Ask AI
— answers from the official manualAnswers from the official manual.
Common questions
Common Questions
9 totalHow do I connect multiple return lines if needed with my S9x1 furnace?
Use a BAYLIFTC or BayLIFTB dual return kit for C and B cabinet upflow furnaces respectively to install multiple return lines easily. (Page 6)
What type of filter is recommended for the S9x1 furnace?
A high velocity filter is recommended for the S9x1 Furnace; see product specifications table for exact dimensions and thickness. (Page 7)
What are the installation requirements for upflow furnaces with B-width coils?
Heat Shield Kits MAYBFERCOLKITA, MAYCFERCOLKITA, or MAYDFERCOLKITA must be used for B-, C-, and D-width coils respectively when installed in all orientations on upflow furnaces. (Page 3)
How do I change the airflow settings on my S9x1 furnace?
Access the menu options via the LCD display and use the OPTIONS buttons to modify airflow according to the specifications chart in SERVICE FACTS documentation. (Page 24)
What should I do if my S9x1 furnace shows error code E05?
Error Code E05 indicates a thermal limit, rollout switch, or reverse airflow switch issue; check and reset these components to resolve. (Page 31)
How can I troubleshoot the igniter problem on my S9x1 furnace?
If there is an ignition failure, first check for any obstructions or dirt between the flame probe and igniter; ensure proper operation according to flame sense test guidelines. (Page 25)
Full Manual
32 pages
Product Data
Upflow / Horizontal Left/Right and Dedicated Downflow Single Stage Condensing Gas Fired Furnace
Upflow, Convertible to Horizontal Right or Horizontal Left, and Downflow S9X1 S9B1
Note: Graphics in this document are for representation only. Actual model may differ in appearance.
|CAUTION! COIL REQUIREMENT! Failure to follow this Caution could result in property damage or personal injury. 4GXC* and 4MXC* coils installed on upflow furnaces in vertical, horizontal left, or horizontal right orientations without a factory installed metal drain pan shield must use a MAY*FERCOLKITAA kit. Coils installed on upflow furnaces must have drain pans that are suitable for 400° F (205°C) or have a metal drain pan shield. Downflow furnaces do not require a metal drain pan shield or the use of the MAY*FERCOLKITAA kit. See Installer’s Guide for more information.| |---|
May 2020 22-1944-1D-EN
General Features
NATURAL GAS MODELS Central Heating furnace designs are certified by the American Gas Association 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 stainless steel primary heat exchanger quickly transfers heat to provide warm conditioned air to the structure. Low energy power vent blower, to increase efficiency and provide a positive 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. S9X1 also contains dry contacts for EAC and HUM. ENERGY EFFICIENT OPERATION S9X1 Furnace is certified by the manufacturer to leak 1% (1.4% for S9B1) or less of nominal air conditioning CFM delivered when pressurized to .5" water column with all inlets, outlets, and drains sealed. AIR DELIVERY
The 9 tap constant torque ECM blower motor has sufficient airflow for most heating and cooling requirements and will switch from heating to cooling speeds on demand from room thermostat.
SECONDARY HEAT EXCHANGER The S-Series furnace has a special type 29- 4C™ stainless steel secondary heat exchanger to reclaim heat from flue gases which would normally be lost. STYLING Heavy gauge steel and "wrap-around" cabinet construction is used in the cabinet with bakedon 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.
Features and Benefits
UP TO 96.0% AFUE ON S9X1 FURNACE MODELS Meets utility rebates 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 3–WAY MULTI-POISE / DEDICATED DOWNFLOW 6 SKU’s — Upflow / Horizontal Left / Horizontal Right 5 SKU’s — Downflow Added application flexibility and reduction in specification errors AIRFLOW At least 400 CFM/ton at 0.5 in. H20 external static pressure; setup airflow options down to 290 CFM/ton REGULATORY All models are air tight; 1% or less air leakage as per ASHRAE 193 (1.4% for S9B1) Open vestibule design provides a full 34” high open vestibule DIMENSIONS Width is industry standard: 17.5” Width is industry standard: 21” Width is industry standard: 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 on S9X1 models All Molex connections; no spade terminals Low voltage labeled above and below Rain shield over IFC keeps condensate off the control TUBULAR STAINLESS STEEL PRIMARY HEAT EXCHANGER 29–4C STAINLESS STEEL SECONDARY HEAT EXCHANGER Stainless steel is a more durable, corrosive-resistant material than aluminumized steel Integrated rail system for easy access if required Reduces or eliminates need for baffles VORTICA II BLOWER, DESIGNED EXCLUSIVELY FOR THE S-SERIES FURNACE Improved airflow efficiency Durable, easy to clean, two piece housing Single piece belly band/ motor arm assembly
Features and Benefits
Blower deck has full-length rails for easy removal and replacement, regardless of poise THREE–WAY MULTI-POISE (UPFLOW, HORIZONTAL LEFT AND RIGHT) PLUS DEDICATED DOWNFLOW Easier to specify Shipped ready to install (no conversion kits required) Every model has at least two venting options When in horizontal, trap extends only about 2” Barbed fitting on trap at hose connection and on cabinet transition for hose has barbed fitting and clamps at both ends for leak resistance. Vent table improvements including longer vent lengths
