Bryant 580F CO2 Sensor Configuration, Full Occupancy, Ventilation Rate, Ventilation for People

Page 23

minimum position (configuration item number 15), unless the remote potentiometer is used to override it.

For the demand ventilation control logic, the user configures the lower and upper actuator position to establish the base ventilation rate (IAQMIN_SP) and the design ventilation rate (ECONOMIN_SP) for full occupancy. When the EconoMi$er+ damper is being modulated for demand venti- lation control, the damper position will be between IAQMIN_SP and ECONOMIN_SP. The upper IAQ differen- tial set point is DAQHI. The lower IAQ differential set point is DAQLO.

The differential set points represent the differential CO2 level (in ppm) above the outdoor reference IAQ levels. Normally, the outdoor reference IAQ levels are around 400 ppm, but the value should be configured based on the reference levels taken at the job site.

The following equation is used to determine EconoMi$er+ damper position (ECONOMIN_POS):

(ECONOMIN_SP – IAQMIN_SP) * (IAQ – OAQ – DAQLO)

IAQMIN_SP + =

(DAQHI – DAQLO)

R. CO2 Sensor Configuration

The CO2 sensor has preset standard voltage settings that can be selected anytime after the sensor is powered up. See Table 7.

1.Press Clear and Mode buttons. Hold at least 5 sec- onds until the sensor enters the Edit mode.

2.Press Mode 2 times. The STDSET Menu will appear.

3.Use the Up/Down button to select the preset number. See Table 7.

4.Press Enter to lock in the selection.

Press Mode to exit and resume normal operation. The cus- tom settings of the CO2 sensor can be changed any time after the sensor is energized. Follow the steps below to change the non-standard settings:

1.Press Clear and Mode buttons. Hold at least 5 sec- onds until the sensor enters the Edit mode.

2.Press Mode 2 times. The STDSET Menu will appear.

3.Use the Up/Down button to toggle to the NONSTD menu and press Enter.

4.Use the Up/Down button to toggle through each of the nine variables, starting with Altitude, until the desired setting is reached.

5.Press Mode to move through the variables.

6.Press Enter to lock in the selection, then press Mode to continue to the next variable.

S.Dehumidification of Fresh Air with Demand Control Ven- tilation (DCV)

Information from ASHRAE (American Society of Heating, Refrigeration and Air Conditioning Engineers) indicates that the largest humidity load on any zone is the fresh air intro- duced. For some applications, a device such as a energy recovery unit is added to reduce the moisture content of the fresh air being brought into the building when the enthalpy is high. In most cases, the normal heating and cooling pro- cesses are more than adequate to remove the humidity loads for most commercial applications.

This makes the control of the dehumidification device simple when using the enthalpy or differential enthalpy sensor. The enthalpy sensor or differential enthalpy sensor is installed on the equipment to determine economizer operation. The high enthalpy signal from the temperature and humidity sensors or differential temperature and humidity sensors can be used to turn on the outdoor air moisture removal device any time fresh air is required for the space.

The energy recovery device should be sized for maximum latent and sensible conditioning at maximum ventilation on a design day.

A calculation for leaving-air temperature on a low ambient, low ventilation day should also be done to determine the supply-air temperature of the return and pre-conditioned outside air. The design should produce air temperature somewhat near room conditions to prevent reheat of the air mixture. The energy recovery device should be interlocked with the heat to turn off the device when in the heat mode.

DAMPER

 

 

 

POSTION

 

 

 

 

 

FULL OCCUPANCY

 

ECONOMIZER

 

VENTILATION RATE

 

MINIMUM

 

 

 

OCCUPIED

 

 

 

DAMPER

 

 

 

POSITION

 

 

 

(ECONOMIN_SP)

 

 

 

 

VENTILATION FOR PEOPLE

IAQ

 

 

 

MINIMUM

 

 

 

ECONOMIZER

 

 

 

POSITION

 

 

 

SET POINT

VENTILATION FOR SOURCES

(IAQMIN_SP)

 

 

 

 

 

 

CO2 LEVEL

OUTDOOR REFERENCE

100

700

INSIDE/OUTSIDE CO2 DIFFERENTIAL

LEVEL (OAQ)= 400

500

1100

INSIDE CO2 CONCENTRATION

AQ

AQ

DIFFERENTIAL

DIFFERENTIAL

LOW (DAQLO)

HIGH (DAQHI)

Fig. 32 — Demand Ventilation Control

Table 7 — CO2 Sensor* Standard Settings

 

 

 

VENTILATION

ANALOG

CO2 CONTROL

OPTIONAL

RELAY

SETTING

EQUIPMENT

OUTPUT

RATE

RELAY SETPOINT

HYSTERESIS

 

 

 

(cfm/Person)

OUTPUT

RANGE (ppm)

(ppm)

(ppm)

 

 

 

 

 

1

Interface with Standard

Proportional

Any

4-20 mA

0-2000

1000

50

2

Proportional

Any

7-20 mA

0-2000

1000

50

Building Control System

3

Exponential

Any

4-20 mA

0-2000

1100

50

 

4

 

Proportional

15

4-20 mA

0-1100

1100

50

5

Economizer

Proportional

20

4-20 mA

0- 900

900

50

6

Exponential

15

4-20 mA

0-1100

1100

50

 

7

 

Exponential

20

4-20 mA

0- 900

900

50

8

Health & Safety

Proportional

4-20 mA

0-9999

5000

500

9

Parking/Air Intakes/ Loading Docks

Proportional

4-20 mA

0-2000

700

50

LEGEND

ppm — Parts Per Million

*Available sensor part numbers are listed in Table 4.

