Instruction manual
Table Of Contents
- Introduction
- Using the Keypad/Display
- Keypad/Display Menu Structure
- System Summary Menu
- Standard Menus
- System Menu
- Occupancy Menu
- Temperature Menu
- Flow Summary Menu
- Supply Fan Speed Menu
- Return/Exhaust Fan Speed Menu
- Cooling Menu
- Head Pressure Menu
- Evap Condensing Menu
- Economizer Menu
- Min OA Damper Menu
- Heating Menu
- Energy Recovery
- Dehumidification Menu
- Daily Schedule Menu
- One Event Schedule Menu
- Holiday Schedule Menu
- Optimal Start Menu
- Operating Hours Menu
- Extended Menus
- Unit Setup Menu
- Timer Settings Menu
- Time/Date Menu
- Supply Fan Setup Menu
- Return/Exhaust Fan Setup Menu
- Zone Temperature Setup Menu
- Compressor Setup Menu
- Head Pressure Setup Menu
- Chilled Water Setup Menu
- Economizer Setup Menu
- Design Flow Setup Menu
- Heating Setup Menu
- Dehumidification Setup Menu
- Alarm Out Configuration Setup Menu
- Alarm Limits Setup Menu
- Manual Control Menu
- LON/BACnetIP/BACnetMSTP Setup Menu
- Active Alarm Menu
- Alarm Log Menu
- Advanced Menus
- Unit Configuration Setup Menu
- Save/Restore Menu
- Alarm Delays Setup Menu
- Analog Input Status Menu
- Universal I/O Status Menu
- Digital Input Status Menu
- Digital Output Status Menu
- Adv Setup Settings Menu
- Adv Status Parameters Menu
- Alarms
- Operator’s Guide
- Determining Unit State
- Off Operating State
- Start Up Operating State
- Recirculating Operating State
- Heating
- Economizer
- Mechanical Cooling
- Determining Unit Status
- Determining Control Mode
- Determining Cooling Status
- Determining Heat Status
- Determining Economizer Status
- Determining Cooling Capacity
- Determining Heating Capacity
- Determining Supply Air Fan Capacity
- Determining RF/EF Capacity
- Determining Outside Air Damper Position
- Determining Emergency Mode
- Determining Application Mode
- Determining Occupancy Status
- Determining Occupancy Mode
- Determining Occupancy Source
- Unoccupied Operation
- Scheduling
- Temperature Control Configurations
- Heat/Cool Changeover
- Dehumidification
- Energy Recovery
- Outside Air Damper Control
- Outside Air Damper Control, Two Position
- Special Procedures for Units with WRV and More Than Two Circuits.
- Water Pump Control
- Cooling: Multistage
- Cooling: Modulating
- Heating Control
- Modulating
- Min DAT
- Indoor Air Fan - On/Off Control
100 McQuay OM 920
Operator’s Guide
The number of compressor stages increases when:
• The time since the last stage change exceeds the cooling stage timer AND
• Discharge air temperature is greater than the Discharge Cooling Setpoint by more than half
the deadband AND
• The current cooling stage is less than the number of available stages AND
• The last stage change was a stage up AND
• Dehumidification is not active
OR
• The time since the last stage change exceeds the cooling stage timer AND
• Discharge air temperature is greater than the Discharge Cooling Setpoint by more than half
the deadband AND
• The current cooling stage is less than the number of available stages AND
• The last stage change was a stage down AND
• The Degree Time Above Value is greater than or equal to the Degree Time Below value
AND
• Dehumidification is not active
OR
• The time since the last stage change exceeds the cooling stage timer AND
• Dehumidification is active AND
• Leaving Coil Temp is greater than the Maximum leaving coil Setpoint AND
• Current Stage is less than the available number of stages
The number of compressor stages decreases when:
• The time since the last stage change exceeds the Cooling stage timer AND
• Discharge air temperature is less than the Discharge Cooling Setpoint by more than half the
deadband AND
• The current cooling stage is greater than zero AND
• The last stage change was a stage down AND
• Dehumidification is not active
OR
• The time since the last stage change exceeds the Cooling stage timer AND
• Discharge air temperature is less than the Discharge Cooling Setpoint by more than half the
deadband AND
• The current cooling stage is greater than zero AND
• The last stage change was a stage up AND
• The Degree Time Below Value is greater than or equal to the Degree Time Above value
AND
• Dehumidification is not active
OR
• The time since the last stage change exceeds the Cooling stage timer AND
• Dehumidification is active AND
• Leaving Coil Temperature is less than the Minimum leaving coil Setpoint AND
• Current Stage is greater than 0