Accessories
####### Table 1. Accessories
|Model Number|Description|Use with| |---|---|---| |MAYBFERCOLKITA|Heat Shield Kit for B-width 4GXCB or 4MCXB Coils|B width 4GXCB or 4MCXB Coils when installed with Upflow Furnace in all orientations| |MAYCFERCOLKITA|Heat Shield Kit for C-width 4GXCC or 4MCXC Coils|C-width 4GXCC or 4MCXC Coils when installed with Upflow Furnace in all orientations| |MAYDFERCOLKITA|Heat Shield Kit for D-width 4GXCD or 4MCXD Coils|D width 4GXCD or 4MCXD Coils when installed with Upflow Furnace in all orientations| |BAYHANG|Horizontal Hanging Kit|All Upflow Furnaces| |BAYVENT200B|Sidewall Vent Termination Kit|All Furnaces| |BAYVENTCN200B|Sidewall Vent Termination Kit (Canada —CPVC)|All Furnaces| |BAYAIR30AVENTA|Concentric Vent Kit|All Furnaces| |BAYAIR30CNVENT|Concentric Vent Kit (Canada — CPVC)|All Furnaces| |BAYREDUCE|Reducing Coupling (CPVC)|All Furnaces| |BAYLIFTB|Dual Return Kit (B size extension)|B Cabinet Upflow Furnaces| |BAYLIFTC|Dual Return Kit (C size extension)|C Cabinet Upflow Furnaces| |BAYLIFTD|Dual Return Kit (D size extension)|D Cabinet Upflow Furnaces| |BAYBASE205|Downflow Subbase|All Downflow Furnaces| |BAYFLTR206|Filter Access Door Kit (Downflow only)|All Downflow Furnaces| |BAYSF1165AA (a)|1” SlimFit Box with MERV 4 Filter|All Upflow Furnaces| |BAYSF1255BA|1” SlimFit Filter and Insulated Frame|All Furnaces (b)| |FLRSF1255|1” Filter replacement (Qty 12)|BAYSF1255BA| |BAYLPSS400*|Propane Conversion Kit with Stainless Steel Burners|All Furnaces| |BAYBURNERSS|All Stainless Steel Natural Gas Burners - Set of Six|All Upflow Furnaces - Special Case| |BAYMFGH200B|Manufactured/Mobile Housing Kit|All Furnaces| |BAYCNDTRAP2A|Inline Condensate Trap Kit used with Special Venting on 2” Vent Pipe|All Furnaces| |BAYCNDTRAP3A|Inline Condensate Trap Kit used with Special Venting on 3” Vent Pipe|All Furnaces|
Product Specifications
|MODEL|S9X1B040U3PSBA (a) S9B1B040U3PSAA|S9X1B060U4PSBA (a) S9B1B060U4PSAA|S9X1B080U4PSBA (a) S9B1B080U4PSAA|S9X1C080U5PSBA (a) S9B1C080U5PSAA| |---|---|---|---|---| |TYPE|Upflow/Horizontal|Upflow/Horizontal|Upflow/Horizontal|Upflow/Horizontal| |RATINGS (b)| | | | | |Input BTUH|40,000|60,000|80,000|80,000| |Capacity BTUH (ICS) (c) (d)|39,000|58,300|77,200|77,800| |Temp. Rise (Min.-Max.)|30 - 60|30 - 60|45 - 75|40 - 70| |AFUE (%) S9X1 / S9B1(d)|96.0 / 92.1|96.0 / 92.1|96.0 / 92.1|96.0 / 92.1| |Return Air Temp. (Min. - Max.)|45°F - 80°F|45°F - 80°F|45°F - 80°F|45°F - 80°F| |BLOWER DRIVE|DIRECT|DIRECT|DIRECT|DIRECT| |Diameter — Width (In.)|11 X 8|11 X 8|11 X 8|11 X 10| |No. Used|1|1|1|1| |Speeds (No.) (e)|9|9|9|9| |CFM vs. in. w.g.|See Fan Performance Table|See Fan Performance Table|See Fan Performance Table|See Fan Performance Table| |Motor HP|1/2|3/4|3/4|1| |RPM|1075|1075|1075|1075| |Volts/Ph/Hz|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |FLA|6.4|7.6|7.6|10.6| |COMBUSTION FAN — Type|Centrifugal|Centrifugal|Centrifugal|Centrifugal| |Drive — No. Speeds|Direct - 1|Direct - 1|Direct - 1|Direct - 1| |Motor HP — RPM|3300|3300|3300|3300| |Volts/Ph/Hz|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |FLA|2.14|2.14|2.14|0.66| |FILTER — Furnished?|No|No|No|No| |Type recommended|High Velocity|High Velocity|High Velocity|High Velocity| |Hi Vel. (No.-Size-Thk.)|1 — 16x25 — 1 in.|1 — 16x25 — 1 in.|1 — 16x25 — 1 in.|1 — 20x25 — 1 in.| |VENT PIPE DIAMETER — Min (in.) (f) (g)|2 Round|2 Round|2 Round|2 Round| |HEAT EXCHANGER| | | | | |Type — Fired|409 Stainless Steel|409 Stainless Steel|409 Stainless Steel|409 Stainless Steel| |— Unfired|29–4C Stainless Steel|29–4C Stainless Steel|29–4C Stainless Steel|29–4C Stainless Steel| |Gauge (Fired)|20|20|20|20| |ORIFICES — Main| | | | | |Nat. Gas Qty. — Drill Size|2- 45|3 - 45|4 - 45|4 - 45| |LP Gas Qty. — Drill Size|2- 56|3 - 56|4- 56|4- 56| |GAS VALVE|Redundant - One Stage|Redundant - One Stage|Redundant - One Stage|Redundant - One Stage| |PILOT SAFETY DEVICE| | | | |
|Type|120 V SiNi Igniter|120 V SiNi Igniter|120 V SiNi Igniter|120 V SiNi Igniter| |BURNERS — Type|Multiport Inshot|Multiport Inshot|Multiport Inshot|Multiport Inshot| |Number|2|3|4|4| |POWER CONN. — V/Ph/Hz (h)|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |Ampacity (In Amps)|10.3|11.8|11.8|14.1| |Max. Overcurrent Protection (Amps)|15|15|15|15|
|MODEL|S9X1B040U3PSBA (a) S9B1B040U3PSAA|S9X1B060U4PSBA (a) S9B1B060U4PSAA|S9X1B080U4PSBA (a) S9B1B080U4PSAA|S9X1C080U5PSBA (a) S9B1C080U5PSAA| |---|---|---|---|---| |PIPE CONN. SIZE (in.)|1/2|1/2|1/2|1/2| |DIMENSIONS|H x W x D|H x W x D|H x W x D|H x W x D| |Uncrated (In.)|34 x 17-1/2 x 28–3/4|34 x 17-1/2 x 28–3/4|34 x 17-1/2 x 28–3/4|34 x 21 x 28–3/4| |Crated (In.)|35-1/2 x 19-1/2 x 30-7/8|35-1/2 x 19-1/2 x 30-7/8|35-1/2 x 19-1/2 x 30-7/8|35-1/2 x 23 x 30-7/8| |WEIGHT| | | | | |Shipping (Lbs.)/Net (Lbs.)|122/114|130/122|135/127|149/139|
|MODEL|S9X1C100U5PSBA (a) S9B1C100U5PSAA|S9X1D120U5PSBA (a) S9B1D120U5PSAA|S9X1B040D3PSBA (a) S9B1B040D3PSAA|S9X1B060D3PSBA (a) S9B1B060D3PSAA| |---|---|---|---|---| |TYPE|Upflow / Horizontal|Upflow/Horizontal|Downflow|Downflow| |RATINGS (b)| | | | | |Input BTUH|100,000|120,000|40,000|60,000| |Capacity BTUH (ICS) (c) (d)|97,400|113,400|38,900|57,600| |Temp. Rise (Min.-Max.)|40 - 70|40-70|30 - 60|35 - 65| |AFUE (%) S9X1 / S9B1 (d)|95.0 / 92.1|95.0 / 92.1|96.0 / 92.1|96.0 / 92.1|
