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17731 33rd Ave Ne_BLD6713_2025
CITY OF ARLINGTON 18204 59th Avenue NE, Arlington, WA 98223 INSPECTIONS: 360-403-3417 - Permit Center: 360-403-3551 BUILDING PERMIT 17731 33RD AVE NE Permit #: 6713 PERMIT EXPIRES 180 DAYS AFTER Parcel #: 00621300006700 DATE OF ISSUANCE. Scope of Work: GAS FURNACE SWAP Valuation: 8557.00 OWNER APPLICANT CONTRACTOR OHAGEN P J CM HEATING CM HEATING INC 17731 33RD AVE NE 1500 INDUSTRY ST #200 1500 INDUSTRY ST STE 200 ARLINGTON, WA 98223-8739 EVERETT EVERETT, WA 98203 4252590550 425-259-0550 LIC: CMHEAHL750LP EXP: 06/25/2027 LIC: CMHEAHL751W EXP: 06/17/2027 LIC: 605890285 EXP: 06/17/2026 MECHANICAL CONTRACTOR PLUMBING CONTRACTOR LIC #: EXP: LIC #: EXP: JOB DESCRIPTION PERMIT TYPE: RESIDENTIAL MECHANICAL CODE YEAR: 2021 STORIES: 2 CONST. TYPE: VB DWELLING UNITS: OCC GROUP: R-3; Residential BUILDINGS: OCC LOAD: PERMIT APPROVAL The issuance or granting of this permit shall not be construed to be a permit for, or approval of, any violation of this Code or any other ordinance or order of the City, of any state or federal law, or of any order, proclamation, guidance advice or decision of the Governor of this State. To the extent the issuance or granting of this permit is interpreted to allow construction activity during any period of time when such construction is prohibited or restricted by any state or federal law, or order, proclamation, guidance advice or decision of the Governor of this State, this permit shall not authorize such work and shall not be valid. The building official is authorized to prevent occupancy or use of a structure where in violation of this Code, any other City ordinances of this jurisdiction or any other ordinance or executive order of the City, or of any state or federal law, or of any order, proclamation, guidance advice or decision of the Governor. The building official is authorized to suspend or revoke this permit if it is determined to be issued in error or on the basis of incorrect, inaccurate or incomplete information, or in violation of any City ordinance, regulation or order, state or federal law, or any order, proclamation, guidance or decision of the Governor. I AGREE TO COMPLY WITH CITY AND STATE LAWS REGULATING CONSTRUCTION AND IN DOING THE WORK AUTHORIZED THEREBY; NO PERSON WILL BE EMPLOYED IN VIOLATION OF THE LABOR CODE OF THE STATE OF WASHINGTON RELATING TO WORKMEN'S COMPENSATION INSURANCE AND RCW 18.27. THIS APPLICATION IS NOT A PERMIT UNTIL SIGNED BY THE BUILDING OFFICIAL OR HIS/HER DEPUTY AND ALL FEES ARE PAID. IT IS UNLAWFUL TO USE OR OCCUPY A BUILDING OR STRUCTURE UNTIL A FINAL INSPECTION HAS BEEN MADE AND APPROVAL OR A CERTIFICATE OF OCCUPANCY HAS BEEN GRANTED. IBC110/IRC110. SALES TAX NOTICE: Sales tax relating to construction and construction materials in the City of Arlington must be reported on your sales tax return form and coded City of Arlington #3101. 9/16/25 09/15/2025 Applicant Signature Date Building Official Date CONDITIONS Adhere to approved materials. Permit shall be onsite for inspections. Call for final inspection. The property owner shall ensure that the construction project complies with all applicable zoning codes and regulations. The property owner shall also ensure that the construction project does not cause any adverse impact on the surrounding environment or community. The property owner shall be responsible for obtaining all necessary permits and approvals from the relevant authorities before commencing construction. The property owner shall ensure that the construction project complies with all applicable design review requirements. THIS PERMIT AUTHORIZES ONLY THE WORK NOTED. THIS PERMIT COVERS WORK TO BE DONE ON PRIVATE PROPERTY ONLY. ANY CONSTRUCTION ON THE PUBLIC DOMAIN (CURBS, SIDEWALKS, DRIVEWAYS, MARQUEES, ETC.) WILL REQUIRE SEPARATE PERMISSION. PERMIT FEES Date Description Fee Amount 09/15/2025 Processing/Technology $25.00 09/15/2025 Inspection $75.00 09/15/2025 Forced Air Heat ≤ 100 BTU/h $15.00 09/15/2025 Mechanical Base $25.00 Total Due: $140.00 Total Payment: $140.00 Balance Due: $0.00 CALL FOR INSPECTIONS Call by 3:30 pm for next day inspection, allow 48 hours for Fire Inspections When calling for an inspection please leave the following information: Permit Number, Type of Inspection being requested, and whether you prefer morning or afternoon INSPECTION INFORMATION Pass/Fail Product Data Upflow/ Horizontal Left/Right, Downflow Two Stage Condensing Gas Fired Furnace Upflow, Convertible to Downflow Only Horizontal Right or S9X2B040D3PSBA Horizontal Left S9X2B060D3PSBA S9X2B040U3PSBA S9X2B080D4PSBA S9X2B060U4PSBA S9X2C100D5PSBA S9X2B080U4PSBA S9X2D120D5PSBA S9X2C080U5PSBA S9X2C100U5PSBA S9X2D120U5PSBA Note:Graphicsinthisdocumentarefor representationonly.Actualmodelmay differinappearance. August 2019 12-1389-1E-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. Also contains dry contacts for EAC and HUM. ENERGY EFFICIENT OPERATION Furnace is certified by the manufacturer to leak 1% or less of nominal air conditioning CFM delivered when pressurized to .5" water column with all inlets, outlets, and drains sealed. AIR DELIVERY The variable speed 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- 4Câ„¢ 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 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. 