42
EMC and leakage currents
1)
Calculation of equivalent capacity (P0) of harmonic generating equipment
The "equivalent capacity" is the capacity of a 6-pulse converter converted from the capacity of consumer's harmonic
generating equipment and is calculated with the following equation. If the sum of equivalent capacities is higher than the
limit in Table 3, harmonics must be calculated with the following procedure:
2)
Calculation of outgoing harmonic current
Outgoing harmonic current = fundamental wave current (value converted from received power voltage)
operation ratio
harmonic content
Operation ratio: Operation ratio = actual load factor
operation time ratio during 30 minutes
Harmonic content: Found in Table 4.
3)
Application of the guideline for specific consumers
If the outgoing harmonic current is higher than the maximum value per 1kW contract power
contract power, a harmonic
suppression technique is required.
4)
Harmonic suppression techniques
Table 4 Harmonic Contents (Values at the fundamental current of 100%)
Reactor
5th
7th
11th
13th
17th
19th
23rd
25th
Three-phase bridge
(Capacitor smoothing)
Not used
65
41
8.5
7.7
4.3
3.1
2.6
1.8
Used (AC side)
38
14.5
7.4
3.4
3.2
1.9
1.7
1.3
Used (DC side)
30
13
8.4
5.0
4.7
3.2
3.0
2.2
Used (AC, DC sides)
28
9.1
7.2
4.1
3.2
2.4
1.6
1.4
P0 =
Ki
Pi) [kVA]
* Rated capacity: Determined by the capacity of the applied motor and
found in Table 5. It should be noted that the rated capacity used here is
used to calculate generated harmonic amount and is different from the
power supply capacity required for actual drive unit drive.
Ki: Conversion factor (Refer to Table 2.)
Pi: Rated capacity of harmonic generating equipment
[kVA]
i: Number indicating the conversion circuit type
Table 5 Rated Capacities and Outgoing Harmonic Currents for Drive Unit Drive
Applicable
Motor (kW)
Fundamental
Wave Current [A]
Fundamental
Wave Current
Converted from
6.6kV (mA)
Rated
Capacity
(kVA)
Outgoing Harmonic Current Converted from 6.6kV (mA)
(No reactor, 100% operation ratio)
200V
400V
5th
7th
11th
13th
17th
19th
23rd
25th
0.1
0.61
0.30
18
0.22
11.7
7.38
1.53
1.386
0.774
0.558
0.468
0.324
0.2
0.98
0.49
30
0.35
19.5
12.3
2.55
2.31
1.29
0.93
0.78
0.54
0.4
1.61
0.81
49
0.57
31.85
20.09
4.165
3.773
2.107
1.519
1.274
0.882
0.75
2.74
1.37
83
0.97
53.95
34.03
7.055
6.391
3.569
2.573
2.158
1.494
1.5
5.50
2.75
167
1.95
108.6
68.47
14.20
12.86
7.181
5.177
4.342
3.006
2.2
7.93
3.96
240
2.81
156.0
98.40
20.40
18.48
10.32
7.440
6.240
4.320
No.
Item
Description
1
Reactor installation
(FR-HAL, FR-HEL)
Install an AC reactor (FR-HAL) on the AC side of the drive unit or a DC reactor (FR-HEL) on its DC side
or both to suppress outgoing harmonic currents.
2
High power factor converter
(FR-HC2)
This converter trims the current waveform to be a sine waveform by switching in the rectifier circuit
(converter module) with transistors. Doing so suppresses the generated harmonic amount significantly.
Connect it to the DC area of an drive unit. The high power factor converter (FR-HC2) is used with the
standard accessory.
3
Installation of power factor
improving capacitor
When used with a series reactor, the power factor improving capacitor has an effect of absorbing
harmonic currents.
4
Transformer multi-phase
operation
Use two transformers with a phase angle difference of 30
as in -
,
-
combination to provide an
effect corresponding to 12 pulses, reducing low-degree harmonic currents.
5
Passive filter
(AC filter)
A capacitor and a reactor are used together to reduce impedances at specific frequencies, producing a
great effect of absorbing harmonic currents.
6
Active filter
(Active filter)
This filter detects the current of a circuit generating a harmonic current and generates a harmonic
current equivalent to a difference between that current and a fundamental wave current to suppress a
harmonic current at a detection point, providing a great effect of absorbing harmonic currents.
Содержание FR-D720-0.2K-G
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Страница 294: ...291 APPENDIX This chapter provides the APPENDIX of this product Always read the instructions before using the equipment ...