Non-linear components and loads in a power system generate' Harmonics'. These elements are characterized by a voltage drop which is not proportional to the current flow. There are a lot of such non-linear loads exist, in components and devices such as;
-
Uninterruptible power supplies ( UPS ),
-
Motor starters and variable frequency drives,
-
Electronic drive systems
-
Computer, TV sets
-
Fluorescent lighting
-
Welding machines,
-
Rectifiers
Harmonic currents may have an adverse effect on different electrical components. These include transformers, switches, capacitors, fuses and relays. The detrimental effects are increased losses and heating and/or excessive dielectric stresses. Electric utilities very often impose high charges when certain maximum levels of harmonic distortion are exceeded.
DISTURBANCES CAUSED BY HARMONIC DETERIORATIONS
-
Quality of electrical power is downgraded that can disturb sensitive loads,
-
Increasing in rms current that cause overload in distribution networks,
-
Increasing in voltage value
-
Vibration and overload on devices and equipments that cause premature ageing,
-
Power loss and failures in capacitors
-
Failures in computers and electronic devices
-
Overheat on cables and devices,
-
Quality of the signal transmission incommunication networks and on telephone lines is downgraded
-
Mono phase loads cause cumulative increasing in third-order harmonics and it causes overloads in neutral conductors
Harmonic currents must be eliminated by filter systems, consisting of reactors and capacitors. The filtering system must be installed close to the source of harmonics so as to provide a low impedance path for the harmonic currents. This is achieved by series connection of a filter reactor with a capacitor bank, forming a filter circuit tuned to the harmonic frequency which needs to be eliminated.
Harmonic currents of a compensation system - without harmonic filter
Harmonic currents of a compensation system - with harmonic filter
Choosing correct filters for the capacitors in a compensation system is crucial because choosing incorrect filter for the capacitor may shift the resonance frequency of the system and it decreases the efficiency of the compensation system.
Output voltage value of a harmonic filter is higher than its input value. Capacitor's voltage value must be chosen according to the filter's output voltage; otherwise the capacitor will be damaged due to the higher output voltage of the filter and keep in mind that in the industrial fields the mains voltage is higher during night.
Designing most effective detuned filter reactor for the compensation system the following information must be given;
1. Utility voltage value
2. Resonance frequency value (134, 189, 210 Hz, or specify)