2 12-1389-1E-EN Features and Benefits UP TO 96.0% AFUE ON S9X2 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 Open vestibule design provides a full 34†high open vestibule DIMENSIONS Widths are industry standard: 17.5â€, 21â€, and 24.5†Depth remains approximately 28†Cabinet will be 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 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 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 12-1389-1E-EN 3 Features and Benefits 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; 2†pipe can be used up to 100K 4 12-1389-1E-EN Accessories Table 1. Accessories ModelNumber Description Usewith Bwidth4GXCBor4MCXBCoilswheninstalledwithUpflow MAYBFERCOLKITA HeatShieldKitforB-width4GXCBor4MCXBCoils Furnaceinallorientations Cwidth4GXCCor4MCXCCoilswheninstalledwithUpflow MAYCFERCOLKITA HeatShieldKitforC-width4GXCCor4MCXCCoils Furnaceinallorientations Dwidth4GXCDor4MCXDCoilswheninstalledwithUpflow MAYDFERCOLKITA HeatShieldKitforD-width4GXCDor4MCXDCoils Furnaceinallorientations BAYHANG HorizontalHangingKit AllUpflowFurnaces BAYVENT200B SidewallVentTerminationKit AllFurnaces BAYVENTCN200B SidewallVentTerminationKit(Canada—CPVC) AllFurnaces BAYAIR30AVENTA ConcentricVentKit AllFurnaces BAYAIR30CNVENT ConcentricVentKit(Canada—CPVC) AllFurnaces BAYREDUCE ReducingCoupling(CPVC) AllFurnaces BAYLIFTB DualReturnKit(Bsizeextension) BCabinetUpflowFurnaces BAYLIFTC DualReturnKit(Csizeextension) CCabinetUpflowFurnaces BAYLIFTD DualReturnKit(Dsizeextension) DCabinetUpflowFurnaces BAYBASE205 DownflowSubbase AllDownflowFurnaces BAYFLTR206 FilterAccessDoorKit(Downflowonly) AllDownflowFurnaces BAYSF1165AA(a) 1â€SlimFitBoxwithMERV4Filter AllUpflowFurnaces BAYSF1255BA 1â€SlimFitFilterandInsulatedFrame AllFurnaces(b) FLRSF1255 1â€Filterreplacement(Qty12) BAYSF1255BA BAYFLTR203 HorizontalFilterKit BCabinetFurnacesinDownflow/Horizontal BAYFLTR204 HorizontalFilterKit CCabinetFurnacesinDownflow/Horizontal BAYFLTR205 HorizontalFilterKit DCabinetFurnacesinDownflow/Horizontal BAYLPSS400B PropaneConversionKitwithStainlessSteelBurners AllFurnaces BAYMFGH200B Manufactured/MobileHousingKit AllFurnaces InlineCondensateTrapKitusedwithSpecialVentingon2†BAYCNDTRAP2A AllFurnaces VentPipe InlineCondensateTrapKitusedwithSpecialVentingon3†BAYCNDTRAP3A AllFurnaces VentPipe (a) Airflowgreaterthan1600CFMrequiresdualreturns (b) DesignedtofitallS-Seriesfurnaceswithorwithouttransitionwhenusedinsidereturn.FitsBwidthcabinetwithoutatransitioninupflow/downflow applications. 12-1389-1E-EN 5 Product Specifications MODEL S9X2B040U3PSBA (a) S9X2B060U4PSBA (a) S9X2B080U4PSBA (a) S9X2C080U5PSBA (a) TYPE Upflow/Horizontal Upflow/Horizontal Upflow/Horizontal Upflow/Horizontal RATINGS(b) 1stStageInputBTUH(ICS) 26,000 39,000 52,000 52,000 1stStageCapacityBTUH 25,220 37,830 50,440 50,440 2ndStageInputBTUH 40,000 60,000 80,000 80,000 2ndStageCapacityBTUH(ICS)(c)(d) 38,800 58,200 77,600 77,600 1stStageTemp.Rise(Min.-Max.) 25-55 25-55 30-60 30-60 2ndStageTemp.Rise(Min.-Max.) 30-60 30-60 45-75 40-70 AFUE(%) 96.0 96.0 96.0 95.0 BLOWERDRIVE DIRECT DIRECT DIRECT DIRECT Diameter—Width(In.) 11X8 11X8 11X8 11X10 No.Used 1 1 1 1 Speeds(No.)(e) 9 9 9 9 SeeFanPerformance SeeFanPerformance SeeFanPerformance CFMvs.in.w.g. SeeFanPerformanceTable Table Table Table MotorHP 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 COMBUSTIONFAN—Type Centrifugal Centrifugal Centrifugal Centrifugal Drive—No.Speeds Direct-2 Direct-2 Direct-2 Direct-2 MotorHP—RPM 3300/2600 3300/2600 3300/2600 3300/2600 Volts/Ph/Hz 120/1/60 120/1/60 120/1/60 120/1/60 FLA 0.61 0.79 0.96 0.88 FILTER—Furnished? No No No No Typerecommended HighVelocity HighVelocity HighVelocity HighVelocity HiVel.(No.-Size-Thk.) 1—16x25—1in. 1—16x25—1in. 1—16x25—1in. 1—20x25—1in. VENTPIPEDIAMETER—Min(in.) 2Round 2Round 2Round 2Round (f) (g) HEATEXCHANGER Type—Fired 409StainlessSteel 409StainlessSteel 409StainlessSteel 409StainlessSteel —Unfired 29–4CStainlessSteel 29–4CStainlessSteel 29–4CStainlessSteel 29–4CStainlessSteel Gauge(Fired) 20 20 20 20 ORIFICES—Main Nat.GasQty.—DrillSize 2-45 3-45 4-45 4-45 LPGasQty.—DrillSize 2-56 3-56 4-56 4-56 GASVALVE Redundant-TwoStage Redundant-TwoStage Redundant-TwoStage Redundant-TwoStage PILOTSAFETYDEVICE Type 120VSiNiIgniter 120VSiNiIgniter 120VSiNiIgniter 120VSiNiIgniter BURNERS—Type MultiportInshot MultiportInshot MultiportInshot MultiportInshot 6 12-1389-1E-EN Product Specifications MODEL S9X2B040U3PSBA (a) S9X2B060U4PSBA (a) S9X2B080U4PSBA (a) S9X2C080U5PSBA (a) Number 2 3 4 4 POWERCONN.—V/Ph/Hz(h) 120/1/60 120/1/60 120/1/60 120/1/60 Ampacity(InAmps) 8.8 10.3 10.3 14.1 Max.OvercurrentProtection(Amps) 15 15 15 15 PIPECONN.SIZE(in.) 1/2 1/2 1/2 1/2 DIMENSIONS HxWxD HxWxD HxWxD HxWxD Uncrated(In.) 34x17-1/2x28–3/4 34x17-1/2x28–3/4 34x17-1/2x28–3/4 34x21x28–3/4 Crated(In.) 35-1/2x19-1/2x30-7/8 35-1/2x19-1/2x30-7/8 35-1/2x19-1/2x30-7/8 35-1/2x23x30-7/8 WEIGHT Shipping(Lbs.)