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Miscellaneous
Controller's address
ON/OFF switch (service-pin message)
Define input signal on the analoge input AIA:
0: no signal,
1: Temperature setpoint. 0-20 mA
2: Temperature setpoint. 4-20 mA
3: Displacement of superheat reference. 0-20 mA
4: Displacement of superheat reference. 4-20 mA
5: Forced control of valve's max. opening degree.
0-20 mA
6: Forced control of valve´s max. opening degree
4-20 mA
Set supply voltage frequency
Select display for "normal picture"
1: Superheat
2: Valve's opening degree
3: Air temperature
Manual control of outputs:
OFF: no manual control
1: Relay for solenoid valve: select ON
2: Relay for solenoid valve: select OFF
3: Alarm relay activated (cut out)
4: Forced control of valve's opening degree. 0-20
mA
5: Forced control of valve´s opening degree 4-20
mA
At settings 1-3, "o45" will be active
Working range for pressure transmitter – min.
value
Working range for pressure transmitter – max.
value
Refrigerant setting
1=R12. 2=R22. 3=R134a. 4=R502. 5=R717.
6=R13. 7=R13b1. 8=R23. 9=R500. 10=R503.
11=R114. 12=R142b. 13=User defined. 14=R32.
15=R227. 16=R401A. 17=R507. 18=R402A.
19=R404A. 20=R407C. 21=R407A. 22=R407B.
23=R410A. 24=R170. 25=R290. 26=R600.
27=R600a. 28=R744. 29=R1270.
Manual control of the valve's opening degree.
The function can only be operated if "o18" has
been set.
Selection of control mode:
1=Normal
2 = With inner loop (T0)
3 = With inner loop (S media temperature less T0)
Service
Analog input AIA (16-17)
Read status of input DI
Thermostat cut-in time
Temperature at S2 sensor
Superheat
Superheat reference
Read AKV valve's opening degree
Read evaporating pressure
Read evaporating temperature
Temperature at S3 sensor
Temperature reference
Read signal at pressure transmitter input
***) This setting will only be possible if a data communication module has been
installed in the controller.
Configuration settings available only when regulation is stopped.
The controller can give the following messages:
E1
Fault in controller
E15
Cut-out S2 sensor
E16
Shortcircuited S2 sensor
E17
Cut-out S3 sensor
Error message
E18
Shortcircuited S3 sensor
The input signal on terminals 16-17 is outside
E19
the range.
The input signal on terminals 14-15 is outside
E20
the range (P0 signal)
A1
High-temperature alarm
A2
Low-temperature alarm
Alarm message
A11
No refrigerant has been selected
A43
Check the supply voltage to the step motor
A44
Battery alarm (no voltage or too low voltage)
EKC 316A
o03*** 0
119
0
o04*** -
-
-
o10
0
6
0
o12
50 Hz
60 Hz
50
o17
1
3
1
o18
off
5
0
o20
-1 bar
60 bar
-1.0
o21
-1 bar
60 bar
12.0
o30
0
29
0
o45
0 %
100 %
0
o56
1
3
1
u06
u10
on/off
u18
min.
u20
u21
u22
u24
u25
u26
u27
u28
u29
Instructions RI8HA852 © Danfoss 04/2009
Start of controller
When the electric wires have been connected to the controller,
the following points have to be attended to before the regulation
starts:
1. Switch off the external ON/OFF switch that starts and stops the
regulation.
2. Follow the menu survey and set the various parameters to the
required values.
3. Switch on the external switch, and regulation will start.
4. Follow the actual room temperature or superheat on the
display.
If the superheating fluctuates
When the refrigerating system has been made to work steadily,
the controller's factory-set control parameters should in most
cases provide a stable and relatively fast regulating system.
If the system however fluctuates this may be due to the fact that
too low superheat parameters have been selected:
If adaptive superheat has been selected:
Adjust: n09, n10 and n18.
If load-defined superheat has been selected:
Adjust: n09, n10 and n22.
Alternatively it may be due to the fact that the set regulation
parameters are not optimal.
If the time of oscillation is longer than the integration time:
(T
> T
, (T
is, say, 240 seconds))
p
n
n
1. Increase T
to 1.2 times T
n
2. Wait until the system is in balance again
3. If there is still oscillation, reduce K
4. Wait until the system is in balance
5. If it continues to oscillate, repeat 3 and 4
mA
If the time of oscillation is shorter than the integration time:
(T
< T
, (T
is, say, 240 seconds))
p
n
n
°C
1. Reduce K
by, say, 20% of the scale reading
p
K
2. Wait until the system is in balance
K
3. If it continues to oscillate, repeat 1 and 2.
%
bar
°C
°C
Check that the ETS valve closes when the
°C
mA
supply voltage to the controller is interrupted
This control is performed if the controller is connected to battery
backup.
The battery will make the step motor move to the end stop and
thus close the valve.
The control may be omitted if a solenoid valve is mounted and
connected via terminals 9-10.
p
by, say, 20%
p
7
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