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Contents Installation Important Read Before InstallingContents Safety ConsiderationsBase Unit Dimensions 580F036-072 Base Unit Dimensions 580F073 IV. RIG and Place Unit III. Install External Trap for CONDEN- Sate DrainAlternate Unit Support II. Field Fabricate DuctworkCRRFCURB002A01 Unit Size Accessory CRRFCURB001A01Connector ALT Accessory Drain GAS PKG. Accy Hole PowerVI. Install GAS Piping Install Flue HoodRigging Details Unit 580F MAX WeightPhysical Data RETURN-AIR Filters Furnace SectionFreeze Protection Thermostat F OUTDOOR-AIR Inlet ScreensVII. Make Electrical Connections Field Power SupplyField Control Wiring Heat Anticipator SettingsPower Wiring Connections RLA LRA FLA MCA MOCP† Electrical Data Without Convenience OutletElectrical Data With Convenience Outlet Manual Outdoor-Air Damper VIII. Adjust FACTORY-INSTALLED OptionsBracket Optional EconoMi$er+Hood BOX Iarh OarhIAQ OATThermostats EconoMi$er+ Controller WiringDamper Movement Return Air Temperature RAT Sensor EconoMi$er+ Field-Installed AccessoriesOutdoor Air Temperature OAT Sensor Provided Supply Air Temperature SAT Sensor ProvidedOutdoor Air Humidity Sensor Indoor Air Quality Voltage SettingRange Resolution Temperature ResistanceEnthalpy Changeover Settings Indoor Air Humidity Sensor Occupied/Unoccupied SwitchPower Exhaust Remote EconoMi$er+ Enable ControlVentilation for People CO2 Sensor ConfigurationFull Occupancy Ventilation RateBelt-Drive Motors IX. Adjust EVAPORATOR-FAN SpeedDirect-Drive Motors Motor Data Fan Rpm at Motor Pulley Settings958 External Static Pressure in. wg Cfm Rpm Bhp Watts 900768 8701073 External Static Pressure in. wg Cfm Rpm Bhp Watts955 1181 970840 432 Low Speed802 370 935 802 370 912 489624 773856 967 579663 757941 Airflow Low Speed High SpeedBhp Watts 900 884762 777 859 458 944 579705 886 517 969 644790 353 896 470 990 599 790 353828 413 866 479944 635 1036 775 1119 924 828 413 930 535 1021 669866 479 964 607 1053 746 905 553 1000 687 1085 831966 771867 986START-UP Unit Preparation IV Internal WiringVI. Refrigerant Service Ports PRE-START-UPXI. Heating IX. CoolingMain Burners XIV. ECONOMI$ER+ Controller XII. Safety ReliefXIII. Ventilation Continuous FAN Economizer Motor DS1 DS2 DS3 DS4Input Name Type USE INPUT/OUTPUT Conversion Connection PIN Thermostat InputsInput/Output Channels Start-Up Mode SequenceConfiguration Variables Read and Setup Modes Setup Mode XV. ECONOMI$ER+ Configuration Manual ModeError Mode Ventilation Air and Free Cooling Compressor Configuration and ControlCooling, Units without EconoMi$er+ Demand Ventilation ConfigurationPower Exhaust Configuration XVI. Operating SequenceCooling, Units with EconoMi$er+ Heating, Units without EconoMi$er+Service Cleaning IV. Manual OUTDOOR-AIR Damper III. Blower Belt AdjustmentECONOMI$ER+ Adjustment II. LubricationXVI. Replacement Parts Limit SwitchXIII. HIGH-PRESSURE Switch XIV. Loss of Charge SwitchSuction Line Pressure Psig Suction Line Temperature DEG. CSuction Line Temperature DEG. F Suction Line Pressure KilopascalsTON Unit 60 Hz Charging Chart Burner Section Details Troubleshooting ECONOMI$ER+ Troubleshooting RAM Test Failure Error Code 8 E2 Test FailureUnit Always in Unoccupied Mode II. Unit TroubleshootingHeating Service Analysis LED Error Code Service AnalysisCooling Service Analysis HPS FPTGND GVRAppendix a ECONOMI$ER+ Label Startup ModeAppendix a ECONOMI$ER+ Label Appendix B JOB Specific ECONOMI$ER+ Configuration Settings Index Call for Free Catalog Service TrainingPage III. START-UP Electrical START-UP ChecklistTemperatures Preliminary Information
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580F specifications

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