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
McQuay OM 920 111
Operator’s Guide
After completion of the FSG prepurge period there will be a 10 second trial for ignition during
which terminal #8 (combination gas valve - GV1) and terminal #10 (ignition transformer - IT)
will be energized. If flame is being detected through the flame rod (FD) at the completion of
the 10 second trial for ignition period, terminal #10 (ignition transformer - IT) will be de-
energized and terminal #9 (main gas valves - GV4 and GV5 depending on burner size) will be
energized and the control system will be allowed to control the firing rate once the heating
stage timer (default 5 minutes) has passed. After the flame has lit and been proven and the
heating stage time has passed, the controller will modulate (VM1) to the required firing rate
via analog output EXPB-AO_X7. In the event the flame fails to ignite or the flame safeguard
fails to detect its flame within 10 seconds, terminals #4, 8, 9, and 10 will be de-energized, thus
de-energizing the burner. The FSG will then lockout and would require manual resetting. If the
FSG lockout occurs, FSG terminal #3 will energize the R24 alarm input status relay which
will 'make' a digital input to the controller (EXPB-DI_X4). When this digital input is 'made'
the controller will drive VM1 to the closed position, de-energize digital output EXPB-DO2
and the prepurge sequence will be disabled and reset. If the FSG terminal # 8 de-energizes
R22 (EXPB-DI_X1) after having it turned on and the FSG is not off on safety lockout, the
prepurge sequence will start over. If an attempt is made to restart the burner by resetting the
FSG or if an automatic restart is initiated after flame failure the earlier described prepurge
cycle with the wide open air valve will be repeated. If the unit overheats, the high limit control
(FLC) will cycle the burner, limiting furnace temperature to the limit control set point. The
flame safeguard contains 'LEDS' (lower left corner) that will glow to indicate operation.
Typical Sequence of Operation (3-1 Gas)
When 120V power is furnished through the system on/off switch (S1), through the burner
on/off switch (S3), and through the high limit control (FLC), terminal #6 on the flame
safeguard (FSG) is powered on a call for heat. Whenever power is restored to the flame
safeguard, the flame safeguard will go through a 10 second initiation period before the
prepurge period will begin. The burner air control valve will be at minimum position during
off cycles.
Upon a call for heat, the controller will close digital output (EXPB-DO1) and energize the
R20A relay. Once the normally open contacts of the R20A relay close, 120V power is
supplied to terminal # 6 on the FSG. The FSG then energizes its terminal #4, which powers the
burner combustion air blower motor (BM) and starts the FSG prepurge cycle.
After completion of the FSG prepurge period there will be a 10 second trial for ignition during
which terminal #8 (combination gas valve - GV1) and terminal #10 (ignition transformer - IT)
will be energized. If flame is being detected through the flame rod (FD) at the completion of
the 10 second trial for ignition period, terminal #10 (ignition transformer - IT) will be de-
energized and terminal #9 (main gas valves - GV4 and GV5) will be energized and the control
system will be allowed to control the firing rate once the heating stage timer (default 5
minutes) has passed. After the flame has lit and been proven and the heating stage time has
passed, the controller will modulate (VM1) to the required firing rate via analog output EXPB-
AO_X7. In the event the flame fails to ignite or the flame safeguard fails to detect its flame
within 10 seconds, terminals #4, 8, 9, and 10 will be de-energized, thus de-energizing the
burner. The FSG will then lockout and require manual resetting. If the FSG lockout occurs,
FSG terminal #3 will energize the R24 alarm input status relay which will 'make' a digital
input to the controller (EXPB-DI_X4). When this digital input is 'made' the controller will
drive VM1 to the closed position. If the FSG terminal 8 de-energizes relay R22 (EXPB-
DI_X1) after having it turned on and the FSG is not off on safety lockout the controller will
drive VM1 to the closed position. If an attempt is made to reset the FSG or if an automatic
restart is initiated after flame failure, the FSG prepurge cycle will be repeated. If the unit
overheats, the high limit control (FLC) will cycle the burner, limiting furnace temperature to
the limit control set point. The flame safeguard contains 'LEDS' (lower left corner) that will
glow to indicate operation.