Bryant 577D----A Fire and Unit Damage Hazard, Altitude Derate Multiplier for U.S.A, Canada

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!WARNING

CARBON MONOXIDE POISONING HAZARD

Failure to follow this warning could result in personal injury and/or death.

If the manifold pressure and/or gas rate is not properly adjusted on HI and LO stages, excess carbon monoxide can be produced.

!WARNING

FIRE AND UNIT DAMAGE HAZARD

Failure to follow this warning could result in personal injury or death and/or property damage.

Unsafe operation of the unit may result if manifold pressure is outside of the ranges listed in Table 6.

b.When the gas supply being used has a different heating value or specific gravity, refer to national and local codes, or contact your distributor to determine the required orifice size.

2.Adjust manifold pressure to obtain low stage input rate (See Fig. 19).

a.Turn off gas supply to unit.

b.Remove pipe plug on manifold (See Fig. 20 and connect manometer). Turn on gas supply to unit.

c.Turn gas valve switch to ON.

d.Set unit to run for 20 minutes in low-stage gas heat operation using the ”INSTALLER CHECKOUT” menu on the User Interface.

e.Remove regulator adjustment cap from low stage gas valve pressure regulator (See Fig. 19) and turn low-stage adjusting screw (3/16 or smaller flat-tipped screwdriver) counterclockwise (out) to decrease rate and clockwise (in) to increase input rate.

577D-- -- A

Gas input rates on rating plate are for installations at altitudes up to 2000 ft (610 m). Input rate must be within ± 2% of rating plate input.

1.Determine the correct gas input rate.

a.The rated gas inputs shown in Table 6 are for altitudes from sea level to 2000 ft (610 m) above sea level. These inputs are based on natural gas with a heating value of 1025 Btu/ft3 at .60 specific gravity.

IN THE U.S.A.:

The input rating for altitudes above 2,000 ft (610 m) must be reduced by 4 percent for each 1,000 ft (305 m) above sea level.

For installations below 2,000 ft, (610 m) refer to the unit rating plate.

For installations above 2,000 ft, (610 m) multiply the input by on the rating plate by the derate multiplier in Table 5 for the correct

ON/OFF SWITCH

INLET PRESSURE TAP

REGULATOR COVER SCREW

PLASTIC ADJUST SCREW

REGULATOR SPRING

HIGH STAGE GAS

PRESSURE REGULATOR

ADJUSTMENT

LOW STAGE

GAS PRESSURE

REGULATOR ADJUSTMENT

MANIFOLD

PRESSURE TAP

A04167

input rate.

Table 5 – Altitude Derate Multiplier for U.S.A*.

Altitude ft (m)

Percent of Derate

Derate Multiplier

Factor{

 

 

 

 

 

 

0-2000

0

1.00

(0-610)

 

 

 

 

 

2001-3000*

8--12

0.90

(610

-914)

 

 

 

 

 

 

3001

-4000

12--16

0.86

(915-1219)

 

 

 

 

 

 

4001

-5000

16--20

0.82

(1220

-1524)

 

 

 

 

 

 

5001

-6000

20--24

0.78

(1524

-1829)

 

 

 

 

 

 

6001

-7000

24--28

0.74

(1829

-2134)

 

 

 

 

 

 

7001

-8000

28--32

0.70

(2134

-2438)

 

 

 

 

 

 

8001

-9000

32--36

0.66

(2139

-2743)

 

 

 

 

 

9001-10,000

36--40

0.62

(2744

-3048)

 

 

* In Canada see Canadian Altitude Adjustment.

{Derate multiplier factors are based on midpoint altitude for altitude range.

IN CANADA:

The input rating for altitudes from 2,000 (610 m) to 4,500 ft (1372

m)above sea level must be derated 10 percent by an authorized Gas Conversion Station or Dealer.

EXAMPLE:

90,000 Btuh Input Furnace Installed at 4300 ft (1372 m).

Furnace Input Rate

 

Derate Multiplier

 

Furnace Input Rate

at Sea Level

X

Factor

=

at Installation

Altitude

 

 

 

 

90,000

X

0.90

=

81,000

Fig. 19 - Redundant Automatic Gas Control Valve

NOTE: DO NOT set low stage manifold pressure less than 1.4 IN. W.C. or more than 2.0 IN. W.C. for natural gas. If manifold pressure is outside this range, change main burner orifices.

f.Re-install low stage regulator adjustment cap.

g.Leave manometer connected.

NOTE: If orifice hole appears damaged or it is suspected to have been re-drilled, check orifice hole with a numbered drill bit of the correct size. Never re-drill an orifice. A burr-free and squarely aligned orifice hole is essential for proper flame characteristics.

3.Verify natural gas low stage input rate.

a.Turn off all other gas appliances and pilots served by the gas meter.

b.If unit is not running, set unit to run for 20 minutes in low-stage gas heat operation using the ”INSTALLER CHECKOUT” menu on the UI.

c.Record number of seconds for gas meter to complete one revolution.

d.Divide number of seconds in step c. into 3600 (number of seconds in 1 hour).

e.Multiply result of step d. by the number of cubic feet shown for one revolution of test dial to obtain cubic feet of gas flow per hour.

f.Multiply result of step f. by Btu heating value of the gas to obtain total measured input shown in Table 6. (Consult the local gas supplier if the heating value of gas is not known).