/Net(Lbs.) 122/114 130/122 135/127 149/139 (a) MeetsEnergyStar (b) ForU.S.applications,aboveinputratings(BTUH)areupto2,000feet,derate4%per1,000feetforelevationsabove2,000feetabovesealevel.For Canadianapplications,aboveinputratings(BTUH)areupto4,500feet,derate4%per1,000feetforelevationsabove4,500feetabovesealevel. (c) CentralFurnaceheatingdesignsarecertifiedtoANSIZ21.47/CSA2.3—latestedition. (d) BasedonU.S.governmentstandardtests. (e) 9SpeedconstanttorqueECMblowermotor (f) RefertotheVentLengthTableintheInstaller'sGuide. (g) AllS9X2furnacemodelshaveaventoutletdiameterthatequals2in. (h) TheabovewiringspecificationsareinaccordancewithNationalElectricalCode;however,installationsmustcomplywithlocalcodes. MODEL S9X2C100U5PSBA (a) S9X2D120U5PSBA (a) S9X2B040D3PSBA (a) S9X2B060D3PSBA (a) TYPE Upflow/Horizontal Upflow/Horizontal Downflow Downflow RATINGS(b) 1stStageInputBTUH(ICS) 65,000 78,000 26,000 39,000 1stStageCapacityBTUH 63,050 75,660 25,220 37,830 2ndStageInputBTUH 100,000 120,000 40,000 60,000 2ndStageCapacityBTUH(ICS)(c)(d) 97,000 116,400 38,800 58,200 1stStageTemp.Rise(Min.-Max.) 25-55 30-60 25-55 25-55 2ndStageTemp.Rise(Min.-Max.) 40-70 40-70 30-60 35-65 AFUE(%) 96.0 96.0 96.0 95.0 BLOWERDRIVE DIRECT DIRECT DIRECT DIRECT Diameter—Width(In.) 11X10 11X10 11X8 11X8 No.Used 1 1 1 1 Speeds(No.)(e) 9 9 9 9 SeeFanPerformance SeeFanPerformance SeeFanPerformance SeeFanPerformance CFMvs.in.w.g. Table Table Table Table MotorHP 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 COMBUSTIONFAN—Type Centrifugal Centrifugal Centrifugal Centrifugal Drive—No.Speeds Direct-2 Direct-2 Direct-2 Direct-2 MotorHP—RPM 3300/2600 3300/2600 3300/2600 3300/2600 Volts/Ph/Hz 120/1/60 120/1/60 120/1/60 120/1/60 FLA 0.66 0.66 0.66 0.66 FILTER—Furnished? No No No No Typerecommended HighVelocity HighVelocity HighVelocity HighVelocity 12-1389-1E-EN 7 Product Specifications MODEL S9X2C100U5PSBA (a) S9X2D120U5PSBA (a) S9X2B040D3PSBA (a) S9X2B060D3PSBA (a) HiVel.(No.-Size-Thk.) 1—20x25—1in. 1—24x25—1in. 2—14x20—1in. 2—14x20—1in. VENTPIPEDIAMETER—Min(in.) 2Round 3Round 2Round 2Round (f)(g) HEATEXCHANGER Type—Fired 409StainlessSteel 409StainlessSteel 409StainlessSteel 409StainlessSteel —Unfired 29–4CStainlessSteel 29–4CStainlessSteel 29–4CStainlessSteel 29–4CStainlessSteel Gauge(Fired) 20 20 20 20 ORIFICES—Main Nat.GasQty.—DrillSize 5-45 6-45 2-45 3-45 LPGasQty.—DrillSize 5-56 6-56 2-56 3-56 GASVALVE Redundant-TwoStage Redundant-TwoStage Redundant-TwoStage Redundant-TwoStage PILOTSAFETYDEVICE Type 120VSiNiIgniter 120VSiNiIgniter 120VSiNiIgniter 120VSiNiIgniter BURNERS—Type MultiportInshot MultiportInshot MultiportInshot MultiportInshot Number 5 6 2 3 POWERCONN.—V/Ph/Hz(h) 120/1/60 120/1/60 120/1/60 120/1/60 Ampacity(InAmps) 13.3 14.1 8.8 8.8 Max.OvercurrentProtection(Amps) 15 15 15 15 PIPECONN.SIZE(in.) 1/2 1/2 1/2 1/2 DIMENSIONS HxWxD HxWxD HxWxD HxWxD Uncrated(In.) 34x21x28–3/4 34x24-1/2x28–3/4 34x17-1/2x28–3/4 34x17-1/2x28–3/4 Crated(In.) 35-1/2x23x30-7/8 35-1/2x26-1/2x30-7/8 35-1/2x19-1/2x30-7/8 35-1/2x19-1/2x30-7/8 WEIGHT Shipping(Lbs.)/Net(Lbs.) 155/145 167/156 122/114 127/119 (a) MeetsEnergyStar (b) ForU.S.applications,aboveinputratings(BTUH)areupto2,000feet,derate4%per1,000feetforelevationsabove2,000feetabovesealevel.For Canadianapplications,aboveinputratings(BTUH)areupto4,500feet,derate4%per1,000feetforelevationsabove4,500feetabovesealevel. (c) CentralFurnaceheatingdesignsarecertifiedtoANSIZ21.47/CSA2.3. (d) BasedonU.S.governmentstandardtests. (e) 9SpeedconstanttorqueECMblowermotor (f) RefertotheVentLengthTableintheInstaller'sGuide. (g) AllS9X2furnacemodelshaveaventoutletdiameterthatequals2in. (h) TheabovewiringspecificationsareinaccordancewithNationalElectricalCode;however,installationsmustcomplywithlocalcodes. MODEL S9X2B080D4PSBA (a) S9X2C100D5PSBA (a) S9X2D120D5PSBA (a) TYPE Downflow Downflow Downflow RATINGS(b) 1stStageInputBTUH(ICS) 52,000 65,000 78,000 1stStageCapacityBTUH 50,440 63,050 75,660 2ndStageInputBTUH 80,000 100,000 120,000 2ndStageCapacityBTUH(ICS)(c)(d) 77,600 97,000 116,400 1stStageTemp.Rise(Min.-Max.) 30-60 25-55 30-60 2ndStageTemp.Rise(Min.-Max.) 45-75 40-70 45-75 AFUE(%) 96.0 95.0 96.0 BLOWERDRIVE DIRECT DIRECT DIRECT Diameter—Width(In.) 11X8 11X10 11X10 No.Used 1 1 1 Speeds(No.)(e) 9 9 9 8 12-1389-1E-EN Product Specifications MODEL S9X2B080D4PSBA (a) S9X2C100D5PSBA (a) S9X2D120D5PSBA (a) SeeFanPerformance CFMvs.in.w.g. SeeFanPerformanceTableSeeFanPerformanceTable Table MotorHP 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 COMBUSTIONFAN—Type Centrifugal Centrifugal Centrifugal Drive—No.Speeds Direct-2 Direct-2 Direct-2 MotorHP—RPM 3300/2600 3300/2600 3300/2600 Volts/Ph/Hz 120/1/60 120/1/60 120/1/60 FLA 0.66 0.66 0.66 FILTER—Furnished? No No No Typerecommended HighVelocity HighVelocity HighVelocity HiVel.(No.-Size-Thk.) 2—14x20—1in. 2—16x20—1in. 2—16x20—1in. VENTPIPEDIAMETER—Min(in.) 2Round 2Round 3Round (f)(g) HEATEXCHANGER Type—Fired 409StainlessSteel 409StainlessSteel 409StainlessSteel —Unfired 29–4CStainlessSteel 29–4CStainlessSteel 29–4CStainlessSteel Gauge(Fired) 20 20 20 ORIFICES—Main Nat.GasQty.—DrillSize 4-45 5-45 6-45 LPGasQty.—DrillSize 4-56 5-56 6-56 GASVALVE Redundant-TwoStage Redundant-TwoStage Redundant-TwoStage PILOTSAFETYDEVICE Type 120VSiNiIgniter 120VSiNiIgniter 120VSiNiIgniter BURNERS—Type MultiportInshot MultiportInshot MultiportInshot Number 4 5 6 POWERCONN.