Basic Operating Principle Of The Ahf; Operating Principle - Danfoss AHF 010 Design Manual

Basic Operating Principle o...

3 Basic Operating Principle of the AHF

3.1 Operating Principle

®
The VLT Advanced Harmonic Filter AHF 005/AHF 010
consists of a main inductor L
0
circuit with the inductors L and L
1
and C . The absorption circuit is specially tuned to
2
eliminate harmonics starting with the 5
specific for the designed supply frequency. Therefore, the
circuit for 50 Hz has different parameters than the circuit
for 60 Hz.
Supply
AHF
L
0
L
1
L
2
Illustration 3.1 Operating Principle
AHFs are available in 2 variants for 2 performance levels:
•
AHF 005 with 5% THDi.
•
AHF 010 with 10% THDi.
Each of the 2 variants is available with the following
voltages:
•
380–415 V, 50 Hz.
•
380–415 V, 60 Hz.
•
440–480 V, 60 Hz.
•
600 V, 60 Hz.
•
500–690 V, 50 Hz.
The AHF 010 offers a performance similar to 12-pulse
rectifiers, and the AHF 005 offers a performance similar to
18-pulse rectifiers.
The filter performance in terms of THDi varies as a function
of the load. At nominal load, the filter performance is
better than 10% THDi for AHF 010 and 5% THDi for AHF
005.
At part load, the THDi has higher values. However, the
absolute value of the harmonic current is lower at part
loads, even if the THDi has a higher value. Therefore, the
negative effect of the harmonics at part loads is lower than
at full load.
MG80C602
Design Guide
and a 2-stage absorption
, and the capacitors C
2 1
th
harmonic and is
Motor
Frequency
M
converter
C
1
C
2
Danfoss A/S © 05/2019 All rights reserved.
Example of part load
An 18.5 kW (25 hp) frequency converter is installed on a
400 V/50 Hz grid with a 34 A AHF 010 (type code AHF-
DA-34-400-50-20-A).
The values in Table 3.1 are measured for different load
currents, using a harmonic analyzer:
I RMS Basic current
line
1)
at 50 Hz I
RMS
[A] [A]
9.6 9.59
15.24 15.09
20.24 20.08
25.17 25
30.27 30.1
34.2 34.03
Table 3.1 Example of Load Currents
1) The total harmonic current has been calculated. The THDi versus
load plot is shown in Illustration 3.2.
16 AHF-DA-34-400-50-20-A
14
12
10
8
6
4
2
0
10 15 20
I [A]
line
Illustration 3.2 THDi versus Load
At part load, 15 A, the THDi is approximately 14%
compared to 10% at the nominal load of 34 A. At the
same time, the total harmonic current is only 2.07 A at
15 A line current against 3.39 A harmonic current at 34 A
line current. Thus, THDi is only a relative indicator of the
harmonic performance. The harmonic distortion of the
voltage is less at part load than at nominal load.
Background distortion
Factors such as background distortion and grid unbalance
can affect the performance of AHF filters. The specific
figures are different from filter to filter, and Illustration 3.3
to Illustration 3.6 show typical performance characteristics.
For specific details, use a harmonic design tool such as
MCT 31 or Harmonic Calculation Software (HCS).
The design of the filters aims to achieve 10%, respectively,
5% THDi levels with a background distortion of THDv =
2%. Practical measurements on typical grid conditions in
THDi Total
harmonic
current I RMS
h
[%]
[A] 1)
5.45 0.52
13.78 2.07
12.46 2.5
11.56 2.89
10.5 3.15
9.95 3.39
4
3.5
3
2.5
2
1.5
1
THDi [%]
0.5
Harmonic current I [A]
h
0
25 30 35
15
3 3