TRANE S8V2B080M4PC-D 24 Volt Gas Fired 2 Stage Induced Draft Furnaces Owner’s Manual

TRANE S8V2B080M4PC-D 24 Volt Gas Fired 2 Stage Induced Draft Furnaces

General Features

COMMUNICATING MODE

Furnace is shipped ready to be connected in communicating mode.

A/T LINK360A2VVUA Link Smart Thermostat and System Controller must be ordered separately.

COMFORT CONTROL

Link communicating technology seamlessly connects each of the system’s components, allowing for advanced diagnostics, system performance updates, and optional remote monitoring that can help keep the system running at optimal performance levels throughout its lifetime.

ALTERNATE 24V MODE

Furnace is field configurable to 24V non-communicating mode.

NATURAL GAS MODELS

Central Heating furnace designs are certified by Intertek for both natural and L.P. gas. Limit setting and rating data were established and approved under standard rating conditions using American National Standards Institute standards.

SAFE OPERATION

The Integrated System Control is a solid state device which continuously monitors for presence of flame when the system is in the heating mode of operation. Dual solenoid combination gas valve and regulator provide additional safety.

QUICK HEATING

Durable, cycle tested, heavy gauge tubular aluminized steel heat exchanger quickly transfers heat to provide warm conditioned air to the structure. Low energy power vent blower, to increase efficiency and provide a discharge of gas fumes to the outside.

BURNERS

Multiport, Inshot burners will give years of quiet and efficient service. All models can be converted to L.P. gas with LP conversion kit.

INTEGRATED SYSTEM CONTROL

Exclusively designed operational program provides total control of furnace limit sensors, blowers, gas valve, flame control and includes self diagnostics for ease of service.

ENERGY EFFICIENT OPERATION

Air-Tite™ cabinet design is certified to <1% air leakage per ASHRAE 193 “Method of Test for Determining the Airtightness of HVAC Equipment.”

AIR DELIVERY

The highly efficient, variable speed blower motor delivers consistent airflow and will switch from heating to cooling speeds on demand from the room thermostat.

STYLING

Heavy gauge steel and “wrap-around” cabinet construction is used in the cabinet with baked- on enamel finish for strength and beauty. Every orientation has at least two venting options.

There are no knockouts on cabinet.

FEATURES AND GENERAL OPERATION

The S-Series furnace utilizes a Silicon Nitride Hot Surface Ignition system, which eliminates the waste of a constant burning pilot. The integrated system control lights the main burners upon a demand for heat from the room thermostat. Complete front service access.

a. Low energy power venter
b. Vent proving pressure switches

Features and Benefits

LINK COMMUNICATION OR 24 VOLT CONTROL

Seamless connection between system components to monitor system performance and efficiency
Diagnostics and configuration capability through Mobile App Field configurable to 24 volt non-communicating mode 80%

AFUE on S8V2 FURNACE MODELS

Lowers utility bills

ELECTRICALLY EFFICIENT

Efficient airflow design reduces electrical energy use 34

INCH TALL

Lighter, easier to move and fit into tight spaces like short basements or tight closets Works great with larger, high-efficiency coils
No knockouts

4–WAY MULTI-POISE

12 SKU’s — Upflow / Downflow / Horizontal Left / Horizontal Right Added application flexibility and reduction in specification errors

AIRFLOW

At least 400 CFM/ton at 0.5 in. H20 external static pressure

REGULATORY

All models are air tight; 1% or less air leakage as per ASHRAE 193

Open vestibule design provides a full 34” high open vestibule for ease of installation and service

DIMENSIONS

Widths are industry standard: 14.5”, 17.5”, 21” and 24.5”. Depth remains approximately 28” Cabinet is compatible with industry standard coils, as well as, other accessories

INTEGRATED FURNACE CONTROL

Setup / Status / Diagnostics / Digital Display No dip switches
Last six errors stored
Dry contact EAC and HUM connections
All Molex connections; no spade terminals Low voltage labeled above and below
Rain shield over IFC keeps condensate off the control

TUBULAR ALUMINIZED STEEL HEAT EXCHANGER

VORTICA II BLOWER, DESIGNED EXCLUSIVELY FOR THE S-SERIES FURNACE

Improved airflow efficiency Durable, easy to clean, housing
Single piece belly band/ motor arm assembly
Blower deck has full-length rails for easy removal and replacement, regardless of poise

FOUR–WAY MULTI-POISE (UPFLOW, DOWNFLOW, HORIZONTAL LEFT AND RIGHT)

Easier to specify
Shipped ready to install (no conversion kits required)
Every model has at least two venting options

Accessories

Table 1. Accessories

side return application
B Cabinet furnaces only when in bottom return application
FLRSF1255| 1” Filter replacement (Qty 12)| BAYSF1255BA
BAYVENT600A| Internal venting kit| B, C, and D Furnaces in Downflow orientation
BAYVENT800B| Masonry Chimney Vent Kit| All furnaces
BAYSWT22AHALTAA| High Altitude Pressure Switch Kit| S8V2A040M3P
BAYSWT16AHALTAB| High Altitude Pressure Switch Kit| S8V2C080M5P
BAYSWT18AHALTAA| High Altitude Pressure Switch Kit| S8V2B080M4P
BAYSWT19AHALTAA| High Altitude Pressure Switch Kit| S8V2C100M5P
BAYSWT23AHALTAA| High Altitude Pressure Switch Kit| S8V2B060M4P
BAYSWT24AHALTAA| High Altitude Pressure Switch Kit| S8V2D120M5P
BAYLPSS400*| Propane Conversion Kit with Stainless Steel Burners| All Furnaces
PIP02095| U fitting for gas piping| All Furnaces for right hand gas entry

(a) Airflow greater than 1600 CFM requires dual returns

Product Specification

Model| S8V2A040M3PC (a)

S8V2A040M3PD (a)

| S8V2B060M4PC (a)

S8V2B060M4PD (a)

| S8V2B080M4PC (a)

S8V2B080M4PD (a)

---|---|---|---
Type| Upflow / Horizontal / Downflow| Upflow / Horizontal / Downflow| Upflow / Horizontal / Downflow
RATINGS (b)| | |
1st Stage Input BTUH| 26,000| 39,000| 52,000
1st Stage Capacity BTUH (ICS)| 21,000| 31,300| 41,200
2nd Stage Input BTUH| 40,000| 60,000| 80,000
2nd Stage Capacity BTUH (ICS)(c)| 32,200| 49,100| 65,800
1st Stage Temp. Rise (Min. – Max.) °F| 20 – 50| 20 – 50| 30 – 60
2nd Stage Temp. Rise (Min. – Max.) °F| 30 – 60| 30 – 60| 30 – 60
AFUE – Rating(c)| 80| 80| 80
Return Air Temp. (Min. – Max.) °F| 55°F – 80°F| 55°F – 80°F| 55°F – 80°F
BLOWER DRIVE| DIRECT| DIRECT| DIRECT
Diameter – Width (in.)| 11 X 8| 11 X 8| 11 X 8
No. Used| 1| 1| 1
Speeds (No.) (d)| Variable| Variable| Variable
CFM vs. in. w.g.| See Fan Performance Table| See Fan Performance Table| See Fan Performance Table
Motor HP| 1/2| 3/4| 3/4
R.P.M.| Variable| Variable| Variable
Volts / Ph / Hz| 120 / 1 / 60| 120 / 1 / 60| 120 / 1 / 60
FLA| 6.4| 8| 8
COMBUSTION FAN – Type| PSC| PSC| PSC
Drive – No. Speeds| Direct – 2| Direct – 2| Direct – 2
Motor HP – RPM| 3200/2700| 3200/2700| 3200/2900
Volts/Ph/Hz| 120 / 1 / 60| 120 / 1 / 60| 120 / 1 / 60
FLA| 0.30| 0.30| 0.33
Inducer Orifice| 1.20| 1.40| 1.75
FILTER – Furnished?| No| No| No
Type Recommended| High Velocity| High Velocity| High Velocity
Hi Vel. (No.-Size-Thk.)| 1 – 14 X 25 – 1 in.| 1 – 16 X 25 – 1 in.| 1 – 16 X 25 – 1 in.
VENT PIPE DIAMETER – Min. (in.) (e)| 4 Round| 4 Round| 4 Round
HEAT EXCHANGER – Type| Aluminized Steel| Aluminized Steel| Aluminized Steel
Gauge (Fired)| 20 – 19| 20 – 19| 20 – 19
ORIFICES – Main| | |
Nat. Gas Qty. – Drill Size| 2 – 45| 3 – 45| 4 – 45
L.P. Gas Qty. – Drill Size| 2 – 56| 3 – 56| 4 – 56
GAS VALVE| Redundant – Two Stage| Redundant – Two Stage| Redundant – Two Stage
PILOT SAFETY DEVICE – Type| 120 V SiNi Igniter| 120 V SiNi Igniter| 120 V SiNi Igniter
BURNERS – QTY| 2| 3| 4
POWER CONN. – V/Ph/HZ (f)| 120 / 1 / 60| 120 / 1 / 60| 120 / 1 / 60
Ampacity (Amps)| 8.5| 10.5| 10.5
Max. Overcurrent Protection (Amps)| 15| 15| 15
PIPE CONN. SIZE (IN.)| 1/2| 1/2| 1/2
DIMENSIONS| H x W x D| H x W x D| H x W x D
Uncrated (in.)| 34 x 14.5 x 28.75| 34 x 17.5 x 28.75| 34 x 17.5 x 28.75
Crated (in.)| 35.5 x 16.5 x 30.87| 35.5 x 19.5 x 30.87| 35.5 x 19.5 x 30.87
WEIGHT| | |
Shipping (Lbs.)/Net (Lbs.)| 102/94| 132/124| 137/129

(a) Central Furnace heating designs are certified to ANSI Z21.47 – latest edition.
(b) For U.S. applications, above input ratings (BTUH) are up to 2,000 feet, derate 4% per 1,000 feet for elevations above 2,000 feet above sea level.
(c) Based on U.S. government standard tests.
(d) Direct drive variable speed blower motor is an ECM constant airflow blower motor.
(e) Refer to the Installation, Operation, and Maintenance Manual.
f) The above wiring specifications are in accordance with National Electric Code, however, installations must comply with local codes.