—V/Ph/Hz(h) 120/1/60 120/1/60 120/1/60 Ampacity(InAmps) 12.4 14.1 14.1 Max.OvercurrentProtection(Amps) 15 15 15 PIPECONN.SIZE(in.) 1/2 1/2 1/2 DIMENSIONS HxWxD HxWxD HxWxD Uncrated(In.) 34x17-1/2x28–3/4 34x21x28–3/4 34x24-1/2x28–3/4 Crated(In.) 35-1/2x19-1/2x30-7/8 35-1/2x23x30-7/8 35-1/2x26-1/2x30-7/8 WEIGHT Shipping(Lbs.)/Net(Lbs.) 135/127 155/145 167/156 (a) MeetsEnergyStar (b) ForU.S.applications,aboveinputratings(BTUH)areupto2,000feet,derate4%per1,000feetforelevationsabove2,000feetabovesealevel.For Canadianapplications,aboveinputratings(BTUH)areupto4,500feet,derate4%per1,000feetforelevationsabove4,500feetabovesealevel. (c) CentralFurnaceheatingdesignsarecertifiedtoANSIZ21.47/CSA2.3. (d) BasedonU.S.governmentstandardtests. (e) 9SpeedconstanttorqueECMblowermotor (f) RefertotheVentLengthTableintheInstaller'sGuide. (g) AllS9X2furnacemodelshaveaventoutletdiameterthatequals2in. (h) TheabovewiringspecificationsareinaccordancewithNationalElectricalCode;however,installationsmustcomplywithlocalcodes. 12-1389-1E-EN 9 Airflow tables FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 510 314 118 - - 1 SCFM 34 43 52 - - Watts 532 341 150 - - 2 SCFM 36 45 54 - - Watts 877 748 620 491 362 3 SCFM 91 104 118 131 144 Watts 933 813 693 573 452 4 SCFM 106 120 133 147 161 Watts S9X1B040U3PSBA 5 SCFM 1056 950 843 737 631 S9B1B040U3PSAA 140 156 172 188 204 S9X2B040U3PSBA Watts 1111 1009 908 806 705 6 SCFM 157 174 190 207 223 Watts 1174 1078 983 887 791 7 SCFM 182 199 216 233 251 Watts 1376 1297 1218 1140 1061 8 SCFM 285 305 325 344 364 Watts 1512 1445 1378 1312 1245 9 SCFM 382 403 424 445 466 Watts FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 840 702 565 427 290 1 SCFM 91 101 111 121 130 Watts 1001 893 786 678 571 2 SCFM 137 149 162 174 186 Watts 1140 1051 963 875 786 3 SCFM 193 207 221 235 249 Watts 1208 1128 1048 969 889 4 SCFM 223 238 253 268 283 Watts S9X1B060U4PSBA 5 SCFM 1299 1224 1148 1073 998 S9B1B060U4PSAA 270 284 298 312 327 S9X2B060U4PSBA Watts 1413 1348 1283 1217 1152 6 SCFM 343 359 375 391 406 Watts 1444 1380 1315 1251 1186 7 SCFM 354 370 386 403 419 Watts 1727 1674 1622 1570 1518 8 SCFM 612 631 650 668 687 Watts 1790 1741 1691 1642 1593 9 SCFM 694 712 729 747 765 Watts 10 12-1389-1E-EN Airflow tables FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 911 766 622 477 332 1 SCFM 94 104 115 125 136 Watts 1075 963 851 740 628 2 SCFM 139 153 168 182 197 Watts 1215 1121 1028 934 840 3 SCFM 185 202 219 236 253 Watts 1250 1164 1077 990 903 4 SCFM 203 221 239 257 274 Watts S9X1B080U4PSBA 5 SCFM 1349 1272 1194 1116 1039 S9B1B080U4PSAA 251 271 291 310 330 S9X2B080U4PSBA Watts 1453 1387 1321 1254 1188 6 SCFM 313 335 356 378 400 Watts 1505 1438 1372 1305 1239 7 SCFM 340 362 384 406 427 Watts 1657 1597 1538 1479 1419 8 SCFM 453 477 500 524 547 Watts 1878 1815 1752 1690 1627 9 SCFM 669 686 702 718 735 Watts FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 643 384 125 1 SCFM 45 53 62 - - Watts 1125 982 838 694 551 2 SCFM 126 142 158 174 190 Watts 1192 1038 884 730 576 3 SCFM 140 157 174 191 208 Watts 1509 1377 1246 1115 983 4 SCFM 245 268 291 314 337 Watts S9X1C080U5PSBA 5 SCFM 1548 1428 1308 1187 1067 S9B1C080U5PSAA 257 281 304 328 352 S9X2C080U5PSBA Watts 1602 1467 1331 1196 1061 6 SCFM 320 345 371 396 421 Watts 1640 1512 1383 1255 1127 7 SCFM 352 379 406 433 459 Watts 1831 1778 1726 1673 1621 8 SCFM 521 550 579 608 637 Watts 2351 2278 2204 2131 2058 9 SCFM 886 918 950 982 1014 Watts 12-1389-1E-EN 11 Airflow tables FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 1013 847 680 514 348 1 SCFM 104 116 129 142 155 Watts 1261 1126 990 854 718 2 SCFM 168 185 202 219 236 Watts 1519 1407 1296 1184 1072 3 SCFM 267 290 313 336 358 Watts 1554 1446 1337 1229 1120 4 SCFM 283 307 330 353 377 Watts S9X1C100U5PSBA 5 SCFM 1749 1651 1554 1457 1359 S9B1C100U5PSAA 385 411 436 462 488 S9X2C100U5PSBA Watts 1868 1778 1688 1599 1509 6 SCFM 464 491 519 546 574 Watts 2018 1936 1853 1770 1688 7 SCFM 573 602 631 660 689 Watts 2191 2112 2033 1954 1875 8 SCFM 718 750 782 815 847 Watts 2395 2303 2212 2120 2028 9 SCFM 966 981 996 1012 1027 Watts FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 707 443 179 - - 1 SCFM 46 55 64 - - Watts 1344 1218 1092 966 840 2 SCFM 163 183 202 222 241 Watts 1532 1419 1307 1195 1083 3 SCFM 225 247 268 290 312 Watts 1584 1477 1370 1263 1156 4 SCFM 247 270 292 315 338 Watts S9X1D120U5PSBA 5 SCFM 1915 1818 1722 1625 1529 S9B1D120U5PSAA 401 428 454 480 506 S9X2D120U5PSBA Watts 2104 2016 1927 1839 1750 6 SCFM 525 553 582 610 639 Watts 2132 2045 1958 1870 1783 7 SCFM 546 575 604 633 662 Watts 2410 2328 2247 2165 2084 8 SCFM 833 868 903 937 972 Watts 2472 2401 2329 2257 2186 9 SCFM 909 944 979 1013 1048 Watts 12 12-1389-1E-EN Airflow tables FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 378 153 - - - 1 SCFM 28 32 - - - Watts 514 330 145 - - 2 SCFM 35 45 55 64 74 Watts 765 618 471 324 178 3 SCFM 69 81 93 105 116 Watts 827 691 554 418 281 4 SCFM 81 94 106 119 132 Watts S9X1B040D3PSBA 5 SCFM 988 879 770 661 553 S9B1B040D3PSAA 124 140 156 171 187 S9X2B040D3PSBA Watts 1085 986 887 787 688 6 SCFM 156 173 190 207 224 Watts 1125 1030 934 839 743 7 SCFM 170 188 205 222 239 Watts 1129 1035 941 847 753 8 SCFM 170 187 204 221 239 Watts 1492 1419 1346 1273 1200 9 SCFM 369 390 411 431 452 Watts FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 624 451 277 104 - 1 SCFM 47 57 68 79 - Watts 866 734 602 470 338 2 SCFM 89 102 116 129 142 Watts 949 833 718 602 486 3 SCFM 113 128 142 156 171 Watts 1122 1025 928 831 733 4 SCFM 165 182 200 217 235 Watts S9X1B060D3PSBA 5 SCFM 1178 1087 996 905 814 S9B1B060D3PSAA 191 209 227 246 264 S9X2B060D3PSBA Watts 1260 1180 1100 1021 941 6 SCFM 233 252 271 290 309 Watts 1370 1299 1228 1158 1087 7 SCFM 296 316 336 355 375 Watts 1480 1416 1352 1287 1223 8 SCFM 365 387 408 429 450 Watts 1504 1440 1376 1312 1249 9 SCFM 384 406 427 449 470 Watts 12-1389-1E-EN 13 Airflow tables FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 499 306 113 - - 1 SCFM 36 43 49 - - Watts 1017 922 828 734 640 2 SCFM 143 158 173 188 203 Watts 1119 1029 940 850 761 3 SCFM 176 192 207 223 239 Watts 1205 1125 1044 964 883 4 SCFM 215 233 250 268 285 Watts S9X1B080D4PSBA 5 SCFM 1237 1160 1083 1006 928 S9B1B080D4PSAA 231 250 268 286 305 S9X2B080D4PSBA Watts 1378 1309 1240 1172 1103 6 SCFM 315 334 354 373 393 Watts 1453 1389 1324 1260 1195 7 SCFM 360 380 399 419 439 Watts 1618 1562 1505 1449 1392 8 SCFM 496 518 540 561 583 Watts 1794 1742 1691 1639 1587 9 SCFM 682 704 726 748 770 Watts FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 1002 823 644 465 285 1 SCFM 103 117 130 144 157 Watts 1385 1276 1167 1057 948 2 SCFM 223 243 264 284 304 Watts 1527 1430 1333 1236 1139 3 SCFM 286 310 333 357 380 Watts 1610 1516 1421 1326 1231 4 SCFM 328 352 377 401 425 Watts S9X1C100D5PSBA 5 SCFM 1761 1677 1593 1509 1425 S9B1C100D5PSAA 433 459 486 512 538 S9X2C100D5PSBA Watts 1861 1783 1706 1628 1551 6 SCFM 492 520 549 577 605 Watts 1984 1902 1820 1738 1656 7 SCFM 548 577 606 635 663 Watts 2173 2097 2020 1944 1867 8 SCFM 728 760 792 824 856 Watts 2342 2269 2196 2123 2050 9 SCFM 945 973 1002 1031 1060 Watts 14 12-1389-1E-EN Airflow tables FurnaceAirflow(CFM)Vs.ExternalStaticPressure(in.W.C.) Model Tap 0.1 0.3 0.5 0.7 0.9 680 419 159 - - 1 SCFM 47 56 66 - - Watts 1025 1063 1101 1139 1177 2 SCFM 237 259 282 304 327 Watts 1566 1461 1357 1253 1149 3 SCFM 268 292 316 340 363 Watts 1803 1711 1619 1527 1435 4 SCFM 393 420 446 472 498 Watts S9X1D120D5PSBA 5 SCFM 1891 1801 1711 1621 1532 S9B1D120D5PSAA 445 472 500 527 555 S9X2S120D5PSBA Watts 2132 2025 1919 1812 1705 6 SCFM 568 601 633 666 698 Watts 2154 2068 1982 1896 1810 7 SCFM 644 675 705 736 766 Watts 2344 2267 2190 2113 2035 8 SCFM 837 870 902 934 967 Watts 2414 2333 2251 2170 2088 9 SCFM 896 928 961 993 1026 Watts 12-1389-1E-EN 15 CFM Versus Temperature Rise S9X1andS9B1furnaceshaveonestageheating S9X2Furnaceshavetwostageheating.FirstStageisLowheatingandSecondStageisHighheating. Table 2. Heating Table — Upflow CFMVS.TEMPERATURERISE MODEL 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 S9X1B040U3PSBA 55 48 44 39 36 33 30 S9B1B040U3PSAA S9X1B060U4PSBA 63 58 52 49 46 43 41 40 S9B1B060U4PSAA S9X1B080U4PSBA 64 61 57 54 51 48 44 39 35 S9B1B080U4PSAA S9X1C080U5PSBA 65 59 56 54 49 46 44 42 40 38 36 S9B1C080U5PSAA S9X1C100U5PSBA 65 61 57 55 53 49 46 44 43 S9B1C100U5PSAA S9X1D120U5PSBA 67 65 60 55 54 51 48 44 41 S9B1D120U5PSAA Table 3. 2nd Stage Heating Table — Upflow CFMVS.2NDSTAGETEMPERATURERISE CFM(CUBICFEETPERMINUTE) MODEL 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 S9X2B040U3PSBA 60 51 45 40 36 33 S9X2B060U4PSBA 60 54 49 45 41 38 36 34 32 S9X2B080U4PSBA 72 65 60 55 51 48 S9X2C080U5PSBA 65 60 55 51 48 45 42 S9X2C100U5PSBA 69 64 60 56 53 50 47 45 43 41 S9X2D120U5PSBA 67 63 60 57 54 51 49 Table 4. 1st Stage Heating Table — Upflow CFMVS.1STSTAGETEMPERATURERISE MODEL 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 S9X2B040U3PSBA 51 45 40 36 33 30 28 26 S9X2B060U4PSBA 54 49 45 41 38 36 34 32 30 28 27 26 S9X2B080U4PSBA 60 55 51 48 45 42 40 38 36 34 S9X2C080U5PSBA 60 55 51 48 45 42 40 38 36 34 S9X2C100U5PSBA 53 50 47 45 43 S9X2D120U5PSBA 60 57 54 51 16 12-1389-1E-EN CFM Versus Temperature Rise Table 5. Heating Table — Downflow CFMVS.TEMPERATURERISE CFM(CUBICFEETPERMINUTE) MODEL 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 S9X1B040D3PSBA 53 46 45 37 34 31 S9B1B040D3PSAA S9X1B060D3PSBA 63 58 52 48 44 41 37 S9B1B060D3PSAA S9X1B080D4PSBA 62 57 53 49 48 46 S9B1B080D4PSAA S9X1C100D5PSBA 65 62 58 55 53 50 48 44 S9B1C100D5PSAA S9X1D120D5PSBA 66 64 58 56 53 52 49 44 S9B1D120D5PSAA Table 6. 2nd Stage Heating Table — Downflow CFMVS.2NDSTAGETEMPERATURERISE CFM(CUBICFEETPERMINUTE) MODEL 600 700 800 900 10- 11- 12- 13- 14- 15- 16- 17- 18- 19- 20- 21- 22- 00 00 00 00 00 00 00 00 00 00 00 00 00 S9X2B040D3PSBA 60 51 45 40 36 33 S9X2B060D3PSBA 60 54 49 45 41 38 36 S9X2B080D4PSBA 72 65 60 55 51 48 S9X2C100D5PSBA 69 64 60 56 53 50 47 45 43 41 S9X2D120D5PSBA 72 67 63 60 57 54 51 49 Table 7. 