3. Power and voltage values of the capacitors
ROUTINE TESTS
Following 1... 5 tests are the routine tests that are performed for each filter during the manufacturing process and the other tests (6,7 and 8) are performed upon request.
1. Inductance test
2. Current test
3. Resistance Test
4. Impulse voltage withstand test
5. One minute Insulation voltage withstand test ( AC )
6. Short circuit withstand test
7. Temperature rise Test
8. Sound level test
THECHNICAL SPECIFICATIONS |
STANDARDS |
EN 61558-1, EN 61558 2-20, EN 60289, EN 60076-6, CE conformity |
DESIGN |
Air gapped design |
NOMINAL POWER |
Single phase 0,10 - 10 kVAr, Three phase 0,5 - 100 kVAr |
NOMINAL INPUT VOLTAGE |
230 VAC ..... 1000 VAC |
NOMINAL FREQUENCY |
50 Hz ( 60 Hz is optional) |
RESONANCE FREQUENCIES |
134 Hz p= %14 189 Hz p= % 7 210 Hz p=%5,67 |
TOLERANCE OF INDUCTANCE |
± % 3 |
LINEARITY RANGE |
from 1,6 In to 2,2 In |
MAGNETIC CIRCUIT |
0,35 mm- high grade iron core |
WINDINGS |
Electrolytic copper or aluminum wire - foil |
CONNECTIONS |
Transformer terminal blocks, rail terminals, copper cable lugs, copper bar |
PROTECTION ( electricity) |
Thermistor 90 °C 1 NK contact |
INSULATION TEST VOLTAGE |
3000 VAC (Windings-metal core) |
PROTECTION CLASS |
IP 00 |
INSULATION CLASS |
1. class, upon request; F 155 °C or H 180 °C |
THERMAL CLASS |
Ta 55 °C / F or Ta 60 °C / H |
IMPREGNATION |
Upon request F or H class varnish vacuum impregnation |
COOLING |
Natural |
HUMIDITY |
%95 non-condensing ( DIN 40040 ) |
OPERATING ALTITUDE |
0 - 2000 m |
AMBIENT TEMPERATURE |
- 10 °C ..... + 40 °C |
STORING TEMPERATURE |
- 10 °C ..... + 70 °C |
SPECIAL DESIGN |
Special design is possible upon request. |
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|
|
189 Hz p=%7 THREE PHASE DETUNED FILTER REACTOR DIMENSIONS |
PRODUCT CODE |
Qc (kVAr) |
Ln (mH) |
In (A) |
Ith (A) |
Ilin (A) |
A |
B |
C |
WEIGHT(kg) |
OM HF T 7 1 |
1,00 |
38,35 |
1,53 |
1,68 |
2,75 |
145 |
150 |
64 |
2,30 |
OM HF T 7 2,5 |
2,50 |
15,34 |
3,83 |
4,21 |
6,89 |
145 |
150 |
70 |
3,10 |
OM HF T 7 4 |
4,00 |
9,59 |
6,12 |
6,73 |
11,02 |
168 |
180 |
74 |
6,70 |
OM HF T 7 5 |
5,00 |
7,67 |
7,65 |
8,42 |
13,77 |
168 |
180 |
79 |
7,60 |
OM HF T 7 6,25 |
6,25 |
6,14 |
9,56 |
10,52 |
17,21 |
168 |
180 |
84 |
8,70 |
OM HF T 7 7,5 |
7,50 |
5,11 |
11,48 |
12,62 |
20,66 |
168 |
180 |
94 |
10,90 |
OM HF T 7 10 |
10,00 |
3,83 |
15,30 |
16,83 |
27,54 |
210 |
240 |
100 |
12,50 |
OM HF T 7 12,5 |
12,50 |
3,07 |
19,13 |
21,04 |
34,43 |
210 |
240 |
100 |
14,90 |
OM HF T 7 15 |
15,00 |
2,56 |
22,95 |
25,25 |
41,31 |
210 |
240 |
100 |
16,40 |
OM HF T 7 20 |
20,00 |
1,92 |
30,60 |
33,66 |
55,08 |
210 |
240 |
110 |
20,50 |
OM HF T 7 25 |
25,00 |
1,53 |
38,25 |
42,08 |
68,85 |