Model| S8V2C080M5PC (a) S8V2C080M5PD (a)| S8V2C100M5PC (a) **S8V2C100M5PD (a)| S8V2D120M5PC (a) ****S8V2D120M5PD (a)
---|---|---|---
Type| Upflow / Horizontal / Downflow| Upflow / Horizontal / Downflow| Upflow / Horizontal / Downflow
RATINGS (b)| | |
1st Stage Input BTUH| 52,000| 65,000| 84,000
1st Stage Capacity BTUH (ICS)| 41,800| 52,300| 67,900
2nd Stage Input BTUH| 80,000| 100,000| 120,000
2nd Stage Capacity BTUH (ICS) (c)| 64,800| 81,200| 98,000
1st Stage Temp. Rise (Min. – Max.) °F| 30 – 60| 25 – 55| 30 – 60
2nd Stage Temp. Rise (Min. – Max.) °F| 30 – 60| 30 – 60| 35 – 65
AFUE – Rating(c)| 80| 80| 80
Return Air Temp. (Min. – Max.) °F| 55°F – 80°F| 55°F – 80°F| 55°F – 80°F
BLOWER DRIVE| DIRECT| DIRECT| DIRECT
Diameter – Width (in.)| 11 X 11| 11 X 11| 11 X 11
No. Used| 1| 1| 1
Speeds (No.) (d)| Variable| Variable| Variable
CFM vs. in. w.g.| See Fan Performance Table| See Fan Performance Table| See Fan Performance Table
Motor HP| 1| 1| 1
R.P.M.| Variable| Variable| Variable
Volts / Ph / Hz| 120 / 1 / 60| 120 / 1 / 60| 120 / 1 / 60
FLA| 10| 10| 10
COMBUSTION FAN – Type| PSC| PSC| PSC
Drive – No. Speeds| Direct – 2| Direct – 2| Direct – 2
Motor HP – RPM| 3200/2700| 3200/2900| 3200/2900
Volts/Ph/Hz| 120 / 1 / 60| 120 / 1 / 60| 120 / 1 / 60
FLA| 0.30| 0.33| 0.33
Inducer Orifice| 1.80| 2.50| 2.15
FILTER – Furnished?| No| No| No
Type Recommended| High Velocity| High Velocity| High Velocity
Hi Vel. (No.-Size-Thk.)| 1 – 20 X 25 – 1 in.| 1 – 20 X 25 – 1 in.| 1 – 24 X 25 – 1 in.
VENT PIPE DIAMETER – Min. (in.) (e)| 4 Round| 4 Round| 4 Round
HEAT EXCHANGER – Type| Aluminized Steel| Aluminized Steel| Aluminized Steel
Gauge (Fired)| 20 – 19| 20 – 19| 20 – 19
ORIFICES – Main| | |
Nat. Gas Qty. – Drill Size| 4 – 45| 5 – 45| 6 – 45
L.P. Gas Qty. – Drill Size| 4 – 56| 5 – 56| 6 – 56
GAS VALVE| Redundant – Two Stage| Redundant – Two Stage| Redundant – Two Stage
PILOT SAFETY DEVICE – Type| 120 V SiNi Igniter| 120 V SiNi Igniter| 120 V SiNi Igniter
BURNERS – QTY| 4| 5| 6
POWER CONN. – V/Ph/HZ (f)| 120 / 1 / 60| 120 / 1 / 60| 120 / 1 / 60
Ampacity (Amps)| 13.0| 13.0| 13.0
Max. Overcurrent Protection (Amps)| 15| 15| 15
PIPE CONN. SIZE (IN.)| 1/2| 1/2| 1/2
DIMENSIONS| H x W x D| H x W x D| H x W x D
Uncrated (in.)| 34 x 21 x 28.75| 34 x 21 x 28.75| 34 x 24.5 x 28.75
Crated (in.)| 35.5 x 23 x 30.87| 35.5 x 23 x 30.87| 35.5 x 26.5 x 30.87
WEIGHT**| | |
Shipping (Lbs.)/Net (Lbs.)| 142/134| 144/136| 160/152

(a) Central Furnace heating designs are certified to ANSI Z21.47 – latest edition.
(b) For U.S. applications, above input ratings (BTUH) are up to 2,000 feet, derate 4% per 1,000 feet for elevations above 2,000 feet above sea level.
(c) Based on U.S. government standard tests.
(d) Direct drive variable speed blower motor is an ECM constant airflow blower motor.
(e) Refer to the Installation, Operation, and Maintenance Manual.
f) The above wiring specifications are in accordance with National Electric Code, however, installations must comply with local codes.

Airflow Tables

Table 2.  S8V2A040M3P Heating Airflow

S8V2A040M3P Furnace Heating Airflow (CFM), Temp. Rise (°F), and Power (Watts) vs. External Static Pressure with Filter (iwc)

| 1st Stage Capacity = 21,000 2nd Stage Capacity = 32,200
Heating| Airflow Setting| Target Airflow| | External Static Pressure
0.1| 0.3| 0.5| 0.7| 0.9
Heating 1st Stage| Low| 427| CFM| 458| 459| 460| 461| 462
Temp. Rise| 42| 42| 42| 41| 41
Watts| 23| 55| 87| 119| 151
Medium Low(a)| 506| CFM| 521| 522| 524| 525| 527
Temp. Rise| 37| 37| 37| 37| 37
Watts| 30| 64| 98| 132| 166
Medium| **** 593| CFM| 611| 605| 598| 592| 585
Temp. Rise| 32| 33| 33| 33| 34
Watts| 40| 76| 112| 149| 185
High| 672| CFM| 694| 680| 667| 653| 639
Temp. Rise| 28| 29| 29| 30| 31
Watts| 50| 88| 126| 164| 202
Heating 2nd Stage| Low| 540| CFM| 605| 601| 596| 591| 586
Temp. Rise| 49| 49| 50| 50| 50
Watts| 32| 71| 109| 148| 187
Medium Low(a)| 640| CFM| 660| 661| 662| 663| 664
Temp. Rise| 45| 45| 45| 45| 45
Watts| 44| 84| 125| 165| 206
Medium| 750| CFM| 785| 779| 773| 768| 762
Temp. Rise| 39| 39| 39| 39| 40
Watts| 64| 108| 152| 196| 240
High| 850| CFM| 898| 887| 875| 863| 851
Temp. Rise| 33| 33| 34| 34| 35
Watts| 82| 130| 177| 224| 272

Table 3.  S8V2A040M3P Cooling Airflow

S8V2A040M3P Furnace Cooling Airflow (CFM) and Power (Watts) vs. External Static Pressure with Filter (iwc)

Outdoor Tonnage – “Odt” (tons)| Airflow Setting – “CPC” (CFM/ton)| | EXTERNAL STATIC PRESSURE (IN. W. C.)
| 0.1| 0.3| 0.5| 0.7| 0.9
1.5| 450| CFM / WATTS| 672 / 52| 655 / 91| 641 / 134| 627 / 180| 611 / 228
420| CFM / WATTS| 630 / 45| 611 / 83| 596 / 124| 581 / 168| 566 / 215
400| CFM / WATTS| 601 / 41| 581 / 78| 566 / 118| 551 / 161| 535 / 207
370| CFM / WATTS| 558 / 35| 537 / 70| 521 / 109| 505 / 151| 489 / 196
350| CFM / WATTS| 529 / 32| 507 / 66| 490 / 104| 475 / 145| 458 / 189
330| CFM / WATTS| 500 / 29| 477 / 62| 460 / 98| 444 / 139| 427 / 183
310| CFM / WATTS| 471 / 26| 447 / 58| 429 / 94| 413 / 133| 396 / 176
290| CFM / WATTS| 437 / 23| 405 / 53| 400 / 89| 363 / 125| 326 / 165
2.0| 450| CFM / WATTS| 869 / 93| 863 / 142| 852 / 193| 823 / 240| 800 / 291
420| CFM / WATTS| 827 / 82| 814 / 128| 803 / 177| 790 / 228| 776 / 281
400| CFM / WATTS| 790 / 74| 776 / 118| 764 / 166| 751 / 215| 736 / 267
370| CFM / WATTS| 734 / 63| 718 / 105| 705 / 150| 692 / 198| 677 / 248
350| CFM / WATTS| 690 / 55| 680 / 96| 646 / 136| 632 / 181| 628 / 233
330| CFM / WATTS| 658 / 49| 640 / 88| 626 / 131| 612 / 176| 596 / 224
310| CFM / WATTS| 620 / 44| 601 / 81| 586 / 122| 571 / 166| 555 / 213
290| CFM / WATTS| 582 / 38| 562 / 74| 546 / 114| 531 / 157| 515 / 202

