUE OF THE UNIT.8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
Y2Y1
3 1
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
GR
5
79ECON
IIC
W1 Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLFCNOTE 4
4
3 2 1
56
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)
VMRVM
PSPLF
TB1RS
RUN CAPACITOR FOR COMPRESSOR/FAN
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSOR
COMPONENT LEGEND
COMPALS
TB1
TB1
GNDYL
RD
YL
WH
BRE
AK FOR
TWO
STAGE
T2
CO
MPR
ESSOR
RD
RCCF
RD
YL
RD
BK
BKRD
BL
BK
BK
PU
RD
S R C
COMP
BKPU
CM
BR
PK
240
PKVMR
BL
C
24VTR
BL
208
C22
OR
SPE
ED-U
P
MO
UN
T
T1
P2
RE
QU
IRED
SC
RE
W
P3135
120
150
FUSE 3 AMP MAX
F1
LS RD
RD
WH
GR
YL
RD
RD
118129
7 1042 5
631
FS
RD
BRNOTE 6SEE
CO
OL
DI
L1H
EA
TU
NU
SE
DL2
BL
WH
YLYL
PU
RDBL
BL
BLBL
EC
ON
RD
GR
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVE
MV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YLBR WH
BL YL
PU
PU
PU
1 2 3
BR
ORRD
MV
FSIGN
VM
BL
BL
YLWH
BR
BL
GVGV
TB1
TB1
TR TRANSFORMER
PU
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
YL
EML N
CR
SCOMP
H CRCCF
CMF
VM
C
F
WH
H C
YL
LPS
HPS
YL/PK
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
BK
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
T3 - LOW SPEEDT4 - HIGH SPEED
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
HIGH VOLTAGE
OPTIONAL HIGH VOLTAGEOPTIONAL LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
BL
RDY1
YL
W
BL
GR
W
G
YL
RDY1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
1 5
BL
NOTE 3 & 7
G
T4
EML
T3T2T1
C
RD
BK
N
T5
YLWH
TB1
BL
YL/PK
WIRE CODE
PK PINK
RD RED
GR
SEENOTE 8
S1S2 RC W1 G
GR
WHRD
BLPUYL
TO THERMOSTAT
W2
BR
BR
RD
BK
BK
BK
SEE UNIT RATING PLATE FOR TYPE AND SIZEOF OVER CURRENT PROTECTION .
YLPU
BRWH
OR
WH
WH
SEE NOTE 5
W2
3 1
3
1
2
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRE FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
789
789
BR
RD
S1 S2
Y2
Y2
Y2
240/1/60 0140L02912-B
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)
OVERCURRENTPROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
++
++
SS-DTG3 www.daikinac.com 31
Wiring Diagram — DTG0601401D*** (230V, Single Phase, Direct Drive)
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
GR
5
79
Y2Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
C
4
3 2 1
56
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSORCOMPALS
TB1
TB1
POWER SUPPLY240/1/60
BL
RCCF
L2C
T2
L1
T1
NOTE 2
S R C
COMP
CM
VMR
C
24VTR
SPEED-UP
MOUNT
T1
P2
REQUIREDSCREW
P3135
120
150
FUSE 3 AMP MAX
F1
LS
118129
7 1042 5
631
FS
NOTE 6SEE
COOL
DI
L1HEAT
UNUSEDL2P1
ECON
ALS
PS
RS
GAS VALVE
MV
21 4
5
W. R.GAS VALVE
(ALT.) HONEYWELL
3 6
1 2 3
MV
FSIGN
VM
GVGV
TB1
TB1
TR TRANSFORMER
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
EML N
CR
SCOMP
H CRCCF
CM
VM
C
LPS
HPS
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
COOLING SPEED (YELLOW WIRE)
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T4 AND T5 TERMINALS. CHANGE HEATING SPEED AT MOTOR T1. T2, AND T3 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZER ACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL. (USE COPPER CONDUCTOR ONLY).
T3 - LOW SPEEDT4 - HIGH SPEED
NOTES
FACTORY WIRING
LOW VOLTAGE
BL
RD
YL
W
BL
GR
W
NO ECONOMIZER
G
RD
PK
WH
W
R RD
WHGR
C
RYL
GRGWH
C
GR
BL
C
2 STAGE COOLING
TB1
GR
W
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
STAT
STAT
STAT
EM
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLE
WH WHITE
BK BLACK
BR BROWN
OR ORANGE
YL YELLOW
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUE OF THE UNIT.8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
Y2Y1
3 1
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
GR
5
79ECON
IIC
W1 Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLFCNOTE 4
4
3 2 1
56
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)
VMRVM
PSPLF
TB1RS
RUN CAPACITOR FOR COMPRESSOR/FAN
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSOR
COMPONENT LEGEND
COMPALS
TB1
TB1
GNDYL
RD
YL
WH
RD
RCCF
RD
YL
RD
BK
BKRD
BL
BK
BK
PU
RD
S R C
COMP
BKPU
CM
BR
PK
240
PKVMR
BL
C
24VTR
BL
208
OR
SPEED-UP
MOUNT
T1
P2
REQUIREDSCREW
P3135
120
150
FUSE 3 AMP MAX
F1
LS RD
RD
WH
GR
YL
RD
RD
118129
7 1042 5
631
FS
RD
BRNOTE 6SEE
COOL
DI
L1HEAT
UNUSEDL2
BL
WH
YLYL
PU
RDBL
BL
BLBL
ECON
RD
GR
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVE
MV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YL
PU
PU
PU
1 2 3
BR
ORRD
MV
FSIGN
VM
BL
BL
YLWH
BR
BL
GVGV
TB1
TB1
TR TRANSFORMER
PU
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
YL
EML N
CR
SCOMP
H CRCCF
CMF
VM
C
F
WH
H C
YL
LPS
HPS
YL/PK
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
BK
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
T3 - LOW SPEEDT4 - HIGH SPEED
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
HIGH VOLTAGE
OPTIONAL HIGH VOLTAGEOPTIONAL LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
BL
RDY1
YL
W
BL
GR
W
G
YL
RDY1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
BL
NOTE 3 & 7
G
T4
EML
T3T2T1
C
RD
BK
N
T5
BL
YL/PK
WIRE CODE
PK PINK
RD RED
GR
SEENOTE 8
S1S2 RC W1 G
GR
WHRD
BLPUYL
TO THERMOSTAT
W2
BR
BR
RDBK
BK
SEE UNIT RATING PLATE FOR TYPE AND SIZEOF OVER CURRENT PROTECTION .
YLPU
BRWH
OR
WH
RD
SEE NOTE 5
W2
3 1
3
1
2
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRE FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
789
789
BR
RD
S1 S2
Y2
Y2
Y2
240/1/60 0140L04818-A
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)
OVERCURRENTPROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
++
++
1 51 5
YLWH
TB1
BR WH
BL YL
WH
BK
WH
0140
L048
18-A
32 www.daikinac.com SS-DTG3
Wiring Diagram — DTG0601401D*** (230V, Single Phase, Direct Drive) cont.
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
GR
5
79
Y2Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
C
4
3 2 1
56
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSORCOMPALS
TB1
TB1
POWER SUPPLY240/1/60
BL
RCCF
L2C
T2
L1
T1
NOTE 2
S R C
COMP
CM
VMR
C
24VTR
SPE
ED-U
P
MO
UN
T
T1
P2
RE
QU
IRED
SC
RE
W
P3135
120
150
FUSE 3 AMP MAX
F1
LS
118129
7 1042 5
631
FS
NOTE 6SEE
CO
OL
DI
L1H
EA
TU
NU
SEDL2
P1
EC
ON
ALS
PS
RS
GAS VALVE
MV
21 4
5
W. R.GAS VALVE
(ALT.) HONEYWELL
3 6
1 2 3
MV
FSIGN
VM
GVGV
TB1
TB1
TR TRANSFORMER
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
EML N
CR
SCOMP
H CRCCF
CM
VM
C
LPS
HPS
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
COOLING SPEED (YELLOW WIRE)
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T4 AND T5 TERMINALS. CHANGE HEATING SPEED AT MOTOR T1. T2, AND T3 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZER ACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL. (USE COPPER CONDUCTOR ONLY).
T3 - LOW SPEEDT4 - HIGH SPEED
NOTES
FACTORY WIRING
LOW VOLTAGE
BL
RD
YL
W
BL
GR
W
NO ECONOMIZER
G
RD
PK
WH
W
R RD
WHGR
C
RYL
GRGWH
C
GR
BL
C
2 STAGE COOLING
TB1
GR
W
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
STAT
STAT
STAT
EM
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLE
WH WHITE
BK BLACK
BR BROWN
OR ORANGE
YL YELLOW
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUE OF THE UNIT.8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
Y2Y1
3 1
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
VMRLS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFFON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
GR
5
79ECON
IIC
W1 Y1
3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
MAIN LIMIT OPEN
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLFCNOTE 4
4
3 2 1
56
GV
IGN
NOTE 6L1
F
HC
D1
FS
TR
CM CONDENSER MOTOR
NOTE 6
C
T2 T1
T5
T3
T4EM
FSIIC
L2
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)
VMRVM
PSPLF
TB1RS
RUN CAPACITOR FOR COMPRESSOR/FAN
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
RCCF
FUSEF
C
GV
FSGND
IGNIIC
EM
COMPRESSOR
COMPONENT LEGEND
COMPALS
TB1
TB1
GNDYL
RD
YL
WH
RD
RCCF
RD
YL
RD
BK
BKRD
BL
BK
BK
PU
RD
S R C
COMP
BKPU
CM
BR
PK
240
PKVMR
BL
C
24VTR
BL
208
OR
SPE
ED-U
P
MO
UN
T
T1
P2
RE
QU
IRED
SC
RE
W
P3135
120
150
FUSE 3 AMP MAX
F1
LS RD
RD
WH
GR
YL
RD
RD
118129
7 1042 5
631
FS
RD
BRNOTE 6SEE
CO
OL
DI
L1H
EA
TU
NU
SEDL2
BL
WH
YLYL
PU
RDBL
BL
BLBL
EC
ON
RD
GR
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVE
MV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YL
PU
PU
PU
1 2 3
BR
ORRD
MV
FSIGN
VM
BL
BL
YLWH
BR
BL
GVGV
TB1
TB1
TR TRANSFORMER
PU
C
L2
L2
VMR
T2
SUPPLY VOLTAGE240/1/60
L1
SEE NOTE 22 13
L1C T1
YL
EML N
CR
SCOMP
H CRCCF
CMF
VM
C
F
WH
H C
YL
LPS
HPS
YL/PK
LPS HPS
HIGH PRESSURE SWITCHHPS
LOW PRESSURE SWITCHLPS
BK
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
T3 - LOW SPEEDT4 - HIGH SPEED
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
HIGH VOLTAGE
OPTIONAL HIGH VOLTAGEOPTIONAL LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
BL
RDY1
YL
W
BL
GR
W
G
YL
RDY1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
BL
NOTE 3 & 7
G
T4
EML
T3T2T1
C
RD
BK
N
T5
BL
YL/PK
WIRE CODE
PK PINK
RD RED
GR
SEENOTE 8
S1S2 RC W1 G
GR
WHRD
BLPUYL
TO THERMOSTAT
W2
BR
BR
RDBK
BK
SEE UNIT RATING PLATE FOR TYPE AND SIZEOF OVER CURRENT PROTECTION .
YLPU
BRWH
OR
WH
RD
SEE NOTE 5
W2
3 1
3
1
2
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRE FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
789
789
BR
RD
S1 S2
Y2
Y2
Y2
240/1/60 0140L04818-A
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)
OVERCURRENTPROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
++
++
1 51 5
YLWH
TB1
BR WH
BL YL
WH
BK
WH
SS-DTG3 www.daikinac.com 33
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
COOLING SPEED (YELLOW WIRE)
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON
DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUEOF THE UNIT.
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T3 ANDT4 TERMINALS. CHANGE HEATING SPEED ATMOTOR T1. T2, AND T5 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZERACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAMESIZE AND TYPE OF INSULATION AS ORIGINAL.
(USE COPPER CONDUCTOR ONLY).