210 |
240 |
120 |
24,20 |
OM HF T 7 30 |
30,00 |
1,28 |
45,90 |
50,49 |
82,62 |
260 |
300 |
126 |
30,30 |
OM HF T 7 40 |
40,00 |
0,96 |
61,20 |
67,32 |
110,16 |
260 |
300 |
136 |
32,00 |
OM HF T 7 50 |
50,00 |
0,77 |
76,50 |
84,15 |
137,70 |
260 |
300 |
146 |
38,4 |
OM HF T 7 60 |
60,00 |
0,64 |
91,80 |
100,98 |
165,24 |
260 |
300 |
156 |
49 |
OM HF T 7 70 |
70,00 |
0,55 |
107,10 |
117,81 |
192,78 |
310 |
360 |
156 |
55,2 |
OM HF T 7 80 |
80,00 |
0,48 |
122,40 |
134,64 |
220,32 |
310 |
360 |
166 |
57,6 |
OM HF T 7 90 |
90,00 |
0,43 |
137,70 |
151,47 |
247,86 |
310 |
360 |
166 |
59,2 |
OM HF T 7 100 |
100,00 |
0,38 |
153,00 |
168,30 |
275,40 |
310 |
360 |
176 |
63,2 |
Fr : 189 Hz p= %7 HARMONIC FILTER – CAPACITOR SELCETION TABLE ( Un= 400 VAC Fn = 50 Hz ) |
CAPACITOR POWER |
440 VAC CAPACITOR
HARMONIC FILTER
|
480 VAC CAPACITOR
HARMONIC FILTER
|
525 VAC CAPACITOR
HARMONIC FILTER
|
Qcn (kVAr) |
Qc (kVAr) |
Ln (mH) |
Qc (kVAr) |
Ln (mH) |
Qc (kVAr) |
Ln (mH) |
0,5 |
0,44 |
86,30 |
0,37 |
102,87 |
0,31 |
122,87 |
1 |
0,89 |
43,15 |
0,75 |
51,43 |
0,624 |
61,43 |
1,5 |
1,33 |
28,77 |
1,12 |
34,29 |
0,94 |
40,96 |
2,5 |
2,22 |
17,26 |
1,87 |
20,57 |
1,56 |
24,57 |
5 |
4,44 |
8,63 |
3,73 |
10,29 |
3,12 |
12,29 |
7,5 |
6,66 |
5,75 |
5,60 |
6,86 |
4,68 |
8,19 |
10 |
8,89 |
4,32 |
7,47 |
5,14 |
6,24 |
6,14 |
12,5 |
11,11 |
3,45 |
9,33 |
4,11 |
7,80 |
4,91 |
15 |
13,33 |
2,88 |
11,20 |
3,43 |
9,36 |
4,10 |
20 |
17,77 |
2,16 |
14,93 |
2,57 |
12,48 |
3,07 |
25 |
22,22 |
1,73 |
18,67 |
2,06 |
15,61 |
2,46 |
30 |
26,66 |
1,44 |
22,40 |
1,71 |
18,73 |
2,05 |
40 (2x20) |
35,54 |
1,08 |
29,87 |
1,29 |
24,97 |
1,54 |
50 (2x25) |
44,43 |
0,86 |
37,34 |
1,03 |
31,21 |
1,23 |
60 (2x30) |
53,32 |
0,72 |
44,80 |
0,86 |
37,45 |
1,02 |
75 (3x25) |
66,65 |
0,58 |
56,00 |
0,69 |
46,82 |
0,82 |
80 (4x20) |
71,09 |
0,54 |
59,74 |
0,64 |
49,94 |
0,77 |
90 (3x30) |
79,97 |
0,48 |
67,20 |
0,57 |
56,18 |
0,68 |
100 (5x25) |
88,86 |
0,43 |
74,67 |
0,51 |
62,42 |
0,61 |
Detuned filter reactor power values are crucial for % 100 compensation performance, in order to avoid performance loss please use proper filter with the capacitor. |
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210 Hz p=%5,67 THREE PHASE DETUNED FILTER REACTOR DIMENSIONS |
PRODUCT CODE
|
Qc (kVAr) |
Ln (mH) |
In (A) |
Ith (A) |
Ilin (A) |
A |
B |
C |
WEIGHT (kg) |
OM HF T 5,67 1 |
1,00 |
30,62 |
1,53 |
1,68 |
2,75 |
145 |
150 |
64 |
2,20 |
OM HF T 5,67 2,5 |
2,50 |
12,25 |
3,83 |
4,21 |
6,89 |
145 |
150 |
70 |
3,10 |
OM HF T 5,67 4 |
4,00 |
7,66 |
6,12 |
6,73 |
11,02 |
168 |
180 |
74 |
6,40 |
OM HF T 5,67 5 |
5,00 |
6,12 |
7,65 |
8,42 |
13,77 |
168 |
180 |
79 |
7,20 |
OM HF T 5,67 6,25 |
6,25 |
4,90 |
9,56 |
10,52 |
17,21 |
168 |
180 |
84 |
8,30 |
OM HF T 5,67 7,5 |