Table 3. S8V2A040M3P Cooling Airflow (continued)

S8V2A040M3P Furnace Cooling Airflow (CFM) and Power (Watts) vs. External Static Pressure with Filter (iwc)

Outdoor Tonnage – “Odt” (tons)| Airflow Setting – “CPC” (CFM/ton)| | EXTERNAL STATIC PRESSURE (IN. W. C.)
| 0.1| 0.3| 0.5| 0.7| 0.9
2.5| 450| CFM / WATTS| 1087 / 163| 1065 / 212| 1074 / 278| 1064 / 339| 1052 / 402
420| CFM / WATTS| 1019 / 138| 998 / 186| 1004 / 248| 993 / 306| 981 / 366
400| CFM / WATTS| 974 / 123| 953 / 171| 945 / 225| 922 / 277| 902 / 331
370| CFM / WATTS| 898 / 101| 886 / 149| 876 / 200| 848 / 248| 825 / 300
350| CFM / WATTS| 859 / 90| 848 / 137| 837 / 187| 824 / 240| 810 / 294
330| CFM / WATTS| 813 / 79| 800 / 124| 788 / 173| 775 / 223| 761 / 276
310| CFM / WATTS| 766 / 69| 752 / 112| 739 / 159| 726 / 208| 711 / 259
290| CFM / WATTS| 719 / 60| 704 / 101| 690 / 146| 677 / 193| 661 / 243
3.0(a)| 450| CFM / WATTS| 1288 / 255| 1286 / 319| 1282 / 386| 1274 / 455| 1264 / 525
420| CFM / WATTS| 1208 / 215| 1205 / 276| 1199 / 340| 1191 / 405| 1180 / 473
400| CFM / WATTS| 1155 / 190| 1150 / 249| 1144 / 311| 1135 / 375| 1124 / 440
370| CFM / WATTS| 1074 / 157| 1068 / 213| 1060 / 272| 1050 / 332| 1038 / 394
350(a)| CFM / WATTS| 1019 / 138| 1012 / 191| 1004 / 248| 993 / 306| 981 / 366
330| CFM / WATTS| 965 / 120| 956 / 171| 947 / 226| 936 / 282| 923 / 340
310| CFM / WATTS| 910 / 104| 900 / 153| 889 / 205| 878 / 259| 864 / 315
290| CFM / WATTS| 854 / 89| 843 / 136| 832 / 186| 820 / 238| 805 / 292

Table 4.   S8V2B060M4P Heating Airflow

S8V2B060M4P Furnace Heating Airflow (CFM), Temp. Rise (°F), and Power (Watts) vs. External Static Pressure with Filter (iwc)

| 1st Stage Capacity = 31,300 2nd Stage Capacity = 49,100
Heating| Airflow Setting| Target Airflow| | External Static Pressure
0.1| 0.3| 0.5| 0.7| 0.9
Heating 1st Stage| Low| 711| CFM| 690| 687| 684| 681| 678
Temp. Rise| 42| 42| 42| 43| 43
Watts| 44| 83| 122| 161| 200
Medium Low(a)| 830| CFM| 808| 812| 816| 820| 824
Temp. Rise| 36| 36| 36| 36| 35
Watts| 63| 107| 151| 194| 238
Medium| 948| CFM| 917| 921| 925| 929| 932
Temp. Rise| 32| 32| 32| 32| 32
Watts| 87| 137| 186| 235| 285
High| 1106| CFM| 1063| 1067| 1070| 1074| 1077
Temp. Rise| 27| 27| 27| 27| 27
Watts| 119| 176| 233| 289| 347
Heating 2nd Stage| Low| 900| CFM| 880| 880| 879| 878| 877
Temp. Rise| 51| 51| 51| 51| 50
Watts| 71| 121| 172| 223| 273
Medium Low(a)| 1050| CFM| 1037| 1032| 1027| 1021| 1016
Temp. Rise| 43| 44| 44| 43| 44
Watts| 108| 162| 216| 269| 323
Medium| 1200| CFM| 1179| 1175| 1171| 1168| 1164
Temp. Rise| 39| 39| 39| 39| 39
Watts| 165| 226| 287| 347| 408
High| 1400| CFM| 1367| 1366| 1364| 1363| 1361
Temp. Rise| 33| 33| 33| 33| 33
Watts| 240| 311| 381| 451| 522

Table 5. S8V2B060M4P Cooling Airflow

S8V2B060M4P Furnace Cooling Airflow (CFM) and Power (Watts) vs. External Static Pressure with Filter (iwc)

Outdoor Tonnage

– “Odt” (tons)

| Airflow Setting – “CPC” (CFM/ton)| | EXTERNAL STATIC PRESSURE (IN. W. C.)
| 0.1| 0.3| 0.5| 0.7| 0.9
1.5| 450| CFM / WATTS| 650 / 42| 649 / 77| 653 / 116| 658 / 159| 659 / 205
420| CFM / WATTS| 600 / 36| 599 / 69| 604 / 107| 609 / 149| 611 / 195
400| CFM / WATTS| 567 / 33| 566 / 65| 571 / 102| 576 / 143| 578 / 189
370| CFM / WATTS| 518 / 28| 516 / 59| 521 / 94| 526 / 135| 529 / 180
350| CFM / WATTS| 484 / 25| 483 / 55| 488 / 90| 493 / 130| 496 / 176
330| CFM / WATTS| 451 / 23| 449 / 51| 455 / 86| 460 / 126| 462 / 171
310| CFM / WATTS| 417 / 20| 415 / 48| 421 / 82| 426 / 122| 429 / 167
290| CFM / WATTS| 325 / 15| 325 / 41| 340 / 75| 346 / 115| 326 / 161
2.0| 450| CFM / WATTS| 892 / 81| 892 / 124| 895 / 171| 898 / 220| 899 / 272
420| CFM / WATTS| 828 / 69| 828 / 110| 832 / 154| 835 / 202| 836 / 252
400| CFM / WATTS| 785 / 61| 785 / 101| 789 / 144| 792 / 190| 793 / 240
370| CFM / WATTS| 720 / 51| 720 / 89| 724 / 130| 728 / 174| 729 / 222
350| CFM / WATTS| 677 / 45| 676 / 81| 681 / 121| 685 / 164| 686 / 212
330| CFM / WATTS| 633 / 40| 632 / 74| 637 / 113| 641 / 155| 643 / 202
310| CFM / WATTS| 589 / 35| 588 / 68| 593 / 105| 598 / 147| 600 / 193
290| CFM / WATTS| 545 / 31| 544 / 62| 549 / 98| 554 / 139| 556 / 185
2.5| 450| CFM / WATTS| 1127 / 142| 1128 / 193| 1131 / 248| 1133 / 305| 1132 / 365
420| CFM / WATTS| 1040 / 117| 1042 / 165| 1045 / 217| 1047 / 271| 1046 / 327
400| CFM / WATTS| 997 / 105| 998 / 152| 1001 / 202| 1003 / 255| 1003 / 310
370| CFM / WATTS| 918 / 87| 919 / 131| 922 / 178| 925 / 228| 925 / 281
350| CFM / WATTS| 865 / 76| 865 / 118| 869 / 164| 872 / 212| 873 / 264
330| CFM / WATTS| 812 / 66| 812 / 106| 816 / 150| 819 / 197| 820 / 247
310| CFM / WATTS| 758 / 57| 758 / 95| 762 / 138| 766 / 183| 767 / 232
290| CFM / WATTS| 704 / 49| 703 / 86| 708 / 126| 712 / 170| 713 / 218
3.0| 450| CFM / WATTS| 1355 / 228| 1358 / 288| 1360 / 352| 1361 / 417| 1358 / 485
420| CFM / WATTS| 1265 / 190| 1267 / 247| 1269 / 307| 1270 / 369| 1268 / 433
400| CFM / WATTS| 1204 / 167| 1205 / 222| 1208 / 279| 1209 / 339| 1208 / 402
370| CFM / WATTS| 1111 / 137| 1113 / 188| 1116 / 242| 1117 / 299| 1116 / 358
350| CFM / WATTS| 1049 / 119| 1050 / 168| 1053 / 220| 1055 / 274| 1055 / 331
330| CFM / WATTS| 987 / 103| 987 / 149| 991 / 199| 993 / 251| 993 / 306
310| CFM / WATTS| 923 / 88| 924 / 132| 927 / 180| 930 / 230| 930 / 283
290| CFM / WATTS| 860 / 75| 860 / 117| 864 / 162| 867 / 211| 867 / 262
3.5| 450| CFM / WATTS| 1576 / 345| 1580 / 414| 1582 / 486| 1582 / 560| 1578 / 636
420| CFM / WATTS| 1474 / 286| 1477 / 351| 1479 / 419| 1479 / 489| 1476 / 561
400| CFM / WATTS| 1405 / 251| 1408 / 314| 1410 / 379| 1410 / 446| 1408 / 516
370| CFM / WATTS| 1300 / 204| 1302 / 262| 1305 / 324| 1305 / 387| 1303 / 453
350| CFM / WATTS| 1229 / 177| 1231 / 232| 1234 / 291| 1235 / 351| 1233 / 414
330| CFM / WATTS| 1158 / 152| 1159 / 204| 1162 / 260| 1163 / 319| 1162 / 379
310| CFM / WATTS| 1085 / 129| 1087 / 179| 1090 / 232| 1092 / 288| 1091 / 346
290| CFM / WATTS| 1013 / 109| 1014 / 157| 1017 / 207| 1019 / 261| 1019 / 316
4.0(a)| 450| CFM / WATTS| 1791 / 497| 1795 / 575| 1797 / 656| 1796 / 739| 1791 / 823
420| CFM / WATTS| 1677 / 411| 1681 / 485| 1683 / 561| 1683 / 639| 1678 / 719
400| CFM / WATTS| 1601 / 360| 1604 / 430| 1606 / 503| 1606 / 578| 1602 / 655
370| CFM / WATTS| 1484 / 291| 1487 / 357| 1489 / 425| 1489 / 496| 1486 / 568
350(a)| CFM / WATTS| 1405 / 251| 1408 / 314| 1410 / 379| 1410 / 446| 1408 / 516
330| CFM / WATTS| 1325 / 215| 1327 / 274| 1330 / 336| 1331 / 401| 1328 / 467
310| CFM / WATTS| 1244 / 182| 1246 / 238| 1249 / 297| 1250 / 359| 1248 / 422
290| CFM / WATTS| 1163 / 153| 1164 / 206| 1167 / 262| 1169 / 321| 1167 / 381