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
LS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS5 BLINKS
OFF
ON
1 BLINKOPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
5
79ECON
IIC3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLFNOTE 4
4
3 2 1
56
GV
C
T3 - LOW SPEEDT4 - HIGH SPEED
IGN
NOTE 6L1
F
D1
FS
TR
L1240/3/60
SUPPLY VOLTAGE
CM CONDENSER MOTOR
NOTE 6
FSIIC
L2
VM1
VMR
L3
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
NOTES
FAN CAPACITOR
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
FCFUSEF
C
GV
FSGND
IGNIIC
EM
L2 L3COMPRESSOR
COMPONENT LEGEND
COMPALS
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
GND
YL
BK
BK
POWER SUPPLY240/3/60
RD
WHBL
BREAK FOR TWO STAGE
T2
COMPRESSOR
IIC
FC
RD
RD
L2C
T2 T3
L3L1
T1
BK
BK
PU
YL
T3 T2 T1
COMP
BK
PU
CM
BR
VMR
C22
OR
SPEED-UP
MOUNT
T1
P2
REQUIREDSCREW
P3135
120
150
FUSE 3 AMP MAX
F1
WH
YL
RD
RD
118129
7 1042 5
631
FS
RD
BR
NOTE 6SEE
COOL
DI
L1HEAT
UNUSEDL2
BL
WH
YLYL
PU
RDBL
RD
PU
WH
GR BLBL
BL
P1
ECON
RD
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVEMV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YL
BR WH
BL YL
PU
PU
PU
WH
BR
OR
RD
TO THERMOSTAT
MV
FS
IGN
VM
BL
BL
YLWH
BR
BL
BK
GVGV
BK
TB1
TB1
TR TRANSFORMER
EML
3 12
N
SEE NOTE 2
L2
C
CM
T3
COMPT3
T2
FC
L1C T1
T1
CT2
PU
BL
YL
LPS
HPS
YL/PK
BL/PK
HPSLPS
HPS HIGH PRESSURE SWITCH
GR
VMR
TB1 54
EM
1
32
CH
NOTE 3
BL
HIGH VOLTAGE
FACTORY WIRING
LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
TB1
WHYL
NOTE 3 & 7
1 5
RD
YL
BL
RDY1
YL
W
BL
GR
W
NO ECONOMIZER
G
YL
RD
Y2
Y1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
2 STAGE COOLING
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
321
RD
RDLS
208TR
BL
24V
C
BL PK
240
BK
RD
BK
BL
NOTE 2RD
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLEPK PINK
WH WHITE
BK BLACK
RD RED
BR BROWN
OR ORANGE
YL YELLOW
BL
G
T4
EML
T3T2T1
C
GR
RDBK
N
T5
GR
SEE UNIT RATING PLATE FOR TYPE AND SIZE OFOVER CURRENT PROTECTION
8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
NOTE 8SEE
WHYLBR
PUOR
3
1
2
OR
OR
WH
SEE NOTE 5
3
YL
MAIN LIMIT OPEN
LPS LOW PRESSURE SWITCH
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRES FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
YL RD
789
789
GR Y1 CGR W1 Y2Y1 CW2S1 S2
Y2Y1S1S2 RC W1 GW2
WH
BRRD
PK
C
Y2
Y2
230/3/60 0140L05108-A
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)OVERCURRENT
PROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
++
++
BL
Wiring Diagram - DTG0360453D*** (230V, 3-Phase, Direct Drive)
0140
L051
08-A
34 www.daikinac.com SS-DTG3
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
Wiring Diagram - DTG0360453D*** (230V, 3-Phase, Direct Drive) (cont.)
COOLING SPEED (YELLOW WIRE)
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON
DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUEOF THE UNIT.
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T3 ANDT4 TERMINALS. CHANGE HEATING SPEED ATMOTOR T1. T2, AND T5 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZERACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAMESIZE AND TYPE OF INSULATION AS ORIGINAL.
(USE COPPER CONDUCTOR ONLY).
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
LS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS5 BLINKS
OFF
ON
1 BLINKOPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
5
79ECON
IIC3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLFNOTE 4
4
3 2 1
56
GV
C
T3 - LOW SPEEDT4 - HIGH SPEED
IGN
NOTE 6L1
F
D1
FS
TR
L1240/3/60
SUPPLY VOLTAGE
CM CONDENSER MOTOR
NOTE 6
FSIIC
L2
VM1
VMR
L3
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
NOTES
FAN CAPACITOR
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
FCFUSEF
C
GV
FSGND
IGNIIC
EM
L2 L3COMPRESSOR
COMPONENT LEGEND
COMPALS
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
GND
YL
BK
BK
POWER SUPPLY240/3/60
RD
WHBL
BREAK FO
R TW
O S
TAG
E
T2
CO
MPR
ESSO
R
IIC
FC
RD
RD
L2C
T2 T3
L3L1
T1
BK
BK
PU
YL
T3 T2 T1
COMP
BK
PU
CM
BR
VMR
C22
OR
SPEED-U
P
MO
UN
T
T1
P2
RE
QU
IRE
DS
CR
EW
P3135
120
150
FUSE 3 AMP MAX
F1
WH
YL
RD
RD
118129
7 1042 5
631
FS
RD
BR
NOTE 6SEE
CO
OL
DI
L1H
EATU
NU
SEDL2
BL
WH
YLYL
PU
RDBL
RD
PU
WH
GR BLBL
BL
P1
ECO
N
RD
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVEMV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YL
BR WH
BL YL
PU
PU
PU
WH
BR
OR
RD
TO THERMOSTAT
MV
FS
IGN
VM
BL
BL
YLWH
BR
BL
BK
GVGV
BK
TB1
TB1
TR TRANSFORMER
EML
3 12
N
SEE NOTE 2
L2
C
CM
T3
COMPT3
T2
FC
L1C T1
T1
CT2
PU
BL
YL
LPS
HPS
YL/PK
BL/PK
HPSLPS
HPS HIGH PRESSURE SWITCH
GR
VMR
TB1 54
EM
1
32
CH
NOTE 3
BL
HIGH VOLTAGE
FACTORY WIRING
LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
TB1
WHYL
NOTE 3 & 7
1 5
RD
YL
BL
RDY1
YL
W
BL
GR
W
NO ECONOMIZER
G
YL
RD
Y2
Y1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
2 STAGE COOLING
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
321
RD
RDLS
208TR
BL
24V
C
BL PK
240
BK
RD
BK
BL
NOTE 2RD
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLEPK PINK
WH WHITE
BK BLACK
RD RED
BR BROWN
OR ORANGE
YL YELLOW
BL
G
T4
EML
T3T2T1
C
GR
RDBK
N
T5
GR
SEE UNIT RATING PLATE FOR TYPE AND SIZE OFOVER CURRENT PROTECTION
8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
NOTE 8SEE
WHYLBR
PUOR
3
1
2
OR
OR
WH
SEE NOTE 5
3
YL
MAIN LIMIT OPEN
LPS LOW PRESSURE SWITCH
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRES FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
YL RD
789
789
GR Y1 CGR W1 Y2Y1 CW2S1 S2
Y2Y1S1S2 RC W1 GW2
WH
BRRD
PK
C
Y2
Y2
230/3/60 0140L05108-A
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)OVERCURRENT
PROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
++
++
BL
SS-DTG3 www.daikinac.com 35
Wiring Diagram - DTG0360903D***, DTG0480903D***, DTG0481153D***, DTG0600903D***, DTG0601403D*** (230V, 3-Phase, Direct Drive)
COOLING SPEED (YELLOW WIRE)
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUE OF THE UNIT.
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T3 AND T4 TERMINALS. CHANGE HEATING SPEED AT MOTOR T1. T2, AND T5 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZER ACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL. (USE COPPER CONDUCTOR ONLY).
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
LS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFF
ON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
5
79ECON
IIC3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLF
NOTE 44
3 2 1
56
GV
C
T3 - LOW SPEEDT4 - HIGH SPEED
IGN
NOTE 6L1
F
D1
FS
TR
L1240/3/60
SUPPLY VOLTAGE
CM CONDENSER MOTOR
NOTE 6
FSIIC
L2
VM1
VMR
L3
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
NOTES
FAN CAPACITOR
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
FCFUSEF
C
GV
FSGND
IGNIIC
EM
L2 L3
COMPRESSOR
COMPONENT LEGEND
COMPALS
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
GND
YL
BK
BK
POWER SUPPLY240/3/60
RD
WHBL
BREAK FOR TW
O STAG
E
T2
COM
PRESSOR
IIC
FC
RD
RD
L2C
T2 T3
L3L1
T1
BK
BK
PU
YL
T3 T2 T1
COMP
BK
PU
CM
BR
VMR
C22
OR
SPEED-UP
MOUNT
T1
P2
REQUIRED
SCREW
P3135
120
150
FUSE 3 AMP MAX
F1
WH
YL
RD
RD
118129
7 1042 5
631
FS
RD
BR
NOTE 6SEE
COO
L
DI
L1HEAT
UNUSEDL2
BL
WH
YLYL
PU
RDBL
RD
PU
WH
GR BLBL
BL
P1
ECON
RD
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVE
MV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YL
BR WH
BL YL
PU
PU
PU
WH
BR
OR
RD
TO THERMOSTAT
MV
FS
IGN
VM
BL
BL
YL
WHBR
BL
BK
GVGV
BK
TB1
TB1
TR TRANSFORMER
EML
3 12
N
SEE NOTE 2
L2
C
CM
T3
COMPT3
T2
FC
L1C T1
T1
CT2
PU
BL
YL
LPS
HPS
YL/PK
BL/PK
HPSLPS
HPS HIGH PRESSURE SWITCH
GR
VMR
TB1 54
EM
1
32
CH
NOTE 3
BL
HIGH VOLTAGE
FACTORY WIRING
LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
TB1
WHYL
NOTE 3 & 7
1 5
RD
YL
BL
RDY1
YL
W
BL
GR
W
NO ECONOMIZER
G
YL
RD
Y2
Y1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
2 STAGE COOLING
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
321
RD
RDLS
208TR
BL
24V
C
BL PK
240
BK
RD
BK
BL
NOTE 2RD
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLEPK PINK
WH WHITE
BK BLACK
RD RED
BR BROWN
OR ORANGE
YL YELLOW
BL
G
T4
EML
T3T2T1
C
GR
RD
BK
N
T5
GR
SEE UNIT RATING PLATE FOR TYPE AND SIZE OFOVER CURRENT PROTECTION
8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
BR
BR
NOTE 8SEE
WHYLBR
PUOR
3
1
2
OR
OR
WH
SEE NOTE 5
3
YL
MAIN LIMIT OPEN
LPS LOW PRESSURE SWITCH
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRES FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
YL RD
789
789
GR Y1 CGR W1 Y2Y1 CW2S1 S2
Y2Y1S1S2 RC W1 GW2
WH
BRRD
PK
C
Y2
Y2
230/3/60 0140L02913-B
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)
OVERCURRENTPROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
++
++
OPTIONAL HIGH VOLTAGEOPTIONAL LOW VOLTAGE
0140
L029
13-B
36 www.daikinac.com SS-DTG3
Wiring Diagram - DTG0360903D***, DTG0480903D***, DTG0481153D***, DTG0600903D***, DTG0601403D*** (cont.)
Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.
⚠ WarningHigh Voltage: Disconnect all power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury, or death. ⚡
COOLING SPEED (YELLOW WIRE)
++ USE NEC CLASS 2 WIRE.5. USE COPPER CONDUCTORS ONLY.
6. L1 AND L2 ON ICC CONTROL IS 24V INPUT.7. SPEED TAP TERMINATIONS SHOWN ON DIAGRAM ARE REPRESENTATIVE, BUT ACTUAL FACTORY SETTINGS MAY BE DIFFERENT BASED ON THE HEATING VALUE OF THE UNIT.
3. FOR DIFFERENT THAN FACTORY SPEED TAP. CHANGE COOLING SPEED AT MOTOR T3 AND T4 TERMINALS. CHANGE HEATING SPEED AT MOTOR T1. T2, AND T5 TERMINALS
4. ACCESSORY ECONOMIZER PLUG ADJACENT TO BLOWER HOUSING IN RETURN AIR COMPARTMENT. REMOVE MALE PLUG AND ATTACH FEMALE PLUG TO ECONOMIZER ACCESSORY.
