21
Packaged and Split Rooftop Ventilator
© 2021 Mitsubishi Electric US, Inc.
Phase Monitor
The unit control circuitry includes a phase monitor that
constantly checks for phase reversal, phase imbalance,
loss of phase or a power brownout. When it detects a
fault, it cuts o the 24 VAC that goes to the low voltage
terminal strip, thereby shutting o all motors.
Variable Frequency Drive (VFD)
If a VFD was provided and installed at the factory, it has
been pre-set to control the speed of the blower motor
for optimum performance. The motor speed needs to be
veried during test and balance of the unit.
If the system was congured for Constant Air Volume
(CAV), the VFD will operate in an ON/OFF fashion
and the speed of the motor will not change. If the
system was congured for Variable Air Volume (VAV),
the microprocessor will constantly monitor operating
conditions and provide a signal to the VFD, changing the
VFD output as needed.
The VFD may alternatively be connected to an external
signal such as provided by a BMS and be operated by a
0-10 VDC input.
Supply Fan VFD Sequence
Optional Room CO
2
Sensor: The microprocessor will
modulate the supply fan based on a comparison of the
CO
2
set point to the actual CO
2
levels reported from the
sensor. Mechanical high static protection cutos must be
installed by others to protect the system and equipment
from over-pressurization.
Optional Duct Static Pressure Sensor: The
microprocessor will modulate the supply fan based on
a comparison of the duct static pressure set point to
the actual duct static pressure level reported from the
sensor. Mechanical high static protection cutos must be
installed by others to protect the system and equipment
from over-pressurization. The manufacturer does not
assume responsibility for this.
Optional Building Static Pressure Sensor: The supply
fan is modulated based upon the signal from a building
static pressure sensor. The microprocessor will modulate
the supply fan based on a comparison of the building
static pressure set point to the actual building static
pressure level reported from the sensor.
Optional Single Zone VAV: The microprocessor will
use a space mounted temp sensor to vary heating and
cooling capacity and the airow delivered by the fan to
maintain room-air temp at a desired set point.
Optional 0-10 VDC by others to VFD: Supply fan is
modulated by a 0-10 VDC, eld-provided by others.
Component Operation
Exhaust Fan VFD Sequence
Optional Building Static Pressure Sensor: The exhaust
fan is modulated based upon the signal from a building
static pressure sensor. The microprocessor will modulate
the exhaust fan based upon a comparison of the building
static pressure level reported from the sensor.
Optional Outdoor Air Damper Tracking: The
microprocessor will proportionally modulate the exhaust
fan based upon the outdoor air damper position.
Optional Supply Tracking: The microprocessor will
proportionally modulate the exhaust fan based upon the
supply fan.
Optional 0-10 VDC by Others to VFD: The supply fan is
modulated by a 0-10 VDC provided by others in the eld.
Outdoor Air and Recirculated (Recirc) Air
Damper Sequence
Optional Room CO
2
Sensor: The microprocessor will
proportionally modulate the OA/RA dampers based
upon a comparison of the CO
2
set point to the actual
CO
2
level reported from the sensor. As the CO
2
level
rises, the controller will proportionally modulate the
outdoor air damper open, between the minimum and
maximum OA position.
Optional Building Pressure: The OA/RA dampers
will modulate based upon the signal from a building
static pressure sensor. The controller will modulate
the dampers, between the minimum and maximum OA
positions, based upon a comparison of the building
static pressure set point to the actual building static
pressure level reported from the sensor.
Exhaust Fan Only Power
The exhaust fan will have a dedicated power circuit
where in the case of a power outage, the exhaust fan will
still run. A phase monitor will detect an outage or power
loss and open the contact, disconnecting all power to the
unit and controller. An external signal will need to be sent
to a relay to power the exhaust fan, enabling the fan to
run at a maximum speed. This sequence is NOT to be
used for high temperature exhaust applications.
Service Lights
Service lights provide light to each of the compartments
in the energy recovery unit. The lights are wired to a
junction box mounted on the outside of the unit. The
switch to turn the lights on is located in the unit control
center. The switch requires a separate power source
to allow for power to the lights when the unit main
disconnect is o for servicing.
Optional Component Operation
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