Table 6.   S8V2B080M4P Heating Airflow

S8V2B080M4P Furnace Heating Airflow (CFM), Temp. Rise (°F), and Power (Watts) vs. External Static Pressure with Filter (iwc)

| 1st Stage Capacity = 41,200 2nd Stage Capacity = 65,800
Heating| Airflow Setting| Target Airflow| | External Static Pressure
0.1| 0.3| 0.5| 0.7| 0.9
Heating 1st Stage| Low| 689| CFM| 692| 684| 678| 670| 664
Temp. Rise| 56| 56| 57| 57| 58
Watts| 50| 93| 136| 179| 222
Medium Low(a)| 865| CFM| 854| 858| 861| 864| 867
Temp. Rise| 45| 45| 45| 45| 45
Watts| 78| 125| 173| 221| 268
Medium| 956| CFM| 947| 941| 936| 930| 924
Temp. Rise| 41| 41| 42| 42| 42
Watts| 100| 151| 201| 252| 302
High| 1040| CFM| 1033| 1019| 1005| 991| 978
Temp. Rise| 37| 38| 38| 39| 40
Watts| 121| 174| 227| 280| 334
Heating 2nd Stage| Low| 1060| CFM| 1071| 1068| 1065| 1061| 1058
Temp. Rise| 56| 56| 56| 56| 57
Watts| 107| 180| 254| 327| 401
Medium Low(a)| 1330| CFM| 1320| 1318| 1315| 1313| 1311
Temp. Rise| 45| 45| 45| 45| 45
Watts| 211| 287| 364| 441| 517
Medium| 1470| CFM| 1460| 1453| 1446| 1439| 1432
Temp. Rise| 41| 41| 42| 42| 42
Watts| 305| 383| 460| 538| 615
High| 1600| CFM| 1591| 1579| 1568| 1556| 1545
Temp. Rise| 38| 38| 38| 38| 38
Watts| 393| 471| 550| 628| 707

Table 7. S8V2B080M4P Cooling Airflow

S8V2B080M4P Furnace Cooling Airflow (CFM) and Power (Watts) vs. External Static Pressure with Filter (iwc)

Outdoor Tonnage – “Odt” (tons)| Airflow Setting – “CPC” (CFM/ton)| | EXTERNAL STATIC PRESSURE (IN. W. C.)
| 0.1| 0.3| 0.5| 0.7| 0.9
1.5| 450| CFM / WATTS| 692 / 42| 684 / 78| 678 / 119| 672 / 163| 667 / 212
420| CFM / WATTS| 647 / 37| 639 / 71| 632 / 110| 626 / 153| 621 / 201
400| CFM / WATTS| 617 / 33| 609 / 66| 602 / 105| 596 / 147| 591 / 194
370| CFM / WATTS| 572 / 28| 563 / 60| 556 / 97| 550 / 139| 545 / 185
350| CFM / WATTS| 542 / 26| 533 / 56| 526 / 92| 520 / 134| 515 / 180
330| CFM / WATTS| 512 / 23| 502 / 53| 495 / 88| 489 / 129| 484 / 175
310| CFM / WATTS| 481 / 21| 472 / 49| 465 / 84| 459 / 125| 453 / 170
290| CFM / WATTS| 450 / 18| 443 / 46| 450 / 82| 450 / 123| 417 / 166
2.0| 450| CFM / WATTS| 915 / 82| 909 / 126| 903 / 175| 897 / 226| 893 / 281
420| CFM / WATTS| 856 / 69| 849 / 112| 843 / 158| 838 / 207| 833 / 260
400| CFM / WATTS| 817 / 62| 809 / 103| 803 / 147| 798 / 195| 793 / 247
370| CFM / WATTS| 757 / 52| 749 / 90| 743 / 133| 737 / 179| 732 / 229
350| CFM / WATTS| 717 / 46| 709 / 83| 703 / 124| 697 / 169| 692 / 218
330| CFM / WATTS| 677 / 40| 669 / 76| 662 / 116| 657 / 160| 652 / 208
310| CFM / WATTS| 637 / 35| 629 / 69| 622 / 108| 616 / 151| 611 / 199
290| CFM / WATTS| 597 / 31| 589 / 63| 582 / 101| 576 / 143| 571 / 190
2.5| 450| CFM / WATTS| 1135 / 143| 1130 / 196| 1124 / 253| 1120 / 312| 1115 / 375
420| CFM / WATTS| 1062 / 119| 1056 / 170| 1050 / 224| 1045 / 281| 1041 / 340
400| CFM / WATTS| 1013 / 106| 1007 / 154| 1002 / 206| 997 / 261| 992 / 319
370| CFM / WATTS| 940 / 87| 933 / 133| 927 / 182| 922 / 235| 917 / 290
350| CFM / WATTS| 891 / 76| 884 / 120| 878 / 167| 872 / 218| 868 / 272
330| CFM / WATTS| 841 / 66| 834 / 108| 828 / 154| 823 / 203| 818 / 255
310| CFM / WATTS| 792 / 57| 784 / 97| 778 / 141| 772 / 188| 768 / 239
290| CFM / WATTS| 742 / 49| 734 / 87| 728 / 129| 722 / 175| 717 / 225
3.0| 450| CFM / WATTS| 1353 / 230| 1348 / 292| 1343 / 358| 1339 / 426| 1335 / 496
---|---|---|---|---|---|---|---
420| CFM / WATTS| 1266 / 192| 1261 / 250| 1256 / 312| 1252 / 377| 1247 / 444
400| CFM / WATTS| 1208 / 169| 1203 / 225| 1198 / 285| 1193 / 347| 1189 / 412
370| CFM / WATTS| 1121 / 138| 1115 / 191| 1110 / 247| 1105 / 306| 1101 / 367
350| CFM / WATTS| 1062 / 120| 1056 / 170| 1051 / 224| 1046 / 281| 1041 / 340
330| CFM / WATTS| 1004 / 103| 997 / 151| 992 / 203| 987 / 258| 982 / 315
310| CFM / WATTS| 945 / 88| 938 / 134| 932 / 184| 927 / 236| 922 / 292
290| CFM / WATTS| 886 / 75| 879 / 119| 873 / 166| 867 / 216| 863 / 270
3.5| 450| CFM / WATTS| 1568 / 349| 1564 / 420| 1559 / 494| 1556 / 571| 1552 / 650
420| CFM / WATTS| 1468 / 289| 1463 / 356| 1459 / 427| 1455 / 499| 1451 / 574
400| CFM / WATTS| 1401 / 253| 1396 / 318| 1392 / 385| 1387 / 455| 1383 / 528
370| CFM / WATTS| 1300 / 206| 1295 / 266| 1290 / 330| 1286 / 396| 1282 / 464
350| CFM / WATTS| 1232 / 178| 1227 / 235| 1222 / 296| 1218 / 359| 1213 / 425
330| CFM / WATTS| 1165 / 153| 1159 / 207| 1154 / 265| 1149 / 326| 1145 / 389
310| CFM / WATTS| 1096 / 130| 1091 / 182| 1085 / 237| 1080 / 295| 1076 / 356
290| CFM / WATTS| 1028 / 110| 1022 / 159| 1016 / 212| 1011 / 267| 1007 / 325
4.0(a)| 450| CFM / WATTS| 1780 / 503| 1776 / 584| 1773 / 667| 1769 / 753| 1766 / 841
420| CFM / WATTS| 1667 / 416| 1663 / 492| 1659 / 570| 1656 / 651| 1652 / 734
400| CFM / WATTS| 1592 / 364| 1587 / 436| 1583 / 512| 1579 / 590| 1576 / 670
370| CFM / WATTS| 1477 / 294| 1473 / 362| 1469 / 433| 1464 / 506| 1461 / 581
350(a)| CFM / WATTS| 1401 / 253| 1396 / 318| 1392 / 385| 1387 / 455| 1383 / 528
330| CFM / WATTS| 1324 / 217| 1319 / 278| 1314 / 342| 1310 / 409| 1306 / 478
310| CFM / WATTS| 1247 / 184| 1242 / 242| 1237 / 303| 1232 / 367| 1228 / 433
290| CFM / WATTS| 1169 / 154| 1164 / 209| 1159 / 267| 1154 / 328| 1150 / 392