1. REPLACEMENT WIRE MUST BE THE SAME SIZE AND TYPE OF INSULATION AS ORIGINAL. (USE COPPER CONDUCTOR ONLY).
AUXILIARY LIMIT SWITCH
FEMALE PLUG/CONNECTOR
INTEGRATED IGNITION CONTROL
LS4
INSTALLER/SERVICEMAN
TROUBLESHOOTING THIS APPLIANCE. STATUS LIGHT CODES ARE AS FOLLOWS:THE STATUS LIGHT ON THE FURNACE CONTROL MAY BE USED AS A GUIDE TO
STATUS LIGHT
3 BLINKS
6 BLINKS
2 BLINKS
4 BLINKS
5 BLINKS
OFF
ON
1 BLINK
OPEN AUX. LIMIT
FALSE FLAME SENSED
OUTPUT DELAY
OPEN LIMIT SWITCH
COMPRESSOR
WITHOUT INDUCER ONPRESSURE SWITCH CLOSED
PRESSURE SWITCHSWITCH
OPEN
OPEN ROLLOUTSWITCH
IGNITION FAILURE
NORMAL OPERATIONNO POWER OR
INTERNAL CONTROL
EQUIP. STATUS
OR
OR
FAULT
TO THERMOSTATTERMINAL BLOCK
5
79ECON
IIC3
6
1210
8
11
RSALS
PS
BAD SWITCHAUX. LIMIT OPEN
ANTI-CYCLE TIMER
STICKING GAS VALVEBAD SWITCH
3 MIN. COMP.
PRESSURE SWITCH
PRESSURE SWITCHCHECK
CHECK
GAS PRESSURE
FLAME ROLLOUTFLAME SENSOR
GAS VALVE
CHECK FUSE ON CONTROLCHECK INPUT POWER
REPLACE CONTROLGAS FLOW
CHECK-
PLF
NOTE 44
3 2 1
56
GV
C
T3 - LOW SPEEDT4 - HIGH SPEED
IGN
NOTE 6L1
F
D1
FS
TR
L1240/3/60
SUPPLY VOLTAGE
CM CONDENSER MOTOR
NOTE 6
FSIIC
L2
VM1
VMR
L3
LS LIMIT SWITCH
VENT MOTOR RELAYVENT MOTOR
PRESSURE SWITCH
TERMINAL BLOCK (24V SIGNAL)ROLLOUT SWITCH
VMRVM
PSPLF
TB1RS
NOTES
FAN CAPACITOR
CONTACTOR
GAS VALVE
IGNITOR
EQUIPMENT GROUNDFLAME SENSOR
EVAPORATOR MOTOR
FCFUSEF
C
GV
FSGND
IGNIIC
EM
L2 L3
COMPRESSOR
COMPONENT LEGEND
COMPALS
HEATING SPEED (WHITE WIRE)
T5 - HIGH SPEED (140)T2 - MED. SPEEDT1 - LOW SPEED (070)
GND
YL
BK
BK
POWER SUPPLY240/3/60
RD
WHBL
BR
EA
K FO
R TW
O S
TAG
E
T2
CO
MP
RE
SS
OR
IIC
FC
RD
RD
L2C
T2 T3
L3L1
T1
BK
BK
PU
YL
T3 T2 T1
COMP
BK
PU
CM
BR
VMR
C22
OR
SP
EE
D-U
P
MO
UN
T
T1
P2
RE
QU
IRE
DS
CR
EW
P3135
120
150
FUSE 3 AMP MAX
F1
WH
YL
RD
RD
118129
7 1042 5
631
FS
RD
BR
NOTE 6SEE
CO
OL
DI
L1H
EA
TU
NU
SE
DL2
BL
WH
YLYL
PU
RDBL
RD
PU
WH
GR BLBL
BL
P1
EC
ON
RD
ALS
GR
PS
RSPLF
YL
YL
NOTE 4
GAS VALVE
MV
21 4
5
YL
BL
W. R.GAS VALVE
PU
(ALT.) HONEYWELL
3 6
YL
BR WH
BL YL
PU
PU
PU
WH
BR
OR
RD
TO THERMOSTAT
MV
FS
IGN
VM
BL
BL
YL
WHBR
BL
BK
GVGV
BK
TB1
TB1
TR TRANSFORMER
EML
3 12
N
SEE NOTE 2
L2
C
CM
T3
COMPT3
T2
FC
L1C T1
T1
CT2
PU
BL
YL
LPS
HPS
YL/PK
BL/PK
HPSLPS
HPS HIGH PRESSURE SWITCH
GR
VMR
TB1 54
EM
1
32
CH
NOTE 3
BL
HIGH VOLTAGE
FACTORY WIRING
LOW VOLTAGE
FIELD WIRING
LINE VOLTAGE
LOW VOLTAGE
TB1
WHYL
NOTE 3 & 7
1 5
RD
YL
BL
RDY1
YL
W
BL
GR
W
NO ECONOMIZER
G
YL
RD
Y2
Y1
PK
WH
W
R RD
WHGR
C
RYL
GR
Y1
GWH
WITH ECONOMIZER OPTION
C
GR
THERMOSTATFIELD WIRING
BL
C
2 STAGE COOLING
TB1
GR
W
Y
C
TB1
TB1
Y
W
RG
C
W
Y2
GR
C
Y1
STAT
STAT
STAT
321
RD
RDLS
208TR
BL
24V
C
BL PK
240
BK
RD
BK
BL
NOTE 2RD
BL/PK BLUE WITH PINK STRIPYL/PK YELLOW WITH PINK STRIP
GR GREEN
WIRE CODE
BL BLUE
PU PURPLEPK PINK
WH WHITE
BK BLACK
RD RED
BR BROWN
OR ORANGE
YL YELLOW
BL
G
T4
EML
T3T2T1
C
GR
RD
BK
N
T5
GR
SEE UNIT RATING PLATE FOR TYPE AND SIZE OFOVER CURRENT PROTECTION
8. FOR LOW STAGE OPERATION ONLY, REMOVE WHITE JUMPER. FOR 2 STAGE OPERATION, REMOVE JUMPER AND CONNECT W2 TO W2 ON THERMOSTAT.
BR
BR
NOTE 8SEE
WHYLBR
PUOR
3
1
2
OR
OR
WH
SEE NOTE 5
3
YL
MAIN LIMIT OPEN
LPS LOW PRESSURE SWITCH
2. FOR 208 VOLT TRANSFORMER OPERATION MOVE BLACK WIRES FROM TERMINAL 3 TO TERMINAL 2 ON TRANSFORMER.
YL RD
789
789
GR Y1 CGR W1 Y2Y1 CW2S1 S2
Y2Y1S1S2 RC W1 GW2
WH
BRRD
PK
C
Y2
Y2
230/3/60 0140L02913-B
EQUIPMENTGROUND
FIELD GROUND
FIELD SPLICE
SWITCH (TEMP)
IGNITERSWITCH (PRESS.)
OVERCURRENTPROT. DEVICE
JUNCTIONTERMINAL
INTERNAL TOINTEGRATED
CONTROLPLUG
CONNECTION
SMOKE/FIREDETECTORREPLACES
JUMPER WIRE
++
++
++
OPTIONAL HIGH VOLTAGEOPTIONAL LOW VOLTAGE
SS-DTG3 www.daikinac.com 37
WIRING DIAGRAMS FOR MODELS WITH DDC CONTROLSFor complete information and installation instructions for models
with DDC controls, see manual DK-DDC-TGD-XXX
38 www.daikinac.com SS-DTG3
Wiring Diagram with DDC — DTG036090/DTG048090/DTG048115/DTG06090 (208-230V/1/60) D***
412 5
3 6
GN
D
LDS
BPS
WB
I1
BI2 BI3
RS
S
AI1
CO2VO
UT
DC
GN
D
24V
AC
CO
M
GN
D
VO
UT
DC
EC
ON
24V
TR1
124
02
3C
208
TR2
12
3
BK
CO
MP
SM
K/E
MG
PO
WE
R S
UP
PLY
208-
240/
1/60
SEE
NO
TE 2
CFS
YL/P
KB
L/P
K
BK
BR
RD
PK G
RYL
GR
GR
BL
CC
OARH SPCRH
STP
TO
FFSE
T
GN
D
TEM
P
SPCTEMP
BL
BL
DA
T
OA
T
BI4
BI5 BI6
BI7
BI8
AI2
AI3
AI4
AI5 AI6
AI7
AI8 GN
D
AG
ND
24V
AC
AG
ND
GN
DG
ND
CO
M3-
8R
L8 AO
4
CO
M2
AO
3
AO
2
AO
1
CO
M3-
8
RL7
RL6RL5
RL4
RL3
RL2
RL1CO
M1
AG
C
VO
UT
DC
GN
D
BL
WH
WH
WH
WH
+ - + -HG
RH
EX
F
GR
ALR
M+ -
RD
T2 T1
L2 L1
RD B
K
BL
RD
BK
BK R
D
WH
PK
YL RD
SEE
NO
TE 4
240
C20
8
24V
RD
24V
T5T4
T3T2
T1
SE
E N
OTE
5
CS
PS
ESX
S
RD
RD
HP
SLP
S
TB1
RD
BK
YL
PU
PU
PKYL
PK
VM
VM
R 3 1
2
PS RS
ALS
MV
MV
PU
W.R
.G
AS
VA
LVE
GV
BL(ALT
.) H
ON
EYW
ELL
GA
S V
ALV
E
GV
FS IGN
SE
E N
OTE
6
IIC
LS
10
7 9
12
8
11
ECO
N
1 32654
L1FS
DIHEAT COOLUNUSED
L2
SE
EN
OTE
3
CM
BR
PU
BK
BK
RD
WH BK
BK
BK
PK
RD
PU
PU
BR
RD
OR
BL
BL
BL
BL
BL
BLPK
WH
YL
YLYLP
UBL
RD
RD
RD
RD
RD
OR
RD
GR
GR
PU
RD
WH
BR
BK
BL
BL
WH
BR
WH
BL
PU
RD
BK
BL
BL
WH
BL
BK GR
BK
GR
YL/
PK
YL
TB2
0140
L058
05-A
208-
240/
1/60
DA
PU
RD
PU
WH
RD
BK
RD
BK
24 V
AC
EM GT4
LT3T2
T1 CNT5
TB
GR
GR
OR
RD
BK
BL
BL
OR
OR
WH
WH
BR
BR
PU
PU
YL
YLS
EE N
OTE
7
RD BK
OR
OR
OR
FC
H
RC
CF
YL
RD
BR
BL
BL/ PK
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
SS-DTG3 www.daikinac.com 39
Wiring Diagram with DDC - DTG036090/DTG048090/DTG048115/DTG06090 (208-230V/1/60) D***
0140
L058
44-A
LDS
RS
S
BP
SW
3
24V
TR
1
HP
S
3
24V
TR
1
LPS
BI1
BI2
BI3 BI5
BI6 BI7
BI8 AI1 AI2 AI4 AI 5
AI6
AI7
AI8 AG
ND
OA
TD
AT
OA
RH
431 2
CO
2
SP
CTE
MP
CO
M
SEN
SOR
OFF
SET
SP
CR
H
CO
M1
RL1
RL2
CO
M2
CO
M3-
8
AI3
RL3
RL4
RL5
CC
1
RL6
RL7
RL8
24V
AC
GN
D
ECO
NP
LF
+ - + - + -HG
RH
EX
F
ALR
M
SM
K/E
MG
AO
1
AO
2
AO
3A
O4
VM
R
FSIGN
NO
TE 3
L2
RS
GV
LS
H
D1
FSF
54L1
ALS
PS
103 6 8
IIC
D D C
T1C
OM
P
SU
PP
LY V
OLT
AG
E
CM
L1
T2
208-
240/
1/60
CC
CC
VM
R3
1V
M
BI4
208-
240/
1/60
208-
240/
1/60
SE
E N
OTE
5
RC
CF
CFS
L2
BL/
PK
B
LUE
WIT
H P
INK
ST
RIP
E
PK
P
INK
YL/P
K
YEL
LOW
WIT
H P
INK
STR
IPE
WIR
E C
OD
E
OF
OV
ER C
UR
REN
T P
RO
TEC
TIO
N
LIN
E V
OLT
AG
E
OP
TIO
NA
L H
IGH
VO
LTA
GE
LOW
VO
LTA
GE
RD
R
ED
FAC
TOR
Y W
IRIN
G
LOW
VO
LTA
GE
BL
BLU
EB
K
BLA
CK
NO
TES
:
1. R
EP
LAC
EM
EN
T W
IRE
MU
ST
BE
SA
ME
SIZ
E A
ND
T
YP
E IN
SU
LATI
ON
AS
OR
IGIN
AL
(AT
LEA
ST
105°
C)
U
SE
CO
PP
ER
CO
ND
UC
TOR
ON
LY.
