bus reference are added to produce the total External
Reference. The External Reference, the Preset Reference or
the sum of the two can be selected to be the active
reference. Finally, this reference can by be scaled using
3-14 Preset Relative Reference
.
The scaled reference is calculated as follows:
Reference = X + X ×
(
Y
100
)
Where X is the external reference, the preset reference or
the sum of these and Y is
3-14 Preset Relative Reference
in
[%].
If Y,
3-14 Preset Relative Reference
is set to 0%, the
reference will not be affected by the scaling.
2.8.8 Example of Closed Loop PID Control
The following is an example of a Closed Loop Control for a
ventilation system:
Illustration 2.18
In a ventilation system, the temperature is to be
maintained at a constant value. The desired temperature is
set between -5 and +35
°
C using a 0-10 V potentiometer.
Because this is a cooling application, if the temperature is
above the set-point value, the speed of the fan must be
increased to provide more cooling air flow. The
temperature sensor has a range of -10 to +40
°
C and uses
a two-wire transmitter to provide a 4-20 mA signal. The
output frequency range of the frequency converter is 10 to
50 Hz.
1.
Start/Stop via switch connected between
terminals 12 (+24 V) and 18.
2.
Temperature reference via a potentiometer (-5 to
+35
°
C, 0 to 10 V) connected to terminals 50 (+10
V), 53 (input) and 55 (common).
3.
Temperature feedback via transmitter (-10 to 40
°
C, 4-20 mA) connected to terminal 54. Switch
S202 behind the LCP set to ON (current input).
Illustration 2.19
2.8.9 Programming Order
NOTE
In this example it is assumed an induction motor is used,
i.e. that
1-10 Motor Construction
= [0] Asynchron.
Function
Par. no.
Setting
1) Make sure the motor runs properly. Do the following:
Set the motor parameters
using nameplate data.
1-2*
As specified by motor
name plate
Run Automatic Motor
Adaptation.
1-29
[1] Enable complete AMA
and then run the AMA
function.
2) Check that the motor is running in the right direction.
Run Motor Rotation
Check.
1-28
If the motor runs in the
wrong direction, remove
power temporarily and
reverse two of the motor
phases.
3) Make sure the frequency converter limits are set to safe
values
Check that the ramp
settings are within
capabilities of the drive
and allowed application
operating specifications.
3-41
3-42
60 s
60 s
Depends on motor/load
size!
Also active in Hand
mode.
Prohibit the motor from
reversing (if necessary)
4-10
[0] Clockwise
Introduction
VLT
®
Refrigeration Drive Design Guide
24
MG16G102 - VLT
®
is a registered Danfoss trademark
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