|Return Air Temp. (Min. - Max.)|45°F - 80°F|45°F - 80°F|45°F - 80°F|45°F - 80°F| |BLOWER DRIVE|DIRECT|DIRECT|DIRECT|DIRECT| |Diameter — Width (In.)|11 X 10|11 X 10|11 X 8|11 X 8| |No. Used|1|1|1|1| |Speeds (No.) (e)|9|9|9|9| |CFM vs. in. w.g.|See Fan Performance Table|See Fan Performance Table|See Fan Performance Table|See Fan Performance Table| |Motor HP|1|1|1/2|1/2| |RPM|1075|1075|1075|1075| |Volts/Ph/Hz|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |FLA|10|10.6|6.4|6.4| |COMBUSTION FAN — Type|Centrifugal|Centrifugal|Centrifugal|Centrifugal| |Drive — No. Speeds|Direct - 1|Direct - 1|Direct - 1|Direct - 1| |Motor HP — RPM|3300|3300|3300|3300| |Volts/Ph/Hz|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |FLA|0.66|0.66|2.14|2.14| |FILTER — Furnished?|No|No|No|No| |Type recommended|High Velocity|High Velocity|High Velocity|High Velocity| |Hi Vel. (No.-Size-Thk.)|1 — 20x25 — 1 in.|1 — 24x25 — 1 in.|2 — 14x20 — 1 in.|2 — 14x20 — 1 in.| |VENT PIPE DIAMETER — Min (in.) (f) (g)|2 Round|3 Round|2 Round|2 Round| |HEAT EXCHANGER| | | | | |Type — Fired|409 Stainless Steel|409 Stainless Steel|409 Stainless Steel|409 Stainless Steel| |— Unfired|29–4C Stainless Steel|29–4C Stainless Steel|29–4C Stainless Steel|29–4C Stainless Steel| |Gauge (Fired)|20|20|20|20| |ORIFICES — Main| | | | |
Product Specifications
|MODEL|S9X1C100U5PSBA (a) S9B1C100U5PSAA|S9X1D120U5PSBA (a) S9B1D120U5PSAA|S9X1B040D3PSBA (a) S9B1B040D3PSAA|S9X1B060D3PSBA (a) S9B1B060D3PSAA| |---|---|---|---|---| |Nat. Gas Qty. — Drill Size|5 - 45|6 - 45|2- 45|3 - 45| |LP Gas Qty. — Drill Size|5- 56|6- 56|2- 56|3 - 56| |GAS VALVE|Redundant - One Stage|Redundant - One Stage|Redundant - One Stage|Redundant - One Stage| |PILOT SAFETY DEVICE| | | | | |Type|120 V SiNi Igniter|120 V SiNi Igniter|120 V SiNi Igniter|120 V SiNi Igniter| |BURNERS — Type|Multiport Inshot|Multiport Inshot|Multiport Inshot|Multiport Inshot|
|Number|5|6|2|3| |POWER CONN. — V/Ph/Hz (h)|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |Ampacity (In Amps)|13.3|14.1|10.3|10.3| |Max. Overcurrent Protection (Amps)|15|15|15|15| |PIPE CONN. SIZE (in.)|1/2|1/2|1/2|1/2| |DIMENSIONS|H x W x D|H x W x D|H x W x D|H x W x D| |Uncrated (In.)|34 x 21 x 28–3/4|34 x 24-1/2 x 28–3/4|34 x 17-1/2 x 28–3/4|34 x 17-1/2 x 28–3/4| |Crated (In.)|35-1/2 x 23 x 30-7/8|35-1/2 x 26-1/2 x 30-7/8|35-1/2 x 19-1/2 x 30-7/8|35-1/2 x 19-1/2 x 30-7/8| |WEIGHT| | | | | |Shipping (Lbs.)/Net (Lbs.)|155/145|167/156|122/114|127/119|
|MODEL|S9X1B080D4PSBA (a) S9B1B080D4PSAA|S9X1C100D5PSBA (a) S9B1C100D5PSAA|S9X1D120D5PSBA (a) S9B1D120D5PSAA| |---|---|---|---| |TYPE|Downflow|Downflow|Downflow| |RATINGS (b)| | | | |Input BTUH|80,000|100,000|120,000| |Capacity BTUH (ICS) (c) (d)|76,900|96,800|115,500| |Temp. Rise (Min.-Max.)|45 - 75|40 - 70|45-75| |AFUE (%) S9X1 / S9B1 (d)|95.0 / 92.1|96.0 / 92.1|95.0 / 92.1| |Return Air Temp. (Min. - Max.)|45°F - 80°F|45°F - 80°F|45°F - 80°F| |BLOWER DRIVE|DIRECT|DIRECT|DIRECT| |Diameter — Width (In.)|11 X 8|11 X 10|11 X 10| |No. Used|1|1|1| |Speeds (No.) (e)|9|9|9| |CFM vs. in. w.g.|See Fan Performance Table|See Fan Performance Table|See Fan Performance Table|
|Motor HP|3/4|1|1| |RPM|1075|1075|1075| |Volts/Ph/Hz|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |FLA|9.3|10.6|10.6| |COMBUSTION FAN — Type|Centrifugal|Centrifugal|Centrifugal| |Drive — No. Speeds|Direct - 1|Direct - 1|Direct - 1| |Motor HP — RPM|3300|3300|3300| |Volts/Ph/Hz|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |FLA|2.14|0.66|0.66| |FILTER — Furnished?|No|No|No|
|MODEL|S9X1B080D4PSBA (a) S9B1B080D4PSAA|S9X1C100D5PSBA (a) S9B1C100D5PSAA|S9X1D120D5PSBA (a) S9B1D120D5PSAA| |---|---|---|---| |Type recommended|High Velocity|High Velocity|High Velocity| |Hi Vel. (No.-Size-Thk.)|2 — 14x20 — 1 in.|2 — 16x20 — 1 in.|2 — 16x20 — 1 in.| |VENT PIPE DIAMETER — Min (in.) (f) (g)|2 Round|2 Round|3 Round| |HEAT EXCHANGER| | | | |Type — Fired|409 Stainless Steel|409 Stainless Steel|409 Stainless Steel| |— Unfired|29–4C Stainless Steel|29–4C Stainless Steel|29–4C Stainless Steel| |Gauge (Fired)|20|20|20| |ORIFICES — Main| | | | |Nat. Gas Qty. — Drill Size|4 - 45|5 - 45|6 - 45| |LP Gas Qty. — Drill Size|4- 56|5- 56|6- 56| |GAS VALVE|Redundant - One Stage|Redundant - One Stage|Redundant - One Stage| |PILOT SAFETY DEVICE| | | | |Type|120 V SiNi Igniter|120 V SiNi Igniter|120 V SiNi Igniter| |BURNERS — Type|Multiport Inshot|Multiport Inshot|Multiport Inshot| |Number|4|5|6| |POWER CONN. — V/Ph/Hz (h)|120 / 1 / 60|120 / 1 / 60|120 / 1 / 60| |Ampacity (In Amps)|13.9|14.1|14.1| |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 17-1/2 x 28–3/4|34 x 21 x 28–3/4|34 x 24-1/2 x 28–3/4| |Crated (In.)|35-1/2 x 19-1/2 x 30-7/8|35-1/2 x 23 x 30-7/8|35-1/2 x 26-1/2 x 30-7/8|
|WEIGHT| | | | |Shipping (Lbs.)/Net (Lbs.)|135/127|155/145|167/156|
(a) Meets Energy Star (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. For
Canadian applications, above input ratings (BTUH) are up to 4,500 feet, derate 4% per 1,000 feet for elevations above 4,500 feet above sea level. (c) Central Furnace heating designs are certified to ANSI Z21.47 / CSA 2.3. (d) Based on U.S. government standard tests. (e) 9 Speed constant torque ECM blower motor (f) Refer to the Vent Length Table in the Installer's Guide. (g) All furnace models have a vent outlet diameter that equals 2 in. (h) The above wiring specifications are in accordance with National Electrical Code; however, installations must comply with local codes.
