Bryant 580F Demand Ventilation Configuration, Power Exhaust Configuration

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Compressor Lockout Temperature

Set the Compressor Lockout Temperature. The Compressor Lockout Temperature (CMP_LOCK) is used to prevent com- pressor from running at low ambient conditions when an EconoMi$er+ can easily satisfy the load.

EconoMi$er+ Changeover Control

Determine the type of EconoMi$er+ changeover control which will be used to enable and disable free cooling. This is done using the EconoMi$er+ Changeover Type.

1.Switch — This changeover setting is used when a remote signal from an energy management system will enable and disable the EconoMi$er+. This is done through a remote EconoMi$er+ enable switch.

2.Outdoor Dry Bulb — For this changeover setting, the EconoMi$er+ will be enabled based on the outside-air temperature. The EconoMi$er+ is shipped with an outside air temperature sensor. The outside air tem- perature set point can be configured by the user. The EconoMi$er+ will be disabled when the outdoor-air temperature rises above the set point. The configura- tion variable is the EconoMi$er+ Changeover set point (OAT_SP).

3.Differential Dry Bulb — For this changeover setting, the EconoMi$er+ will be enabled whenever the out- side-air temperature is lower than the return-air temperature. No configuration of set points is re- quired other than to select the differential dry bulb function.

4.Outdoor Enthalpy — For this changeover setting, the control will enable the EconoMi$er+ based on the outside-air enthalpy curves as shown in Fig. 29. Us- ing the EconoMi$er+ Changeover set point (ENTHALPY_SP), select curves A, B, C or D. The control will then use the EconoMi$er+ at condi- tions below the curve. The control uses the OAT and optional humidity sensor to calculate the enthalpy and also has the A, B, C, and D curves stored in memory.

5.Differential Enthalpy — For this changeover setting, the EconoMi$er+ will be enabled based on the com- parison of the enthalpy of the return air and outside air. If the outside air enthalpy is lower than the re- turn air, then the EconoMi$er+ will be enabled. To use this option, an accessory outside air humidity sensor, a return air dry bulb sensor and a return air humidity sensor must be ordered and installed. No configuration of set points is required other than to select the function.

C.Demand Ventilation Configuration

The EconoMi$er+ control has demand ventilation control capability when using an IAQ sensor. The indoor air quality (IAQ) is measured using a CO2 sensor. The IAQ sensor can be field-installed in the return duct or the occupied space.

The EconoMi$er+ control algorithm modulates the position of the EconoMi$er+ damper between two user configurations depending upon the relationship between the IAQ and the Outdoor Air Quality (OAQ). The lower of these two positions is referred to as the Minimum IAQ Minimum EconoMi$er+ Position (IAQMIN_SP).

The higher position is referred to as the Occupied EconoMi$er+ Minimum Position (ECONOMIN_SP). The IAQMIN_SP should be set to an EconoMi$er+ position that brings in enough fresh air to remove contaminants and CO2 generated by sources other than people. The ECONOMIN_SP should be set to an EconoMi$er+ position that brings in enough fresh air to remove contaminants and

CO2 generated by all sources including people at the design value for maximum occupancy.

Areference differential CO2 level above the outside CO2 level is used as the starting point for IAQ control and another reference differential level for maximum ventilation at design occupancy is used for the end of IAQ control. Between these points the control will modulate the dampers open from the IAQMIN_SP and the ECONOMIN_SP set- points. The damper position will never go above ECONOMIN_SP or below IAQMIN_SP.

The control does not measure the outdoor IAQ reference level as these levels are relatively constant. The installer should take a measurement at start-up of the unit and enter this value into the control using the Outdoor Air IAQ refer- ence level configuration.

The control is configured for air quality sensors which pro- vide 4 mA at 0 ppm and 20 mA at 2000 ppm. If a sensor has a different range, these bounds must be reconfigured.

To configure the control for an IAQ sensor perform the fol- lowing steps:

1.Determine the Occupied EconoMi$er+ Minimum position (ECONOMIN_SP) and enter it into the control.

2.Determine the IAQ minimum EconoMi$er+ position (IAQMIN_SP) and enter it into the control.

3.Enable IAQ control using IAQ Enable (IAQ_FLG).

4.Determine the Outdoor Air IAQ Reference (OAQ) and enter it into the control.

NOTE: The value entered into the control will be the

CO2 ppm level divided by 10. For example, 400 ppm would be entered as 40.

5.Determine the lower control point differential level (DAQLO) and enter it into the control. This is a dif- ferential level so if the desired level to start IAQ con- trol is 500 ppm and the OAQ reference level is 400 then a value of 100 would be used.

NOTE: The value entered into the control will be the

CO2 ppm level divided by 10. For example 100 ppm would be entered as 10.

6.Determine the upper control point differential level (DAQHI) and enter it into the control. This is a differ- ential level so if the desired level to start IAQ control is 1100 ppm and the OAQ reference level is 400 then a value of 700 would be used.

NOTE: The value entered into the control will be the

CO2 ppm level divided by 10. For example 700 ppm would be entered as 70.

