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Super high performance power line filter
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This case range is used for HEMP protection of power lines. The HEMP characteristics are conform to MIL STD 188 125 1 and 2.
The general design corresponds with the attenuation request of shielded sites (Faraday cages, shelters...).
Applications
These protections can be used for the following single or three phase electrical networks:
- 250V AC - 50/60 Hz
- 250/440 V AC - 50/60 Hz
- 400 V DC
- 10 to 800 A
Discharge resistors are inclused.
LEMP protection type 2.
Cable mounting compartment access
- Shielded compartment access:
Easy mounting with a gasket mechanical stop to prevent crushing.
- External compartment access:
This is a safety access for electrical security.
Attenuation curves
Attenuation (50 Ω on load) MIL STD 220 B or GAM T21
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Mounting
These variety protections are designed for mounting on the penetration panel or directly on the non-painted wall of the Faraday cage.
Mounting procedure:
- Fixed with six screws.
- Feed-through nozzle (supplied with filter) is used to ensure high frequency performance.
- A non-rotation system ensures correct and easy mounting.
Maximum torque value
| M 5: |
2.2 |
Nm |
| M 6: |
2.45 |
Nm |
| M 8: |
10 |
Nm |
| M 10: |
15 |
Nm |
| M 12: |
20 |
Nm |
| M 33 x 2: |
40 |
Nm |
| M 60 x 2: |
40 |
Nm |
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General characteristics
The super high performance power filter protection range is made from a non-magnetic metal which provides an excellent earth bonding and electromagnetic shielding. The cabinet is separated into three parts:
- Network access (with varistors).
- Filtering area.
- Shielded area which has a metal penetration nozzle supplied with the filter.
The lid of the shielded area is equipped with a double barrier gasket.
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Technical characteristics
| Operating temperature |
: - 40°C + 50°C |
| for 400 and 800 A |
: - 40°C + 40°C |
| Storage temperature |
: - 40°C + 70°C |
| Test voltage |
: 1150 VDC (Without varistors) |
| Overvoltage protection |
: Varistors |
| In 10 (strokes) |
: 25 kA (8/20 μs) |
| Imax (1 stroke) |
: 70 kA (8/20 μs) |
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Reference
Single phase
(+ N)
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Reference
Three phase
(+ N)
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Max.
Current
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Rated voltage UR
(V rms)*
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Max. ohmic
resistance
per line
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Max. leakage
current
at 250V / 50 Hz
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Max. residual
under 5 kA
wave 20/500 ns
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Approximative
weight
(kg)
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(A)
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50-60 Hz
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(mΩ)
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(A)
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(A)
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1p + N
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3p + N
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SHP - 2010
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SHP - 4010
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10
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250
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35
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0.95
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2
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7
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13
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SHP - 2016
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SHP - 4016
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16
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250
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22
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0.95
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2
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7
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13
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SHP - 2032
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SHP - 4032
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32
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250
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10
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0.95
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3
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8
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14
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SHP - 2064
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SHP - 4064
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64
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250
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4
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1.05
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4
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9
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15
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SHP - 2100
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SHP - 4100
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100
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250
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2
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1.05
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4
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13
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22
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SHP - 2125
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SHP - 4125
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125
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250
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1.5
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1.05
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4
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14
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25
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SHP - 2200
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SHP - 4200
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200
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250
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1
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2
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5
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16
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30
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SHP - 2250
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SHP - 4250
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250
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250
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0.8
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2
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5
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17
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33
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SHP - 2300
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SHP - 4300
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300
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250
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0.6
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3.3
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6
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20
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37
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SHP - 2400
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SHP - 4400
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400
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250
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0.5
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4
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6
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34
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55
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-
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SHP - 4800
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800
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250
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0.2
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5.5
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6
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-
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75
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* Three phase main : 250/440 Vca
For the explanation of the reference see chapter " how to order " below
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Connection
For the shielded area:
Cables are passed through metallic nozzles ensuring that the RFI sealing between the inside of the cages and the shielded area is guaranteed. Connections are made by copper threaded terminals (Copper bars for 800 A). A ground connection is available and can be used as an earth terminal.