7,50 |
4,08 |
11,48 |
12,62 |
20,66 |
168 |
180 |
94 |
10,40 |
OM HF T 5,67 10 |
10,00 |
3,06 |
15,30 |
16,83 |
27,54 |
210 |
240 |
100 |
12,10 |
OM HF T 5,67 12,5 |
12,50 |
2,45 |
19,13 |
21,04 |
34,43 |
210 |
240 |
100 |
13,50 |
OM HF T 5,67 15 |
15,00 |
2,04 |
22,95 |
25,25 |
41,31 |
210 |
240 |
100 |
14,30 |
OM HF T 5,67 20 |
20,00 |
1,53 |
30,60 |
33,66 |
55,08 |
210 |
240 |
110 |
17,50 |
OM HF T 5,67 25 |
25,00 |
1,22 |
38,25 |
42,08 |
68,85 |
210 |
240 |
120 |
23,30 |
OM HF T 5,67 30 |
30,00 |
1,02 |
45,90 |
50,49 |
82,62 |
260 |
300 |
126 |
27,50 |
OM HF T 5,67 40 |
40,00 |
0,77 |
61,20 |
67,32 |
110,16 |
260 |
300 |
136 |
30,20 |
OM HF T 5,67 50 |
50,00 |
0,61 |
76,50 |
84,15 |
137,70 |
260 |
300 |
146 |
36,5 |
OM HF T 5,67 60 |
60,00 |
0,51 |
91,80 |
100,98 |
165,24 |
260 |
300 |
156 |
43,5 |
OM HF T 5,67 70 |
70,00 |
0,44 |
107,10 |
117,81 |
192,78 |
310 |
360 |
156 |
52,2 |
OM HF T 5,67 80 |
80,00 |
0,38 |
122,40 |
134,64 |
220,32 |
310 |
360 |
166 |
53,5 |
OM HF T 5,67 90 |
90,00 |
0,34 |
137,70 |
151,47 |
247,86 |
310 |
360 |
166 |
54,8 |
OM HF T 5,67 100 |
100,00 |
0,31 |
153,00 |
168,30 |
275,40 |
310 |
360 |
176 |
60,6 |
Fr : 210 Hz P= %5,67 HARMONIC FILTER – CAPACITOR SELCETION TABLE ( Un= 400 VAC Fn = 50 Hz ) |
CAPACITOR POWER |
440 VAC CAPACITOR
HARMONIC FILTER
|
480 VAC CAPACITOR
HARMONIC FILTER
|
525 VAC CAPACITOR
HARMONIC FILTER
|
Qcn (kVAr) |
Qc (kVAr) |
Ln (mH) |
Qc (kVAr) |
Ln (mH) |
Qc (kVAr) |
Ln (mH) |
0,5 |
0,44 |
69,90 |
0,37 |
83,19 |
0,31 |
99,52 |
1 |
0,88 |
34,95 |
0,74 |
41,60 |
0,62 |
49,76 |
1,5 |
1,31 |
23,30 |
1,10 |
27,73 |
0,92 |
33,17 |
2,5 |
2,19 |
13,98 |
1,84 |
16,64 |
1,54 |
19,90 |
5 |
4,38 |
6,99 |
3,68 |
8,32 |
3,08 |
9,95 |
7,5 |
6,57 |
4,66 |
5,52 |
5,55 |
4,62 |
6,63 |
10 |
8,76 |
3,50 |
7,36 |
4,16 |
6,15 |
4,98 |
12,5 |
10,95 |
2,80 |
9,20 |
3,33 |
7,69 |
3,98 |
15 |
13,14 |
2,33 |
11,04 |
2,77 |
9,23 |
3,32 |
20 |
17,52 |
1,75 |
14,72 |
2,08 |
12,31 |
2,49 |
25 |
21,90 |
1,40 |
18,41 |
1,66 |
15,39 |
1,99 |
30 |
26,28 |
1,17 |
22,09 |
1,39 |
18,46 |
1,66 |
40 (2x20) |
35,04 |
0,87 |
29,45 |
1,04 |
24,62 |
1,24 |
50 (2x25) |
43,81 |
0,70 |
36,81 |
0,83 |
30,77 |
1,00 |
60 (2x30) |
52,57 |
0,58 |
44,17 |
0,69 |
36,92 |
0,83 |
75 (3x25) |
65,71 |
0,47 |
55,22 |
0,55 |
46,16 |
0,66 |
80 (4x20) |
70,09 |
0,44 |
58,90 |
0,52 |
49,23 |
0,62 |
90 (3x30) |
78,85 |
0,39 |
66,26 |
0,46 |
55,39 |
0,55 |
100 (5x25) |
87,61 |
0,35 |
73,62 |
0,42 |
61,54 |
0,50 |
Detuned filter reactor power values are crucial for % 100 compensation performance, in order to avoid performance loss please use proper filter with the capacitor. |
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134 Hz p=%14 THREE PHASE DETUNED FILTER REACTOR DIMENSIONS |
PRODUCT CODE |