2. U
SE
CO
PP
ER
CO
ND
UC
TOR
S O
NLY
+
+ U
SE
N.E
.C. C
LAS
S 2
WIR
E3.
EC
ON
OM
IZE
R P
LUG
LO
CA
TED
IN T
HE
RE
TUR
N A
IR
CO
MP
AR
TMEN
T. R
EM
OV
E M
ALE
PLU
G A
ND
ATT
AC
H
FE
MA
LE P
LUG
TO
TH
E E
CO
NO
MIZ
ER
AC
CE
SS
OR
Y.
4. F
OR
208
VO
LT T
RA
NS
FOR
MER
OP
ER
ATI
ON
MO
VE
B
LAC
K W
IRE
FR
OM
TE
RM
INA
L 3
TO
TE
RM
INA
L 2
O
N
TR
AN
SFO
RM
ER.
5.R
EM
OV
E J
UM
PER
IF S
MO
KE
DE
TEC
TOR
OR
EM
ER
GE
NC
Y
SH
UTD
OW
N D
EV
ICE
IS IN
STA
LLE
D.
6. C
RAN
KCA
SE
HE
ATE
R A
ND
CR
ANKC
AS
E H
EA
TER
S
WIT
CH
FAC
TOR
Y E
QU
IPP
ED
WH
EN R
EQ
UIR
ED.
7. F
OR
DIF
FER
EN
T TH
AN F
ACTO
RY
SP
EE
D T
AP
. CH
ANG
EC
OO
LIN
G S
PE
ED
AT
MO
TOR
T4
AN
D T
5 TE
RM
INA
LS. C
HA
NG
EH
EA
TIN
G S
PE
ED
AT
MO
TOR
T1,
T2
AN
D T
3. S
PE
ED
TA
PTE
RM
INA
TIO
NS
SH
OW
N O
N D
IAG
RA
M A
RE
RE
PRE
SE
NTA
TIV
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UT
AC
TUA
L FA
CTO
RY
SE
TTIN
GS
MA
Y B
E D
IFFE
REN
T B
AS
ED
ON
TH
E H
EA
TIN
G V
ALU
E O
F TH
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NIT
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OO
LIN
G S
PE
ED
(GR
EEN
AN
D B
RO
WN
)
T
3 - L
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SP
EE
D
T
4 - H
IGH
SP
EE
DH
EA
TIN
G S
PE
ED
(WH
ITE
)
T
1 - L
OW
SP
EE
D
T
2 - M
ED
SP
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D
T
5 - H
IGH
SP
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D
OR
O
RAN
GE
SE
E U
NIT
RA
TIN
G P
LATE
FO
R T
YP
E A
ND
SIZ
E
YL
YEL
LOW
GR
G
RE
EN
WH
W
HIT
E
BR
B
RO
WN
CO
MP
ON
ENT
LEG
EN
D
FIE
LD W
IRIN
GH
IGH
VO
LTA
GE
PU
P
UR
PLE
FIE
LD S
PLI
CE
SW
ITC
H (T
EM
P)
O
PTI
ON
AL
LOW
VO
LTA
GE
SW
ITC
H (P
RE
SS
.)
OV
ERC
UR
REN
TP
RO
T. D
EV
ICE
TER
MIN
AL
PLU
G C
ON
NEC
TIO
N
FIE
LD G
RO
UN
D
IGN
ITE
R
JUN
CTI
ON
SC
HE
MA
TIC
SY
MB
OL
AG
ND
AO
AI
ALR
MB
HS
BI
BLS
BP
SW
CC
CC
RC
FSC
HC
HS
CM
CO
MC
OM
PC
SD
FTE
CO
NG
V
DC
GR
OU
ND
FO
R A
NA
LOG
SE
NSO
RS
("A
G" O
N T
B2)
4 A
NA
L OG
OU
TPU
T S8
AN
AL O
G IN
PU
TSA
LAR
MB
LOW
ER
HIG
H S
PE
E D8
BIN
AR
Y IN
PU
TSB
LOW
ER
LO
W S
PE
ED
BLO
WE
R P
RO
VIN
G S
WIT
CH
CO
MP
RE
SSO
R C
ON
TAC
TOR
CO
MP
RE
SSO
R C
ON
TAC
TOR
RE
LAY
CLO
GG
ED
FIL
TER
SW
ITC
HC
RA
NKC
AS
E H
EA
TER
CR
ANK
CA
SE
HE
ATE
R S
WIT
CH
CO
ND
EN
SER
MO
TOR
CO
MM
ON
("C
" ON
TB
2)C
OM
PR
ESS
OR
CO
M1
A ND
SM
OK
E D
ETE
CTO
RD
EFR
OS
T TH
ER
MO
STA
TE
CO
NO
MIZ
ER
GAS
VA
LVE
EM
ES
EXF
GN
DH
GR
HH
PS
LDS
LPS
OAT
OAR
HP
LFP
SR
CC
FR
LR
SS
RV
CS
AT/
DA
TS
MK
/EM
GS
PC
TEM
PS
PC
RH
T1-T
5
TB1-
2TR
1-2
X S
EV
AP
OR
ATO
R M
OTO
RE
CO
N C
OM
3 -8,
BI1
AN
D S
MO
KE
DE
TEC
TOR
EXH
AU
ST
FAN
EQ
UIP
ME
NT
GR
OU
ND
HO
T G
AS
RE
HE
AT
HIG
H P
RE
SSU
RE
SW
ITC
HLO
AD
SH
ED
DIN
GLO
W P
RE
SS U
RE
SW
ITC
HO
UTD
OO
R A
IR T
EM
PE
RA
TUR
EO
UTD
OO
R A
I R R
ELA
T IV
E H
UM
IDIT
YFE
MA
LE P
LUG
/ C
ON
NE C
TOR
HP
S, L
PS
& S
MO
KE
DE
TEC
TOR
RU
N C
AP
ACIT
OR
FO
R C
ON
DE
NS
ER
FAN
RE
LAY
RE M
OTE
STA
RT
STO
PR
EV
ERS
ING
VA
LVE
CO
ILS
UP
PLY
/ D
ISC
HA R
GE
AIR
TE
MP
ER
A TU
RE
SM
OK
E O
R E
ME R
GEN
CY
SH
UTD
OW
NS
PA
CE
TEM
PE
RA
TUR
ES
PA
CE
RE
LATI
VE
HU
MI D
ITY
MO
TOR
SP
EE
D T
AP
S 1
-5(D
IRE C
T D
RIV
EN
MO
TOR
ON
L Y)
TER
MIN
AL
BL O
CK
(24V
SIG
NA
L)TR
AN
SFO
RM
ER24
VA
C T
RA
NS
FOR
MER
& S
MO
KED
ETE
CTO
R
CO
MP
ON
ENT
LEG
EN
D
C
T2T1
T5
T3T4E
MC
T2T1
T5
T3T4E
M
TB1
TB1
TB
EMG T4
EML T3T2
T1CN T5
208-
240/
1/60
FH
C
SE
E N
OTE
2
SE
E N
OTE
4
22
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
40 www.daikinac.com SS-DTG3
Wiring Diagram with DDC — DTG036045 (208-230V/1/60) D***
412 5
3 6
GN
D
LDS
BP
SW
BI1
BI2 BI3
RS
S
AI1
CO2VO
UT
DC
GN
D
24V
AC
CO
M
GN
D
VO
UT
DC
EC
ON
24V
TR1
124
02
3C
208
TR2
12
3
BK
CO
MP
SM
K/E
MG
PO
WE
R S
UP
PLY
208-
240/
1/60
SE
E N
OTE
2
CFS
YL/P
KBL
/PK
BK
BR
RD
PK
GR
YL
GR
GR
BL
OARH SPCRH
STP
TO
FFS
ET
GN
D
TEM
P
SPCTEMP
BL
BL
DA
T
OA
T
BI4
BI5 BI6
BI7
BI8
AI2
AI3
AI4
AI5 AI6
AI7
AI8 GN
D
AG
ND
24V
AC
AG
ND
GN
DG
ND
CO
M3-
8R
L8 AO
4
CO
M2
AO
3
AO
2
AO
1
CO
M3-
8
RL7
RL6RL5
RL4
RL3
RL2
RL1CO
M1
AG
C
VO
UT
DC
GN
D
BL
WH
WH
WH
WH
+ - + -HG
RH
EX
F
GR
ALR
M+ -
RD
T2 T1
L2 L1
RD B
K
BL
RD
BK
BK
RD
WH
PK
YL RD
SE
E N
OTE
4
240
C20
8
24V
RD
24V
T5T4
T3T2
T1
SE
E N
OTE
5
CS
PS
ES
XS
RD
RD
HP
SLP
S
TB1
RD
BK
YL
PU
PU
PK
YLP
K
VM
VM
R 3 1
2
PS
RS
ALS
MV
MV
PU
W.R
.G
AS
VA
LVE
GV
BL(A
LT.)
HO
NE
YW
ELL
GA
S V
ALV
E
GV
FS IGN
SE
E N
OTE
6
IIC
LS
10
7 9
12
8
11
ECO
N
1 32654
L1FS
DIHEAT COOLUNUSED
L2
SE
EN
OTE
3
CM
BR
PU
BK
BK
RD
WH
BK
BK
BK
PK
RD
PU
PU
RD
OR
BL
BL
BLB
L
BLBLPK
WH
YL
YLYLP
UBLRD
RD
RD
RD
RD
OR
RD
GR
GR
PU
RD
WH
BR
BK
BL
BL
WH
WH BL
PU
RD
BK
BL
BL
WH
BL
BK
GR
BK
GR
YL/
PK
YL
TB2
0140
L058
06-A
208-
240/
1/60
DA
PU
RD
PU
WH
RD
BK
RD
BK
24 V
AC
EM GT4
LT3T2
T1 CNT5
TB
GR
GR
OR
RD
BK
BL
BL
OR
OR
WH
WH
BR
BR
PU
PU
YL
YLS
EE
NO
TE 7
RD BK
OR
OR
OR F
CH
RC
CF
YL
RD
BR
CC
BL
BL/ PK
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
SS-DTG3 www.daikinac.com 41
Wiring Diagram with DDC – DTG036045 (208-230V/1/60) D***
0140
L058
46-A
LDS
RS
S
BP
SW
3
24V
TR
1
HP
S
3
24V
TR
1
LPS
BI1
BI2
BI3 BI5
BI6 BI7
BI8 AI1 AI2 AI4
AI5
AI6 AI7
AI8 AG
ND
OA
TD
AT
OA
RH
431 2
CO
2
SPC
TEM
PC
OM
SEN
SO
R
OFF
SET
SP
CR
H
CO
M1
RL1
RL2
CO
M2
CO
M3-
8
AI3
RL3
RL4
RL5
CC
1
RL6
RL7
RL8
24V
AC
GN
D
ECO
NP
LF
+ - + - + -HG
RH
EX
F
ALR
M
SM
K/E
MG
AO
1
AO
2
AO
3A
O4
VM
R
FSIGN
NO
TE 3
L2
RS
GV
LS
H
D1
FSF
54L1
ALS
PS
103 6 8
IIC
D D C
T1C
OM
P
SU
PPL
Y V
OLT
AG
E
CM
L1
T2
208-
240/
1/60
CC
CC
VM
R3
1V
M
BI4
208-
240/
1/60
208-
240/
1/60
SE
E N
OTE
5
RC
CF
CFS
L2
BL/
PK
B
LUE
WIT
H P
INK
STR
IPE
PK
P
INK
YL/
PK
Y
ELLO
W W
ITH
PIN
K S
TRIP
E
WI R
E C
OD
E
OF
OVE
R C
UR
REN
T P
RO
TEC
TIO
N
LIN
E V
OLT
AG
E
OP
TIO
NAL
HIG
H V
OLT
AG
E
LOW
VO
LTAG
E
RD
R
EDFA
CTO
RY
WIR
ING
LOW
VO
LTA
GE
BL
BLU
EB
K
BLA
CK
NO
TES
:
1. R
EP
LAC
EM
EN
T W
IRE
MU
ST
BE
SA
ME
SIZ
E A
ND
T
YPE
INS
ULA
TIO
N A
S O
RIG
INA
L (A
T LE
AST
105
°C)
U
SE
CO
PP
ER
CO
ND
UC
TOR
ON
LY.