1st Stage Heating Table — Downflow CFMVS.1STSTAGETEMPERATURERISE MODEL 700 800 900 100- 1100 1200 130- 1400 1500 160- 1700 180- 1900 2000 2100 0 0 0 0 S9X2B040D3PSBA 51 45 40 36 33 30 28 26 S9X2B060D3PSBA 54 49 45 41 38 36 34 32 30 28 27 26 S9X2B080D4PSBA 60 55 51 48 45 42 40 38 36 34 S9X2C100D5PSBA 53 50 47 45 43 S9X2D120D5PSBA 60 57 54 51 12-1389-1E-EN 17 Maximum Vent Length Table S9X2 MaximumTotalEquivalentLengthInFeet MaximumVentLengthTable forVentandInletAir(SeeNotes) Model 2Inchor2.5InchPipe 3Inchor4InchPipe Altitude0–2,000Feet S9X2B040U3PS,S9X2B040D3PS, 200 200 S9X2B060D3PS,S9X2B060U4PS S9X2B080U4PS,S9X2B080D4PS, 100 200 S9X2C080U5PS S9X2C100U5PS,S9X2C100D5PS 50 200 S9X2D120U5PS,S9X2D120D5PS Note1 200 Altitude2,001–5,400Feet S9X2B040U3PS,S9X2B040D3PS, 200 200 S9X2B060D3PS,S9X2B060U4PS S9X2B080U4PS,S9X2B080D4PS, 80 120 S9X2C080U5PS S9X2C100U5PS,S9X2C100D5PS 50 150 S9X2D120U5PS,S9X2D120D5PS Note1 200 Altitude5,401–7,800Feet S9X2B040U3PS,S9X2B040D3PS, 100 150 S9X2B060D3PS,S9X2B060U4PS S9X2B080U4PS,S9X2B080D4PS, 50 70 S9X2C080U5PS S9X2C100U5PS,S9X2C100D5PS Note1 100 S9X2D120U5PS,S9X2D120D5PS Note1 100 Altitude7,801–10,100Feet S9X2B040U3PS,S9X2B040D3PS, 50 90 S9X2B060D3PS,S9X2B060U4PS S9X2B080U4PS,S9X2B080D4PS, Note1 50 S9X2C080U5PS S9X2C100U5PS,S9X2C100D5PS Note1 50 S9X2D120U5PS,S9X2D120D5PS Note1 50 Notes: 1. Notallowed 2. ForPolyPro®byDuravent,Z-DENSbyNovaflexGroup,InnoFlue®byCentrotherm,andPolyflueâ„¢manufacturedmodularventingsystems thatareintheapprovedventpipematerialtable,fittingequivalentventlengthsmaybedifferentfromwhatisshowninNote6.Refertothe ventingsystemmanufacturer’sinstallationinstructionforappropriateventingdiametersandequivalentlengths. 3. Minimumventlengthforallmodels:15'equivalent. 4. DONOTMIXPIPEDIAMETERSINTHESAMELENGTHOFPIPEOUTSIDETHEFURNACECABINET(Exceptadaptersatthetopofthefurnace). Ifdifferentinletandventpipesizesareused,theventpipemustadheretothemaximumlengthlimitshowninthetableabove(Seenote7 belowforexception).Theinletpipecanbeofalargerdiameter,butneversmallerthantheventpipe. 5. MAXIMUMPIPELENGTHSMUSTNOTBEEXCEEDED!THELENGTHSHOWNISNOTACOMBINEDTOTAL,ITISTHEMAXIMUMLENGTHOF EACH(VentorInletairpipes). 6. OneSHORTradius90°elbowisequivalentto10'of4"pipe,10'of3"pipe,or8’of2"pipe.OneLONGradiuselbowisequivalentto6'of4" pipe,7’of3"pipe,or5'of2"pipe.Two45°elbowsequalone90°LONGelbow.OneMITEREDelbowisequivalentto12’of3â€pipeor12’of 2â€pipe. 7. Theterminationteeorbendmustbeincludedinthetotalnumberofelbows.IftheBAYAIR30AVENTAorBAYAIR30CNVENTterminationkit isused,theequivalentlengthofpipeis5feet.ForBAYVENT200BandBAYVENTCN200Btheequivalentlengthis0feet. 8. ForCanadianapplications,ventingsystemsmustmeetULC-S636requirements. 9. TheINLETAIRofonepipesystemsrequiretheinstallationofaminimumofone90°elbow(topreventdustanddebrisfromfallingstraight intothefurnace). 18 12-1389-1E-EN S9X2 Wiring Diagram S9X2 Wiring Diagram and Schematic TO BURNER BOX HARN YL/47 1 1 YL/48 FLAME_ROLLOUT1 YL/46 2 2 YL/49 YL/50 YL/48 INDUCER_LIMIT CONDENSATE RAF-1 FLAME_ROLLOUT2 PR/54 YL/52 YL/45 YL/50 YL/51 * SEE NOTE THERMAL_LIMIT YL/47 RAF-2 9 YL/49 YL/51 PS2 PS1 2 6 YL/45 GAS /5L /4L VALVE Y Y 1 BL/42 C 5 TO 1 2 BK/39 2 L 4 POWER 3 G BLOWER 3 1 2 3 HARNESS 1 2 4 MOTOR WH/40 N 2 *SEE NOTE 10 3 0 1 3 4 1 /3L /5R /7R /1R /9D /5L /1R /4R /3L /1R /3L /3L Y B B P R B B P Y O Y Y RD/WH/35 YL/WH/36 BL/WH/37 BK/WH/38 1 4 3 0 9 2 /4 OR/WH/55 /4 /4 /4H /3 /4 K/B 120v 60 Hz. 1 PH L L K L Y Y W B B RG POWER SUPPLY PER LOCAL CODE IFC IS POLARITY SENSITIVE 1 2 3 4 5 6 7 8 9 10 1112 JUNCTION BOX TNS 1 2 3 4 5 6 7 8 9 10 1112 H N BL/2 WH/15 GND 24v 120v 4 3 6/1 8 7 3 4 5 6 2 6 /3L /3L H /2K /5L /2H /2 /2 /2 /3K /5H Y Y W B B H H H /B /W RD/6 BK/14 /WD /WL /WL /W R R R Y B KB G O 1 1 2 /3 /3 SEE NOTE 8 /3 L L L 9 7 K /Y /Y /2 /1 /B /YR R R KB H R G G G W G LINE CHOKE BK/28 BK/30 2 2 BK/13 1 1 BK/29 BK/27 PANEL LOOP 3 4 5 6 7 /1 /1 /1 /1 /1 K K H H H B B W W W 3 2 1 4 3 2 1 GR/YL EAC HUM LINE NEUTRAL BK/18 1 VENT 24 / 120 VAC 3 2 1 4 3 2 1 MAY BE USED LIN CIR TN TN CIR (blo LIN RD/19 2 MOTOR E C S-H S-N C ck E-N WH/20 3 (INDUCER) -H -H -N e ** d SEE NOTE 7 ) FP IGN IGN-N 5 WH/21 WH/21 1 12 FP IND-N 4 WH/20 BK/22 2 BR/53 11 HLI IND-LO 3 RD/19 BR/10 10 MVH IND-HI 2 BK/18 RD/9 9 MVL IGN-H 1 BK/22 LINE FACTORY 8 GND 24V }WIRING BR/7 7 PS2 TAP1 1 RD/WH/23 MENU OPTION LINE RD/6 6 TH TAP2 2 YL/WH/24 }FIELD BL/5 5 MVC TAP3 3 BL/WH/25 24V WIRING PR/4 4 HLO TAP4 4 BK/WH/26 OR/11 3 PS1 TAP5 5 OR/WH/56 BK BLACK OR ORANGE BR BROWN WH WHITE PR PURPLE RD RED BL/2 2 TR GND 6 BL/57 YL YELLOW GR GREEN BL BLUE PR/1 1 ILI D H LINE N /8 N NEUTRAL INTEGRATED FURNACE CONTROL GX R GND GROUND O G ELECTRICAL RATING TIMINGS B FLAME_PROBE 5 AMP HLO HIGH LIMIT OUTPUT OR EQUIVALENT PREPURGE: 0 SEC. RE WH/12 HLI HIGH LIMIT INPUT INPUT: 24 VAC, 60 HZ. INTERPURGE: 60 SEC. NR PS1 1ST STAGE XFMR SEC. CURRENT: POST PURGE: 5 SEC. UB IFC PRESSURE INPUT 450 MA. + MV LOAD IGN WARMUP: 20 SEC. PS2 2ND STAGE MV OUTPUT: 1.5A @ 24 VAC IAP: 2; TFI: 5 SEC. W2 W1 R G B/C Y2 Y1 O PRESSURE INPUT IND OUTPUT: 2.2 FLA,3.5 LRA RETRIES: 2 RECYCLES: 10 THERMOSTAT IND INDUCER @ 120 VAC MAX. HEAT ON DELAY: 30 SEC. ** INTERNAL THERMAL PROTECTION SEE NOTES 2, 3, 4, 5 IFC INTEGRATED IGN OUTPUT: 2.0 A @ 120 VAC COOL ON DELAY: 0 SEC. FURNACE CONTROL CIRC. BLOWER OUTPUT: AUTO RESTART: 60 MIN. RAF REVERSE AIRFLOW 14.5 FLA,25 LRA @ 120 VAC AUTO RESTART PURGE: 60 CONDENSATE HUMIDIFIER & AIR CLEANER SEC. SWITCH FUSE FRS FLAME ROLLOUT TH 24VAC (HOT) (DRY CONTACTS) SWITCH TR 24VAC (COMMON) MAX. LOAD: 1.0 A @ 120 VAC MVC VALVE COMMON 24 VAC OR 120 VAC MAY BE RAF REVERSE LC LINE CHOKE FP FLAME PROBE MVL VALVE LOW STAGE USED AIR FLOW MVH VALVE HIGH STAGE FUSE: 5A TNS TRANSFORMER IGN HOT SURFACE DEFAULT BLOWER MOTOR TAP SELECTIONS PS PRESSURE GROUND IGNITER ILI INDUCER LIMIT INPUT COF (CONSTANT FAN): TAP 1 SWITCH IGN IGNITER CL1 (FIRST STAGE COOLING): TAP 2 FP FLAME PROBE CL2 (SECOND STAGE COOLING): TAP 4 HI 2ND STAGE HT1 (FIRST STAGE HEAT): TAP 3 LO 1ST STAGE HT2 (SECOND STAGE HEAT): TAP 5 12-1389-1E-EN 19 S9X2 Wiring Diagram 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" MUST BE CONNECTED TO THE THERMOSTAT FOR SINGLE STAGE UNITS. FOR TWO STAGE UNITS, "Y1" AND "Y2" MUST BE CONNECTED TO THE THERMOSTAT. 