Airflow tables
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1B040U3PSBA S9B1B040U3PSAA|1|SCFM|510|314|118|-|-| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|34|43|52|-|-| |S9X1B040U3PSBA S9B1B040U3PSAA|2|SCFM|532|341|150|-|-| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|36|45|54|-|-| |S9X1B040U3PSBA S9B1B040U3PSAA|3|SCFM|877|748|620|491|362| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|91|104|118|131|144| |S9X1B040U3PSBA S9B1B040U3PSAA|4|SCFM|933|813|693|573|452| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|106|120|133|147|161| |S9X1B040U3PSBA S9B1B040U3PSAA|5|SCFM|1056|950|843|737|631| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|140|156|172|188|204| |S9X1B040U3PSBA S9B1B040U3PSAA|6|SCFM|1111|1009|908|806|705| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|157|174|190|207|223| |S9X1B040U3PSBA S9B1B040U3PSAA|7|SCFM|1174|1078|983|887|791| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|182|199|216|233|251| |S9X1B040U3PSBA S9B1B040U3PSAA|8|SCFM|1376|1297|1218|1140|1061| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|285|305|325|344|364| |S9X1B040U3PSBA S9B1B040U3PSAA|9|SCFM|1512|1445|1378|1312|1245| |S9X1B040U3PSBA S9B1B040U3PSAA| |Watts|382|403|424|445|466|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9|
|S9X1B060U4PSBA S9B1B060U4PSAA|1|SCFM|840 91|702 101|565 111|427 121|290 130| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts| | | | | | |S9X1B060U4PSBA S9B1B060U4PSAA|2|SCFM|1001|893|786|678|571| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts|137|149|162|174|186| |S9X1B060U4PSBA S9B1B060U4PSAA|3|SCFM|1140|1051|963|875|786| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts|193|207|221|235|249| |S9X1B060U4PSBA S9B1B060U4PSAA|4|SCFM|1208|1128|1048|969|889| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts|223|238|253|268|283| |S9X1B060U4PSBA S9B1B060U4PSAA|5|SCFM|1299|1224|1148|1073|998| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts|270|284|298|312|327| |S9X1B060U4PSBA S9B1B060U4PSAA|6|SCFM|1413|1348|1283|1217|1152| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts|343|359|375|391|406| |S9X1B060U4PSBA S9B1B060U4PSAA|7|SCFM|1444|1380|1315|1251|1186| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts|354|370|386|403|419| |S9X1B060U4PSBA S9B1B060U4PSAA|8|SCFM|1727|1674|1622|1570|1518| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts|612|631|650|668|687| |S9X1B060U4PSBA S9B1B060U4PSAA|9|SCFM|1790|1741|1691|1642|1593| |S9X1B060U4PSBA S9B1B060U4PSAA| |Watts|694|712|729|747|765|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1B080U4PSBA S9B1B080U4PSAA|1|SCFM|911|766|622|477|332| |S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|94|104|115|125|136| |S9X1B080U4PSBA S9B1B080U4PSAA|2|SCFM|1075|963|851|740|628| |S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|139|153|168|182|197| |S9X1B080U4PSBA S9B1B080U4PSAA|3|SCFM|1215|1121|1028|934|840| |S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|185|202|219|236|253| |S9X1B080U4PSBA S9B1B080U4PSAA|4|SCFM|1250|1164|1077|990|903| |S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|203|221|239|257|274| |S9X1B080U4PSBA S9B1B080U4PSAA|5|SCFM|1349|1272|1194|1116|1039| |S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|251|271|291|310|330| |S9X1B080U4PSBA S9B1B080U4PSAA|6|SCFM|1453|1387|1321|1254|1188| |S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|313|335|356|378|400| |S9X1B080U4PSBA S9B1B080U4PSAA|7|SCFM|1505|1438|1372|1305|1239|
|S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|340|362|384|406|427| |S9X1B080U4PSBA S9B1B080U4PSAA|8|SCFM|1657|1597|1538|1479|1419| |S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|453|477|500|524|547| |S9X1B080U4PSBA S9B1B080U4PSAA|9|SCFM|1878|1815|1752|1690|1627| |S9X1B080U4PSBA S9B1B080U4PSAA| |Watts|669|686|702|718|735|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1C080U5PSBA S9B1C080U5PSAA|1|SCFM|643|384|125| | | |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|45|53|62|-|-| |S9X1C080U5PSBA S9B1C080U5PSAA|2|SCFM|1125|982|838|694|551| |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|126|142|158|174|190| |S9X1C080U5PSBA S9B1C080U5PSAA|3|SCFM|1192|1038|884|730|576| |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|140|157|174|191|208| |S9X1C080U5PSBA S9B1C080U5PSAA|4|SCFM|1509|1377|1246|1115|983| |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|245|268|291|314|337| |S9X1C080U5PSBA S9B1C080U5PSAA|5|SCFM|1548|1428|1308|1187|1067| |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|257|281|304|328|352| |S9X1C080U5PSBA S9B1C080U5PSAA|6|SCFM|1602|1467|1331|1196|1061| |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|320|345|371|396|421| |S9X1C080U5PSBA S9B1C080U5PSAA|7|SCFM|1640|1512|1383|1255|1127| |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|352|379|406|433|459| |S9X1C080U5PSBA S9B1C080U5PSAA|8|SCFM|1831|1778|1726|1673|1621| |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|521|550|579|608|637| |S9X1C080U5PSBA S9B1C080U5PSAA|9|SCFM|2351|2278|2204|2131|2058| |S9X1C080U5PSBA S9B1C080U5PSAA| |Watts|886|918|950|982|1014|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1C100U5PSBA S9B1C100U5PSAA|1|SCFM|1013|847|680|514|348| |S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|104|116|129|142|155| |S9X1C100U5PSBA S9B1C100U5PSAA|2|SCFM|1261|1126|990|854|718|