2. U
SE
CO
PP
ER
CO
ND
UC
TOR
S O
NLY
+
+ U
SE
N.E
.C. C
LASS
2 W
IRE
3. E
CO
NO
MIZ
ER
PLU
G L
OC
ATE
D IN
TH
E R
ETU
RN
AIR
C
OM
PA
RTM
EN
T. R
EM
OV
E M
ALE
PLU
G A
ND
ATT
AC
H
FE
MA
LE P
LUG
TO
TH
E E
CO
NO
MIZ
ER A
CC
ES
SOR
Y.
4. F
OR
208
VO
LT T
RA
NS
FOR
ME
R O
PE
RA
TIO
N M
OV
E
BLA
CK
WIR
E F
RO
M T
ER
MIN
AL 3
TO
TE
RM
INAL
2
ON
T
RA
NS
FOR
MER
.5.
RE
MO
VE
JU
MP
ER
IF S
MO
KE
DE
TEC
TOR
OR
EM
ER
GE
NC
Y
SH
UTD
OW
N D
EV
ICE
IS IN
STA
LLE
D.
6. C
RAN
KCAS
E H
EAT
ER A
ND
CR
ANKC
ASE
HE
ATE
R
SW
ITC
H F
AC
TOR
Y E
QU
IPPE
D W
HE
N R
EQ
UIR
ED
.7.
FO
R D
IFFE
RE
NT
THA
N F
AC
TOR
Y S
PEED
TA
P. C
HA
NG
EC
OO
LIN
G S
PEED
AT
MO
TOR
T4
AN
D T
5 TE
RM
INA
LS. C
HA
NG
EH
EA
TIN
G S
PE
ED A
T M
OTO
R T
1, T
2 A
ND
T3.
SPE
ED T
APTE
RM
INA
TIO
NS
SH
OW
N O
N D
IAG
RA
M A
RE
RE
PR
ES
EN
TATI
VE
BU
T A
CTU
AL
FAC
TOR
Y S
ETT
ING
S M
AY
BE
DIF
FER
EN
T B
AS
ED
ON
TH
E H
EA
TIN
G V
ALU
E O
F TH
E U
NIT
.C
OO
LIN
G S
PEED
(GR
EE
N A
ND
BR
OW
N)
T3
- LO
W S
PE
ED
T4
- HIG
H S
PEED
HE
ATIN
G S
PEE
D (W
HIT
E)
T1
- LO
W S
PE
ED
T2
- MED
SPE
ED
T
5 - H
IGH
SPE
ED
OR
O
RA
NG
E
SEE
UN
IT R
ATI
NG
PLA
TE F
OR
TY
PE A
ND
SIZ
E
YL
YE
LLO
W
GR
G
RE
EN
WH
W
HIT
E
BR
B
RO
WN
CO
MPO
NEN
T LE
GE
ND
FIE
LD W
IRIN
GH
IGH
VO
LTA
GE
PU
PU
RPL
E
FIE
LD S
PLI
CE
SW
ITC
H (T
EM
P)
O
PTI
ON
AL
LOW
VO
LTA
GE
SW
ITC
H (P
RE
SS.)
OVE
RC
UR
REN
TP
RO
T. D
EV
ICE
TER
MIN
AL
PLU
G C
ON
NE
CTI
ON
FIE
LD G
RO
UN
D
IGN
ITER
JUN
CTI
ON
SC
HE
MA
TIC
SY
MBO
L
AGN
D
AO AI ALR
MBH
SBI BL
SBP
SW
CC
CC
RC
FSC
HC
HS
CM
CO
MC
OM
PC
SD
FTEC
ON
DC
GR
OU
ND
FO
R A
NA
L OG
SEN
SOR
S ("
AG
" ON
TB2
)4
ANA
LOG
OU
TPU
TS8
ANA
LOG
INP
UTS
ALAR
MBL
OW
ER H
IGH
SP
EED
8 BI
NAR
Y IN
PUTS
BLO
WER
LO
W S
PE
EDBL
OW
ER P
RO
VIN
G S
WIT
CH
CO
MPR
ESS
OR
CO
NT A
CTO
RC
OM
PRE
SSO
R C
ON
TAC
TOR
REL
AYC
LOG
GE
D F
ILTE
R S
WIT
CH
CR
ANK C
ASE
HEA
TER
CR
A NK
CAS
E H
EATE
R S
WIT
CH
CO
ND
ENS
E R M
OTO
RC
OM
MO
N ("
C" O
N T
B2)
CO
MPR
ESS
OR
CO
M1
AND
SM
OKE
DE
TEC
T OR
DEF
RO
ST T
HER
MO
STA
TEC
ON
OM
IZER
EM ES EX F
GN
DH
GR
HH
PSLD
SLP
SO
ATO
ARH
PLF
PS RC
CF
RL
RSS
RVC
SAT/
DAT
SMK/
EMG
SPC
TEM
PSP
CR
HT1
-T5
TB1-
2TR
1-2
XS
EVAP
OR
ATO
R M
OTO
REC
ON
CO
M3-
8,B I
1 AN
D S
MO
KE D
E TEC
TOR
EXH
AUS
T FA
NEQ
UIP
MEN
T G
RO
UN
DH
OT
GAS
RE
HEA
TH
IGH
PR
ESSU
RE
SW
ITC
HLO
AD S
HE
DD
ING
LOW
PR
ESS
UR
E S
WI T
CH
OU
TDO
OR
AIR
TEM
PER
ATU
RE
OU
TDO
OR
AIR
REL
ATI
VE H
UM
IDIT
YFE
MA
L E P
LUG
/ C
ON
NEC
TOR
HPS
, LPS
& S
MO
KE D
ETEC
TOR
RU
N C
APA C
ITO
R F
OR
CO
ND
ENSE
R F
ANR
ELAY
REM
OT E
STA
RT
STO
PR
EVER
SIN
G V
ALV
E C
OIL
SUP
PLY
/ DIS
CH
A RG
E AI
R T
EMPE
RAT
UR
ESM
OKE
OR
EM
ERG
E NC
Y SH
UTD
OW
NSP
ACE
TEM
PER
ATU
RE
SPAC
E R
ELA
TIVE
HU
MID
ITY
MO
TOR
SPE
ED T
APS
1-5
(DIR
ECT
DR
IVEN
MO
TOR
ON
LY)
TER
MIN
AL B
LOC
K (2
4V S
IGN
AL)
TRAN
S FO
RM
ER24
VAC
TR
A NSF
OR
ME R
& S
MO
KED
ETEC
TOR
CO
MPO
NEN
T LE
GE
ND
C
T2T1
T5
T3T4EM
C
T2T1
T5
T3T4EM
TB1
TB1
TB
EMG T4
EM
L T3T2
T1CN T5
208-
240/
1/60
FH
C
SE
E N
OTE
2
SEE
NO
TE 4
22
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
42 www.daikinac.com SS-DTG3
Wiring Diagram with DDC — DTG060140 (208-230V/1/60) D***
412 5
3 6
GN
D
LDS
BP
SW
BI1
BI2 BI3
RSS
AI1
CO2VO
UT
DC
GN
D
24V
AC
CO
M
GN
D
VO
UT
DC
EC
ON
24V
TR1
124
02
3C
208
TR2
12
3
BK
CO
MP
SM
K/E
MG
PO
WE
R S
UP
PLY
208-
240/
1/60
SE
E N
OTE
2
CFS
YL/P
KBL
/PK
BK
BR
RD
PK G
RYL
GR
GR
BL
CC
OARH SPCRH
STP
TO
FFS
ET
GN
D
TEM
P
SPCTEMP
BL
BL
DAT
OA
T
BI4
BI5 BI6
BI7
BI8
AI2
AI3
AI4
AI5 AI6
AI7
AI8 GN
D
AG
ND
24V
AC
AG
ND
GN
DG
ND
CO
M3-
8R
L8 AO
4
CO
M2
AO
3
AO
2
AO
1
CO
M3-
8
RL7
RL6RL5
RL4
RL3
RL2
RL1CO
M1
AGC
VO
UT
DC
GN
D
BL
WH
WH
WH
WH
+ - + -HG
RH
EX
F
GR
ALR
M+ -
RD
T2 T1
L2 L1
RD B
K
BL
RD
BK
BK R
D
WH
PK
YL RD
SE
E N
OTE
4
240
C20
8
24V
RD
24V
T5T4
T3T2
T1
SEE
NO
TE 5
CS
PS
ES
XS
RD
RD
HPS
LPS
TB1
RD
BK
YL
PU
PU
PK
YLPK
VM
VM
R 3 1
2
PS
RS
ALS
MV
MV
PU
W.R
.G
AS
VA
LVE
GV
BL
(ALT
.) H
ON
EYW
ELL
GA
S V
ALV
E
GV
FS IGN
SE
E N
OTE
6
IIC
LS
10
7 9
12
8
11
ECO
N
1 32654
L1FS
DIHEAT COOLUNUSED
L2
SE
EN
OTE
3
CM
BR
PU
BK
BK
RD
RD W
H B
K
BK
PK
RD
PU
PU
BR
RD
OR
BL
BL
BL
BL
BL
BLPK
WH
YL
YLYLP
UBL
RD
RD
RD
RD
RD
OR
RD
GR
GR
PU
RD
WH
BR
BK
BLB
L
WH
BR
WH BL
PU
RD
BK
BL
BL
WH
BL
BK
GR
BK
GR
YL/
PK
YL
TB2
0140
L058
07-A
208-
240/
1/60
DA
PU
RD
PU
WH
RD
BK
RD
BK
24 V
AC
EM GT4
LT3T2
T1 CNT5
TB
GR
GR
OR
RD
BK
BL
BL
OR
OR
WH
WH
BR
BR
PU
PU
YL
YLSE
E N
OTE
7
RD
BK
OR
OR
OR F
CH
RC
CF
YL
RD
BR
BK
BK
BL/ PK
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
SS-DTG3 www.daikinac.com 43
Wiring Diagram with DDC – DTG060140 (208-230V/1/60) D***
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
0140
L058
47-A
LDS
RS
S
BP
SW
3
24V
TR
1
HP
S
3
24V
TR
1
LPS
BI1
BI2
BI3 BI5
BI6 BI7
BI8 AI1 AI2 AI4 AI 5
AI6
AI7
AI8 AG
ND
OA
TD
AT
OA
RH
431 2
CO
2
SP
CTE
MP
CO
M
SEN
SOR
OFF
SET
SP
CR
H
CO
M1
RL1
RL2
CO
M2
CO
M3-
8
AI3
RL3
RL4
RL5
CC
1
RL6
RL7
RL8
24V
AC
GN
D
EC
ON
PLF
+ - + - + -HG
RH
EXF
ALR
M
SM
K/E
MG
AO
1
AO
2
AO
3A
O4
VM
R
FSIGN
NO
TE 3
L2
RS
GV
LS
H
D1
FSF
54L1
ALS
PS
103 6 8
IIC
D D C
T1C
OM
P
SU
PP
LY V
OLT
AG
E
CM
L1
T2
208-
240/
1/60
CC
CC
VM
R3
1V
M
BI4
208-
240/
1/60
208-
240/
1/60
SE
E N
OTE
5
RC
CF
CFS
L2
BL/
PK
B
LUE
WIT
H P
INK
STR
IPE
PK
P
INK
YL/
PK
Y
ELL
OW
WIT
H P
INK
STR
IPE
WI R
E C
OD
E
OF
OVE
R C
UR
RE
NT
PR
OTE
CTI
ON
LIN
E V
OLT
AG
E
OPT
ION
AL
HIG
H V
OLT
AG
E
LOW
VO
LTA
GE
RD
R
EDFA
CTO
RY
WIR
ING
LOW
VO
LTA
GE
BL
BLU
EB
K
BLA
CK
NO
TES
:
1. R
EP
LAC
EM
ENT
WIR
E M
UST
BE
SA
ME
SIZ
E A
ND
T
YP
E IN
SULA
TIO
N A
S O
RIG
INA
L (A
T LE
AS
T 10
5°C
)
US
E C
OP
PER
CO
ND
UC
TOR
ON
LY.