3. FOR SINGLE STAGE THERMOSTATS, JUMPER "W1" AND "W2" TERMINALS. SECOND STAGE HEATING WILL BE ENERGIZED ONCE THE INTER-STAGE DELAY HAS EXPIRED. "HT2" WILL BE SHOWN ON DISPLAY AT ALL TIMES. 4. FOR HEAT PUMP SYSTEMS, "Y1" AND "O" TERMINALS MUST BE CONNECTED TO THE ROOM THERMOSTAT. FOR TWO STAGE UNITS, "Y1", "Y2", AND "O" TERMINALS MUST ALL BE CONNECTED TO THE ROOM THERMOSTAT. 5. FOR TWO STAGE SYSTEMS, USE "Y1" FOR LOW SPEED AND "Y2" FOR HIGH SPEED CONNECTION TO THE LOW-VOLTAGE TERMINAL BLOCK. SINGLE STAGE SYSTEMS USE “Y1" FOR THE CONNECTION TO THE LOW-VOLTAGE TERMINAL BLOCK. 6. THE INDOOR BLOWER MOTOR AIRFLOW TABLES ARE LOCATED IN THE SERVICE FACTS. TO CHANGE AIRFLOW USE THE MENU/OPTIONS BUTTONS. 7. FLAME SENSE TEST PADS: 1 VDC = 1 MICROAMP. FLAME CURRENT CAN VARY DEPENDING ON THE VOM THAT IS S9X2 USED AND THE VOLTAGE SUPPLIED TO THE FURNACE. THE ACCEPTABLE RANGE IS 0.75-3 MICROAMPS. 8. LINE CHOKE AND WIRE BK/28 ONLY USED ON MODELS WITH 3/4 AND 1 HP MOTORS. 9. DOWNFLOW MODELS USE ONLY ONE REVERSE AIRFLOW SWITCH. 10. CONNECTION MAY OR MAY NOT BE PRESENT. IF CONNECTION IS NOT PRESENT, WIRES 33 AND 34 WILL NOT BE USED. 2 Stage Inducer with CTM Blower Motor Status Codes 1 sd Inter-Stage Delay (sec) E.34 Open Pressure Switch, 2nd Stage 1 dl Idle C0f Blower Tap Number for Continuous Fan E04 Open Thermal Limit, Rollout Switch, or Reverse Airflow Switch Ht1 1st Stage Heating COP C.1 Blower Tap for 1st Stage E05 Flame detected, should not be present Ht2 2nd Stage Heating Compressor Mode E.61 Voltage reversed polarity tp Blower Tap Number C.2 Blower Tap for 2nd Stage E.62 Bad Grounding COF Continuous Fan Compressor Mode E.63 (1) Igniter relay fails CL1 1st Stage Cooling HtP H.1 Blower Tap for 1st Stage Heating (2) Igniter open CL2 2nd Stage Cooling H.2 Blower Tap for 2nd Stage Heating E.71 1st stage gas valve (MVL) is energized when it should be off HP1 1st Stage Heat Pump rUn Run Test Mode E08 Flame current is low, but still strong enough to allow operation. HP2 2nd Stage Heat Pump Error Codes E09 Open Inducer Limit Switch or Condensate Switch dFt Defrost Mode E01 Loss of the IRQ/other internal failures E11 (1) 1st stage gas valve not energized when it should be Menu Options E.21 Retry exceeded (Failed to est flame) (2) 1st stage gas valve relay stuck closed Err Active Alarm Menu E.22 Recycles exceeded (loss of established (3) 2nd stage gas valve relay stuck closed L6 F Last 6 Faults (To Clear, flame) or 10X PS1 open (4) 2nd stage gas valve energized when it Hold Option Button 5 sec) E.23 1st Stage Gas Valve not energized when should not be Cr Code Release Number it should be exceeded after 10 times (5) 2nd stage gas valve not energized when COd Cooling Off Delay (sec) E.31 Shorted Pressure Switch, 1st Stage it should be OdU Outdoor Unit E.32 Open Pressure Switch, 1st Stage E12 Open fuse H0d Heat Off Delay (sec) E.33 Shorted Pressure Switch, 2nd Stage D346024P01 20 12-1389-1E-EN Electrical Connections Makewiringconnectionstotheunitasindicatedonenclosedwiringdiagram.Aswithallgasappliancesusingelectricalpower,thisfurnaceshall beconnectedintoapermanentlyliveelectriccircuit.Itisrecommendedthatfurnacebeprovidedwithaseparate"circuitprotectiondevice" electriccircuit.ThefurnacemustbeelectricallygroundedinaccordancewithlocalcodesorintheabsenceoflocalcodeswiththeNational ElectricalCode,ANSI/NFPA70orCSAC22.1ElectricalCode,ifanexternalelectricalsourceisutilized.Theintegratedfurnacecontrolis polaritysensitive.Thehotlegofthe120Vpowersupplymustbeconnectedtotheblackpowerleadasindicatedonthewiringdiagram. RefertotheSERVICEFACTSliteratureandunitwiringdiagramattachedtofurnace. Field Wiring Two Stage FIELD WIRING DIAGRAM FOR Thermostat Furnace TWO STAGE HEATING THERMOSTAT, TWO STAGE COOLING NOTES: 1) The factory Y1-O jumper must remain in place for proper W2 W2 LED read out in cooling mode. Outdoor Unit 2) Y1 and Y2 wiring from the thermostat must connect to W1 W1 (No Transformer) the IFC for proper airflow and LED readout. 3) Single compressor and two stage airflow is automatically R R B/C set with the IFC Menu options in ODU section. 2-1=2 stage / 1 compressor Note: First stage airflow should be set to deliver G G between 70-80% of second stage airflow Y2 B/C B/C Y2 Y2 Y1 Y1 Y1 INTER-COMPONENT WIRING O O SEE 24 V FIELD WIRING NOTE 1 24 V FACTORY WIRING 12-1389-1E-EN 21 Electrical Connections Two Stage Thermostat Furnace FIELD WIRING DIAGRAM FOR TWO STAGE HEATING THERMOSTAT, TWO STAGE HEAT PUMP NOTES: Outdoor Unit (No Transformer) 1) Remove the factory Y1-O jumper for HP systems W2 W2 for proper LED read out. 2) Y1 and Y2 wiring from the thermostat must connect to Y1 and X2 W1 W1 Y2 of the IFC for proper airflow and LED readout. 3) Single compressor and two stage airflow is automatically R R R set with the IFC Menu options in ODU section. 