<BR>Wurth Elektronik - Passive Components - Power Magnetics - Single Coil Power Inductors - WE-HCFT<br>
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<B><I><span style='font-size:26pt;
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<B> More than you expect<BR><BR><BR></B>
<HR><BR>
<b>Würth Elektronik eiSos GmbH & Co. KG</b><br>
EMC & Inductive Solutions<br>
Max-Eyth-Str.1<br>
D-74638 Waldenburg<br>
<br>
Tel: +49 (0)7942-945-0<br>
Fax:+49 (0)7942-945-5000<br>
<br>
<a href="http://www.we-online.com/web/en/electronic_components/produkte_pb/bauteilebibliotheken/eagle_4.php">www.we-online.com/eagle</a><br>
<a href="mailto:libraries@we-online.com">libraries@we-online.com</a> <BR><BR>
<br><HR><BR>
Disclaimer: While Würth Elektronik eiSos has made every reasonable effort to ensure the accuracy of the PCB layout models provided, <br>
Würth Elektronik eiSos does not guarantee the exemption of error on the PCB layout models, nor does Würth Elektronik eiSos guarantee that the PCB layout model is current. <br>
Würth Elektronik eiSos reserves the right to make any adjustments at any time without notice. <br>
Würth Elektronik eiSos expressly disclaims all implied warranties regarding this PCB layout model. <br>
<br>
Please contact us for more information.<br>
<HR>
<br>Eagle Version 9, Library Revision 2023a, 2023-05-15<br>
<HR>
Copyright: Würth Elektronik
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2012, SMT
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2012, SMT
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3540, SMT
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3533, SMT
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3533, SMT
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3540, SMT
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3521, SMT
>NAME
>VALUE
Milling Layer
the hole size should
follow the Milling Layer
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2504, SMT
<br>Pad width=0.5mm
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
>NAME
>VALUE
Milling Layer
the hole size should
follow the Milling Layer
Milling Layer
the hole size should
follow the Milling Layer
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3540, SMT
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
PCB Cutout Area
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
PCB Cutout Area
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3540, SMT
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
Milling Layer
the hole size should
follow the Milling Layer
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2504, SMT
<br>Pad width=1.0mm
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
Milling Layer
the hole size should
follow the Milling Layer
Milling Layer
the hole size should
follow the Milling Layer
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2504, SMT
<br>Pad width=0.6mm
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
Milling Layer
the hole size should
follow the Milling Layer
Milling Layer
the hole size should
follow the Milling Layer
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2504, SMT
<br>Pad width=0.6mm
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
PCB Cutout Area
Milling Layer
the hole size should
follow the Milling Layer
Milling Layer
the hole size should
follow the Milling Layer
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2012, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2012, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3533, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3521, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3540, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3540, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3533, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3540, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2504, SMT
<br>Pad width=0.5mm
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 3540, SMT
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2504, SMT
<br>Pad width=0.6mm
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2504, SMT
<br>Pad width=1.0mm
<b>WE-HCFT THT High Current Inductor<br></b>
<br>
Size: 2504, SMT
<br>Pad width=0.6mm
>NAME
>VALUE
>NAME
>VALUE
<b>WE-HCFT THT High Current Inductor
<br><br>Shielded
<br>
<br><b>Characteristics
<br>
<br></b></b> THT version to assure the mechanical stability
<br>Inductance ranging from 1.5 µH up to 65 µH
<br>Current capability up to 75 A (Saturation >125 A)