2. U
SE
CO
PP
ER C
ON
DU
CTO
RS
ON
LY
++
US
E N
.E.C
. CLA
SS 2
WIR
E3.
EC
ON
OM
IZER
PLU
G L
OC
ATE
D IN
TH
E R
ETU
RN
AIR
C
OM
PAR
TME
NT.
RE
MO
VE M
ALE
PLU
G A
ND
ATT
AC
H
FE
MA
LE P
LUG
TO
TH
E E
CO
NO
MIZ
ER A
CC
ES
SO
RY
.4.
FO
R 2
08 V
OLT
TR
AN
SFO
RM
ER O
PER
ATI
ON
MO
VE
B
LAC
K W
IRE
FR
OM
TE
RM
INA
L 3
TO
TE
RM
INA
L 2
O
N
TR
AN
SFO
RM
ER.
5.R
EM
OV
E J
UM
PER
IF S
MO
KE
DE
TEC
TOR
OR
EM
ERG
ENC
Y
SH
UTD
OW
N D
EV
ICE
IS IN
STA
LLE
D.
6. C
RA
NK
CA
SE
HE
ATE
R A
ND
CR
AN
KCA
SE
HE
ATE
R
SW
ITC
H F
ACTO
RY
EQ
UIP
PED
WH
EN R
EQ
UIR
ED.
7. F
OR
DIF
FER
EN
T TH
AN
FAC
TOR
Y S
PE
ED T
AP
. CH
AN
GE
CO
OLI
NG
SP
EE
D A
T M
OTO
R T
4 A
ND
T5
TER
MIN
ALS
. CH
AN
GE
HE
ATI
NG
SP
EE
D A
T M
OTO
R T
1, T
2 A
ND
T3.
SP
EE
D T
AP
TER
MIN
ATI
ON
S S
HO
WN
ON
DIA
GR
AM
AR
E R
EPR
ES
EN
TATI
VE
BUT
AC
TUA
L FA
CTO
RY
SE
TTIN
GS
MA
Y B
E D
IFFE
RE
NT
BA
SE
DO
N T
HE
HE
ATI
NG
VA
LUE
OF
THE
UN
IT.
CO
OLI
NG
SP
EED
(GR
EE
N A
ND
BR
OW
N)
T3
- LO
W S
PE
ED
T
4 - H
IGH
SP
EE
DH
EA
TIN
G S
PEE
D (W
HIT
E)
T1
- LO
W S
PE
ED
T
2 - M
ED
SPE
ED
T5
- HIG
H S
PE
ED
OR
O
RA
NG
E
SE
E U
NIT
RA
TIN
G P
LATE
FO
R T
YP
E A
ND
SIZ
E
YL
YE
LLO
W
GR
G
RE
EN
WH
W
HIT
E
BR
BR
OW
N
CO
MPO
NE
NT
LEG
EN
D
FIE
LD W
IRIN
GH
IGH
VO
LTA
GE
PU
PU
RP
LE
FIE
LD S
PLI
CE
SW
ITC
H (T
EM
P)
O
PTI
ON
AL
LOW
VO
LTA
GE
SW
ITC
H (P
RE
SS
.)
OVE
RC
UR
RE
NT
PR
OT.
DE
VIC
E
TER
MIN
AL
PLU
G C
ON
NE
CTI
ON
FIE
LD G
RO
UN
D
IGN
ITE
R
JUN
CTI
ON
SC
HE
MA
TIC
SY
MB
OL
AG
ND
AO
AI
ALR
MBH
SB
IB
LSB
PS W
CC
CC
RC
FSC
HC
HS
CM
CO
MC
OM
PC
SD
FTE
CO
NG
V
DC
GR
OU
ND
FO
R A
NA
LOG
SE
NS
OR
S ("
AG
" ON
TB
2 )4
AN
AL O
G O
UTP
UTS
8 A
NA
L OG
INP U
TSA
LAR
MB
LOW
ER
HIG
H S
PE
ED
8 B
INAR
Y IN
PU
T SB
LOW
ER
LO
W S
PE
ED
BLO
WE
R P
RO
VIN
G S
WIT
CH
CO
MP
RE
SSO
R C
ON
TAC
TOR
CO
MP
RE
SSO
R C
ON
TAC
TOR
RE
LAY
CLO
GG
ED F
ILTE
R S
WI T
CH
CR
ANK
CA
SE
HE A
TER
CR
ANK
CA
SE
HE A
TER
SW
ITC
HC
ON
DE
NS
E R M
OTO
RC
OM
MO
N ("
C" O
N T
B2)
CO
MP
RE
SSO
RC
OM
1 A
ND
SM
OKE
DE
TEC
T OR
DE
FRO
ST T
HE
RM
OST
AT
EC
ON
OM
IZE
RG
AS V
ALV
E
EM
ES
EXF
GN
DH
GR
HH
PS
LDS
LPS
OAT
OAR
HP
LFP
SR
CC
FR
LR
SS
RV
CS
AT/
DA
TS
MK
/EM
GS
PC
TEM
PS
PC
RH
T1-T
5
TB1-
2TR
1-2
XS
EV
AP
OR
ATO
R M
OTO
RE
CO
N C
OM
3-8,
BI1
AN
D S
MO
K E D
ETE
CTO
RE X
HA
US
T F A
NE
QU
IPM
EN
T G
RO
UN
DH
OT
GA
S R
EH
EAT
HIG
H P
RE
SS
UR
E S
WIT
CH
LOAD
SH
EDD
ING
LOW
PR
ES
SU
RE
SW
ITC
HO
UTD
OO
R A
IR T
EM
PE
RA
TUR
EO
UTD
OO
R A
IR R
ELA
T IV
E H
UM
IDIT
YFE
MAL
E P
L UG
/ C
ON
NE
CTO
RH
PS
, LP
S &
SM
OK
E D
ETE
CTO
RR
UN
CA
PA
CIT
OR
FO
R C
ON
DE
NS
ER
FAN
RE
LAY
RE
MO
TE S
T AR
T S
TOP
RE
VE
RS
ING
VA
LVE
CO
ILS
UP
PLY
/ D
ISC
HA R
GE
AIR
TE
MP
ER
ATU
RE
SM
OKE
OR
EM
ERG
ENC
Y S
HU
TDO
WN
SP
A CE
TEM
PE
RA
TUR
ES
PA
CE
RE
LATI
VE
HU
MID
ITY
MO
TOR
SP
E ED
TA
PS
1-5
(DIR
EC
T D
RIV
EN
MO
TOR
ON
LY)
TER
MI N
AL
BLO
CK
(24V
SIG
NA
L)TR
AN
SFO
RM
ER
24 V
AC
TR
AN
SFO
RM
ER &
SM
OKE
DE
TEC
TOR
CO
MPO
NE
NT
LEG
EN
D
C
T2T1
T5
T3T4EM
C
T2T1
T5
T3T4EM
TB1
TB1
TB
EMG T4
EM
L T3T2
T1CN T5
208-
240/
1/60
FH
C
IIC UN
USE
D
SE
E N
OTE
2
SE
E N
OTE
4
22
44 www.daikinac.com SS-DTG3
Wiring Diagram with DDC — DTG036045 (208-230V/3/60) D***
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
412 5
3 6
GN
D
LDS
BPS
WBI
1
BI2 BI3
RS
S
AI1
CO2VO
UT
DC
GN
D
24V
AC
CO
M
GN
D
VO
UT
DC
EC
ON
24V
TR1
124
02
3C
208
TR2
12
3
L3
BK
CO
MP
SM
K/E
MG
POW
ER
SU
PPLY
208-
240/
3/60
SE
E N
OTE
2
CFS
YL/P
KBL
/PK
BK
BR
RD
PK
GR
YL
GR
GR
BL
CC
OARH SPCRH
STP
TO
FFS
ET
GN
D
TEM
P
SPCTEMP
BLB
L
BL/ PK
DA
T
OA
T
BI4
BI5 BI6
BI7
BI8
AI2
AI3
AI4
AI5 AI6
AI7
AI8
GN
D
AGN
D
24V
AC
AGN
D
GN
DG
ND
CO
M3-
8R
L8 AO
4
CO
M2
AO
3
AO
2
AO
1
CO
M3-
8
RL7
RL6RL5
RL4
RL3
RL2
RL1CO
M1
AG
C
VO
UT
DC
GN
D
BL
WH
WH
WH
WH
+ - + -HG
RH
EXF
GR
ALR
M+ -
RD YL
T3 T2 T1
L2 L1
RD B
K
BL
RD
BK
BK R
D
WH
PK
C
YL RD
SEE
NO
TE 4
240
C20
8
24V
RD
24V
T5T4
T3T2
T1
SEE
NO
TE 5
CS
PS
ESXS
RD
RD
HP
SLP
S
TB1
RD
YL
PU
PU
PK
YLPK
VM
VM
R 3 1
2
PS
RS
ALS
MV
MV
PU
W.R
.G
AS
VA
LVE
GV
BL
(ALT
.) H
ON
EYW
ELL
GA
S V
ALV
E
GV
FS IGN
SE
E N
OTE
6
IIC
LS
10
7 9
12
8
11
ECO
N
1 32654
L1FS
DIHEAT COOLUNUSED
L2
SE
EN
OTE
3
CM
BR
RC
CF
PU
BK
BK
RD
FC
WH
BK
BK
BK
PK
RD
PU
PU
RD
OR
BL
BL
BL
BL
BL
BLPK
WH
YL
YLYLP
UBL
RD
RD
RD
RD
RD
OR
RD
GR
GR
PU
RD
WH
BR
BKB
L
BL
WH
WH BL
PU
RD
BK
BL
BL
WH
BK GR
BK
GR
BR
YL/
PK
YL
TB2
0140
L058
17-A
208-
240/
3/60
DA
PU
RD
PU
WH
RD
BKR
D
BK
24 V
AC
EM GT4
LT3T2
T1 CNT5
TB
OR
GR
GR
OR
RD
RD
BK
BK
OR
BL
BL
OR
OR
WH
WH
BR
BR
PU
PU
YL
YLS
EE N
OTE
7
RD
BL
SS-DTG3 www.daikinac.com 45
Wiring Diagram with DDC – DTG036045 (208-230V/3/60) D***
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
0140
L058
57-A
LDS
RS
S
BP
SW
3
24V
TR
1
HP
S
3
24V
TR
1
LPS
BI1
BI2
BI3 BI5
BI6 BI7
BI8 AI1 AI2 AI4 AI 5
AI6
AI7
AI8 AG
ND
OA
TD
AT
OA
RH
431 2
CO
2
SPC
TEM
PC
OM
SEN
SO
R
OFF
SET
SPC
RH
CO
M1
RL1
RL2
CO
M2
CO
M3-
8
AI3
RL3
RL4
RL5
CC
1
RL6
RL7
RL8
24V
AC
GN
D
EC
ON
PLF
+ - + - + -HG
RH
EX
F
ALR
M
SM
K/E
MG
AO
1
AO
2
AO
3A
O4
VM
R
FSIGN
NO
TE 3
L2
RS
GV
LS
H
D1
FSF
54L1
ALS
PS
103 6 8
IIC
D D C
L2
T1C
OM
P
T2
SU
PP
LY V
OLT
AG
E
CM
L1
CC
T3
208-
240/
3/60
CC
CC
VM
R3
1V
M
BI4
208-
240/
3/60
208-
240/
3/60
SE
E N
OTE
5
RC
CF
FC
CFS
L3
BL/P
K
BLU
E W
ITH
PIN
K S
TRIP
E
PK
P
INK
YL/P
K
YELL
OW
WIT
H P
INK
STR
IPE
WIR
E C
OD
E
OF
OV
ER
CU
RR
ENT
PR
OTE
CTI
ON
LIN
E V
OLT
AG
E
OP
TIO
NA
L H
IGH
VO
LTA
GE
LOW
VO
LTA
GE
RD
R
EDFA
CTO
RY
WIR
ING
LOW
VO
LTA
GE
BL
BLU
EB
K
BLA
CK
NO
TES
:
1. R
EPL
AC
EM
EN
T W
IRE
MU
ST
BE
SA
ME
SIZ
E A
ND
T
YPE
INS
ULA
TIO
N A
S O
RIG
INA
L (A
T LE
AST
105
°C)
U
SE
CO
PP
ER
CO
ND
UC
TOR
ON
LY.
