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C-core chokes
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One-phase line reactors with soft magnetic cut cores for power application conform to VDE 0570 EN61558-2-20
Datasheet as PDF
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BV 29031002a und BV 3116002 und BV 2983043a
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Field of application
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Line reactor, commutation reactor, smoothing reactor, PFC reactor, armature-circuit choke, intermediate circuit choke (direct link inductor), boost converter
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Description
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The size is determined by the energy E = 0,5 x L x I2. All given values are calculated for low warming and low humming. With forced cooling, smaller dimensions are possible. If there is only a bit of over temperature allowed, the dimensions will increase.
Reactors for one-phase loads and electronic devices with the following advantages:
Use as a smoothing reactor or commutation reactor in DC circuits:
- low ripple factor
- attenuation of current harmonics
- bridging of line failures
- limitation of peak currents
Use as a line reactor:
- attenuation of current harmonics
- limitation of start-up current
- guarantee of short-circuit voltage of 4% to line
Use as a PFC reactor:
Use as an armature circuit reactor:
- reduction of harmonics in the motor and thus an increasement of the motor efficiency at
one-phase applications
- reduction of current noises in the motor
- increasement of the total inductance of the motor circuit for DC motors with low inductance
Use as an intermediate circuit choke or boost converter with harmonics
Harmonics with high current-stress can be absorbed very well, because of the low-loss cut cores
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Technical data
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One-phase line reactor conform to EN 61558, EN 50081-1 and -2-20, EN 50082-1 and -2
Frequency range: 50 Hz up to 20 kHz
Test voltage: winding - core: 2,5 kV
Good EMC ratio
High thermal stability
Temperatureclass: B or F
Ambient temperature: 40°C
Fire class UL94V0
Prepared for protection index I
Protective class: IP00
Voltage range: 0 - 400 V, other values on request
Choke 2 x varnished under vacuum
The given value of energy is only a guideline
Current: Can be defined by customer, inductance is the result of type size and energy
Inductance: Can be defined by customer, current is the result of type size and energy
Tolerance of energy +/- 30%
Block terminals are shock proof conform to VBG4,
Flat connectors for bolts or plugs are not shock proof
To reduce losses and dimensions, it is possible to use amorphous or nanocrystalline core materials
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Table
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Type
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Type size
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Energy
0,5 x L x I² mWs
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Dimensions in mm
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Mounting holes
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Copper
weight
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Total
weight
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b
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h
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h1
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l
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l1
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f1
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f2
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f3
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f4
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DUO
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SU 75/41,5
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810
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120
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125
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150
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88
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105
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100
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102
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5,8
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9,0
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1,00 kg
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3,6 kg
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DUO
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SU 90/31,5
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900
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120
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150
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180
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78
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95
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120
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102
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5,8
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9,0
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1,55 kg
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4,5 kg
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DUO
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SU 90/51,5
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1600
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120
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150
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180
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98
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115
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120
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102
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5,8
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9,0
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2,10 kg
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6,8 kg
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DUO
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SU 102/57
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1800
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144
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170
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200
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109
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1427
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136
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126
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5,8
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9,0
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2,55 kg
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9,2 kg
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DUO
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SU 114/40
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2500
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144
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190
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225
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92
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110
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152
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126
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5,8
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9,0
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2,70 kg
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8,6 kg
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DUO
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SU 114/64
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2700
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144
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190
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225
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116
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134
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152
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126
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5,8
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9,0
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3,50 kg
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12,9 kg
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DUO
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SU 132/46
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6200
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166
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220
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260
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106
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139
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176
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146
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7,0
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13
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5,2 kg
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14,4 kg
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DUO
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SU 132/72
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7500
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166
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220
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260
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132
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156
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176
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146
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7,0
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13
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5,8 kg
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20,0 kg
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DUO
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SU 150/52
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7500
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200
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250
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295
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118
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144
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200
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174
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7,0
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13
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7,3 kg
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20,7 kg
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DUO
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SU 150/77
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12000
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200
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250
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295
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143
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169
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200
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174
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7,0
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13
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9,1 kg
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28,9 kg
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DUO
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SU 168/92
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14000
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225
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280
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330
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164
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186
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224
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192
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7,0
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13
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12,6 kg
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42,0 kg
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DUO
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SU 180/63
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15000
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240
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300
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350
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145
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168
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240
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204
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9,0
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13
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14,0 kg
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37,6 kg
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DUO
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SU 180/78
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16000
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240
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300
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350
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160
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182
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240
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204
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9,0
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13
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14,7 kg
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43,6 kg
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DUO
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SU 180/93
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17000
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240
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300
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350
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175
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182
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240
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204
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9,0
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13
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16,2 kg
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50,6 kg
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DUO
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SU 210/73
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22000
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280
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350
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410
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164
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186
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280
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234
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9,0
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13
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27,3 kg
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71,8 kg
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DUO
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SU 210/103
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25000
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280
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350
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410
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194
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218
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280
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234
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9,0
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13
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35,4 kg
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87,0 kg
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DUO
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SU 210/133
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30000
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280
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350
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410
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224
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247
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280
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234
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9,0
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13
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38,2 kg
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105,0 kg
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DUO
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SU 240/110
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56000
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320
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400
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480
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223
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238
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320
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264
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12,0
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18
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44,0 kg
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116,0 kg
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DUO
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SU 240/140
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80000
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320
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400
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480
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253
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268
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320
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264
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12,0
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18
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46,5 kg
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140,0 kg
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DUO
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SU 360/150
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120000
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492
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360
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-
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655
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-
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255
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310
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11,0
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-
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110,0 kg
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310,0 kg
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DUO
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SU 400/120
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120000
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480
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700
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-
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260
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-
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210
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310
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11,0
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-
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63,0 kg
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215,0 kg
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Technical changes and optimization reserved. Dimensions l and f1 are given without air gap, they can change depending on the thickness of the gap. All given values and measures are guidelines and may differ from the production.
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06/2010
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Examples
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Type
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Type size
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L
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I 1
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I 2
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f
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BV
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DUOFWN
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SU 132a/45
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1,5 mH
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50 A @ 50 Hz
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26 A
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10 kHz
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32016007
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DUOKWN
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SU 150/52
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1,3 mH
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100 A DC
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11 A
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3333 Hz
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2983043a
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DUOKWN
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SU 150/52
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8 mH
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75 A DC
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5 A
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1200 Hz
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22040004
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DUOKWN
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SU 168/58
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700 µH
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180 A DC
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40 A
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300 Hz
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16211084
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DUOFWR
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SU 210/71
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300 µH
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440 A DC
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2,35 A
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4 kHz
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3116002
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DUOFWR
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SU 240/140
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375 µH
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600 A @ 50 Hz
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37 A
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2850 Hz
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2937008
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DUODWR
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SU 400/120
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5 mH
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300 A @ 50 Hz
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16 A
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1000 Hz
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15013002
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Technical changes and optimization reserved
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06/2010
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BV 16211084
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