Bryant 580F installation instructions Service Cleaning

Page 61

Adjust the unoccupied minimum position to allow the mini- mum amount of outdoor air, as required by local codes, to enter the building. Make minimum position adjustments with at least 10 F (6 C) temperature difference between the outdoor and return air temperatures.

To determine the unoccupied minimum position setting, per- form the following procedure:

Calculate the appropriate supply-air temperature using the following formula: (TO x OA) + (TR x RA) = TM

TO = Outdoor-Air Temperature

OA = Percent of Outdoor Air

TR = Return-Air Temperature

RA = Percent of Return Air

TM = Supply-Air Temperature

As an example, if local codes require 10% outdoor air during occupied conditions, outdoor-air temperature is 60 F, and return-air temperature is 75 F:

(60 x 0.10) + (75 x 0.90) = 73.5 F

Carefully adjust the unoccupied minimum position until the measured supply-air temperature matches the calculated value. Then, carefully adjust the occupied minimum position set point on the controller until the desired position is reached.

D. Heating, Units With Economizer+

When the thermostat calls for heating, terminal W1 is ener- gized. The induced-draft motor is energized and the burner ignition sequence begins. The indoor (evaporator) fan motor (IFM) is energized 45 seconds after a flame is ignited. When additional heat is needed, W2 is energized and the high-fire solenoid on the main gas valve (MGV) is energized. When the thermostat is satisfied and W1 is deenergized, the IFM stops after a 45-second time-off delay. The economizer damper moves to the minimum position. When the thermo- stat is satisfied, the damper moves to the fully closed position.

SERVICE

CAUTION: When servicing unit, shut off all elec- trical power to unit and tag disconnect to avoid shock hazard or injury from rotating parts.

I. CLEANING

Inspect unit interior at the beginning of each heating and cooling season or more frequently as operating conditions require.

A. Evaporator Coil

Clean coil as required. Inspect coil at beginning of heating and cooling seasons.

1.Turn unit power off and install lockout tag. Remove evaporator coil access panel.

2.If economizer is installed, remove economizer by dis- connecting Molex plug and removing economizer mounting screws. Refer to Accessory Economizer Installation Instructions or Optional EconoMi$er+ section on page 18 for more details.

3.Remove filters from unit.

4.Clean coil using a commercial coil cleaner or dish- washer detergent in a pressurized spray canister. Wash both sides of coil and flush with clean water. For best results, back-flush toward return-air section to remove foreign material. Caution should be taken

as to not overflow the evaporator drain condensate pan.

5.Flush condensate pan after completion.

6.Reinstall economizer and filters.

7.Reconnect wiring.

8.Replace access panels.

B. Condenser Coil

Inspect coil monthly. Clean condenser coil annually, and as required by location and outdoor-air conditions.

One-Row Coils

Wash coil with commercial cleaner. Clean outer surfaces with a stiff brush in the normal manner. It is not necessary to remove top panel.

2-Row Coils

Clean coil as follows:

1.Turn off unit power and install lockout tag.

2.Remove top panel screws on condenser end of unit.

3.Remove condenser coil corner post. See Fig. 37. To hold top panel open, place coil corner post between top panel and center post. See Fig. 38.

4.Remove screws securing coil to center post.

5.Remove fastener holding coil sections together at return end of condenser coil. Carefully separate the outer coil section 3 to 4 in. from the inner coil section. See Fig. 39.

6.Use a water hose or other suitable equipment to flush down between the 2 coil sections to remove dirt and debris. Clean the outer surfaces with a stiff brush in the normal manner.

7.Secure inner and outer coil rows together with a field- supplied fastener.

8.Reposition the outer coil section and remove the coil corner post from between the top panel and center post.

9.Reinstall the coil corner post and replace all screws.

C. Condensate Drain

Check and clean each year at start of cooling season. In win- ter, keep drain dry or protect against freeze-up.