Table 8.   S8V2C080M5P Heating Airflow

S8V2C080M5P Furnace Heating Airflow (CFM), Temp. Rise (°F), and Power (Watts) vs. External Static Pressure with Filter (iwc)

| 1st Stage Capacity = 41,800 2nd Stage Capacity = 64,800
Heating| Airflow Setting| Target Airflow| | External Static Pressure
0.1| 0.3| 0.5| 0.7| 0.9
Heating 1st Stage| Low| 748| CFM| 771| 741| 711| 682| 652
Temp. Rise| 50| 52| 54| 56| 58
Watts| 46| 90| 134| 178| 221
Medium Low(a)| 878| CFM| 879| 854| 830| 805| 781
Temp. Rise| 44| 45| 46| 47| 48
Watts| 59| 116| 174| 232| 290
Medium| 943| CFM| 958| 948| 938| 929| 919
Temp. Rise| 40| 41| 41| 42| 42
Watts| 70| 132| 194| 256| 318
High| 1073| CFM| 1035| 1026| 1016| 1007| 997
Temp. Rise| 37| 38| 38| 39| 40
Watts| 90| 150| 210| 271| 331
Heating 2nd Stage| Low| 1150| CFM| 1175| 1159| 1142| 1126| 1109
Temp. Rise| 50| 51| 52| 53| 53
Watts| 105| 174| 243| 312| 381
Medium Low(a)| 1350| CFM| 1387| 1373| 1359| 1345| 1331
Temp. Rise| 43| 43| 43| 44| 44
Watts| 154| 243| 333| 422| 512
Medium| 1450| CFM| 1446| 1444| 1443| 1441| 1439
Temp. Rise| 41| 41| 41| 41| 41
Watts| 94| 215| 336| 457| 577
High| 1650| CFM| 1642| 1621| 1601| 1580| 1560
Temp. Rise| 36| 36| 37| 37| 38
Watts| 279| 373| 467| 561| 655

Table 9. S8V2C080M5P Cooling Airflow

S8V2C080M5P Furnace Cooling Airflow (CFM) and Power (Watts) vs. External Static Pressure with Filter (iwc)

Outdoor Tonnage – “Odt” (tons)| Airflow Setting – “CPC” (CFM/ton)| | EXTERNAL STATIC PRESSURE (IN. W. C.)
| 0.1| 0.3| 0.5| 0.7| 0.9
2.5| 450| CFM / WATTS| 1057 / 107| 1057 / 168| 1055 / 231| 1051 / 296| 1047 / 363
420| CFM / WATTS| 982 / 91| 980 / 149| 976 / 209| 972 / 270| 968 / 334
400| CFM / WATTS| 932 / 82| 928 / 137| 924 / 194| 919 / 254| 914 / 316
370| CFM / WATTS| 856 / 69| 850 / 121| 844 / 174| 838 / 231| 832 / 290
350| CFM / WATTS| 806 / 62| 797 / 111| 790 / 162| 783 / 217| 777 / 274
330| CFM / WATTS| 755 / 55| 744 / 101| 735 / 151| 728 / 204| 721 / 260
310| CFM / WATTS| 704 / 48| 691 / 92| 681 / 140| 672 / 191| 665 / 246
290| CFM / WATTS| 652 / 42| 637 / 84| 625 / 130| 616 / 180| 608 / 233
3.0| 450| CFM / WATTS| 1279 / 164| 1284 / 237| 1285 / 311| 1283 / 387| 1280 / 463
420| CFM / WATTS| 1190 / 139| 1194 / 207| 1194 / 277| 1192 / 348| 1188 / 421
400| CFM / WATTS| 1131 / 124| 1133 / 189| 1132 / 256| 1130 / 324| 1126 / 394
370| CFM / WATTS| 1042 / 104| 1041 / 164| 1039 / 227| 1036 / 291| 1032 / 357
350| CFM / WATTS| 982 / 91| 980 / 149| 976 / 209| 972 / 270| 968 / 334
330| CFM / WATTS| 922 / 80| 918 / 135| 913 / 192| 908 / 251| 903 / 312
310| CFM / WATTS| 861 / 70| 855 / 122| 849 / 176| 843 / 232| 838 / 292
290| CFM / WATTS| 800 / 61| 792 / 110| 784 / 161| 778 / 215| 771 / 273
3.5| 450| CFM / WATTS| 1498 / 238| 1505 / 324| 1508 / 410| 1507 / 497| 1504 / 585
420| CFM / WATTS| 1396 / 201| 1402 / 281| 1404 / 362| 1404 / 443| 1401 / 525
400| CFM / WATTS| 1328 / 179| 1333 / 255| 1335 / 332| 1334 / 410| 1331 / 489
370| CFM / WATTS| 1225 / 148| 1229 / 219| 1229 / 290| 1227 / 363| 1224 / 437
350| CFM / WATTS| 1156 / 130| 1158 / 197| 1158 / 265| 1156 / 334| 1152 / 405
330| CFM / WATTS| 1087 / 114| 1087 / 176| 1086 / 241| 1083 / 307| 1079 / 375
310| CFM / WATTS| 1017 / 98| 1016 / 158| 1013 / 219| 1009 / 282| 1005 / 347
290| CFM / WATTS| 947 / 85| 944 / 141| 939 / 198| 935 / 259| 930 / 321
4.0| 450| CFM / WATTS| 1714 / 332| 1721 / 431| 1724 / 530| 1724 / 629| 1720 / 728
420| CFM / WATTS| 1599 / 279| 1607 / 371| 1609 / 463| 1609 / 556| 1606 / 649
400| CFM / WATTS| 1522 / 247| 1529 / 335| 1532 / 422| 1532 / 511| 1529 / 599
370| CFM / WATTS| 1406 / 204| 1412 / 285| 1414 / 366| 1414 / 448| 1411 / 531
350| CFM / WATTS| 1328 / 179| 1333 / 255| 1335 / 332| 1334 / 410| 1331 / 489
330| CFM / WATTS| 1250 / 155| 1254 / 227| 1254 / 300| 1253 / 374| 1250 / 449
310| CFM / WATTS| 1171 / 134| 1173 / 201| 1173 / 270| 1171 / 340| 1168 / 412
290| CFM / WATTS| 1091 / 115| 1092 / 178| 1091 / 243| 1088 / 309| 1084 / 377
4.5| 450| CFM / WATTS| 1926 / 449| 1933 / 561| 1935 / 672| 1934 / 784| 1929 / 895
420| CFM / WATTS| 1799 / 376| 1807 / 480| 1809 / 584| 1808 / 688| 1805 / 792
400| CFM / WATTS| 1714 / 332| 1721 / 431| 1724 / 530| 1724 / 629| 1720 / 728
370| CFM / WATTS| 1585 / 273| 1592 / 364| 1595 / 455| 1595 / 547| 1592 / 639
350| CFM / WATTS| 1498 / 238| 1505 / 324| 1508 / 410| 1507 / 497| 1504 / 585
330| CFM / WATTS| 1411 / 206| 1417 / 287| 1419 / 368| 1418 / 450| 1416 / 534
310| CFM / WATTS| 1323 / 177| 1328 / 253| 1330 / 330| 1329 / 407| 1326 / 486
290| CFM / WATTS| 1235 / 151| 1239 / 222| 1239 / 294| 1238 / 367| 1234 / 442
5.0(a)| 450| CFM / WATTS| 2135 / 590| 2140 / 715| 2141 / 839| 2137 / 964| 2131 / 1088
420| CFM / WATTS| 1996 / 493| 2003 / 609| 2004 / 725| 2002 / 841| 1997 / 956
400| CFM / WATTS| 1903 / 435| 1910 / 545| 1912 / 655| 1911 / 765| 1906 / 875
370| CFM / WATTS| 1761 / 356| 1769 / 458| 1772 / 559| 1771 / 661| 1767 / 763
350(a)| CFM / WATTS| 1666 / 310| 1674 / 405| 1677 / 501| 1676 / 501| 1673 / 694
330| CFM / WATTS| 1570 / 267| 1578 / 357| 1580 / 448| 1580 / 538| 1577 / 630
310| CFM / WATTS| 1474 / 229| 1481 / 313| 1483 / 398| 1483 / 484| 1480 / 570
290| CFM / WATTS| 1377 / 194| 1383 / 273| 1385 / 353| 1384 / 433| 1381 / 515

Table 10.   S8V2C100M5P Heating Airflow

S8V2C100M5P Furnace Heating Airflow (CFM), Temp. Rise (°F), and Power (Watts) vs. External Static Pressure with Filter (iwc)

| 1st Stage Capacity = 52,300 2nd Stage Capacity = 81,200
Heating| Airflow Setting| Target Airflow| | External Static Pressure
0.1| 0.3| 0.5| 0.7| 0.9
Heating 1st Stage| Low| 979| CFM| 1014| 998| 981| 966| 950
Temp. Rise| 48| 49| 50| 51| 51
Watts| 77| 139| 200| 261| 322
Medium Low| 1080| CFM| 1103| 1093| 1083| 1073| 1062
Temp. Rise| 44| 44| 45| 45| 46
Watts| 98| 163| 228| 294| 359
Medium(a)| 1188| CFM| 1202| 1190| 1177| 1165| 1153
Temp. Rise| 41| 41| 41| 42| 42
Watts| 119| 188| 257| 327| 397
High| 1296| CFM| 1332| 1314| 1296| 1278| 1260
Temp. Rise| 37| 37| 38| 38| 39
Watts| 156| 229| 302| 376| 449
Heating 2nd Stage| Low| 1360| CFM| 1401| 1393| 1385| 1377| 1369
Temp. Rise| 54| 54| 54| 54| 54
Watts| 164| 249| 334| 419| 503
Medium Low| 1500| CFM| 1537| 1523| 1509| 1495| 1482
Temp. Rise| 49| 49| 49| 50| 50
Watts| 223| 313| 404| 494| 585
Medium(a)| 1650| CFM| 1673| 1667| 1661| 1654| 1649
Temp. Rise| 45| 45| 45| 45| 45
Watts| 285| 381| 478| 575| 671
High| 1800| CFM| 1825| 1819| 1812| 1806| 1800
Temp. Rise| 42| 41| 41| 42| 42
Watts| 371| 480| 588| 696| 805