For the external area:
Cables exit via a grommet. Connections are made by copper threaded terminals. A ground connection is available, either internally or externally, and can be used as an earth terminal.
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Dimensions in mm
(Single phase + N)
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Reference
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A
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B
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C max.
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D ± 0.5
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E ± 0.5
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F ± 0.5
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G ± 0.5
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J
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K
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L
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R
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M ± 0.5
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P
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N
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SHP - 2010
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425
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170
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110
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37
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70
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290
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192
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Ø 33
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35
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M 33
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Ø 26
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46
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M 6
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50
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SHP - 2016
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425
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170
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110
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37
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70
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290
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192
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Ø 33
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35
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M 33
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Ø 26
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46
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M 6
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50
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SHP - 2032
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425
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170
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110
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37
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10
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290
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192
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Ø 33
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35
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M 33
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Ø 26
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46
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M 6
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50
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SHP - 2064
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425
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170
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110
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37
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10
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290
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192
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Ø 33
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35
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M 33
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Ø 26
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46
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M 8
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50
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SHP - 2100
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610
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200
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110
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50
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50
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510
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222
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Ø 52
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45
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M 60
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Ø 50
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80
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M 8
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50
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SHP - 2125
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610
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200
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110
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50
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50
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510
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222
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Ø 52
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45
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M 60
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Ø 50
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80
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M 8
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50
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SHP - 2200
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610
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200
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110
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50
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50
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510
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222
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Ø 52
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45
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M 60
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Ø 50
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80
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M 8
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50
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SHP - 2250
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610
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200
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110
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50
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50
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510
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222
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Ø 52
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45
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M 60
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Ø 50
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80
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M 10
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50
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SHP - 2300
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610
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200
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200
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50
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50
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600
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222
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Ø 52
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146
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M 60
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Ø 50
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80
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M 10
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50
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SHP - 2400
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610
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320
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200
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50
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50
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600
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342
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Ø 52
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146
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M 60
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Ø 50
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80
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M 12
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50
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* For the explanation of the reference see chapter " how to order " below
(Three phase + N)
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Reference
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A
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B
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C max.
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D ± 0.5
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E ± 0.5
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F ± 0.5
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G ± 0.5
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J
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K
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L
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R
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M ± 0.5
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P
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N
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SHP - 4010
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560
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250
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110
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37
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70
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420
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272
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Ø 33
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35
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M 33
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Ø 26
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46
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M 6
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50
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SHP - 4016
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560
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250
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110
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37
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70
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420
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272
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Ø 33
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35
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M 33
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Ø 26
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46
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M 6
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50
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SHP - 4032
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560
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250
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110
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37
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70
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420
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272
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Ø 33
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35
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M 33
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Ø 26
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46
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M 6
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50
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SHP - 4064
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560
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250
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110
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37
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70
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420
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272
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Ø 33
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35
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M 33
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Ø 26
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46
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M 8
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50
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SHP - 4100
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610
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320
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110
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50
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50
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510
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342
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Ø 52
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45
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M 60
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Ø 50
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80
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M 8
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50
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SHP - 4125
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610
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320
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110
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50
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50
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510
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342
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Ø 52
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45
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M 60
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Ø 50
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80
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M 8
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50
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SHP - 4200
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700
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320
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200
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50
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50
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600
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342
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Ø 52
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140
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M 60
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Ø 50
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80
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M 8
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50
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SHP - 4250
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700
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320
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200
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50
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50
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600
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342
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Ø 52
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140
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M 60
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Ø 50
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80
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M 10
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50
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SHP - 4300
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700
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320
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200
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50
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50
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600
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342
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Ø 52
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140
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M 60
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Ø 50
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80
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M 10
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50
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SHP - 4400
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700
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600
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200
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50
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50
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600
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642
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4 x Ø 40
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110
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4 x M 60
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Ø 50
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80
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M 12
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50
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SHP - 4800
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875
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650
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265
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85
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50
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775
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865
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4 x Ø 60
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110
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4 x M 60
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-
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80
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-
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50
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* For the explanation of the reference see chapter " how to order " below
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How to order
The picture below explaines how to generate a Super high performance part number.
- Serie (SHP = Super high performance);
- the amount of phases;
- the current (A);
- and then the amount of volts (250/400).
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