|S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|168|185|202|219|236| |S9X1C100U5PSBA S9B1C100U5PSAA|3|SCFM|1519|1407|1296|1184|1072| |S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|267|290|313|336|358| |S9X1C100U5PSBA S9B1C100U5PSAA|4|SCFM|1554|1446|1337|1229|1120| |S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|283|307|330|353|377| |S9X1C100U5PSBA S9B1C100U5PSAA|5|SCFM|1749|1651|1554|1457|1359| |S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|385|411|436|462|488| |S9X1C100U5PSBA S9B1C100U5PSAA|6|SCFM|1868|1778|1688|1599|1509| |S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|464|491|519|546|574| |S9X1C100U5PSBA S9B1C100U5PSAA|7|SCFM|2018|1936|1853|1770|1688| |S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|573|602|631|660|689| |S9X1C100U5PSBA S9B1C100U5PSAA|8|SCFM|2191|2112|2033|1954|1875| |S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|718|750|782|815|847| |S9X1C100U5PSBA S9B1C100U5PSAA|9|SCFM|2395|2303|2212|2120|2028| |S9X1C100U5PSBA S9B1C100U5PSAA| |Watts|966|981|996|1012|1027|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1D120U5PSBA S9B1D120U5PSAA|1|SCFM|707|443|179|-|-| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|46|55|64|-|-| |S9X1D120U5PSBA S9B1D120U5PSAA|2|SCFM|1344|1218|1092|966|840| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|163|183|202|222|241| |S9X1D120U5PSBA S9B1D120U5PSAA|3|SCFM|1532|1419|1307|1195|1083| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|225|247|268|290|312| |S9X1D120U5PSBA S9B1D120U5PSAA|4|SCFM|1584|1477|1370|1263|1156| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|247|270|292|315|338| |S9X1D120U5PSBA S9B1D120U5PSAA|5|SCFM|1915|1818|1722|1625|1529| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|401|428|454|480|506| |S9X1D120U5PSBA S9B1D120U5PSAA|6|SCFM|2104|2016|1927|1839|1750| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|525|553|582|610|639| |S9X1D120U5PSBA S9B1D120U5PSAA|7|SCFM|2132|2045|1958|1870|1783| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|546|575|604|633|662| |S9X1D120U5PSBA S9B1D120U5PSAA|8|SCFM|2410|2328|2247|2165|2084| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|833|868|903|937|972|
|S9X1D120U5PSBA S9B1D120U5PSAA|9|SCFM|2472|2401|2329|2257|2186| |S9X1D120U5PSBA S9B1D120U5PSAA| |Watts|909|944|979|1013|1048|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1B040D3PSBA S9B1B040D3PSAA|1|SCFM|378|153|-|-|-| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|28|32|-|-|-| |S9X1B040D3PSBA S9B1B040D3PSAA|2|SCFM|514|330|145|-|-| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|35|45|55|64|74| |S9X1B040D3PSBA S9B1B040D3PSAA|3|SCFM|765|618|471|324|178| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|69|81|93|105|116| |S9X1B040D3PSBA S9B1B040D3PSAA|4|SCFM|827|691|554|418|281| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|81|94|106|119|132| |S9X1B040D3PSBA S9B1B040D3PSAA|5|SCFM|988|879|770|661|553| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|124|140|156|171|187| |S9X1B040D3PSBA S9B1B040D3PSAA|6|SCFM|1085|986|887|787|688| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|156|173|190|207|224| |S9X1B040D3PSBA S9B1B040D3PSAA|7|SCFM|1125|1030|934|839|743| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|170|188|205|222|239| |S9X1B040D3PSBA S9B1B040D3PSAA|8|SCFM|1129|1035|941|847|753| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|170|187|204|221|239| |S9X1B040D3PSBA S9B1B040D3PSAA|9|SCFM|1492|1419|1346|1273|1200| |S9X1B040D3PSBA S9B1B040D3PSAA| |Watts|369|390|411|431|452|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1B060D3PSBA S9B1B060D3PSAA|1|SCFM|624|451|277|104|-| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|47|57|68|79|-| |S9X1B060D3PSBA S9B1B060D3PSAA|2|SCFM|866|734|602|470|338| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|89|102|116|129|142| |S9X1B060D3PSBA S9B1B060D3PSAA|3|SCFM|949|833|718|602|486| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|113|128|142|156|171|
|S9X1B060D3PSBA S9B1B060D3PSAA|4|SCFM|1122|1025|928|831|733| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|165|182|200|217|235| |S9X1B060D3PSBA S9B1B060D3PSAA|5|SCFM|1178|1087|996|905|814| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|191|209|227|246|264| |S9X1B060D3PSBA S9B1B060D3PSAA|6|SCFM|1260|1180|1100|1021|941| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|233|252|271|290|309| |S9X1B060D3PSBA S9B1B060D3PSAA|7|SCFM|1370|1299|1228|1158|1087| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|296|316|336|355|375| |S9X1B060D3PSBA S9B1B060D3PSAA|8|SCFM|1480|1416|1352|1287|1223| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|365|387|408|429|450| |S9X1B060D3PSBA S9B1B060D3PSAA|9|SCFM|1504|1440|1376|1312|1249| |S9X1B060D3PSBA S9B1B060D3PSAA| |Watts|384|406|427|449|470|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1B080D4PSBA S9B1B080D4PSAA|1|SCFM|499|306|113|-|-| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|36|43|49|-|-| |S9X1B080D4PSBA S9B1B080D4PSAA|2|SCFM|1017|922|828|734|640| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|143|158|173|188|203| |S9X1B080D4PSBA S9B1B080D4PSAA|3|SCFM|1119|1029|940|850|761| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|176|192|207|223|239| |S9X1B080D4PSBA S9B1B080D4PSAA|4|SCFM|1205|1125|1044|964|883| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|215|233|250|268|285| |S9X1B080D4PSBA S9B1B080D4PSAA|5|SCFM|1237|1160|1083|1006|928| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|231|250|268|286|305| |S9X1B080D4PSBA S9B1B080D4PSAA|6|SCFM|1378|1309|1240|1172|1103| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|315|334|354|373|393| |S9X1B080D4PSBA S9B1B080D4PSAA|7|SCFM|1453|1389|1324|1260|1195| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|360|380|399|419|439| |S9X1B080D4PSBA S9B1B080D4PSAA|8|SCFM|1618|1562|1505|1449|1392| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|496|518|540|561|583| |S9X1B080D4PSBA S9B1B080D4PSAA|9|SCFM|1794|1742|1691|1639|1587| |S9X1B080D4PSBA S9B1B080D4PSAA| |Watts|682|704|726|748|770|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1C100D5PSBA S9B1C100D5PSAA|1|SCFM|1002|823|644|465|285| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|103|117|130|144|157| |S9X1C100D5PSBA