Table 11. S8V2C100M5P Cooling Airflow

S8V2C100M5P Furnace Cooling Airflow (CFM) and Power (Watts) vs. External Static Pressure with Filter (iwc)

Outdoor Tonnage – “Odt” (tons)| Airflow Setting – “CPC” (CFM/ton)| | EXTERNAL STATIC PRESSURE (IN. W. C.)
| 0.1| 0.3| 0.5| 0.7| 0.9
2.5| 450| CFM / WATTS| 1120 / 108| 1119 / 167| 1115 / 229| 1109 / 294| 1101 / 360
420| CFM / WATTS| 1043 / 92| 1041 / 148| 1036 / 207| 1030 / 268| 1021 / 332
400| CFM / WATTS| 992 / 83| 989 / 136| 984 / 193| 976 / 252| 968 / 315
370| CFM / WATTS| 915 / 70| 910 / 120| 904 / 173| 895 / 230| 886 / 290
350| CFM / WATTS| 863 / 62| 857 / 110| 850 / 161| 841 / 216| 831 / 275
330| CFM / WATTS| 811 / 55| 804 / 100| 795 / 150| 786 / 204| 776 / 261
310| CFM / WATTS| 759 / 48| 750 / 92| 741 / 140| 730 / 192| 719 / 248
290| CFM / WATTS| 706 / 42| 696 / 84| 686 / 130| 674 / 181| 663 / 236
3.0| 450| CFM / WATTS| 1346 / 166| 1348 / 236| 1346 / 309| 1341 / 383| 1335 / 458
420| CFM / WATTS| 1256 / 140| 1257 / 207| 1254 / 275| 1249 / 345| 1243 / 417
400| CFM / WATTS| 1196 / 125| 1196 / 188| 1193 / 254| 1187 / 321| 1180 / 391
370| CFM / WATTS| 1104 / 104| 1103 / 163| 1099 / 225| 1093 / 288| 1085 / 355
350| CFM / WATTS| 1043 / 92| 1041 / 148| 1036 / 207| 1030 / 268| 1021 / 332
330| CFM / WATTS| 982 / 81| 979 / 134| 973 / 190| 965 / 249| 957 / 311
310| CFM / WATTS| 920 / 70| 916 / 121| 909 / 174| 901 / 231| 892 / 292
290| CFM / WATTS| 858 / 61| 852 / 109| 844 / 160| 835 / 215| 825 / 274
3.5| 450| CFM / WATTS| 1568 / 242| 1571 / 324| 1570 / 407| 1566 / 492| 1560 / 577
420| CFM / WATTS| 1465 / 204| 1467 / 281| 1466 / 359| 1462 / 438| 1456 / 519
400| CFM / WATTS| 1396 / 181| 1398 / 254| 1396 / 329| 1392 / 405| 1386 / 483
370| CFM / WATTS| 1291 / 150| 1292 / 218| 1290 / 287| 1285 / 359| 1279 / 432
350| CFM / WATTS| 1221 / 131| 1221 / 196| 1218 / 262| 1213 / 331| 1206 / 401
330| CFM / WATTS| 1150 / 114| 1150 / 175| 1146 / 239| 1140 / 304| 1133 / 372
310| CFM / WATTS| 1079 / 99| 1078 / 157| 1073 / 217| 1067 / 280| 1059 / 345
290| CFM / WATTS| 1007 / 85| 1005 / 140| 999 / 197| 992 / 257| 984 / 320
4.0| 450| CFM / WATTS| 1785 / 339| 1788 / 433| 1787 / 527| 1784 / 623| 1778 / 719
---|---|---|---|---|---|---|---
420| CFM / WATTS| 1670 / 284| 1673 / 372| 1672 / 460| 1669 / 550| 1663 / 640
400| CFM / WATTS| 1592 / 252| 1595 / 335| 1594 / 419| 1591 / 505| 1585 / 592
370| CFM / WATTS| 1475 / 207| 1477 / 284| 1476 / 363| 1472 / 443| 1466 / 524
350| CFM / WATTS| 1396 / 181| 1398 / 254| 1396 / 329| 1392 / 405| 1386 / 483
330| CFM / WATTS| 1316 / 157| 1318 / 226| 1315 / 297| 1311 / 370| 1304 / 444
310| CFM / WATTS| 1236 / 135| 1237 / 200| 1234 / 267| 1229 / 337| 1222 / 408
290| CFM / WATTS| 1155 / 116| 1155 / 177| 1151 / 240| 1146 / 306| 1138 / 374
4.5| 450| CFM / WATTS| 1997 / 459| 2000 / 564| 1998 / 671| 1994 / 777| 1988 / 885
420| CFM / WATTS| 1870 / 384| 1873 / 482| 1872 / 582| 1869 / 681| 1863 / 782
400| CFM / WATTS| 1785 / 339| 1788 / 433| 1787 / 527| 1784 / 623| 1778 / 719
370| CFM / WATTS| 1655 / 278| 1658 / 365| 1658 / 452| 1654 / 541| 1648 / 631
350| CFM / WATTS| 1568 / 242| 1571 / 324| 1570 / 407| 1566 / 492| 1560 / 577
330| CFM / WATTS| 1479 / 209| 1482 / 286| 1481 / 365| 1477 / 445| 1471 / 527
310| CFM / WATTS| 1391 / 179| 1393 / 252| 1391 / 327| 1387 / 403| 1381 / 480
290| CFM / WATTS| 1301 / 153| 1302 / 221| 1300 / 291| 1296 / 363| 1289 / 437
5.0(a)| 450| CFM / WATTS| 2204 / 604| 2206 / 722| 2203 / 840| 2198 / 958| 2191 / 1077
420| CFM / WATTS| 2067 / 504| 2069 / 614| 2067 / 724| 2063 / 835| 2056 / 946
400| CFM / WATTS| 1974 / 444| 1976 / 549| 1975 / 653| 1971 / 759| 1965 / 865
370| CFM / WATTS| 1832 / 363| 1835 / 460| 1835 / 557| 1831 / 655| 1825 / 754
350 (a)| CFM / WATTS| 1737 / 315| 1740 / 406| 1739 / 498| 1736 / 591| 1730 / 685
330| CFM / WATTS| 1641 / 272| 1644 / 358| 1643 / 445| 1639 / 533| 1634 / 622
310| CFM / WATTS| 1543 / 232| 1546 / 313| 1545 / 395| 1542 / 478| 1536 / 563
290| CFM / WATTS| 1445 / 197| 1447 / 273| 1446 / 350| 1442 / 428| 1436 / 509

Table 12.   S8V2D120M5P Heating Airflow

S8V2D120M5P Furnace Heating Airflow (CFM), Temp. Rise (°F), and Power (Watts) vs. External Static Pressure with Filter (iwc)

| 1st Stage Capacity = 67,900 2nd Stage Capacity = 98,000
Heating| Airflow Setting| Target Airflow| | External Static Pressure
0.1| 0.3| 0.5| 0.7| 0.9
Heating 1st Stage| Low| 1155| CFM| 1223| 1238| 1254| 1270| 1286
Temp. Rise| 52| 51| 51| 50| 49
Watts| 103| 173| 243| 313| 384
Medium Low (a)| 1340| CFM| 1398| 1421| 1443| 1466| 1488
Temp. Rise| 44| 44| 44| 43| 43
Watts| 149| 229| 310| 390| 471
Medium| 1450| CFM| 1496| 1510| 1525| 1540| 1555
Temp. Rise| 42| 41| 41| 41| 41
Watts| 181| 264| 347| 430| 513
High| 1540| CFM| 1629| 1633| 1638| 1642| 1647
Temp. Rise| 39| 38| 38| 38| 38
Watts| 225| 312| 398| 484| 571
Heating 2nd Stage| Low| 1500| CFM| 1597| 1603| 1608| 1613| 1619
Temp. Rise| 56| 56| 56| 55| 55
Watts| 200| 294| 388| 482| 575
Medium Low (a)| 1740| CFM| 1822| 1832| 1843| 1854| 1865
Temp. Rise| 50| 49| 49| 49| 48
Watts| 296| 405| 514| 624| 733
Medium| 1850| CFM| 1916| 1930| 1944| 1958| 1972
Temp. Rise| 47| 46| 46| 46| 45
Watts| 366| 484| 602| 721| 839
High| 2000| CFM| 2045| 2064| 2082| 2101| 2120
Temp. Rise| 44| 44| 43| 43| 42
Watts| 463| 593| 723| 854| 983

Table 13. S8V2D120M5P Cooling Airflow

S8V2D120M5P Furnace Cooling Airflow (CFM) and Power (Watts) vs. External Static Pressure with Filter (iwc)

