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- High Current HEW™ Inductor in low-profile compact form
- Inductance Range: 3.3 µH to 15 µH
- Very low DCR
- True 30 Amp handling capability on the wire (at high "L", Isat is more critical)
- Dummy 3rd pin for mounting stability
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- High Current HEW™ Inductor in low-profile compact form
- Inductance Range: 4.7 µH to 29 µH
- Very low DCR
- True 45-55 Amp handling capability on the wire (refer to Isat characteristic when doing your design to see which is more critical)
- Core Material: Powdered cores with distributed air gap for soft saturation
- Terminations: RoHS compliant, typically SAC305 or equivalent
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- Helical Edge Wound (HEW) Flat Wire Toroid Inductors
- Low Core Loss
- Excellent heat dissipation
- Good DC bias characteristics
- Lower ACR than traditional round wire toroid inductors
- Extremely low interwinding capacitance
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- High current inductor in compact size package (44.5 mm x 40 mm x 27 mm)
- Inductance Range: 1.4 µH to 45.9 µH
- Flat wire coil minimizes losses at high frequency
- Horizontal mount, low profile package (vertical mount version also available)
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- High current inductor in compact size package (45 mm x 40 mm x 27 mm)
- Inductance Range: 1.4 µH to 45.9 µH
- Flat wire coil minimizes losses at high frequency
- Horizontal mount package with mounting clip for added support (vertical mount version also available)
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- High current inductor in compact size package (44 mm x 35 mm x 36 mm)
- Inductance Range: 1.4 µH to 45.9 µH
- Flat wire coil minimizes losses at high frequency
- Vertical mount package with mounting clip and base for added support (horizontal mount version also available)
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- High current inductor in compact size package (44.5 mm x 40 mm x 34 mm)
- Inductance Range: 3.6 µH to 83 µH
- Flat wire coil minimizes losses at high frequency
- Horizontal mount, low profile package (vertical mount version also available
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- High current inductor in compact size package (45 mm x 40 mm x 34 mm)
- Inductance Range: 3.6 µH to 83 µH
- Flat wire coil minimizes losses at high frequency
- Horizontal mount package with mounting clip for added support (vertical mount version also available)
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- High current inductor in compact size package (44 mm x 42 mm x 36 mm)
- Inductance Range: 3.6 µH to 83 µH
- Flat wire coil minimizes losses at high frequency
- Vertical mount package with mounting clip and base for added support (horizontal mount version also available)
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- High current inductors ideal for use in PV Inverter, String Inverter, Bidirectional Inverter applications
- Inductance range from 26 microhenries to 160 microhenries and current rating over 100 Amps
- Flat wire coil minimizes losses at high frequency
- Superior thermal management and significantly reduced size and weight compared with conventional toroid designs
- Custom Design Available up to 500 A current for inverter systems 20kW and up
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- High current inductors ideal for use in PV Inverter, String Inverter, Bidirectional Inverter applications
- Inductance range from 13 microhenries to 320 microhenries and current rating over 200 Amps
- Flat wire coil minimizes losses at high frequency
- Superior thermal management and significantly reduced size and weight compared with conventional toroid designs
- Custom Design Available up to 500A current for inverter systems 20kW and up
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- Ideal for use as Output Inductor or Differential Mode Choke
- High Temperature, Class H
- High current handling capacity with low inductance roll-off
- High energy storage capability
- Toroidal design for excellent electromagnetic shielding
- Add -H or -V at end of part number for horizontal or vertical mount
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- High Current Inductor in compact, low profile package
- Flat wire coil minimizes losses at high frequency
- Magnetically shielded
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- High current, high power reactor ideal for AC filtering in grid tied solar inverter and HVAC inverter systems
- Compact size compared with traditional toroidal designs
- Eliminates acoustic noise issue common in lamination core designs
- High energy storage capability
- Available mounted in enclosure with thermally conductive materials for superior heat dissipation
