Full Gauge Controls Evolution TC-900E Power Manual page 3

Fun
[, F07] High ambient temperature alarm (S1)
[,F08]
Cooling time (interval between defrosts)
[,F09]
Minimum time for compressor on
[,F10]
Minimum time for compressor off
[,F11]
Compressor status with ambient sensor (S1) disconnected
[,F12]
Defrost at start of instrument
[,F13]
Temperature at evaporator (S2 / S3) to determine the end of defrost
[,F14]
Maximum defrost time
[,F15]
Fan on during defrost
[,F16]
Defrost type (0-Electric / 1-Hot gas)
[, F17]
Temperature indication (S1) locked during defrost
[,F18]
Draining time (dripping of defrost water)
[,F19]
Evaporator temperature (S2 / S3) for fan return after drainage
[,F20]
Maximum time for fan return after drainage (fan-delay)
[,F21] Fan operating mode
[,F22]
Fan stop for high temperature in evaporator
[,F23] Time for gas collection before starting defrost (pre-defrost)
[,F24]
Intensity of digital filter applied to sensor 1 (0-deactivated)
[,F25] Time to confirm a low evaporator (S2 / S3) temperature to start defrosting (if F39=1)
[,F26]
Normal setpoint
[,F27] Economic setpoint (SPE)
[,F28]
Control differential (economic hysteresis)
[,F29] Time for closed door to enter economy mode
[,F30]
Temperature difference (S3-S1) below which the economic setpoint is activate
[,F31]
Temperature difference (S3-S1) above which the normal setpoint is activated
[,F32]
Maximum time in economy mode
[,F33]
Temperature limit for Fast Freezing
[,F34]
Fast Freezing time
[,F35]
Time of fan on
[,F36] Time of fan off
[,F37]
Compressor on time in case of S1 failure
[,F38] Compressor off time in case of S1 failure
[,F39]
Condition for starting defrost (0-time / 1-temperature)
[,F40] Maximum open door time for instant defrost
[,F41]
Temperature at evaporator (S2 / S3) to start defrost
[,F42] Open door time to shut down fan
[,F43]
Open door time to shut down control outputs
[,F44] Maximum temperature at condenser (S3) to shut down control outputs
[,F45]
Control differential (hysteresis) for sensor S3 when set as sensor of the condenser
[,F46] Compressor on time without reaching the setpoint to shut down the control outputs
[,F47]
Low ambient temperature alarm (S1)
[,F48] Alarm inhibition time by temperature
[,F49]
Temperature of sensor S3 (condenser) to give an alarm
[,F50] Time of open door to give an alarm
[,F51] Enabling the buzzer
[,F52] Function of digital input1 / sensor S3
[,F53] Function of digital input 2
[,F54] Evaporator S2 temperature indication offset
[,F55] Sensor S3 temperature indication offset
[,F56] Control functions shutdown
[,F57] Function lock mode
[,F58]
Time for functions lock
6.5.1 Description of parameters
F01-Access code:
It is necessary when one wants to modify the configuration parameters or the temperature unit. To only
view the adjusted parameters, it is not required to enter any access code.
[,123] It allows modifying the advanced parameters
[,231] It allows choosing the temperature unit, Celsius or Fahrenheit
F02 - Control differential (normal hysteresis):
It is the temperature difference (hysteresis) between TURNING ON and OFF the cooling control output
in normal and Fast Freezing mode.
F03- Ambient temperature S1 indication offset:
This function allows compensating for eventual deviations in the ambient temperature reading (S1),
resulting from the change of sensor or modification of the cable length.
F04 - Minimum setpoint allowed to the end user:
Electronic stop whose purpose is to prevent that, by mistake, the setpoint temperature is set
unreasonably low.
F05 - Maximum setpoint allowed to the end user:
Electronic stop whose purpose is to prevent that, by mistake, the setpoint temperature is set
unreasonably high.
F06 - Delay at start (energization):
With this function enabled, when the instrument is energized it only indicates temperature, remaining
with all the outputs off during the set time. In installations with multiple equipment, assigning different
values for the delay time at the start of each instrument, it is possible to avoid power surges by activating
the loads at different times.
F07 - High ambient temperature alarm (S1):
It is the ambient temperature (S1) above which the instrument will indicate a high temperature visual
and sound alarm ([aHi,]) (F51). The differential for the alarm's shutdown is fixed at 0.1°C/1°F.
Description
This alarm considers the temperature shown on the display, being so influenced, by temperature
indication locked during defrost (F17). The alarm is ignored until the instrument reaches the control
temperature for the first time.
F08 - Cooling time (interval between defrosts):
When defrost is set to start by time (F39), this function sets the maximum time for the cooling process. In
this case defrost will start whenever the elapsed time in cooling mode reaches the value set in this
function. If the condition for starting defrost is temperature in the evaporator and the controller is not
indicating a reading error in this sensor, the cooling time will not be taken into account.