Outdoor Tonnage – “Odt” (tons)| Airflow Setting – “CPC” (CFM/ton)| | EXTERNAL STATIC PRESSURE (IN. W. C.)
| 0.1| 0.3| 0.5| 0.7| 0.9
3.0| 450| CFM / WATTS| 1376 / 149| 1382 / 217| 1382 / 287| 1378 / 359| 1371 / 434
420| CFM / WATTS| 1283 / 126| 1288 / 189| 1286 / 255| 1281 / 323| 1274 / 395
400| CFM / WATTS| 1221 / 112| 1225 / 172| 1222 / 235| 1216 / 301| 1208 / 370
370| CFM / WATTS| 1126 / 93| 1129 / 149| 1125 / 208| 1118 / 271| 1108 / 337
350| CFM / WATTS| 1063 / 82| 1064 / 135| 1059 / 192| 1051 / 252| 1040 / 316
330| CFM / WATTS| 998 / 71| 999 / 122| 993 / 176| 984 / 234| 972 / 297
310| CFM / WATTS| 934 / 62| 933 / 110| 926 / 162| 916 / 218| 904 / 279
290| CFM / WATTS| 869 / 54| 867 / 99| 859 / 149| 848 / 203| 834 / 263
3.5| 450| CFM / WATTS| 1602 / 219| 1611 / 299| 1614 / 380| 1613 / 463| 1609 / 547
420| CFM / WATTS| 1497 / 184| 1505 / 258| 1506 / 334| 1504 / 412| 1499 / 492
400| CFM / WATTS| 1427 / 163| 1433 / 234| 1434 / 306| 1431 / 380| 1425 / 457
370| CFM / WATTS| 1319 / 134| 1325 / 200| 1324 / 267| 1319 / 337| 1312 / 409
350| CFM / WATTS| 1247 / 117| 1251 / 179| 1249 / 243| 1244 / 310| 1235 / 380
330| CFM / WATTS| 1174 / 102| 1177 / 160| 1174 / 221| 1167 / 286| 1158 / 353
310| CFM / WATTS| 1100 / 88| 1102 / 143| 1098 / 201| 1090 / 263| 1080 / 328
290| CFM / WATTS| 1025 / 76| 1026 / 127| 1021 / 182| 1012 / 241| 1001 / 304
4.0| 450| CFM / WATTS| 1821 / 310| 1832 / 402| 1838 / 495| 1839 / 588| 1838 / 683
420| CFM / WATTS| 1705 / 259| 1715 / 344| 1719 / 431| 1720 / 519| 1717 / 608
400| CFM / WATTS| 1627 / 228| 1636 / 310| 1639 / 392| 1638 / 476| 1635 / 561
370| CFM / WATTS| 1507 / 187| 1515 / 262| 1517 / 338| 1515 / 416| 1510 / 497
350| CFM / WATTS| 1427 / 163| 1433 / 234| 1434 / 306| 1431 / 380| 1425 / 457
330| CFM / WATTS| 1345 / 141| 1351 / 207| 1350 / 276| 1346 / 347| 1339 / 420
310| CFM / WATTS| 1262 / 121| 1267 / 184| 1265 / 248| 1260 / 316| 1252 / 386
290| CFM / WATTS| 1179 / 103| 1182 / 162| 1179 / 223| 1173 / 287| 1164 / 355
4.5| 450| CFM / WATTS| 2032 / 423| 2045 / 528| 2053 / 632| 2057 / 738| 2059 / 844
420| CFM / WATTS| 1907 / 352| 1918 / 449| 1925 / 547| 1927 / 645| 1928 / 744
400| CFM / WATTS| 1821 / 310| 1832 / 402| 1838 / 495| 1839 / 588| 1838 / 683
370| CFM / WATTS| 1691 / 253| 1700 / 338| 1704 / 423| 1705 / 510| 1702 / 599
350| CFM / WATTS| 1602 / 219| 1611 / 299| 1614 / 380| 1613 / 463| 1609 / 547
330| CFM / WATTS| 1512 / 189| 1520 / 264| 1522 / 341| 1520 / 419| 1515 / 499
310| CFM / WATTS| 1421 / 161| 1428 / 232| 1429 / 304| 1426 / 378| 1420 / 455
290| CFM / WATTS| 1329 / 137| 1335 / 203| 1334 / 271| 1330 / 341| 1323 / 414
5.0(a)| 450| CFM / WATTS| 2236 / 561| 2250 / 678| 2260 / 796| 2266 / 913| 2270 / 1031
420| CFM / WATTS| 2101 / 466| 2114 / 575| 2123 / 684| 2128 / 793| 2130 / 903
400| CFM / WATTS| 2009 / 409| 2022 / 512| 2029 / 616| 2033 / 720| 2035 / 825
370| CFM / WATTS| 1869 / 333| 1880 / 428| 1886 / 523| 1888 / 619| 1888 / 717
350 (a)| CFM / WATTS| 1773 / 288| 1784 / 377| 1789 / 467| 1790 / 558| 1788 / 651
330| CFM / WATTS| 1676 / 247| 1685 / 331| 1689 / 416| 1689 / 502| 1687 / 590
310| CFM / WATTS| 1577 / 210| 1586 / 289| 1588 / 369| 1587 / 450| 1583 / 533
290| CFM / WATTS| 1477 / 178| 1485 / 251| 1486 / 326| 1483 / 403| 1478 / 482

(a) Factory Setting (applies to all Airflow Tables)

Wiring Diagrams

NOTES:

1. IF ANY OF THE ORIGINAL WIRING AS SUPPLIED WITH THIS FURNACE MUST BE REPLACED, IT MUST BE WITH WIRE HAVING A TEMPERATURE RATING OF AT LEAST 105ºC. WIRES 17, 48, 49, 50, 51 52, 92, 93, 94 MUST BE RATED TO 250°C.
2. COOLING ONLY – Y1 OR Y1 AND Y2 MUST CONNECT FROM THE THERMOSTAT TO THE IFC LOW VOLTAGE TERMINALS FOR PROPER AIRFLOW. LEAVE Y1-O JUMPER IN PLACE FOR CORRECT LED READOUT, IN 24 VOLT MODE SEE INSTALLER’S GUIDE FOR FIELD WIRING.
3. FOR SINGLE STAGE THERMOSTATS, JUMPER “W1” AND “W2” TERMINALS. SECOND STAGE HEATING WILL BE ENERGIZED ONCE THE INTER-STAGE DELAY HAS EXPIRED, IN 24 VOLT MODE
4. HEAT PUMP – Y1 OR Y1 AND Y2 MUST CONNECT FROM THE THERMOSTAT TO THE IFC LOW VOLTAGE TERMINALS FOR PROPER REMOVE Y1-O JUMPER FOR DEFROST OPERATION AND CORRECT LED READOUT, IN 24 VOLT MODE ONLY.
5. THE INDOOR BLOWER MOTOR AIRFLOW TABLES ARE LOCATED IN THE SERVICE FACTS. TO CHANGE AIRFLOW USE THE MENU/OPTIONS BUTTONS, IN 24 VOLT MODE ONLY.
6. LINE CHOKE ONLY AND WIRE BK/36 USED ON MODELS WITH 1 HP
7. FLAME SENSE TEST PADS: 1 VDC = 1 MICROAMP. FLAME CURRENT CAN VARY DEPENDING ON THE VOM THAT IS USED AND THE VOLTAGE SUPPLIED TO THE FURNACE. THE ACCEPTABLE RANGE IS 0.75-3
8. IN COMMUNICATION MODE MUST USE DIAGNOSTICS APP. MENU AND OPTION BUTTONS
9. DEFAULT ACC1 SETTINGS ARE FOR ELECTRONIC AIR CLEANER AND ACC2 SETTINGS ARE FOR HUMIDIFIER. THESE ARE CONFIGURABLE IN THE TECH APP.

Model Number Recovery

24 Volt Operation ONLY
Display| Model Number
1| S8V2A040M3PC
2| S8V2B060M4PC
3| S8V2B080M4PC
4| S8V2C080M5PC
5| S8V2C100M5PC
6| S8V2D120M5PC
7| S8V2A040M3PD
8| S8V2B060M4PD
9| S8V2B080M4PD
10| S8V2C080M5PD
11| S8V2C100M5PD
12| S8V2D120M5PD

LINE FACTORY
 IGN HOT SURFACE IGNITER
 FUSE
 FRS FLAME ROLLOUT SWITCH
 PS PRESSURE SWITCH
 RAF REVERSEAIR FLOW
 LC LINE CHOKE
24 V WIRING
LINE  FIELD
24 V  WIRING
GROUND
LIGHT-EMITTING DIODE FP FLAME PROBE

INTEGRATED FURNACE CONTROL ELECTRICAL RATING
INPUT: 24 VAC, 60 HZ.
TNS SEC. CURRENT: 450 MA. + MV LOAD
MV OUTPUT: 1.5A @ 24 VAC
IND OUTPUT: 2.2 FLA, 3.5 LRA @ 120 VAC
IGN OUTPUT: 2.0 A @ 120 VAC
CIRC. BLOWER OUTPUT: 14.5 FLA, 25 LRA @ 120 VAC
HUMIDIFIER @& AIR CLEANER (DRY CONTACTS)
MAX. LOAD: 1.0 A @ 120 VAC 24 VAC OR 120 VAC MAY BE USED
FUSE: 5A

TIMINGS
PREPURGE: 0 SEC.
INTERPURGE: 60 SEC.
POST PURGE: 5 SEC.
IGN WARMUP: 20 SEC.
IAP: 3; TFI: 5 SEC.
RETRIES: 2 RECYCLES: 10
HEAT ON DELAY: 30 SEC.
COOL ON DELAY: 0 SEC.
AUTO RESTART: 60 MIN.
AUTO RESTART PURGE: 60 SEC.