<br>Extremely low DCR
<br>Low core losses (MnZn)
<br>Magnetically shielded
<br>Operating temperature -40 °C to +125 °C
<br>
<br><b>Applications
<br>
<br></b></b>Storage inductor for high efficiency DC/DC converters
<br>High current Power Supplies
<br>Battery chargers
<br>Solar inverter
<br>
<br>
<br>
<br><a href="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" title="Enlarge picture">
<img src="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" width="320"></a><p>
Details see: <a href="https://www.we-online.com/en/components/products/WE-HCFT">www.we-online.com/en/components/products/WE-HCFT</a><p>
Updated by Ella Wu 2020-11-03<br>
2020 (C) Wurth Elektronik
<b>WE-HCFT THT High Current Inductor
<br><br>Shielded
<br>
<br><b>Characteristics
<br>
<br></b></b> THT version to assure the mechanical stability
<br>Inductance ranging from 1.5 µH up to 65 µH
<br>Current capability up to 75 A (Saturation >125 A)
<br>Extremely low DCR
<br>Low core losses (MnZn)
<br>Magnetically shielded
<br>Operating temperature -40 °C to +125 °C
<br>
<br><b>Applications
<br>
<br></b></b>Storage inductor for high efficiency DC/DC converters
<br>High current Power Supplies
<br>Battery chargers
<br>Solar inverter
<br>
<br>
<br>
<br><a href="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" title="Enlarge picture">
<img src="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" width="320"></a><p>
Details see: <a href="https://www.we-online.com/en/components/products/WE-HCFT">www.we-online.com/en/components/products/WE-HCFT</a><p>
Updated by Ella Wu 2020-11-03<br>
2020 (C) Wurth Elektronik
<b>WE-HCFT THT High Current Inductor
<br><br>Shielded
<br>
<br><b>Characteristics
<br>
<br></b></b> THT version to assure the mechanical stability
<br>Inductance ranging from 1.5 µH up to 65 µH
<br>Current capability up to 75 A (Saturation >125 A)
<br>Extremely low DCR
<br>Low core losses (MnZn)
<br>Magnetically shielded
<br>Operating temperature -40 °C to +125 °C
<br>
<br><b>Applications
<br>
<br></b></b>Storage inductor for high efficiency DC/DC converters
<br>High current Power Supplies
<br>Battery chargers
<br>Solar inverter
<br>
<br>
<br>
<br><a href="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" title="Enlarge picture">
<img src="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" width="320"></a><p>
Details see: <a href="https://www.we-online.com/en/components/products/WE-HCFT">www.we-online.com/en/components/products/WE-HCFT</a><p>
Updated by Ella Wu 2020-11-03<br>
2020 (C) Wurth Elektronik
<b>WE-HCFT THT High Current Inductor
<br><br>Shielded
<br>
<br><b>Characteristics
<br>
<br></b></b> THT version to assure the mechanical stability
<br>Inductance ranging from 1.5 µH up to 65 µH
<br>Current capability up to 75 A (Saturation >125 A)
<br>Extremely low DCR
<br>Low core losses (MnZn)
<br>Magnetically shielded
<br>Operating temperature -40 °C to +125 °C
<br>
<br><b>Applications
<br>
<br></b></b>Storage inductor for high efficiency DC/DC converters
<br>High current Power Supplies
<br>Battery chargers
<br>Solar inverter
<br>
<br>
<br>
<br><a href="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" title="Enlarge picture">
<img src="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" width="320"></a><p>
Details see: <a href="https://www.we-online.com/en/components/products/WE-HCFT">www.we-online.com/en/components/products/WE-HCFT</a><p>
Updated by Ella Wu 2020-11-03<br>
2020 (C) Wurth Elektronik
<b>WE-HCFT THT High Current Inductor
<br><br>Shielded
<br>
<br><b>Characteristics
<br>
<br></b></b> THT version to assure the mechanical stability
<br>Inductance ranging from 1.5 µH up to 65 µH
<br>Current capability up to 75 A (Saturation >125 A)
<br>Extremely low DCR
<br>Low core losses (MnZn)
<br>Magnetically shielded
<br>Operating temperature -40 °C to +125 °C
<br>
<br><b>Applications
<br>
<br></b></b>Storage inductor for high efficiency DC/DC converters
<br>High current Power Supplies
<br>Battery chargers
<br>Solar inverter
<br>
<br>
<br>
<br><a href="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" title="Enlarge picture">
<img src="https://www.we-online.com/components/media/o133807v209%20Family_WE-HCFT.jpg" width="320"></a><p>
Details see: <a href="https://www.we-online.com/en/components/products/WE-HCFT">www.we-online.com/en/components/products/WE-HCFT</a><p>
Updated by Ella Wu 2020-11-03<br>
2020 (C) Wurth Elektronik
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