S9B1C100D5PSAA|2|SCFM|1385|1276|1167|1057|948| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|223|243|264|284|304| |S9X1C100D5PSBA S9B1C100D5PSAA|3|SCFM|1527|1430|1333|1236|1139| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|286|310|333|357|380| |S9X1C100D5PSBA S9B1C100D5PSAA|4|SCFM|1610|1516|1421|1326|1231| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|328|352|377|401|425| |S9X1C100D5PSBA S9B1C100D5PSAA|5|SCFM|1761|1677|1593|1509|1425| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|433|459|486|512|538| |S9X1C100D5PSBA S9B1C100D5PSAA|6|SCFM|1861|1783|1706|1628|1551| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|492|520|549|577|605| |S9X1C100D5PSBA S9B1C100D5PSAA|7|SCFM|1984|1902|1820|1738|1656| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|548|577|606|635|663| |S9X1C100D5PSBA S9B1C100D5PSAA|8|SCFM|2173|2097|2020|1944|1867| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|728|760|792|824|856| |S9X1C100D5PSBA S9B1C100D5PSAA|9|SCFM|2342|2269|2196|2123|2050| |S9X1C100D5PSBA S9B1C100D5PSAA| |Watts|945|973|1002|1031|1060|
|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)|Furnace Airflow (CFM) Vs. External Static Pressure (in. W.C.)| |---|---|---|---|---|---|---|---| |Model|Tap| |0.1|0.3|0.5|0.7|0.9| |S9X1D120D5PSBA S9B1D120D5PSAA|1|SCFM|680|419|159|-|-| |S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|47|56|66|-|-| |S9X1D120D5PSBA S9B1D120D5PSAA|2|SCFM|1025|1063|1101|1139|1177| |S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|237|259|282|304|327| |S9X1D120D5PSBA S9B1D120D5PSAA|3|SCFM|1566|1461|1357|1253|1149| |S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|268|292|316|340|363| |S9X1D120D5PSBA S9B1D120D5PSAA|4|SCFM|1803|1711|1619|1527|1435| |S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|393|420|446|472|498| |S9X1D120D5PSBA S9B1D120D5PSAA|5|SCFM|1891|1801|1711|1621|1532|
|S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|445|472|500|527|555| |S9X1D120D5PSBA S9B1D120D5PSAA|6|SCFM|2132|2025|1919|1812|1705| |S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|568|601|633|666|698| |S9X1D120D5PSBA S9B1D120D5PSAA|7|SCFM|2154|2068|1982|1896|1810| |S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|644|675|705|736|766| |S9X1D120D5PSBA S9B1D120D5PSAA|8|SCFM|2344|2267|2190|2113|2035| |S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|837|870|902|934|967| |S9X1D120D5PSBA S9B1D120D5PSAA|9|SCFM|2414|2333|2251|2170|2088| |S9X1D120D5PSBA S9B1D120D5PSAA| |Watts|896|928|961|993|1026|
CFM Versus Temperature Rise S9X1 PD
|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE| |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| |MODEL| | | | | | | | | | | | | | | | | | |MODEL|700|800|900|1000|1100|1200|1300|1400|1500|1600|1700|1800|1900|2000|2100|2200|2300| |S9X1B040U3PSBA S9B1B040U3PSAA|55|48|44|39|36|33|30| | | | | | | | | | | |S9X1B060U4PSBA S9B1B060U4PSAA| | |63|58|52|49|46|43|41|40| | | | | | | | |S9X1B080U4PSBA S9B1B080U4PSAA| | | | |64|61|57|54|51|48|44|39|35| | | | | |S9X1C080U5PSBA S9B1C080U5PSAA| | | | |65|59|56|54|49|46|44|42|40|38|36| | | |S9X1C100U5PSBA S9B1C100U5PSAA| | | | | | | | |65|61|57|55|53|49|46|44|43| |S9X1D120U5PSBA S9B1D120U5PSAA| | | | | | | | |67|65|60|55|54|51|48|44|41|
|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE|CFM VS. TEMPERATURE RISE| |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| |MODEL|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)|CFM (CUBIC FEET PER MINUTE)| |MODEL|500|600|700|800|900|1000|1100|1200|1300|1400|1500|1600|1700|1800|1900|2000|2100|2200|2300| |S9X1B040D3PSBA S9B1B040D3PSAA| |53|46|45|37|34|31| | | | | | | | | | | | | |S9X1B060D3PSBA S9B1B060D3PSAA| | | | |63|58|52|48|44|41|37| | | | | | | | | |S9X1B080D4PSBA S9B1B080D4PSAA| | | | | | | |62|57|53|49|48|46| | | | | | |
|S9X1C100D5PSBA S9B1C100D5PSAA| | | | | | | | | |65|62|58|55|53|50|48|44| | | |S9X1D120D5PSBA S9B1D120D5PSAA| | | | | | | | | | | |66|64|58|56|53|52|49|44|
Wiring Diagram
|
BK BLACK OR ORANGE RD RED WH WHITE PR PURPLE BL BLUE YL YELLOW GR GREEN
YL43
WH40
WH/40
BK/WH/38
YL46
YL52
WH17
WH17
WH/21WH/21
BK/22
BK/22WH/20 BK/18
BL/2
BL/2
BL/5
5 LB
RD/6
RD/6
RD/9
9 D R
8 R G
WH/12
YL/50
YL/50
YL/49
YL/49
GRYL31
GRYL31
YL/51
YL/51
YL/48
YL/48
BK29
BK/29
OR/11
OR11
YL/47
YL/47
BOX HARN
TO BURNER
BURNERBOXGND
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 105°C. WIRES 12, 48, 49, 50, AND 51 REQUIRE A TEMPERATURE RATING OF AT LEAST 250 C.
2. FOR PROPER AIRFLOW IN COOLING/HEAT PUMP MODE, "Y1" ON THE THERMOSTAT MUST BE CONNECTED TO "Y1" OF THE IFC. FOR TWO STAGE UNITS, "Y1" AND "Y2" ON THE THERMOSTAT MUST BE CONNECTED TO "Y1" AND "Y2" OF THE IFC.
3. THE INDOOR BLOWER MOTOR AIRFLOW TABLES ARE LOCATED IN THE SERVICE FACTS. TO CHANGE AIRFLOW USE THE MENU/OPTIONS BUTTONS.
4. LINE CHOKE AND WIRE BK/28 ONLY USED ON MODELS WITH 3/4 AND 1 HP MOTORS.
5. 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 MICROAMPS.
6. DOWNFLOW MODELS USE ONLY ONE REVERSE AIRFLOW SWITCH.
7. CONNECTION FOR FACTORY PROGRAMMING ONLY.
8. WIRE NO. 2 MAY NOT BE PRESENT ON SOME SINGLE STAGE UNITS.
SEE NOTE 2
INTEGRATED FURNACE CONTROL
LINE 24V LINE 24V
FIELD WIRING
} }
FACTORY WIRING
RAF REVERSE AIR FLOW PS PRESSURE
SWITCH
FRS FLAME ROLLOUT SWITCH
FP FLAME PROBE IGN HOT SURFACE
IGNITER
** INTERNAL THERMAL PROTECTION
FUSE
GROUND
PANEL LOOP
H LINE N NEUTRAL GND GROUND HLO HIGH LIMIT OUTPUT HLI HIGH LIMIT INPUT PS PRESSURE INPUT IND INDUCER IFC INTEGRATED
FURNACE CONTROL RAF REVERSE AIR FLOW
YL/45
YL/45
WH/15
WH15
WH16
WH16
BK/39
BK39
YL/WH/36 BL/WH/37
BK14
BK/14
BK13
BK/13
BKWH26
BK/WH/26
BLWH25
BL/WH/25
YLWH24
YL/WH/24
RDWH23
RD/WH/23
RD/WH/35
BL/57
BL57
OR/WH/56
ORWH56
OR/WH/55
BK/30
LC LINE CHOKE
YL/46
YL/52PR/54
PR/1
PR1
PR/4
PR4
YL/3
YL3
BK27
BK/27
BK28
BK/28
BL/42
BL42
GRBK41
GRBK32
GR/YL
GRYL
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.