COF

| Continuous Fan| | Run Test Mode

| 1st Stage Cooling| Error Codes

CL2

| 2nd Stage Cooling| | Loss of the IRQ/Other Internal Failures
| 1st Stage Heat Pump| | Retry Exceeded (Failed to est flame)

One Hour Lockout Time

| 2nd Stage Heat Pump
| 1st Staae Gas Heat| | Recycles Exceeded (Loss of Established

flame.)One Hour Lockout Time

| 2nd Stage Gas Heat
| Defrost| | 1st Stage Gas Valve Not Energized when it should be. One hour lockout time
| Airflow
| Factor Default Reset| | Shorted Pressure Switch. 1st Staae
| Factory Default Reset Fault| | Open Pressure Switch, 1st Stage
| Incomplete Menu Data| | Shorted Pressure Switch, 2nd Stage
Menu Options| | Open Pressure Switch. 2nd Stage
| Orientation| | Open High Limit
| Active Alarm Menu| | Open Reverse Airflow Limit
| Last 6 Faults(To Clear,

Hold Ootion Button 5 sec)

| | Open Rollout Limit
| Flame Detected. Should Not Be Present
| Code Release Number| | Voltaae Reversed Polaritv

| Model Number Recoverv| | Bad Grounding
| Cooling Off Delay (sec)| | (1) Igniter Relay Fails (2) Igniter Open
| Outdoor Tonnage| | 1st Stage Gas Valve (MVL) Is Energized When It Should not be
| Outdoor Unit
| Blower Constant Fan Airflow Multiplier %| | Redundant Relay (HLO Output)
Energized When It Should not be
| Flame Current Is Low, But Still Strong Enough To Allow Operation
---|---
| Open Inducer Limit Switch (Not Applicable to S8V2-C)
| Open Condensate Switch Not Applicable to S8V2-C.
| Condensate Lockout
| Furnace Control Mismatch Error

| (1) 1st stage gas valve not energized when it should be (2) Gas Valve Energized Without Request, 2nd Stage
(3) 2nd Stage Gas Valve Not Energized When It Should Be
(4) Redundant Relay (HLO Output) Not Energized When It Should Be
(5) Gas Valve Relay, GV1, Is Stuck Closed
| Open fuse
| ‘Blower Motor HP Or OEM ID Does Not Match Furnace
| Configuration File Error
| Blower Communication Error
| Menu Parameters Not Received By CCM
| Communication Lost Between The ACM And CCM
| Orientation Sensor Out of Bounds or not responsive
| Static Pressure Transducer Out Of Bounds Or Not Responsive
| Return Thermistor Out Of Bounds Or Not Responsive
| Supply Thermistor Out Of Bounds Or Not Responsive
LED Flash Rates| ``
---|---
Condition| Communication LED (CAN) (AMBER)| Status LED Orn Orientation E4.0 Open High Limit (GREEN)
Idle| —| Off
24V Mode| —| —
Active Demand| —| Slow
Comm Established (CAN)| Node Count| —
Active Erro| —| 2 Flash
Communication Lost (Modbus)| —| 3 Flash
Communication Lost (CAN)| Fast| —
Startup| Solid| Solid
Bluetooth Pairing| Flash: 1s-on 1s-off Simultaneous w/Status LED| Flash: 1s-on 1s-off Simultaneous w/Comm LED

Electrical Connections

Make wiring connections to the unit as indicated on enclosed wiring diagram. As with all gas appliances using electrical power, this furnace shall be connected into a permanently live electric circuit. It is recommended that furnace be provided with a separate “circuit protection device” electric circuit. The furnace must be electrically grounded in accordance with local codes or in the absence of local codes with the National Electrical Code, ANSI/NFPA 70 , if an external electrical source is utilized. The integrated furnace control is polarity sensitive. The hot leg
of the 120V power supply must be connected to the black power lead as indicated on the wiring diagram. Refer to the Wiring Diagram section in this document and unit wiring diagram attached to furnace.

24V Field Wiring

FIELD WIRING DIAGRAM FOR S8V2 TWO STAGE HEATING THERMOSTAT, ONE / TWO STAGE AC OR HEAT PUMP

NOTES:
1) HP = Wiring used for Heat Pump systems.
2) Y1 and/or Y2 must connect from the thermostat to the IFC for proper airflow.
3) Remove Y1-O jumper for HP systems. O terminal must be connected as shown for gas heating operation during defrost.
4) If the thermostat does not have W2, or there are not enough conductors jumper W1 to W2 at the IFC.
5) A/TCONT824 thermostats do not require the use of X2.

1. Secure the sheathed wiring to the IFC using the factory supplied wire ties.
   

2. Mount Supply Air Temperature Sensor
   The Supply Air Sensor (BAYSENSC360) must be mounted on the leaving side of the cooling coil, or the maximum distance allowed by the wire length on a furnace only application. Testing has shown the left side of the plenum delivers the best average temperature. If the left side cannot be used, take several readings to determine the best place to mount the sensor for your application.
   The Supply Air Sensor plugs into connector E22 of the IFC (See IFC layout). In the Diagnostic App, this sensor is defaulted OFF and must be configured to ON.
   Note: Supply Air Temp Sensor (SAT) is used in Link Communicating mode and is optional in 24 volt mode.
   Note: Supply Air Temp Sensor (SAT) ships with SC360 System Controller.
   Note: Supply Air Sensor kit is BAYSENSC360.
   Note: The return air sensor is located within the blower wiring harness, behind the blower panel. In the Diagnostic App, this sensor is defaulted ON.
   

Table 14. Low Voltage Maximum Wire Length

The Low Voltage Maximum Wire Length table defines the size and combined total maximum length of the low voltage wiring from the outdoor unit, to the indoor unit, and to the thermostat.
Note: The use of color coded low voltage wire is recommended to simplify connections between the outdoor unit, the control, and the indoor unit| Control Wire — Communicating
---|---
WIRE SIZE| MAX. WIRE LENGTH
18 AWG| MAX. WIRE LENGTH
Control Wire — 24 Volt
WIRE SIZE| MAX. WIRE LENGTH
18 AWG| 100 FT. Combined

Table 15. Link Communicating Low Voltage Wire Connectors

Link mode uses simple connectors for low voltage connections. These connections are color coded which makes the installation easier and quicker.

Wire Colors

R| Red
DH| White
DL| Green
B| Blue

Do the following to make the connections from the actual thermostat wire to the connector.
Note: These connectors are necessary at the communicating outdoor unit, communicating indoor unit, distribution board(s), system controller and communicating accessories.

1. Strip the Red, White, Green and Blue thermostat wires back 1/4”.
2. Insert the wires into the connector in the correctly colored locations.
3. When you feel it release, allow each wire to slide in further.
4. Pull back on the wires individually and slightly and check if the wires are seated properly. If each wire does not pull out for all four wires, the connection is complete.
5. Connectors are ONE TIME USE. If a 18 ga. Thermostat wire gets broken off inside of the connector, the connector will need replaced.
6. Wire colors are for illustration purposes only. If using a different color, ensure it lands at the correct terminal throughout all of the communicating control wiring.

Connect the CAN connector into the male coupling on the low voltage harness at the Outdoor unit.
This furnace has three dedicated CAN connectors on the Integrated Furnace Control (IFC). In Link communicating mode, all of them are inthe communicating loop. It does not matter which connector is used for the Thermostat, System Controller (HUB), or Outdoor unit. Link accessories can be connected to the Distribution Board if needed.

Note: For use with 18 ga. solid core thermostat wire.

Table 16. Link Communicating Low Voltage Hook-Up Diagrams

Wire Colors

R| Red
DH| White
DL| Green
B| Blue

Note:
+ —R connection to the outdoor unit is required only in applications utilizing an outdoor loadshed device or when using SmartCharge.
** —B connection to the outdoor unit is optional for 2 wire outdoor applications, but is recommended in other applications.
*** —DATA (Brown) wire only used in Clii mode.
—Wire colors are for illustration purposes only. If using a different color, ensure it lands at the correct terminal throughout all of the communicating control wiring.
—Drawing is for reference only – wiring can be done many different ways.

External Switches and Accessories

When connecting a humidifier or electronic air cleaner to the furnace, use ACC1 for the air cleaner and ACC2 for the humidifier.

• Accessory 1 and 2 are dry contacts need source voltage from the accessory.
• External switches 1 and 2 have 24VAC source voltage and are to be connected to Normally Closed (NC) contacts on the device, i.e smoke detector.

Note: In Link Communicating mode, Accessories and External Switches can be configured in the UX360 User Interface or Diagnostics Mobile app.
Note: In 24V mode, Accessories and External Switches can be configured in the UX360 User Interface or Diagnostics Mobile app.
Note: DO NOT USE the Condensate Cooling option in 24V mode of operation. See the 24V Field Wiring Diagram section.

Outline Drawing

Trane – by Trane Technologies (NYSE: TT), a global innovator – creates comfortable, energy efficient indoor
environments for commercial and residential applications. For more information, please visit trane.com or tranetechnologies.com.

Trane has a policy of continuous data improvement and it reserves the right to change design and specifications without notice. We are committed to using environmentally conscious print practices.

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