F09 - Minimum time for compressor on:
It is the minimum time the compressor will stay on, that is, the time interval between the last start and the
next stop. It serves to prevent voltage spikes in the power grid.
F10 - Minimum time for compressor off:
It is the minimum time the compressor will stay off, that is, the time interval between the last stop and the
next start. It serves to relieve discharge pressure and increase the service life of the compressor.
F11 - Compressor status with ambient sensor (S1) disconnected:
If the ambient temperature sensor (S1) is short-circuited, disconnected or out of the measuring range,
the compressor assumes the set status in this function.
[,,,0]Compressor off
[,,,1]Compressor on
[,,,2]Cycling according to the times defined in F37 and F38.
F12 - Defrost at start of instrument:
It allows defrost to happen at the time the controller is energized, like for example when power returns (in
case of power failure).
F13 - Temperature at evaporator (S2 / S3) to determine the end of defrost:
When the evaporator temperature is greater than or equal to the value set in this function, defrost will be
terminated. If sensor S3 is set as a sensor of the second evaporator (F52), the controller will shut down
the defrost outputs individually and the defrost process will be terminated when the two of them are off.
CELSIUS
Mn Max Unit Standard Min
-50 105 °C 105 -58
1 999 min. 240 1
0 (NO) 999 sec. 0 0 (NO)
0 (NO) 999 sec. 0 0 (NO)
0 2 - 1 0
NO YES - NO NO
-50 105 °C 30
-58
0 (NO) 90 min. 30 0 (NO)
0 (OFF) 1 (ON) - 0 (OFF) 0 (OFF)
0 1 - 0 0
- 1 (NO) 99 min. -1 (NO) -1 (NO)
0 (NO) 99 min. 1 0 (NO)
-50 105 °C 20 -58
0 (NO) 30 min. 1 0
0 7 - 4 0
-50 105 °C 30 -58
0 (NO) 999 min. 0 (NO) 0 (NO)
0 9 - 0 0
0 90 min. 0 0
-50 105 °C -15 -58
-50 105 °C -10 -58
0.1 20 °C 2 1
0 (NO) 999 min. 0 (NO) 0 (NO)
0.1 20 °C 2 1
0.1 20 °C 5 1
0 (NO) 100(tOFF) h. 0 (NO) 0 (NO) 100(tOFF)
-50 105 °C -25 -58
0 (NO) 999 min. 0 (NO) 0 (NO)
1 99 min. 2 1
1 99 min. 8 1
0 999 min. 0 0
0 999 min. 0 0
0 1 - 0 0
0 (NO) 999 min. 0 (NO) 0 (NO)
-50 105 °C -50 -58
-1 (NO) 999 min. -1 (NO) -1 (NO)
0 (NO) 999 min. 0 (NO) 0 (NO)
0 (NO) 105 °C 55 32 (NO)
0.1 20 °C 5 1
0 (NO) 999 min. 0 (NO) 0 (NO)
-50 105 °C -50 -58
0 (NO) 999 min. 0 (NO) 0 (NO)
0 105 °C 45 32
0 (NO) 999 min. 0 (NO) 0 (NO)
0 (OFF) 1 (ON) - 0 (OFF) 0 (OFF)
0 (OFF) 13 - 0 (OFF) 0 (OFF)
0 (OFF) 10 - 0 (OFF) 0 (OFF)
-20.1 (OFF) 20 °C 0 -36 (OFF)
-20 20 °C 0 -36
0 (NO) 4 - 0 (NO) 0 (NO)
0 2 - 0 0
15 60 sec. 15 15
Legend:[On,,]= on [Off,]= off
[yes,]= yes [no,,]= no
FAHRENHEIT
Max Unit Standard
221 °F 221
999 min. 240
999 sec. 0
999 sec. 0
2 - 1
YES - NO
221 °F 86
90 min. 30
1 (ON) - 0 (OFF)
1 - 0
99 min. -1 (NO)
99 min. 1
221 °F 68
30 min. 1
7 - 4
221 °F 86
999 min. 0 (NO)
9 - 0
90 min. 0
221 °F 5
221 °F 14
36 °F 3
999 min. 0 (NO)
36 °F 3
36 °F 9
h. 0 (NO)
221 °F -13
999 min. 0 (NO)
99 min. 2
99 min. 8
999 min. 0
999 min. 0
1 - 0
999 min. 0 (NO)
221 °F -58
999 min. - 1 (NO)
999 min. 0 (NO)
221 °F 131
36 °F 9
999 min. 0 (NO)
221 °F -58
999 min. 0 (NO)
221 °F 113
999 min. 0 (NO)
1(ON) - 0 (OFF)
13 - 0 (OFF)
10 - 0 (OFF)
36 °F 0
36 °F 0
4 - 0 (NO)
2 - 0
60 sec. 15