Emerson Dixell iProChill IPC115D Application Manual page 147

Et 10 Selection of output circuit valve 2 driver 1
0 = Not present
1 = Circuit 1
2 = Circuit 2
3 = Circuit 3
4 = Circuit 4
Et 11 Selection of output circuit valve 1 driver 2
0 = Not present
1 = Circuit 1
2 = Circuit 2
3 = Circuit 3
4 = Circuit 4
Et 12 Selection of output circuit valve 2 driver 2
0 = Not present
1 = Circuit 1
2 = Circuit 2
3 = Circuit 3
4 = Circuit 4
Et 13 Selection of output circuit valve 1 driver 3
0 = Not present
1 = Circuit 1
2 = Circuit 2
3 = Circuit 3
4 = Circuit 4
Et 14 Selection of output circuit valve 2 driver 3
0 = Not present
1 = Circuit 1
2 = Circuit 2
3 = Circuit 3
4 = Circuit 4
Et 15 Selection of output circuit valve 1 driver 4
0 = Not present
1 = Circuit 1
2 = Circuit 2
3 = Circuit 3
4 = Circuit 4
Et 16 Selection of output circuit valve 2 driver 4
0 = Not present
1 = Circuit 1
2 = Circuit 2
3 = Circuit 3
4 = Circuit 4
Et 17 Number of additional steps to achieve complete closure. When a closing
request is received, the valve starts from the current number of steps and
moves to 0, then closes for the set number of steps
Et 18 Number of return steps in opening mode after the valve has been closed
completely. These decompress any closing spring inside the valve or to
prevent sealing the circuit
Et 19 Maximum number of adjusting steps of the valve
Et 20 Minimum number of adjusting steps of the valve
Et 21 Maximum current value per phase of the stepper motor
Et 22 Current stand-by value
Et 23 Maximum number of steps per second of the valve
Et 24 Indicates the number of steps the valve has to move before compressor start-
up.
0 = function is disabled
Et 25 Sets valve manual operation mode
0= Automatic
1= Manual
Et 26 Absolute number of steps the valve has to move in manual mode
Et 27 Low pressure alarm activation delay (LOP)
Et 28 High pressure alarm activation delay (MOP)
Et 29 High overheating alarm activation delay
Et 30 Low overheating alarm activation delay
Et 31 PID proportional constant in chiller mode
Et 32 PID integral time in chiller mode
Et 33 PID derivative constant in chiller mode
Et 34 Overheating regulation set point during chiller mode
Et 35 Overheating regulation dead band in chiller mode
Et 36 High overheating threshold. The alarm status is signaled after the high
overheating alarm activation delay
1592025050 iProChill v2.5 10D00 AG v1.3 GB 18.02.2016.docx
PID regulation in chiller mode
0 4
0 4
0 4
0 4
0 4
0 4
0 4
0 250
0 250
Et20 8000
0 Et19
0 100 mA
0 100 mA
0 600 Hz
0 Et19
0 1
0 Et19
0 250 Sec
0 250 Sec
0 250 Sec
0 250 Sec
0.0 50.0 °C
0 500 Sec
0 250 Sec
0.0 25.0 °C
0.0 5.0 °C
Et34 80.0 °C
iProCHILL
x10 mA
x10 mA
10 Sec
10 Sec
Dec
Dec
Dec
Dec
147/205