Carrier 33ZCSECTRM, 33ZCFANTRM, 33ZCVAVTRM specifications Commissioning Mode Display Range

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Next Unoccupied Time — This variable displays the time of day when the next unoccupied period is scheduled to begin. This point is read in conjunction with the next unoccupied day to allow the user to know the next time and day when the zone will become unoccupied. If the zone controller is following a global schedule this point will remain at default.

NOTE: If the current mode is unoccupied, this point makes reference to the next unoccupied period and, in most cases, may not be the same as the current unoccupied start time.

Next Unoccupied

 

 

Time:

Display Range

00:00 to 24:00

 

Default Value

0:00

 

Network Access

None

Last Unoccupied Day — This variable displays the last day when the zone changed from occupied to unoccupied mode. This point is read in conjunction with the last unoccupied time to allow the user to know the last time and day when the zone became unoccupied. If the zone controller is following a global schedule this point will remain at default.

Last Unoccupied

 

 

Day:

Display Range

MON, TUE, WED,

 

 

THU, FRI, SAT, SUN

 

Default Value

No display (Blank)

 

Network Access

None

Last Unoccupied Time — This variable displays the last time of day when the zone changed from occupied to unoccupied mode. This point is read in conjunction with the last unoccu- pied day to allow the user to know the last time and day when a zone became unoccupied. If the zone controller is following a global schedule this point will remain at default.

Last Unoccupied

 

 

Time:

Display Range

00:00 to 24:00

 

Default Value

0:00

 

Network Access

None

ZONE AIR BALANCE/COMMISSIONING TABLE — The Zone Air Balance/Commissioning Table is used to display the air balance variables. See Table 15.

Commissioning Mode — This variable is used to put the zone controller into the commissioning mode. Force this point to en- able. The zone controller will be ready to accept a command to perform the tests and functions on this screen.

NOTE: Commissioning mode will automatically be dis- abled after one hour.

Commissioning

 

 

Mode:

Display Range

Dsable/Enable

 

Default Value

Dsable

 

Network Access

Read /Write

Damper Actuator/Transducer Calibration — The Damper Actuator Transducer calibration is the first calibration which should be performed on a newly installed actuator. The zone controller will command the actuator to close and read the feedback potentiometer to determine the zero position of the damper. It will then command the damper to fully open. The zone controller will read the potentiometer to determine the maximum open position. Damper positions from closed to maximum open will be scaled to read 0 to 100% for the damp- er position.

The zone controller will then close the damper and open it once more to zero calibrate the airflow sensor. The entire calibration procedure can take up to 3 minutes. If the damper fails the test or the airflow calibration is unable to be complet- ed, the Auto-Calibration point will indicate an Alarm.

Damper Actuator

 

 

Transducer

 

 

Calibration:

Display Range

Dsable/Enable

 

Default Value

Dsable

 

Network Access

Read /Write

Maximum Cooling Airflow Calibration — By enabling the Maximum Cooling Airflow Calibration, the Maximum Cool- ing Airflow from the set point schedule will be made the Air- flow CFM Set Point. The zone controller will modulate the damper to control to this set point. The actual airflow, damper position, and velocity pressure readings will be displayed.

If the set point is not correct, it may be changed from this screen by forcing the airflow set point to the desired value. The value will be written to the set point schedule in the Maximum Cool CFM set point, and the zone controller will begin to con- trol to the new value.

The airflow can be measured using test and balance equip- ment and compared to the actual reading on the screen. If the value measured requires adjustment to the value on the screen, force the value on the screen to the value measured. The zone controller will take the value and calculate a new calibration gain which will be shown at the bottom of the screen. The new value will be automatically loaded into the Service Configura- tion table.

Maximum Cooling

 

Airflow

 

 

Calibration:

Display Range

Dsable/Enable

 

Default Value

Dsable

 

Network Access

Read /Write

Minimum Cooling Airflow Calibration — Enabling the Min- imum Cooling Airflow Calibration will cause the airflow CFM set point to change to the Minimum Cooling set point. The ac- tual airflow, damper position, and velocity pressure readings will be displayed.

If the set point is not correct, it may be changed from this screen by forcing the Airflow set point to the desired value. The value will be written to the set point schedule in the Mini- mum Cool CFM set point, and the zone controller will begin to control to the new value.

The airflow can be measured using test and balance equip- ment and compared to the actual reading on the screen. If the value measured requires adjustment to the value on the screen, force the value on the screen to the value measured. The zone controller will take the value and calculate a new offset.

The Offset configuration is included for precision applica- tions where the minimum airflow is critical and not zero. The Offset configuration should not be used to zero the airflow transducer since an auto zero test is included in the normal function of the zone controller and is automatically performed each time the equipment fan is disabled (or every 72 hours for systems which run the fan continuously). After performing air balance testing using the Air Balance Maintenance screen, it is a good idea to upload and save the Airflow set points, Calibra- tion Gain, and Offset values.

Minimum Cooling

 

 

Airflow

 

 

Calibration:

Display Range

Dsable/Enable

 

Default Value

Dsable

 

Network Access

Read /Write

Fan Override — This variable can be used to test the fan on se- ries and parallel fan powered terminals. Enabling this point will cause the terminal fan to run until this point is disabled or the commissioning mode is ended.

Fan Override:

Display Range

Dsable/Enable

 

Default Value

Dsable

 

Network Access

Read /Write

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Contents Installation, Start-Up Configuration Instructions General Typical Carrier Linkage System HF23BJ042 → Zone Controller Physical Details 33ZCFANTRM Shown→ Single Duct Air Terminal Zone Controller → VAV Fan Terminal Zone ControllerZone Controller Damper Configuration Low Low Yel Blu Ora Red Wht Com SPT HF23BJ042 PAT Yel → J Zone Controller Wiring Dual Duct Applications Zone Controller Wiring Dual Duct Applications → Install Sensors Airflow Pickup Installation Space Temperature Sensor Wiring Communication Bus Wiring to Zone Controller Primary Air Temperature Sensor Part Number 33ZCSENPAT Indoor Air Quality CO2 Sensor → Supply Air Temperature Probe Part No Zcsensat LocationsVentilation Rated Based on CO2 Set Point → Indoor Air Quality Sensor WiringColor Code Recommendations Recommended CablesHumidity Sensor Wiring → Remote Occupancy Wiring Communication Bus Wiring → Typical Water Valve and Sensor InstallationInitial Operation and Test Perform the following → Points Display Screen Configuration→ Alarm Limit Configuration Screen Default Value Display range Network Access Read/WritePPM → Linkage Coordinator Configuration Screen = low, 3 = high Occupancy Schedule Information Screen → Set Point Screen Airflow Service Configuration ScreenRange Default Value Rndsz Terminal Service Configuration ScreenClockwise Rotation Range Options Service Configuration Screen Default Value NormalPpm parts per million Srndsz Secondary Damper Service Configuration ScreenCOOLING, Heating → Linkage Maintenance Screen Occupancy Maintenance Screen Commissioning Mode Display Range → Zone Air Balance/Commissioning Table → Zone Maintenance Table Read/Write Page Copyright 1999 Carrier Corporation

33ZCSECTRM, 33ZCVAVTRM, 33ZCFANTRM specifications

The Carrier 33ZCFANTRM, 33ZCSECTRM, and 33ZCVAVTRM are advanced air conditioning units designed for commercial and light industrial applications. These models represent Carrier's commitment to innovation and energy efficiency, offering unbeatable performance while ensuring minimal environmental impact.

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