D.Power Exhaust Configuration

The EconoMi$er+ can control up to 2 stages of power exhaust. Power exhaust activation is done through config- urable damper position set points. The first stage of power is controlled by relay C4 on the EconoMi$er+ board. The acti- vation point for the first stage is set using the Power Exhaust Stage 1 Activation set point (PE_SP1). The second stage of power exhaust must be set at a value greater than the first stage. It is configured using the Power Exhaust Stage 2 Activation set point (PE_SP2).

XVI. OPERATING SEQUENCE

A. Cooling, Units without EconoMi$er+

When thermostat calls for cooling, terminals G and Y1 and the compressor contactor (C) are energized. The indoor (evaporator) fan motor (IFM), compressor, and outdoor (con- denser) fan motor (OFM) start. The OFM runs continuously

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Contents Contents Important Read Before InstallingSafety Considerations InstallationBase Unit Dimensions 580F036-072 Base Unit Dimensions 580F073 Alternate Unit Support III. Install External Trap for CONDEN- Sate DrainII. Field Fabricate Ductwork IV. RIG and Place UnitConnector ALT Accessory Drain GAS Unit Size Accessory CRRFCURB001A01PKG. Accy Hole Power CRRFCURB002A01VI. Install GAS Piping Install Flue HoodRigging Details Unit 580F MAX WeightPhysical Data Freeze Protection Thermostat F Furnace SectionOUTDOOR-AIR Inlet Screens RETURN-AIR FiltersField Control Wiring Field Power SupplyHeat Anticipator Settings VII. Make Electrical ConnectionsPower Wiring Connections RLA LRA FLA MCA MOCP† Electrical Data Without Convenience OutletElectrical Data With Convenience Outlet Manual Outdoor-Air Damper VIII. Adjust FACTORY-INSTALLED OptionsOptional EconoMi$er+ Hood BOXBracket IAQ OarhOAT IarhEconoMi$er+ Controller Wiring Damper MovementThermostats Outdoor Air Temperature OAT Sensor Provided EconoMi$er+ Field-Installed AccessoriesSupply Air Temperature SAT Sensor Provided Return Air Temperature RAT SensorOutdoor Air Humidity Sensor Indoor Air Quality Voltage SettingRange Resolution Temperature ResistanceEnthalpy Changeover Settings Power Exhaust Occupied/Unoccupied SwitchRemote EconoMi$er+ Enable Control Indoor Air Humidity SensorFull Occupancy CO2 Sensor ConfigurationVentilation Rate Ventilation for PeopleIX. Adjust EVAPORATOR-FAN Speed Direct-Drive MotorsBelt-Drive Motors Motor Data Fan Rpm at Motor Pulley Settings768 External Static Pressure in. wg Cfm Rpm Bhp Watts 900870 958955 External Static Pressure in. wg Cfm Rpm Bhp Watts1181 970 1073Low Speed 802 370840 432 624 802 370 912 489773 935663 967 579757 856Bhp Watts 900 Airflow Low Speed High Speed884 941762 705 859 458 944 579886 517 969 644 777828 413 790 353866 479 790 353 896 470 990 599866 479 964 607 1053 746 828 413 930 535 1021 669905 553 1000 687 1085 831 944 635 1036 775 1119 924867 771986 966VI. Refrigerant Service Ports IV Internal WiringPRE-START-UP START-UP Unit PreparationIX. Cooling Main BurnersXI. Heating XII. Safety Relief XIII. Ventilation Continuous FANXIV. ECONOMI$ER+ Controller Input Name Type USE INPUT/OUTPUT Conversion Connection PIN DS1 DS2 DS3 DS4Thermostat Inputs Economizer MotorStart-Up Mode Sequence Configuration Variables Read and Setup ModesInput/Output Channels Setup Mode Manual Mode Error ModeXV. ECONOMI$ER+ Configuration Ventilation Air and Free Cooling Compressor Configuration and ControlPower Exhaust Configuration Demand Ventilation ConfigurationXVI. Operating Sequence Cooling, Units without EconoMi$er+Cooling, Units with EconoMi$er+ Heating, Units without EconoMi$er+Service Cleaning ECONOMI$ER+ Adjustment III. Blower Belt AdjustmentII. Lubrication IV. Manual OUTDOOR-AIR DamperXIII. HIGH-PRESSURE Switch Limit SwitchXIV. Loss of Charge Switch XVI. Replacement PartsSuction Line Temperature DEG. F Suction Line Temperature DEG. CSuction Line Pressure Kilopascals Suction Line Pressure PsigTON Unit 60 Hz Charging Chart Burner Section Details Troubleshooting ECONOMI$ER+ Troubleshooting Unit Always in Unoccupied Mode Error Code 8 E2 Test FailureII. Unit Troubleshooting RAM Test FailureHeating Service Analysis LED Error Code Service AnalysisCooling Service Analysis GND FPTGVR HPSAppendix a ECONOMI$ER+ Label Startup ModeAppendix a ECONOMI$ER+ Label Appendix B JOB Specific ECONOMI$ER+ Configuration Settings Index Call for Free Catalog Service TrainingPage Temperatures 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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