5.2.4 Display of actual speed
Tolerance: ±5%
The actual pump speed will appear in this display.
5.2.5 Display of input power and power consumption
Tolerance: ±10%
This display shows the actual pump input power from the mains
supply. The power is displayed in W or kW.
The pump power consumption can also be read from this display.
The value of power consumption is an accumulated value calcu-
lated from the pump's birth and it cannot be reset.
5.2.6 Display of operating hours
Tolerance: ±2%
The value of operating hours is an accumulated value and cannot
be reset.
5.3 Menu INSTALLATION
5.3.1 Selection of control mode
Select one of the following control modes (see fig. 18):
•
Controlled,
•
Uncontrolled.
The desired performance is set in section 5.1.1 Setpoint setting.
Note: If the pump is connected to a bus (see section 8. Bus sig-
nal), it is not possible to select the control mode via the R100.
5.3.2 Setting of controller
In this display, the gain (K
) and the integral-action time (T
p
built-in PI controller can be set if the factory setting is not the op-
timum setting:
•
The gain (K
) is set within the range from 0.1 to 20.
p
•
The integral-action time (T
) is set within the range from 0.1 to
i
3600 s. If 3600 s is selected, the controller will function as a
P controller.
14
Furthermore, it is possible to set the controller to inverse control
(if the setpoint is increased, the speed will be reduced). In the
case of inverse control, the gain (K
from –0.1 to –20.
Setting the PI controller:
For most applications, the factory setting of the controller con-
stants K
and T
p
i
lowing cases, a change of the setting can be useful or necessary.
A change of the T
•
in a differential-pressure control system if the sensor is placed
far away from the pump.
A change of the T
be necessary:
•
if the pump is controlled on the basis of temperature or differ-
ential temperature.
The table below shows the recommended controller settings:
System/
application
∆p
L [m]
∆p
p
Q
t
L [m]
∆t
L [m]
L [m]
1) Heating systems are systems in which an increase in pump
performance will result in a rise in temperature at the sensor.
2) Cooling systems are systems in which an increase in pump
performance will result in a drop in temperature at the sensor.
) of the
i
) must be set within the range
p
will ensure optimum pump operation. In the fol-
setting can be useful:
i
setting, and in some cases the K
i
K
p
Heating
Cooling
1)
2)
system
system
0.5
0.5
0.5
0.5
0.5
-0.5
0.5
t
0.5
-0.5
setting, may
p
T
i
0.5
L < 5 m: 0.5
L > 5 m: 3
L > 10 m: 5
0.5
0.5
10 + 5L
10 + 5L
30 + 5L