D. Filters

Clean or replace at start of each heating and cooling season, or more often if operating conditions require it. Replacement filters must be same dimensions as original filters.

Fig. 37 — Cleaning Condenser Coil

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Contents Contents Important Read Before InstallingSafety Considerations InstallationBase Unit Dimensions 580F090,102,120,150 Base Unit Dimensions 580F091,103,121,151 Alternate Unit Support III. Install External Trap for CONDEN- Sate DrainSlab Mount Horizontal Units Only II. Field Fabricate DuctworkCRBTMPWR003A01 CRBTMPWR002A01CRBTMPWR004A01 CRRFCURB003A01Unit Leveling Tolerances Operating Dimensions Unit Weight Physical Data 580F090, 102, 120, 150 Units LOW Furnace SectionMED High091 103 121 151 Nominal Capacity tons 091 103 121 151 VI. Install GAS Piping Install Flue HoodField Power Supply Field Control WiringElectrical Data Without Convenience Outlet Heat Anticipator SettingsUnbalanced 3-Phase Supply Voltage Power Exhaust Electrical Data MCA MocpVoltage Type Electrical Data With Convenience OutletRLA LRA FLA FAN Motor MCA Mocp LRANEC IFCManual Outdoor-Air Damper VIII. Adjust FACTORY-INSTALLED OptionsWith Hood Attached ScrewsHood BOX Optional EconoMi$er+Bracket IAQ OATORH IarhDamper Movement EconoMi$er+ Controller WiringThermostats Outdoor Air Temperature OAT Sensor Provided EconoMi$er+ Field-Installed AccessoriesSupply Air Temperature SAT Sensor Provided Return Air Temperature RAT SensorIndoor Air Humidity Sensor Outdoor Air Humidity SensorVertical ECONOMI$ER+ 3 to 12 1/2 TON Units Temperature Resistance Low High Range ResolutionRemote EconoMi$er+ Enable Control Power ExhaustRemote Potentiometer Occupied Minimum Position Demand Ventilation Control CO2 Sensor ConfigurationIX. Adjust EVAPORATOR-FAN Speed CO2 Sensor* Standard SettingsUnit Motor Efficiency Evaporator-Fan Motor EfficiencyGeneral Notes for FAN Performance Data Tables Evaporator-Fan Motor PerformanceUnit EVAPORATOR-FAN Maximum Acceptable Continuous BHP2300 521 531 2250 513 5052400 535 584 2500 551 642741 671 972 713 665 940802 684 8661222 791 1489 2400 535 584 1187 786 1453 2300 521 5311293 802 1566 2500 551 642 866 6963900 38004000 4100 4200 42502156 3800 761 18423900 777 1974 2296978 1447 3200 962 1373 3100942 1323 993 1524 3300 958 1400 1008 1604 34003100 746 713 811 883 3000 726 656 793 8223200 766 773 829 947 3300 786 836Airflow 3800 744 1361 804 1572 3700 728 1266 789 1473 8483900 760 1460 819 1676 4000 777 1563 834 17854000 777 1563 3700 728 1266 789 14734100 793 1672 1139 4208 5200681 2250 505 4842300 513 509 2400 527 561708 663 931 681 657 901766 674 993 8941174 787 1437 2400 527 561 1142 782 1403 2300 513 5091241 796 1508 2500 543 617 828 6864200 4250 2074 3800 753 17833900 770 1912 2209765 3000 555 6303100 568 686 8251048 814 1198 3100 568 686 765 696 904825 706 968 1115 823 1269 3200 582 745955 728 1106 888 717 10351026 739 1181 1100 750 12591328 811 3700 676 11063800 690 1185 1414 8233800 690 1185 760 1414 823 3700 676 1106 747 1328 8113900 705 1269 773 1503 4000 719 1357 786 1597VII. Refrigerant Service Ports Internal WiringPRE-START-UP START-UP Unit PreparationXI. Main Burners CoolingXII. Heating XIII. Integrated GAS Controller IGC Operation XIV. Safety ReliefXVI. ECONOMI$ER+ Controller DS1 DS2 DS3 DS4 EconoMi$er+ Controller BoardEconoMi$er+ Inputs and Outputs Start-Up Mode SequenceSetup Points Units Minimum Maximum Factory INC Comments Configuration Variables Read and Setup ModesValue Setting Input/Output ChannelsSetup Mode Error Mode Manual ModeCompressor Configuration And Control XVII. ECONOMI$ER+ ConfigurationVentilation Air And Free Cooling Power Exhaust Configuration Demand Ventilation ConfigurationCooling, Units Without EconoMi$er+ XVIII. Operating SequenceHeating, Units Without EconoMi$er+ Cooling, Units With EconoMi$er+Service Cleaning VI. Economizer Adjustment IV. Blower Belt AdjustmentVIII. HIGH-PRESSURE Switch IX. LOSS-OF-CHARGE SwitchCooling Charging Chart 580F090 To Use Cooling Charging ChartCooling Charging Chart 580F120 Cooling Charging Chart 580F091 Cooling Charging Chart 580F121 XII. Flue GAS Passageways XIV. Limit SwitchXIII. COMBUSTION-AIR Blower XV. Burner IgnitionXVII. Replacement Parts Cleaning and AdjustmentTroubleshooting ECONOMI$ER+ Troubleshooting II. Unit Troubleshooting Problem Cause Remedy Cooling Service TroubleshootingHeating Service Troubleshooting Typical Unit Wiring Schematic 208/230-3-60 Unit Shown Appendix a ECONOMI$ER+ Label Startup ModeAppendix a ECONOMI$ER+ Label Appendix B JOB Specific ECONOMI$ER+ Configuraiton Settings Index Call for Free Catalog Service TrainingPage Remove and Store in Job File START-UP ChecklistPreliminary Information III. START-UP Electrical
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580F specifications

