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4.4.6
Perishable Mode - System Pressure Regulation
In perishable mode, system pressures may need to be regulated at ambient temperatures of 20°C (68°F) and
below. Once below this ambient temperature, the condenser fan may cycle on and off based on limits imposed for
discharge pressure. For extremely cold ambient temperatures, -18°C (0°F), heater cycling may occur within normal
system operation based on discharge pressure limits.
4.4.7
Condenser Fan Override
When CnF17 (Discharge Temperature Sensor) is set to "In" and CnF48 (Condenser Fan Switch Override) is set to
"On", the condenser fan switch override logic is activated. If condenser cooling water pressure is sufficient to open
the water pressure switch (de-energizing the condenser fan) when water flow or pressure conditions are not main-
taining discharge temperature, the logic will energize the condenser fan as follows:
1. If the DLV/DUV is cycling at less than 80% capacity when the controller calls for it to be 100% open, the con-
denser fan is energized. When the DLV/DUV regains full capacity, the fan will de-energize.
2. If DPT reading is invalid or out of range (AL65), the condenser fan is energized and will remain energized
until system power is cycled.
3. If the system is running on condenser fan override and the high pressure switch opens, the condenser fan is
energized and will remain energized until the system power is cycled.
4.5
QUEST - CCPC
Compressor-Cycle Perishable Cooling (CCPC) is a method of temperature control used during steady-state per-
ishable cooling that cycles the compressor on and off according to return air temperature.
To be eligible for steady-state control the unit must first complete a setpoint pulldown phase and a CCPC pulldown
phase:
During setpoint pulldown supply air temperature is controlled according to the unit's nominal supply air setpoint.
During CCPC pulldown the supply air temperature is lowered somewhat relative to the nominal setpoint. Evap-
orator fans are forced to operate at high speed.
Steady-state CCPC control maintains the same lowered supply air temperature that was used during CCPC pull-
down. The compressor cycles on and off according to return air high and low limits. Depending on the fan mode of
operation selected, the evaporator fans may be programmed to run at low speed some or all of the time according
to the control logic.
4.6
CONTROLLER ALARMS
Alarm display is an independent controller software function. If an operating parameter is outside of expected
range or a component does not return the correct signals back to the controller, an alarm is generated. A listing of
the alarms is provided in
The alarm philosophy balances the protection of the refrigeration unit and that of the refrigerated cargo. The action
taken when an error is detected always considers the survival of the cargo. Rechecks are made to confirm that an
error actually exists.
Some alarms requiring compressor shutdown have time delays before and after to try to keep the compressor on
line. An example is alarm code "LO," (low main voltage), when a voltage drop of over 25% occurs, an indication is
given on the display, but the unit will continue to run.
When an Alarm Occurs:
a. The red ALARM light will energize for critical alarm code numbers 17, 20, 21, 22, 23, 24, 25, 26, and 27.
b. If a detectable problem exists, its alarm code will be alternately displayed with the set point on the left display.
c. The user should scroll through the alarm list to determine what alarms exist or have existed. Alarms must be
diagnosed and corrected before the Alarm List can be cleared.
Table
4–6.
4–15
T-365
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Table of Contents
Troubleshooting