ELECTRICAL RATING OR EQUIVALENT INPUT: 24 VAC, 60 HZ. XFMR SEC. CURRENT:
450 MA. + MV LOAD MV OUTPUT: 1.5A @ 24 VAC IND OUTPUT: 2.2 FLA, 3.5 LRA
@ 120 VAC MAX IGN OUTPUT: 2.0 A @ 120 VAC CIRC. BLOWER OUTPUT:
14.5 FLA, 25 LRA @ 120 VAC HUMIDIFIER & AIR CLEANER
(DRY CONTACTS)
MAX. LOAD: 1.0A @ 120VAC 24VAC OR120VAC MAY BE USED
FUSE: 5A
3 K B R G
BK/18
WH/20
YL44
CONDENSATE SWITCH
TH 24VAC (HOT) TR 24VAC (COMMON) MVC VALVE COMMON MV VALVE TNS TRANSFORMER ILI INDUCER LIMIT INPUT IGN IGNITER FP FLAME PROBE
D346167P01 REV D
Status Codes Idle Heating Blower Tap Number Continuous Fan 1st Stage Cooling/ 1st Stage Heat Pump 2nd Stage Cooling/ 2nd Stage Heat Pump Defrost Mode Menu Options Active Alarm Menu Last 6 Faults (To Clear, Hold Option Button 5 sec) Code Release Number Cooling Off Delay (sec) Outdoor Unit
Ht tp COF
CP1
CP2 dFt
Err L6F
Cr COd ODU
HOd COF COp
Htp rUn
E01
1 Stage Inducer with CTM Blower Motor
1dl Heat Off Delay (sec) Blower Tap for Continuous Fan Blower Tap for 1st Stage Compressor Mode Blower Tap for 2nd Stage Compressor Mode
Blower Tap for Heating Mode Run Test Mode Error Codes Loss of the IRQ/other internal failures Retry exceeded (Failed to est flame) Recycles exceeded (loss of established flame) 10X or PS open Gas Valve not energized when
it should be exceeded after 10 times
Shorted Pressure Switch Open Pressure Switch Open Thermal Limit, Rollout Switch, or Reverse Airflow Switch Flame detected, should not be present Voltage reversed polarity Bad Grounding
(1) Igniter relay fails
(2) Igniter open Gas valve is energized when it should be off Flame current is low, but still strong enough to allow operation Open Inducer Limit Switch or Condensate Switch
(1) Gas valve not energized
(2) Gas valve relay stuck closed Open fuse
E04
E05
E08
E09
E11
E12
|S9X1| |---|
24 / 120 VAC MAY BE USED
* SEE NOTE 6
SEE NOTE 5
SEE NOTE 4
85 LB
BL/58
SEE NOTE 7
|1
2
|1
2
3
| | |---|---|---| |1
2
|1
2
3
| | |1
2
|1
2
3
| |
SEE NOTE 8
24v 120v
TNS
VENT MOTOR
(INDUCER) **
GAS VALVE
MV C
RAF-1
IGN
PS
THERMAL_LIMIT
FLAME_ROLLOUT2
| |FLAME_ROLLOUT1| |---|---| | | |
FLAME_PROBE
FP HLI MV GND TH MVC HLO PS TR ILI
IGN-N IND-N IND-H IGN-H
IFC
EAC HUM LINE NEUTRAL
|W R G B/C Y/Y1 Y2| |---| |THERMOSTAT|
|FP| |---|
|MENU|OPTION| |---|---|
TAP1
TAP2
TAP3
TAP4
TAP5 GND
LNE-N
CRC-N
(bocked)
TNS-N
TNS-H CRC-H
LNE-H
3 2 1 4 3 12
5AMP
| |1
2
| | | |---|---|---|---| | |1
2
| | |
|2 1|1
2
| | |---|---|---| |2 1|1
2
| | |2 1|1
2
| |
RAF-2
1
2
3
121098765432 1 3 4 6 7 8 10 11 12
6
5
4
3
2
1
12 1234
| |2| | |---|---|---| | |2| | | |2| |
2
4
51
3
4
INDUCER_LIMIT CONDENSATE
LINE CHOKE
BLOWER MOTOR
C L G N
JUNCTION BOX
120v 60 Hz. 1 PH POWER SUPPLY PER LOCAL CODE IFC IS POLARITY SENSITIVE
H N GND
10
8 7 6 5 4 3
| |1| |---|---| | |1|
.1C
.2C
.1H
1.2E
2.2E
3.2E
1.3E
2.3E
1.6E
2.6E
3.6E 1.7E
| |---|
120v 60 Hz. 1 PH POWER SUPPLY PER LOCAL CODE
JUNCTION BOX
H N GND
GR/YL
GR/YL
WH
BK
######### IFC
LINE-H CIRC-H
BK
3
BK
WH
WH
OR
BURNER BOX GND
|2|2
1
|BK| |---|---|---| |2|2
1
| |
PANEL LOOP
WH
WH WH
RD/WH
TNS-H
4 3
TNS-N CIRC-N
WH
WH
LINE-N
BK
IGN-H IND-H IND-N IGN-N
BK WH
YL/WH
BK
OR/WH
PR
ILI
TR PS
PR
HLO MVC TH GND
BL
RD
GR
RD
MV HLI
YL
FP
|W R G B/C Y/Y1 Y2| |---| |THERMOSTAT|
|S9X1| |---|
LINE CHOKE
BK
BK
BK
| |N| |---|---| | |G| | |L|
| |C|
WH
GR/BK
VENT MOTOR
(INDUCER) **
IGN
BLOWER MOTOR
| | | |---|---| | | |
BK
3
2
1
TNS
24v 120v
RD
MV MVC
GAS VALVE
BL
FLAME PROBE
FLAME_ROLLOUT2
THERMAL_LIMIT
Wiring Diagram
|
BK BLACK OR ORANGE RD RED WH WHITE PR PURPLE BL BLUE YL YELLOW GR GREEN
YL43
WH40
WH/40
BK/WH/38
YL46
YL52
WH17
WH17
WH/21WH/21
BK/22
BK/22WH/20 BK/18
BL/2
BL/2
BL/5
5 LB
RD/6
RD/6
RD/9
9 D R
8 R G
WH/12
YL/50
YL/50
YL/49
YL/49
GRYL31
GRYL31
YL/51
YL/51
YL/48
YL/48
BK29 BK/29
OR/11
OR11
YL/47
YL/47
BOX HARN
TO BURNER
BURNERBOXGND
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 105°C. WIRES 12, 48, 49, 50, AND 51 REQUIRE A TEMPERATURE RATING OF AT LEAST 250 C.
2. FOR PROPER AIRFLOW IN COOLING/HEAT PUMP MODE, "Y1" ON THE THERMOSTAT MUST BE CONNECTED TO "Y1" OF THE IFC.
3. THE INDOOR BLOWER MOTOR AIRFLOW TABLES ARE LOCATED IN THE SERVICE FACTS. TO CHANGE AIRFLOW USE THE MENU/OPTIONS BUTTONS.
4. LINE CHOKE AND WIRE BK/28 ONLY USED ON MODELS WITH 3/4 AND 1 HP MOTORS.
5. 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 MICROAMPS.
6. DOWNFLOW MODELS USE ONLY ONE REVERSE AIRFLOW SWITCH.
7. CONNECTION FOR FACTORY PROGRAMMING ONLY.
8. WIRE NO. 2 MAY NOT BE PRESENT ON SOME SINGLE STAGE UNITS.
SEE NOTE 2
INTEGRATED FURNACE CONTROL
LINE 24V LINE 24V
FIELD WIRING
} }
FACTORY WIRING
RAF REVERSE AIR FLOW PS PRESSURE
SWITCH
FRS FLAME ROLLOUT SWITCH
FP FLAME PROBE IGN HOT SURFACE
IGNITER
** INTERNAL THERMAL PROTECTION
FUSE
GROUND
PANEL LOOP
H LINE N NEUTRAL GND GROUND HLO HIGH LIMIT OUTPUT HLI HIGH LIMIT INPUT PS PRESSURE INPUT IND INDUCER IFC INTEGRATED
FURNACE CONTROL RAF REVERSE AIR FLOW
YL/45
YL/45
WH/15
WH15
WH16
WH16
BK/39
BK39
YL/WH/36 BL/WH/37
BK14
BK/14
BK13
BK/13
BKWH26
BK/WH/26
BLWH25
BL/WH/25
YLWH24
YL/WH/24
RDWH23
RD/WH/23
RD/WH/35
BL/57
BL57
OR/WH/56
ORWH56
OR/WH/55
BK/30
LC LINE CHOKE
YL/46
YL/52PR/54
PR/1
PR1
PR/4
PR4
YL/3
YL3
BK27
BK/27
BK28
BK/28
BL/42
BL42
GRBK41
GRBK32
GR/YL
GRYL
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.
