Carrier 58HDV Low Cooling Y1 Request, High Cooling Y1 & Y/Y2 or Y/Y2 Request

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58HDV

SEQUENCE OF OPERATION & DIAGNOSTICS

The following is the normal operating sequence at factory default settings (SW1 OFF/ON/OFF, SW2 all OFF)

NOTE: SW1 DIP switches (G, Y/Y2, W1, W2 thermostat terminals) and DEHUM (1/4” male quick connect terminal) are located on the FCB.

SW2 DIP switches and Y1 and O thermostat terminals are located on the TSIB.

Low Cooling (Y1) Request:

24VAC signals applied to Y1 & G terminals of TSIB (Tap Select Interface Board) and FCB (Furnace Control Board), respectively.

SLow Cooling motor speed is energized after 5 second Cool Fan On Delay time. Y1 & G signals removed from TSIB and FCB

SLow Cooling motor speed is de-energized after 90 second Cool Fan Off Delay time. Cooling (Y1) and dehumidification (DEHUM)

requests:

S24 VAC signals applied to Y1, DEHUM & G terminals of TSIB and FCB.

SSame operation as the cooling (Y1) request, except the cooling airflow is reduced 20% to compensate for high humidity conditions during cooling operation. The low cooling airflow returns to the normal setting after the DEHUM signal is removed.

High Cooling (Y1 & Y/Y2) or (Y/Y2) Request:

24VAC signals applied to Y1 & Y/Y2 & G or Y/Y2 & G terminals of FCB (Furnace Control Board).

SHigh Cooling motor speed is energized after 5 second Cool Fan On Delay time.

Y1 & Y/Y2 & G or Y/Y2 & G signals removed from TSIB and FCB

SHigh Cooling motor speed is de-energized after 90 second Cool Fan Off Delay time.

High Cooling (Y1 & Y/Y2 or Y/Y2) and dehumidification (DEHUM) requests:

S24 VAC signals applied to Y1 & Y/Y2 or Y/Y2, DEHUM, & G terminals of TSIB and FCB.

SSame operation as the high cooling (Y1 & Y/Y2 or Y/Y2) request, except the cooling airflow is reduced 20% to compensate for high humidity conditions during cooling operation. The high cooling airflow returns to the normal setting after the DEHUM signal is removed.

Low or high cooling and O terminal (Heat Pump mode):

SIf the J2 jumper is in the AC/HP EFFICIENCY position, there will be no change in blower airflow regardless of the O terminal being energized or de-energized.

SIf the J2 jumper is in the HP COMFORT position, then there will be a 10% reduction in airflow when the O terminal is de-energized (HP heating) and no airflow reduction when O is energized (HP cooling).

NOTE 1) The motor has been set up to recognize the O terminal as energized during cooling calls (reversing valve energized for cooling).

Continuous Circulating Fan (G) Request:

24VAC signal applied to G terminal of FCB.

SContinuous fan speed is energized without delay.

G signal removed from FCB.

SContinuous fan speed is de-energized after 5 second delay.

NOTE 2) Heat or Cooling requests received during a Fan request, cause the fan speed to change to the appropriate heat or cool speed after the Fan On Delay time expires. The fan returns to continuous circulating speed after the selected Fan Off Delay time expires following loss of the Heating or Cooling request.

NOTE 3) Hard-wire option not available for variable speed models.

NOTE 4) Continuous blower selection DIP 10 and 11 will cause the blower to run in high cooling speed for all low cooling (Y1) calls. Continuous blower DIP settings of 00 and 01 will allow low cooling (Y1) calls to operate normally.

Heating (W1) Request (single stage thermostat operation, SW1 DIP switch #3 on the FCB must be in OFF position) (see furnace wiring diagram):

24VAC signal applied to W1 terminal of FCB.

SInducer motor turns on at high speed.

SFollowing a 15 second prepurge delay after the low pressure switch closes, the igniter begins a 17 second warm up. S The gas valve is energized, the main burners light at Low Heat rate.

S The igniter is de-energized, and the inducer drops to low speed after the main burners ignite.