2-1=2 stage / 1 compressor B/C Note: First stage airflow should be set to deliver G G between 70-80% of second stage airflow B/C B/C Y2 Y2 Y2 Y1 Y1 Y1 SEE NOTE 1 O O O INTER-COMPONENT WIRING 24 V FIELD WIRING 24 V FACTORY WIRING Single Stage FIELD WIRING DIAGRAM FOR Thermostat Furnace SINGLE STAGE HEATING THERMOSTAT, SINGLE STAGE COOLING NOTES: 1) The factory Y1-O jumper must remain in place for proper W2 LED read out in cooling mode. SEE 2) Y1 wiring from the thermostat must connect to Y1 of NOTE 3 W1 W1 the IFC for proper airflow and LED readout. 3) Place field supplied jumper between W1 and W2 on the IFC. Interstage delay is factory set for 10 minutes but is field R R adjustable with the Menu option in the ISD section. Outdoor Unit (No Transformer) Note: HT2 will be shown during the entire heating cycle but the G G interstage delay setting will control when 2nd stage heating is actually energized. B/C B/C B/C 4) Single stage airflow is set with the IFC Menu options in ODU section. Select 1-1. Y2 Y1 Y1 Y1 O O INTER-COMPONENT WIRING SEE 24 V FIELD WIRING NOTE 1 24 V FACTORY WIRING 22 12-1389-1E-EN Electrical Connections Single Stage Thermostat Furnace FIELD WIRING DIAGRAM FOR SINGLE STAGE HEATING THERMOSTAT, SINGLE STAGE HEAT PUMP NOTES: SEE Outdoor Unit 1) Remove the factory Y1-O jumper for HP systems NOTE 3 (No Transformer) W2 for proper LED read out. 2) Y1 wiring from the thermostat must connect to Y1 of W1 W1 X2 the IFC for proper airflow and LED readout. 3) Place field supplied jumper between W1 and W2 on the R IFC. Interstage delay is factory set for 10 minutes but is field R R adjustable with the Menu option in the ISD section. Note: HT2 will be shown during the entire heating cycle but the G G interstage delay setting will control when 2nd stage heating is actually energized. B/C B/C B/C 4) Single stage airflow is set with the IFC Menu options in ODU section. Select 1-1. Y2 Y1 Y1 Y1 SEE NOTE 1 O O O INTER-COMPONENT WIRING 24 V FIELD WIRING 24 V FACTORY WIRING 12-1389-1E-EN 23 Outline Drawings e c t a e rn in u b F a w C o e fl iz p U B S 24 12-1389-1E-EN OutlineDrawings e c t a e rn in u b F a w C o e fl iz p S U C 12-1389-1E-EN 25 OutlineDrawings e c t a e rn in u b F a w C o e fl iz p S U D 26 12-1389-1E-EN OutlineDrawings e c a rn t u e F in w b o a fl C n e w iz o D B S 12-1389-1E-EN 27 OutlineDrawings e c a rn t u e F in w b o a fl C n e w iz o S D C 28 12-1389-1E-EN OutlineDrawings e c a rn t u e F in w b o a fl C n e w iz o S D D 12-1389-1E-EN 29 Notes 30 12-1389-1E-EN Notes 12-1389-1E-EN 31 Ingersoll Rand (NYSE: IR) advances the quality of life by creating comfortable, sustainable and efficient environments. Our people and our family of brands—including Club Car®, Ingersoll Rand®, Thermo King® and Trane®—work together to enhance the quality and comfort of air in homes and buildings; transport and protect food and perishables; and increase industrial productivity and efficiency. We are a global business committed to a world of sustainable progress and enduring results. ingersollrand.com IngersollRandhasapolicyofcontinuousproductandproductdataimprovementsandreservestherighttochangedesignandspecifications withoutnotice. Wearecommittedtousingenvironmentallyconsciousprintpractices. 12-1389-1E-EN 01Aug2019 Supersedes12-1389-1D-EN (July2018) ©2018IngersollRand Permit #: 6713 Permit Date: 09/15/25 Permit Type: RESIDENTIAL MECHANICAL Project Name: O'HAGAN MECH PERMIT Applicant Name: CM HEATING Applicant Address: 1500 INDUSTRY ST #200 Applicant, City, State, Zip: EVERETT Contact: SABRINA KENNARD Phone: 4252590550 Email: PERMITS@CMHEATING.COM Scope of Work: GAS FURNACE SWAP Valuation: 8557.00 Square Feet: 1968 Number of Stories: 2 Construction Type: VB Occupancy Group: R-3; Residential ID Code: Permit Issued: 09/16/2025 Permit Expires: 03/13/2026 Form Permit Type: RESIDENTIAL MECHANICAL Status: COMPLETE Assigned To: Hannah Hardwick Property Parcel # Address Legal Description Owner Name Owner Phone Zoning 100 SINGLE 00621300006700 17731 33RD AVE NE OHAGEN P J FAMILY RESIDENCE Contractors Contractor Primary Contact Phone Address Contractor Type License License # 1500 INDUSTRY CONSTRUCTION Plumbing CM HEATING INC 425-259-0550 CMHEAHL750LP ST STE 200 CONTRACTOR Contractor 1500 INDUSTRY CONSTRUCTION Construction CM HEATING INC 425-259-0550 CMHEAHL751W ST STE 200 CONTRACTOR Contractor 1500 INDUSTRY CONSTRUCTION CM HEATING INC 425-259-0550 UBI 605890285 ST STE 200 CONTRACTOR Inspections Date Inspection Type Description Scheduled Date Completed Date Inspector Status R00. FURNACE 360-659-3291 Pat would 09/23/2025 09/24/2025 09/24/2025 BUILDING Approved FINAL like a call Fees Fee Description Notes Amount Processing/Technology $25.00 Inspection $75.00 Forced Air Heat ≤ 100 BTU/h Enter # of units $15.00 Mechanical Base Permit Fee $25.00 Credit Card Service $4.20 Total $144.20 Attached Letters Date Letter Description 09/15/2025 Building Permit 09/15/2025 Web Form- Residential Mechanical Application Payments Date Paid By Description Payment Type Accepted By Amount 09/15/2025 Matt Zivanov 243075073 Hannah Hardwick $4.20 XBP Conf: 09/15/2025 $140.00 243075073 Outstanding Balance $0.00 Uploaded Files Date File Name 09/16/2025 28303805-2025_BLD6713_Issued Permit.pdf 09/15/2025 54f9f93a7baa5e6488b510308b8469fb_ohagan_app.pdf 09/15/2025 faea7e8938dcacae013927bc45baebef_12-1389-1e-en_1_.pdf