COOL OFF DELAY: ADJUSTABLE HEAT OFF DELAY: ADJUSTABLE
ELECTRICAL RATING OR EQUIVALENT INPUT: 24 VAC, 60 HZ. XFMR SEC. CURRENT:
450 MA. + MV LOAD MV OUTPUT: 1.5A @ 24 VAC IND OUTPUT: 2.2 FLA, 3.5 LRA
@ 120 VAC MAX IGN OUTPUT: 2.0 A @ 120 VAC CIRC. BLOWER OUTPUT:
14.5 FLA, 25 LRA @ 120 VAC FUSE: 5A
2
3
K B
R G
BK/18
WH/20
YL44
CONDENSATE SWITCH
TH 24VAC (HOT) TR 24VAC (COMMON) MVC VALVE COMMON MV VALVE TNS TRANSFORMER ILI INDUCER LIMIT INPUT IGN IGNITER FP FLAME PROBE
D346495P01 REV C
Status Codes Idle Heating Blower Tap Number Continuous Fan 1st Stage Cooling/ 1st Stage Heat Pump
Defrost Mode Menu Options Active Alarm Menu Last 6 Faults (To Clear, Hold Option Button 5 sec) Code Release Number Cooling Off Delay (sec) Outdoor Unit
Ht tp COF CP1
dFt
Err L6F
Cr COd ODU
HOd COF COp
Htp rUn
E01
1 Stage Inducer with CTM Blower Motor
1dl Heat Off Delay (sec) Blower Tap for Continuous Fan Blower Tap for 1st Stage Compressor Mode
Blower Tap for Heating Mode Run Test Mode Error Codes Loss of the IRQ/other internal failures Retry exceeded (Failed to est flame) Recycles exceeded (loss of established flame) 10X or PS open Gas Valve not energized when
it should be exceeded after 10 times
Shorted Pressure Switch Open Pressure Switch Open Thermal Limit, Rollout Switch, or Reverse Airflow Switch Flame detected, should not be present Voltage reversed polarity Bad Grounding
(1) Igniter relay fails
(2) Igniter open Gas valve is energized when it should be off Flame current is low, but still strong enough to allow operation Open Inducer Limit Switch or Condensate Switch
(1) Gas valve not energized
(2) Gas valve relay stuck closed Open fuse
E04
E05
E08
E09
E11
E12
* SEE NOTE 6
SEE NOTE 5
SEE NOTE 4
85 LB
BL/58
SEE NOTE 7
|2
3
|1
2
3
| | |---|---|---| |2
3
|1
2
3
| | |2
3
|1
2
3
| |
SEE NOTE 8
24v 120v
TNS
VENT MOTOR
(INDUCER) **
GAS VALVE
MV C
RAF-1
IGN
PS
THERMAL_LIMIT
FLAME_ROLLOUT2
| |FLAME_ROLLOUT1| |---|---| | | |
FLAME_PROBE
FP HLI MV GND TH MVC HLO PS TR ILI
IGN-N IND-N IND-H IGN-H
IFC
LINE NEUTRAL
|W R G B/C Y/Y1| |---| |THERMOSTAT|
|FP|
|---|
|MENU|OPTION| |---|---|
TAP1
TAP2
TAP3
TAP4
TAP5 GND
LNE-N
CRC-N
(bocked)
TNS-N
TNS-H CRC-H
LNE-H
3 2 1 4 3 12
5AMP
| |1
2
| |---|---| | |1
2
|
|2 1|1
2
| | |---|---|---| |2 1|1
2
| | |2 1|1
2
| |
RAF-2
1
2
3
12111098765432 3 5 6 7 8 10 11 12
6
5
4
2
2 234
| |2| | |---|---|---| | |2| | | |2| |
1
1
2
4
1
2
4
INDUCER_LIMIT CONDENSATE
LINE CHOKE
BLOWER MOTOR
C L G N
JUNCTION BOX
120v 60 Hz. 1 PH POWER SUPPLY PER LOCAL CODE IFC IS POLARITY SENSITIVE
H N GND
10 9 8 7 6 5 4 3 2 1
.1C
.1H
1.2E
2.2E
3.2E
1.3E
2.3E
1.6E
2.6E
3.6E 1.7E
|S9B1| |---| | |---|
####### Figure 4. S9B1 Ladder Diagram
120v 60 Hz. 1 PH POWER SUPPLY PER LOCAL CODE
JUNCTION BOX
H N GND
GR/YL
GR/YL
WH
BK
######### IFC
LINE-H CIRC-H
BK
3
BK
WH
WH
OR
BURNER BOX GND
|2|2
1
|BK| |---|---|---| |2|2
1
| |
PANEL LOOP
WH
WH WH
RD/WH
TNS-H
4 3
TNS-N CIRC-N
WH
WH
LINE-N
BK
IGN-H IND-H IND-N IGN-N
BK WH
YL/WH
BK
BK
BL
OR/WH
PR
ILI
TR PS
PR
HLO MVC TH GND
BL
RD
GR
RD
MV HLI
YL
FP
|W R G B/C Y/Y1| |---| |THERMOSTAT|
|S9B1| |---|
LINE CHOKE
BK
BK
BK
| |N| |---|---| | |G| | |L| | |C|
WH
GR/BK
VENT MOTOR
(INDUCER) **
IGN
BLOWER MOTOR
| | | |---|---| | | |
BK
3
2
1
TNS
24v 120v
RD
MV MVC
GAS VALVE
BL
FLAME PROBE
FLAME_ROLLOUT2
THERMAL_LIMIT
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 SERVICE FACTS literature and unit wiring diagram attached to furnace.| |---|
#### Field Wiring
||O| |---|
Y1 Y1
B B
W1W1
GG
RR
Y1
Two Stage Thermostat Furnace
Outdoor Unit (No Transformer)
O
R
X2
|Y2| |---|
NOTES:
1) HP = Wiring used for Heat Pump systems.
2) Y1 must connect from the thermostat to the IFC for proper airflow.
3) A/TCONT824 thermostats do not require the use of X2.
HP
HP
HP
FIELD WIRING DIAGRAM FOR S9B1 SINGLE STAGE HEATING THERMOSTAT, ONE STAGE AC OR HEAT PUMP
B| |---|
Electrical Connections
||O| |---|
Y2 Y1 Y1
B B
W1W1
GG
RR
Y1
Two Stage Thermostat Furnace
Outdoor Unit (No Transformer)
O
R
X2
Y2
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) A/TCONT824 thermostats do not require the use of X2.
HP
HP
HP
FIELD WIRING DIAGRAM FOR S9X1 SINGLE STAGE HEATING THERMOSTAT, ONE / TWO STAGE AC OR HEAT PUMP
Y2
B| |---|
Outline Drawings
|Upflow Furnace
B Size Cabinet| |---|
|Upflow Furnace
C Size Cabinet|
|---|
####### Table5.21”UpflowCabinet
|Upflow Furnace
D Size Cabinet| |---|
####### Table6.24.5”UpflowCabinet
|Downflow Furnace
B Size Cabinet| |---|
####### Table7.17.5”DownflowCabinet
|Downflow Furnace
C Size Cabinet| |---|
####### Table8.21”DownflowCabinet
|Downflow Furnace
D Size Cabinet| |---|
####### Table9.24.5”DownflowCabinet
##### Notes
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.
22-1944-1D-EN 08 May 2020 Supersedes 22-1944-1C-EN (November 2019) ©2020 Trane