The Bryant 580F is a highly regarded gas furnace known for its exceptional heating performance and advanced technology. Designed for residential use, this model stands out for its reliability, efficiency, and user-friendly features that cater to modern heating demands.

One of the most notable features of the Bryant 580F is its efficiency rating. With an AFUE (Annual Fuel Utilization Efficiency) rating of up to 95%, this furnace maximizes heat output while minimizing energy consumption. This high level of efficiency not only results in lower utility bills but also reduces the environmental impact—a critical consideration for today’s eco-conscious homeowners.

The Bryant 580F is equipped with a multi-speed blower that ensures consistent airflow and enhances comfort by maintaining even temperatures throughout the home. This technology allows the furnace to adjust its operation based on the heating needs, leading to quieter operation and increased comfort levels.

In terms of construction, the Bryant 580F is built with durable materials that promise longevity and resilience against wear and tear. Its compact design makes installation easier, allowing it to fit into tight spaces without compromising its performance.

One of the standout technologies integrated into the Bryant 580F is its enhanced control system. The furnace works seamlessly with smart thermostats, allowing homeowners to monitor and adjust heating settings from their mobile devices. This feature not only provides convenience but also allows for energy-saving optimizations based on personal schedules and preferences.

Safety is also a primary concern with the Bryant 580F. It includes robust safety features such as a hot surface ignition system that eliminates the need for a standing pilot light, reducing the risk of gas leaks. Additionally, advanced diagnostics help in troubleshooting and maintenance, ensuring that potential issues can be identified and resolved quickly.

In conclusion, the Bryant 580F gas furnace is a remarkable choice for those seeking a blend of efficiency, comfort, and advanced technology. Its high AFUE rating, multi-speed blower, smart control compatibility, and safety features make it a reliable option for homeowners looking to invest in a dependable heating solution. As the demand for energy-efficient heating continues to grow, the Bryant 580F stands out as a model that meets and exceeds expectations in the modern heating landscape.
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