Qc (kVAr) |
Ln (mH) |
In (A) |
Ith (A) |
Ilin (A) |
A |
B |
C |
WEIGHT (kg) |
OM HF T 14 1 |
1,00 |
82,49 |
1,53 |
1,68 |
2,75 |
145 |
150 |
64 |
3,90 |
OM HF T 14 2,5 |
2,50 |
33,00 |
3,83 |
4,21 |
6,89 |
145 |
150 |
75 |
6,80 |
OM HF T 14 4 |
4,00 |
20,62 |
6,12 |
6,73 |
11,02 |
168 |
180 |
79 |
8,50 |
OM HF T 14 5 |
5,00 |
16,50 |
7,65 |
8,42 |
13,77 |
168 |
180 |
84 |
13,00 |
OM HF T 14 6,25 |
6,25 |
13,20 |
9,56 |
10,52 |
17,21 |
168 |
180 |
94 |
14,70 |
OM HF T 14 7,5 |
7,50 |
11,00 |
11,48 |
12,62 |
20,66 |
210 |
210 |
100 |
16,20 |
OM HF T 14 10 |
10,00 |
8,25 |
15,30 |
16,83 |
27,54 |
210 |
240 |
100 |
19,10 |
OM HF T 14 12,5 |
12,50 |
6,60 |
19,13 |
21,04 |
34,43 |
210 |
240 |
110 |
21,50 |
OM HF T 14 15 |
15,00 |
5,50 |
22,95 |
25,25 |
41,31 |
210 |
240 |
110 |
23,30 |
OM HF T 14 20 |
20,00 |
4,12 |
30,60 |
33,66 |
55,08 |
210 |
240 |
120 |
33,50 |
OM HF T 14 25 |
25,00 |
3,30 |
38,25 |
42,08 |
68,85 |
260 |
300 |
126 |
38,00 |
OM HF T 14 30 |
30,00 |
2,75 |
45,90 |
50,49 |
82,62 |
260 |
300 |
136 |
43,20 |
OM HF T 14 40 |
40,00 |
2,06 |
61,20 |
67,32 |
110,16 |
260 |
300 |
146 |
59,20 |
OM HF T 14 50 |
50,00 |
1,65 |
76,50 |
84,15 |
137,70 |
260 |
300 |
156 |
67,5 |
OM HF T 14 60 |
60,00 |
1,37 |
91,80 |
100,98 |
165,24 |
310 |
360 |
156 |
72,3 |
OM HF T 14 70 |
70,00 |
1,18 |
107,10 |
117,81 |
192,78 |
310 |
360 |
166 |
89,4 |
OM HF T 14 80 |
80,00 |
1,03 |
122,40 |
134,64 |
220,32 |
310 |
360 |
176 |
98,8 |
OM HF T 14 90 |
90,00 |
0,92 |
137,70 |
151,47 |
247,86 |
310 |
360 |
176 |
105,8 |
OM HF T 14 100 |
100,00 |
0,82 |
153,00 |
168,30 |
275,40 |
410 |
480 |
208 |
126,9 |
Fr : 134 Hz P= %14 HARMONIC FILTER – CAPACITOR SELCETION TABLE ( Un= 400 VAC Fn = 50 Hz ) |
CAPACITOR POWER |
440 VAC CAPACITOR
HARMONIC FILTER
|
480 VAC CAPACITOR
HARMONIC FILTER
|
525 VAC CAPACITOR
HARMONIC FILTER
|
Qcn (kVAr) |
Qc (kVAr) |
Ln (mH) |
Qc (kVAr) |
Ln (mH) |
Qc (kVAr) |
Ln (mH) |
0,5 |
Do not use |
0,40 |
204,32 |
0,34 |
244,43 |
1 |
Do not use |
0,81 |
102,16 |
0,68 |
122,21 |
1,5 |
Do not use |
1,21 |
68,11 |
1,01 |
81,48 |
2,5 |
Do not use |
2,02 |
40,86 |
1,69 |
48,89 |
5 |
Do not use |
4,04 |
20,43 |
3,38 |
24,44 |
7,5 |
Do not use |
6,06 |
13,62 |
5,06 |
16,30 |
10 |
Do not use |
8,08 |
10,22 |
6,75 |
12,22 |
12,5 |
Do not use |
10,09 |
8,17 |
8,44 |
9,78 |
15 |
Do not use |
12,11 |
6,81 |
10,13 |
8,15 |
20 |
Do not use |
16,15 |
5,11 |
13,50 |
6,11 |
25 |
Do not use |
20,19 |
4,09 |
16,88 |
4,89 |
30 |
Do not use |
24,23 |
3,41 |
20,25 |
4,07 |
40 (2x20) |
Do not use |
32,30 |
2,55 |
27,00 |
3,06 |
50 (2x25) |
Do not use |
40,38 |
2,04 |
33,75 |
2,44 |
60 (2x30) |
Do not use |
48,45 |
1,70 |
40,50 |
2,04 |
75 (3x25) |
Do not use |
60,56 |
1,36 |
50,63 |
1,63 |
80 (4x20) |
Do not use |