EXAMPLE: Assume a 90,000 high stage input unit is being installed. Assume that the size of the dial is 2 cubic ft., one revolution takes 129 sec., and the heating value of the gas is 1025 Btu/ft3. Proceed as follows:

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Contents Installation Instructions Table of ContentsIntroduction Safety ConsiderationsReceiving and Installation Check EquipmentUNIT/STRUCTURAL Damage Hazard Provide ClearancesRig and Place Unit Unit Falling HazardCPRFCURB011A00 SizeCPRFCURB010A00 CPRFCURB012A00577D--A24-30 Unit Dimensions 577D--A36-60 Unit Dimensions Physical Data Unit 577D--A Physical Data Con’t Unit 577D--A Indoor FANPersonal Injury Hazard Select and Install DuctworkCabinet Model Rigging Weight Provide for Condensate Disposal Supply and Return Duct OpeningCarbon Monoxide Poisoning Hazard Install Flue HoodInstall Gas Piping Unit Component Damage Hazard Install Electrical ConnectionsFire or Explosion Hazard Maximum Gas Flow Capacity Outdoor Air Temperature Sensor OATElectronic Air Cleaner Humidifier ConnectionsTypical Installation Control Plate START-UP Unit Start-Up and TroubleshootingPRE-START-UP FIRE, EXPLOSION, Electrical Shock and Environmental HazardIndoor Fan Motor Troubleshooting Furnace Control Troubleshooting577D a A10217L A10219C A10219L HP/AC Control Troubleshooting Sequence of Operation Unit Operation HazardAir Delivery and Temperature Rise at Rated Heating Input Heat Pump/Air Conditioner Board Status CodesCheck GAS Input Natural GAS Dehumidification ModeEvolution Controlled LOW Ambient Cooling Unit Damage HazardAltitude Derate Multiplier for U.S.A Fire and Unit Damage HazardU.S.A CanadaCheck GAS Input Propane GAS Check Burner FlameStart-Up Adjustments Check for Refrigerant LeaksFilter Pressure Drop Table IN. W.C Heating InputsECM Wet Coil Pressure Drop IN. W.C Cooling Charging Table-Subcooling Maintenance Outdoor Coil, Indoor Coil, and Condensate Drain Pan Inducer Pressure SwitchElectrical Controls and Wiring Outdoor FanIndoor Airflow Pressure Switches Refrigerant CircuitRefrigerant Circuit Copeland Scroll Compressor Puron RefrigerantTroubleshooting Final Checks Care and Maintenance Observe all warnings, cautions, and bold text Troubleshooting Chart Cooling Symptom Cause RemedyTroubleshooting Chart Gas Furnace Operation Burners will not ignitePreliminary Information Model no START-UP ChecklistTemperatures III. START-UP Electrical Supply Voltage Compressor Amps

577D----A specifications

The Bryant 577D----A is a highly regarded model in the HVAC industry, representing a blend of efficiency, performance, and advanced technology. This heating and cooling unit is designed to cater to a variety of residential and light commercial applications, making it a versatile choice for consumers looking to enhance their indoor climate control systems.

One of the standout features of the Bryant 577D----A is its impressive energy efficiency rating. With a Seasonal Energy Efficiency Ratio (SEER) typically exceeding 14, this model is engineered to reduce energy consumption, helping homeowners lower their utility bills while minimizing environmental impact. The unit also employs a two-stage cooling system, which not only improves comfort by maintaining more consistent temperatures but also provides enhanced dehumidification during hotter months.

The technology used in the Bryant 577D----A is noteworthy. The unit incorporates a variable-speed compressor that adapts to the specific cooling or heating needs of the space, ensuring optimal performance at all times. This advanced feature not only contributes to energy savings but also allows for quieter operation compared to single-stage systems. The inclusion of a smart thermostat integration further enhances convenience, enabling users to manage their HVAC system remotely and optimize settings according to their schedules.

Additional characteristics of the Bryant 577D----A include a durable construction designed to withstand various environmental conditions. The cabinet is made from quality materials that protect against corrosion and other factors that could affect the unit's longevity. Furthermore, the unit operates quietly, thanks to sound-dampening technologies, which is a significant advantage for residential areas where noise can be a concern.

Maintenance is also simplified with the Bryant 577D----A, as it is equipped with self-diagnostics for easy troubleshooting. This feature alerts users to potential issues before they escalate, promoting efficient operation and prolonging the lifespan of the system.

In conclusion, the Bryant 577D----A stands out as a superior choice for those seeking reliability and efficiency in their HVAC solutions. With its energy-efficient operation, advanced technologies, and robust construction, it serves as a valuable investment for homeowners committed to comfort and sustainability.
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