S The FCB will delay Low Heat blower operation for the 45-second Low Heat Fan On Delay time timed from the opening of the gas valve. S If the W1 request is still present after 12 minutes, timed from the opening of the gas valve, the inducer switches to high speed, closing the

high pressure switch, then the High Heat solenoid energizes, and the fan switches to High Heat speed.

W1 signal removed from FCB.

SThe gas valve de-energizes and the main burners go out.

SThe inducer runs at its present speed for a 15 second postpurge period. S The fan runs at its present speed.

S The blower de-energizes after the selected Heat Fan Off Delay time expires timed from the gas valve de-energizing.

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Contents Installation Instructions Required Notice for Massachusetts Installations CUT Hazard Furnace Reliability HazardFIRE, EXPLOSION, and Asphyxiation Hazard Winter Shutdown Frozen Water Pipe HazardWater Damage to Property Hazard Location and Clearances Installation PositionsInstallation Requirements Carbon Monoxide Poisoning HazardCondensate Trap and Drain Lines Furnace Installation ConsiderationsHorizontal Furnace Installation LevelingDimensions and Clearances Knock Outs Air Openings and Connecting DuctsOutdoor Combustion Air Method Confined Space Installation RequirementsIndoor Combustion Air Unconfined Space Venting and Combustion Air Check Ventilation AirMake the Following Check Dual Certified Direct or Non- Direct Vent For Two Pipe Installation Direct VentContaminated Combustion Air Combustion Air and Vent Piping Insulation Guidelines Sizing Combustion Air and Vent PipeVent Termination Clearances Single Piping onlyDirect Vent Termination Clearance Other than Direct Vent Termination Clearance Condensate Drain Trap Frozen and Burst Water Pipe HazardUpflow Installations Top Vent See Fig OnlyUpflow Installations Vent through Left-Side See Fig Side ViewAll Models Vent through Right-Side See Fig PVCDownflow Left-Side Vent and Trap See Fig ExhaustDownflow Right-Side Vent and Trap See Fig Downflow Right-Side Vent and TrapHorizontal Left through Top See Fig ExhaustHorizontal Left-Side Vent See Fig InletHorizontal Right through Top See Fig Horizontal Right through TopHorizontal Right-Side Vent See Fig ExhaustCombustion Air Pipe Connection Direct Vent Connecting Vent and Combustion Air PipingVent Pipe Connection Joining Pipe and Fittings Connecting Vent Pipes and TerminationHorizontal Termination Vent Termination Shielding Using Exterior RisersVertical Termination Multi Vent Termination ClearancesConcentric Vent and Combustion-Air Vertical & Horizontal Termination Concentric Vent TerminationCarbon Monoxide POISONING, Fire and Explosion Hazard 40,000, 50,000, 60,000, & 75,000 Btuh Furnaces Fire and Explosion Hazard Gas Piping RequirementsGas Supply Requirements Fire HazardElectrical Operation Hazard Typical Gas Piping for UpflowGeneral Derating Rules High Altitude Air Pressure SwitchPropane Conversion Additional Propane Connection RequirementsChanging Orifices for High Altitude Electrical SHOCK, Fire or Explosion HazardJunction Box J- Box Relocation Power Supply WiringFinal Gas Piping Check Thermostat HeatingFurnace Control Fuse CoolingOptional Equipment Tap Select Interface BoardSizing InstallationConnections InsulationFilters Filter Installation using Filter RackAddition Of Air Conditioning Combustible Floor Installation Subbase for Combustible FloorStartup Manifold Gas Pressure AdjustmentsGas Supply Pressure Natural Gas Input Rating Check Temperature Rise CheckMain Burner Flame Check Hard Wired Continuous Fan Operation Blower AdjustmentsContinuous- Fan using G Changing Blower SpeedOn = OFF = High Cooling Y1 & Y/Y2 or Y/Y2 Request Low Cooling Y1 RequestContinuous Circulating Fan G Request Furnace Control Board Diagnostic Codes See Fig Heating Request with Gas Shut OffWiring Diagram Thermostat Wiring Guide No Connection SINGLE-STAGE Thermostat TWO-STAGE Catalog No 58HDV---01SI