2. U
SE
CO
PP
ER
CO
ND
UC
TOR
S O
NLY
+
+ U
SE
N.E
.C. C
LAS
S 2
WIR
E3.
EC
ON
OM
IZE
R P
LUG
LO
CA
TED
IN T
HE
RE
TURN
AIR
C
OM
PA
RTM
EN
T. R
EMO
VE M
ALE
PLU
G A
ND
ATT
AC
H
FEM
ALE
PLU
G T
O T
HE
EC
ON
OM
IZE
R A
CC
ES
SO
RY
.4.
FO
R 2
08 V
OLT
TR
AN
SFO
RM
ER
OP
ER
ATI
ON
MO
VE
B
LAC
K W
IRE
FR
OM
TE
RM
INAL
3 T
O T
ER
MIN
AL
2
ON
T
RA
NS
FOR
ME
R.
5.R
EM
OV
E JU
MP
ER
IF S
MO
KE D
ETE
CTO
R O
R E
ME
RG
ENC
Y
SH
UTD
OW
N D
EV
ICE
IS IN
STA
LLE
D.
6. C
RAN
KCA
SE
HE
ATE
R A
ND
CR
ANKC
AS
E H
EA
TER
S
WIT
CH
FA
CTO
RY
EQ
UIP
PED
WH
EN
RE
QU
IRED
.7.
FO
R D
IFFE
REN
T TH
AN
FAC
TOR
Y S
PE
ED
TA
P. C
HAN
GE
CO
OLI
NG
SPE
ED
AT
MO
TOR
T4
AN
D T
5 TE
RM
INA
LS. C
HAN
GE
HE
ATI
NG
SP
EED
AT
MO
TOR
T1,
T2
AN
D T
3. S
PEE
D T
AP
TER
MIN
ATI
ON
S S
HO
WN
ON
DIA
GR
AM
AR
E R
EP
RE
SE
NTA
TIV
EB
UT
AC
TUA
L FA
CTO
RY
SE
TTIN
GS
MAY
BE
DIF
FER
EN
T B
AS
ED
ON
TH
E H
EA
TIN
G V
ALU
E O
F TH
E U
NIT
.C
OO
LIN
G S
PEE
D (G
RE
EN
AN
D B
RO
WN
)
T
3 - L
OW
SP
EE
D
T
4 - H
IGH
SP
EE
DH
EA
TIN
G S
PE E
D (W
HIT
E)
T1
- LO
W S
PE
ED
T2
- ME
D S
PEE
D
T
5 - H
IGH
SP
EE
D
OR
O
RAN
GE
SE
E U
NIT
RA
TIN
G P
LATE
FO
R T
YPE
AN
D S
IZE
YL
YELL
OW
GR
G
RE
EN
WH
W
HIT
E
BR
B
RO
WN
CO
MP
ON
E NT
LEG
EN
D
FIEL
D W
IRIN
GH
IGH
VO
LTA
GE
PU
P
UR
PLE
FIEL
D S
PLIC
E
SW
ITC
H (T
EM
P)
O
PTI
ON
AL
LOW
VO
LTA
GE
SW
ITC
H (P
RE
SS
.)
OV
ER
CU
RR
ENT
PR
OT.
DE
VIC
E
TER
MIN
AL
PLU
G C
ON
NEC
TIO
N
FIEL
D G
RO
UN
D
IGN
ITE
R
JUN
CTI
ON
SC
HE
MA
TIC
SYM
BO
L
AG
ND
AO
AI
ALR
MB
HS
BIL
BLS
BP S
WC
CC
CR
CF
CFC
CFS
CH
CH
SC
MC
OM
CO
MP
CS
DFT
EC
ON
DC
GR
OU
ND
FO
R A
NA
LOG
SE N
SO
RS
("A
G" O
N T
B2)
ANA
LOG
OU
TPU
TS8
ANA
LOG
I NPU
TSA
LAR
MB
LOW
ER H
IGH
SP E
ED8
BIN
ARY
INP U
TSB
LOW
E R L
OW
SPE
E DB
L OW
ER P
RO
VIN
G S
WIT
CH
CO
MP R
ESS
OR
CO
NTA
CTO
RC
OM
PRE
SSO
R C
ON
TAC
TOR
REL
AYC
ON
DE
NS
OR
FAN
CO
ND
ENS
OR
FA
N C
ON
TAC
TOR
CL O
GG
ED F
ILTE
R S
WIT
CH
CR
ANK C
ASE
HE
ATER
CR
AN
KCA
SE H
EAT
ER S
WIT
CH
CO
ND
ENS
ER M
OTO
RC
OM
MO
N ("
C" O
N T
B2)
CO
MP R
ESS
OR
CO
M1
A ND
SM
OK
E D
ETE
CT O
RD
EF R
OS
T TH
ERM
OS
TAT
ECO
NO
MIZ
ER
EM ES
EXF
GN
DH
GR
HH
PS
LDS
LPS
OA
TO
ARH
PLF
PS
RC
CF
RL
RS
SR
VCS
AT/D
AT
SMK
/EM
GS
P CTE
MP
SPC
RH
T1-T
5
TB1-
2TR
1 -2
XS
EVA
POR
ATO
R M
OTO
REC
ON
CO
M3-
8,B
I1 A
ND
SM
OK
E D
ETE
CT O
REX
HAU
ST
FAN
EQ
UIP
MEN
T G
RO
UN
DH
OT
GA
S R
EH
EAT
HIG
H P
RE
SSU
RE
SW
ITC
HLO
AD S
HE D
DIN
GLO
W P
RE
SSU
RE
SW
ITC
HO
UTD
OO
R A
IR T
E MPE
RA
TUR
EO
UT D
OO
R A
I R R
ELA
TIV E
HU
MI D
ITY
FEM
ALE
PLU
G /
CO
NN
EC
TOR
HP
S, L
PS &
SM
OK
E D
ETE
CT O
RR
UN
CA P
ACIT
OR
FO
R C
ON
DEN
SE R
FAN
RE
LAY
REM
OTE
ST A
RT
STO
PR
EVE
RS
I NG
VA
LVE
CO
ILSU
P PLY
/ D
ISC
HAR
GE
AIR
TEM
PER
ATU
RE
SMO
KE
OR
EM
E RG
ENC
Y S
HU
TDO
WN
SP A
CE
TEM
P ER
ATU
RE
SPA
CE
RE
LATI
V E H
UM
IDIT
YM
OTO
R S
PEE D
TAP
S 1
-5(D
IRE C
T D
RIV
E N M
OTO
R O
NLY
)TE
RM
INA L
BLO
CK
(24V
SIG
NA
L)TR
A NS
FOR
ME R
24 V
AC
TR
ANS
F OR
MER
& S
MO
KE
DE
TEC
T OR
CO
MP
ON
ENT
LEG
EN
D
C
T2T1
T5
T3T4E
MC
T2T1
T5
T3T4E
M
TB1
TB1
TB
EMG T4
EML T3T2
T1CN T5
208-
240/
3/60
SE
E N
OTE
2
SE
E N
OTE
4
22
46 www.daikinac.com SS-DTG3
Wiring Diagram with DDC — DTG036090/DTG048090/DTG048115/DTG06090/DTG060140 (208-230V/3/60) D***
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
412 5
3 6
GN
D
LDS
BPS
WB
I1
BI2
BI3
RS
S
AI1
CO2VO
UT
DC
GN
D
24VA
C
CO
M
GN
D
VO
UT
DC
EC
ON
24V
TR1
124
02
3C
208
TR2
12
3
L3
BK
CO
MP
SM
K/EM
G
PO
WE
R S
UPP
LY20
8-24
0/3/
60S
EE N
OTE
2
CFS
YL/P
KB
L/P
K
BK
BR
PK
GR
YL
GR
GR
BL
CC
OARH SPCRH
STP
TO
FFS
ET
GN
D
TEM
P
SPCTEMP
BL
BL D
AT
OAT
BI4
BI5
BI6
BI7
BI8
AI2
AI3
AI4
AI5 AI6
AI7
AI8 GN
D
AG
ND
24VA
C
AG
ND
GN
DG
ND
CO
M3-
8R
L8 AO
4
CO
M2
AO
3
AO
2
AO
1
CO
M3-
8
RL7
RL6RL5
RL4
RL3
RL2
RL1CO
M1
AGC
VO
UT
DC
GN
D
BL
WH
WH
WH
WH
+ - + -HG
RH
EXF
GR
ALR
M+ -
RD YL
T3 T2 T1
L2 L1
RD B
K
BL
RD
BK
BK R
D
WH
PKYL RD
SEE
NO
TE 4
240
C20
8
24V
RD
24V
T5T4
T3T2
T1
SEE
NO
TE 5
CS
PS
ES
XS
RD
RD
HP
SLP
S
TB1
RD
YL
PU
PU
PK
YLPK
VM
VMR 3 1
2
PS
RS
ALS
MV
MV
PU
W.R
.G
AS
VA
LVE
GV
BL(A
LT.)
HO
NEY
WE
LLG
AS
VA
LVE
GV
FS IGN
SE
E N
OTE
6
IIC
LS
10
7 9
12
8
11
ECO
N
1 32654
L1FS
DIHEAT COOLUNUSED
L2
SE
EN
OTE
3
CM
BR
RC
CF
PU
BK
BK
RD
FC
WH
BK
BK
BK
PK
RD
PU
PU
BR
RD
OR
BL
BL
BL
BL
BL
BLPK
WH
YL
YLYLP
UBL
RD
RD
RD
RD
RD
OR
RD
GR
GR
PU
RD
WH
BR
BKB
L
BL
WH BR
WH BL
PU
RD
BK
BL
BL
WH
BK GR
BK
GR
BR
YL/
PK
YL
TB2
0140
L058
16-A
208-
240/
3/60
DA
PU
RD
PU
WH
RD
BK
RD
BK
24 V
AC
EM GT4
LT3T2
T1 CNT5
TB
OR
GR
GR
OR
RD
RD
BK
BK
OR
BL
BL
OR
OR
WH
WH
BR
BR
PU
PU
YL
YLS
EE N
OTE
7
BL R
D
BL/ PK
RD
SS-DTG3 www.daikinac.com 47
Wiring Diagram with DDC — DTG036090/DTG048090/DTG048115/DTG06090/DTG060140 (208-230V/3/60) D***
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
n th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Failu
re to
do
so m
ay c
ause
pro
pert
y da
mag
e, p
erso
nal i
njur
y, o
r de
ath.⚡
0140
L058
56-A
LDS
RS
S
BP
SW
3
24V
TR
1
HP
S
3
24V
TR
1
LPS
BI1
BI2
BI3 BI5
BI6 BI7
BI8 AI1 AI2 AI4 AI 5
AI6
AI7
AI8 AG
ND
OA
TD
AT
OA
RH
431 2
CO
2
SP
CTE
MP
CO
M
SEN
SOR
OFF
SET
SP
CR
H
CO
M1
RL1
RL2
CO
M2
CO
M3-
8
AI3
RL3
RL4
RL5
CC
1
RL6
RL7
RL8
24V
AC
GN
D
EC
ON
PLF
+ - + - + -HG
RH
EXF
ALR
M
SM
K/E
MG
AO
1
AO
2
AO
3A
O4
VM
R
FSIGN
NO
TE 3
L2
RS
GV
LS
H
D1
FSF
54L1
ALS
PS
103 6 8
IIC
D D C
L2
T1C
OM
P
T2
SU
PP
LY V
OLT
AGE
CM
L1
CC
T3
208-
240/
3/60
CC
CC
VM
R3
1V
M
BI4
208-
240/
3/60
208-
240/
3/60
SE
E N
OTE
5
RC
CF
FC
CFS
L3
BL/
PK
B
LUE
WIT
H P
INK
STR
IPE
PK
P
INK
YL/
PK
Y
ELL
OW
WIT
H P
INK
STR
IPE
WI R
E C
OD
E
OF
OV
ER
CU
RR
EN
T P
RO
TEC
TIO
N
LIN
E V
OLT
AG
E
OP
TIO
NA
L H
IGH
VO
LTA
GE
LOW
VO
LTA
GE
RD
R
ED
FAC
TOR
Y W
IRIN
G
LOW
VO
LTA
GE
BL
BLU
EB
K
BLA
CK
NO
TES
:
1. R
EP
LAC
EM
ENT
WIR
E M
US
T B
E S
AM
E S
IZE
AN
D
TY
PE
INS
ULA
TIO
N A
S O
RIG
INA
L (A
T LE
AS
T 10
5°C
)
USE
CO
PPER
CO
ND
UC
TOR
ON
LY.