64,60 |
1,28 |
54,00 |
1,53 |
90 (3x30) |
Do not use |
72,68 |
1,14 |
60,75 |
1,36 |
100 (5x25) |
Do not use |
80,75 |
1,02 |
67,50 |
1,22 |
Detuned filter reactor power values are crucial for % 100 compensation performance, in order to avoid performance loss please use proper filter with the capacitor. |
|
|
|
SINGLE PHASE DETUNED FILTER REACTOR DIMENSIONS fr : 189 Hz p=%7 |
PRODUCT CODE |
Qc (kVAr) |
Ln (mH) |
In (A) |
Ith (A) |
Ilin (A) |
A |
B |
C |
WEIGHT (kg) |
OM HF M 7 0,5 |
0,40 |
34,8 |
1,84 |
2,03 |
3,32 |
89 |
75 |
57 |
0,90 |
OM HF M 7 0,55 |
0,55 |
25,3 |
2,53 |
2,79 |
4,56 |
89 |
75 |
66 |
1,20 |
OM HF M 7 0,60 |
0,60 |
23,2 |
2,77 |
3,04 |
4,98 |
89 |
75 |
66 |
1,25 |
OM HF M 7 0,8 |
0,80 |
17,4 |
3,69 |
4,06 |
6,64 |
87 |
85 |
64 |
1,30 |
OM HF M 7 1 |
1,00 |
13,9 |
4,61 |
5,07 |
8,30 |
87 |
85 |
64 |
1,35 |
OM HF M 7 1,5 |
1,50 |
9,28 |
6,91 |
7,60 |
12,44 |
87 |
85 |
78 |
1,85 |
OM HF M 7 2 |
2,00 |
6,96 |
9,22 |
10,14 |
16,59 |
87 |
85 |
89 |
2,00 |
OM HF M 7 2,5 |
2,50 |
5,57 |
11,52 |
12,67 |
20,74 |
88 |
95 |
82 |
2,50 |
OM HF M 7 3 |
3,00 |
4,64 |
13,83 |
15,21 |
24,89 |
88 |
95 |
86 |
2,70 |
OM HF M 7 4 |
4,00 |
3,48 |
18,43 |
20,28 |
33,18 |
109 |
110 |
100 |
3,85 |
OM HF M 7 5 |
5,00 |
2,78 |
23,04 |
25,35 |
41,48 |
120 |
120 |
100 |
4,60 |
OM HF M 7 7,5 |
7,50 |
1,85 |
34,57 |
38,02 |
62,22 |
145 |
150 |
120 |
8,00 |
OM HF M 710 |
10,00 |
1,39 |
46,09 |
50,70 |
82,96 |
145 |
150 |
130 |
9,30 |
HARMONIC FILTER - CAPACITOR SELECTION TABLE ( Un= 230 V AC Fn = 50 Hz ) |
|
Fr : 189 Hz p=%7 |
Fr : 134 Hz p=%14 |
CAPACITOR POWER
|
250 VAC CAPACITOR
HARMONIC FILTER
|
400 VAC CAPACITOR
HARMONIC FILTER
|
250 VAC CAPACITOR
HARMONIC FILTER
|
400 VAC CAPACITOR
HARMONIC FILTER
|
Qcn (kVAr) |
Qc (kVAr) |
Qc (kVAr) |
Qc (kVAr) |
Qc (kVAr) |
0,25 |
0,23 |
0,09 |
Do not use |
0,1 |
0,5 |
0,45 |
0,18 |
Do not use |
0,19 |
0,8 |
0,73 |
0,29 |
Do not use |
0,31 |
1 |
0,91 |
0,36 |
Do not use |
0,38 |
1,5 |
1,36 |
0,54 |
Do not use |
0,58 |
1,7 |
1,55 |
0,61 |
Do not use |
0,65 |
2 |
1,82 |
0,71 |
Do not use |
0,77 |
2,5 |
2,27 |
0,89 |
Do not use |
0,96 |
3 |
2,73 |
1,07 |
Do not use |
1,15 |
3,3 |
3 |
1,18 |
Do not use |
1,27 |
4 (2x2) |
3,64 |
1,43 |
Do not use |
1,54 |
5 |
4,55 |
1,79 |
Do not use |
1,92 |
6 ( 2x3) |
5,45 |
2,14 |
Do not use |
2,31 |
7,5 ( 3x2,5) |
6,82 |
2,68 |
Do not use |
2,88 |
8 (4x2) |
7,27 |
2,86 |
Do not use |
3,1 |
9 (3x3) |
8,2 |
3,21 |
Do not use |
3,46 |
10 (2x5) |
9,1 |
3,57 |
Do not use |
3,85 |
15 (3x5) |
13,64 |
5,36 |
Do not use |
5,77 |
Detuned filter reactor power values are crucial for % 100 compensation performance, in order to avoid performance loss please use proper filter with the capacitor. |
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