2. U
SE C
OPP
ER C
ON
DU
CTO
RS
ON
LY
++
US
E N
.E.C
. CLA
SS
2 W
IRE
3. E
CO
NO
MIZ
ER P
LUG
LO
CA
TED
IN T
HE
RE
TUR
N A
IR
CO
MPA
RTM
EN
T. R
EM
OV
E M
ALE
PLU
G A
ND
ATT
AC
H
FE
MA
LE P
LUG
TO
TH
E E
CO
NO
MIZ
ER A
CC
ES
SOR
Y.
4. F
OR
208
VO
LT T
RA
NS
FOR
MER
OPE
RA
TIO
N M
OV
E
BLA
CK
WIR
E F
RO
M T
ERM
INA
L 3
TO
TE
RM
INA
L 2
O
N
TR
AN
SFO
RM
ER.
5.R
EM
OV
E J
UM
PER
IF S
MO
KE
DE
TEC
TOR
OR
EM
ERG
ENC
Y
SH
UTD
OW
N D
EV
ICE
IS IN
STA
LLE
D.
6. C
RA
NK
CA
SE
HE
ATE
R A
ND
CR
ANK
CA
SE
HE
ATE
R
SW
ITC
H F
ACTO
RY
EQ
UIP
PED
WH
EN
REQ
UIR
ED
.7.
FO
R D
IFFE
RE
NT
THA
N F
ACTO
RY
SP
EED
TA
P. C
HA
NG
EC
OO
LIN
G S
PE
ED
AT
MO
TOR
T4
AN
D T
5 TE
RM
INA
LS. C
HA
NG
EH
EA
TIN
G S
PE
ED A
T M
OTO
R T
1, T
2 A
ND
T3.
SP
EE
D T
AP
TER
MIN
ATI
ON
S S
HO
WN
ON
DIA
GR
AM
AR
E R
EP
RE
SEN
TATI
VE
BU
T A
CTU
AL
FAC
TOR
Y S
ETT
ING
S M
AY
BE
DIF
FER
EN
T B
AS
ED
ON
TH
E H
EA
TIN
G V
ALU
E O
F TH
E U
NIT
.C
OO
LIN
G S
PE
ED (G
RE
EN
AN
D B
RO
WN
)
T
3 - L
OW
SP
EED
T4
- HIG
H S
PE
EDH
EA
TIN
G S
PE
ED
(WH
ITE
)
T
1 - L
OW
SP
EED
T2
- MED
SP
EED
T5
- HIG
H S
PE
ED
OR
O
RA
NG
E
SE
E U
NIT
RA
TIN
G P
LATE
FO
R T
YP
E A
ND
SIZ
E
YL
YE
LLO
W
GR
G
RE
EN
WH
W
HIT
E
BR
BR
OW
N
CO
MPO
NE
NT
LEG
EN
D
FIE
LD W
IRIN
GH
IGH
VO
LTAG
E
PU
P
UR
PLE
FIE
LD S
PLI
CE
SWIT
CH
(TE
MP)
O
PTI
ON
AL
LOW
VO
LTAG
E
SWIT
CH
(PR
ES
S.)
OV
ERC
UR
RE
NT
PRO
T. D
EV
ICE
TER
MIN
AL
PLU
G C
ON
NE
CTI
ON
FIE
LD G
RO
UN
D
IGN
ITE
R
JUN
CTI
ON
SC
HE
MA
TIC
SY
MB
OL
AG
ND
AO
AI
ALR
MB
IB
LSB
PSW
CC
CC
RC
FSC
HC
HS
CM
CO
MC
OM
PC
SD
FTE
CO
NG
V
DC
GR
OU
ND
FO
R A
NA
LOG
SEN
SO
RS
("A
G" O
N T
B2)
4 A
NA
LOG
OU
TPU
TS8
AN
ALO
G IN
PU
TSA
LAR
M8
BIN
AR
Y IN
PU
TSB
LOW
ER
LO
W S
PE
EDB
LOW
ER
PR
OV
ING
SW
ITC
HC
OM
PR
ES S
OR
CO
NTA
CTO
RC
OM
PR
ESS
OR
CO
NTA
CT O
R R
ELA
YC
LOG
GE
D F
ILTE
R S
WIT
CH
CR
ANKC
AS
E H
EA
TER
CR
ANK
CA
SE
HE
ATE
R S
WIT
CH
CO
ND
EN
SER
MO
TOR
CO
MM
ON
("C
" ON
TB
2)C
OM
PR
ES S
OR
CO
M1
AN
D S
MO
KE D
ETE
CT O
RD
EFR
OS
T TH
ER
MO
STAT
ECO
NO
MIZ
ERG
AS
VA
L VE
EM
ES
EXF
GN
DH
GR
HH
PS
LDS
LPS
OA
TO
AR
HP
LFP
SR
CC
FR
LR
SS
RV
CS
AT/
DA
TS
MK
/EM
GS
PCTE
MP
SP C
RH
T1-T
5
TB1-
2TR
1-2
XS
EV
AP
OR
ATO
R M
OTO
REC
ON
CO
M3-
8,B
I1 A
ND
SM
OK
E D
ETE
CT O
RE
XHA
US
T F A
NE
QU
IPM
EN
T G
RO
UN
DH
OT
GAS
RE
HE
ATH
IGH
PR
ES
SU
RE
SW
ITC
HLO
A D S
HE D
DIN
GLO
W P
RE
SS
UR
E S
WIT
CH
OU
TDO
OR
AIR
TE
MP
ER
ATU
RE
OU
TDO
OR
AIR
REL
ATI
VE
HU
MID
ITY
FEM
ALE
PLU
G /
CO
NN
EC
TOR
HP
S, L
PS
& S
MO
KE
DE
TEC
T OR
RU
N C
AP
AC
ITO
R F
OR
CO
ND
EN
SE
R F
AN
RE
LAY
RE
MO
TE S
T AR
T S
TOP
RE
VE
RS
ING
VA
LVE
CO
ILS
UP
PLY
/ D
ISC
HAR
GE
AI R
TE
MP
ER
ATU
RE
SM
OK
E O
R E
MER
GE
NC
Y S
HU
TDO
WN
SP
ACE
TEM
PE
RAT
UR
ES
PA
CE
RE L
ATI
VE
HU
MID
ITY
MO
TOR
SP
E ED
TA
PS
1-5
(DIR
E CT
DR
IVE
N M
OTO
R O
NLY
)TE
RM
INA
L B
LOC
K (2
4V S
IGN
AL)
TRA
NS
FOR
MER
24 V
AC
TR
ANS
FOR
MER
& S
MO
KE
DE
TEC
T OR
CO
MPO
NE
NT
LEG
EN
D
C
T2T1
T5
T3T4EM
C
T2T1
T5
T3T4EM
TB1
TB1
TB
EMG T4
EM
L T3T2
T1CN T5
208-
240/
3/60
SE
E N
OTE
2
SE
E N
OTE
4
22
48 www.daikinac.com SS-DTG3
Accessories
Daikin Master Item # Description Fits
Model SizesField-
InstalledFactory- Installed
Operating Weight (lbs)
Curb14CURB3672 14” Roof Curb 3-5 tons √ 8618CURB3672B 18” Roof Curb 3-5 tons √ 10024CURB3672B 24” Roof Curb 3-5 tons √ 128GHRC-3672 Hurricane Restraint Clips 3-5 tons √ 2
Ultra Low-Leak Economizer & Power Exhaust1
10-366-09C Ultra Low-Leak Downflow Economizer w/ Enthalpy 3-5 Tons √ √ 7110-396-09 Ultra Low-Leak Horizontal Economizer w/ Enthalpy 3-5 Tons √ 7110-465-09-21 Prop Power Exhaust 230v 3-5 Tons √ 55
Low-Leak Economizer & Power Exhaust2
DDNECNJ3672C Low-Leak Downflow Economizer 3-5 tons √ √ 82DPE36722 Downflow Power Exhaust (208/230 Volt) 3-5 tons √ 55DHZECNJ3672 Horizontal Economizer 3-5 tons √ 70DHPE36722 Horizontal Power Exhaust (208/230 Volt) 3-5 tons √ 55
Downflow AccessoriesD25FD3672 25% Manual Fresh Air Damper 3-5 tons √ 12D25MFD3672 25% Motorized Fresh Air Damper 3-5 tons √ 16DDNBBS3672 Burglar Bar Sleeves with Supply & Return 3-5 tons √ 30DDNECNJ3672NR Downflow Economizer2 w/o Barometric Relief 3-5 tons √ 77DDNSQRD3616 Downflow Square-to-Round Adapter (16” Round) 3 tons √ 45DDNSQRD487218 Downflow Square-to-Round Adapter (18” Round) 4-5 tons √ 35
Horizontal AccessoriesDBRD3672 Horizontal Barometric Relief Damper 3-5 tons √ 15
ConcentricsCDK36 Concentric Duct Kit 3 tons √ 27CDK4872 Concentric Duct Kit 4-5 tons √ 27
DDC Accessories3
DDC communicating controller (built-in BACnet® MS/TP) includes Standard Room Sensor to be installed in field
3-5 tons √ 2
10366D09C DDC Ultra Low-Leak Downflow Economizer 3-5 tons √ √ 7110396D09 DDC Ultra Low-Leak Horizontal Economizer 3-5 tons √ 7110465DDC Power Exhaust kit used with DDC
Ultra Low-Leak Economizer3-5 tons √ 1
DLAKT01 Low-Ambient 3-5 tons √ √ 2LONKT01 LonWorks® card 3-5 tons √ 13PMK01 Phase Monitor (3-Phase Only) 3-5 tons √ √ 2DFSKT01 Dirty Filter Switch 3-5 tons √ 1
Crankcase Heater Kits0163R00002S 40W 230V 3 tons √ 10130L00017S 70W 230V 4 - 5 tons √ 1
SS-DTG3 www.daikinac.com 49
Accessories
Daikin Master Item # Description Fits
Model SizesField-
InstalledFactory- Installed
Operating Weight (lbs)
High Efficiency Filters0160L00203 High Efficiency MERV 13 Air Filter Nom.
Size: 24x24x2; (Order Qty 1)3 tons √ 2
0160L00204 High Efficiency MERV 13 Air Filter Nom. Size: 14x20x2; (Order Qty 4)
4 tons √ 4
0160L00205 High Efficiency MERV 13 Air Filter Nom. Size: 16x20x2; (Order Qty 4)
5 tons √ 4
Misc AccessoriesHAILGD03D Condenser Coil Hail Guard 3-4 tons √ 19HAILGD04D Condenser Coil Hail Guard 5 tons √ 22
Convenience Outlet: Non Powered 3-5 tons √ 2Convenience Outlet: Powered 3-5 tons √ 42
HA036300 High Altitude Kit 3-5 tons √ 1LPM-07 LP Conversion Kit (DTG036045 only) 3 tons √ 1LPM-08 LP Conversion Kit (DTG units only) 3-5 tons √ 1LAKT11 Low Ambient Kit, 208-230V - non-DDC 3-4 tons √ √ 14LAKT12 Low Ambient Kit, 208-230V - non-DDC 5 tons √ √ 143PMNDK01 Phase Monitor (3-Phase Only) - Non DDC 3-5 tons √ √ 2
Smoke Detector (supply and/or return air) 3-5 tons √ 11Hinged Panels 3-5 tons √ 10
220-GX-001 Flue Extension Kit 3-5 tons √ 31 Use Economizer & Power Exhaust listed within Ultra Low-Leak section 2 Use Economizer & Power Exhaust listed within Low-Leak section 3 For a full list of DDC accessories, please refer to DDC Controller Technical Guide manual (DK-DDC-TGD-01B)Note: Where multiple variations are available, the heaviest combination is listed.
50 www.daikinac.com SS-DTG3
Our continuing commitment to quality products may mean a change in specifications without notice. © 2017 • Houston, Texas • Printed in the USA.
Notes