Electronics Component

Vishay Intertechnology High Current Inductor Delivers Improved Saturation and Temperature Stability


Vertical-Mount IHVR-4024KE-51 Device in Compact 4024 Case Size Offers 50 % Lower DCR Than Typical Power Inductors While Saving Board Space

Vishay Intertechnology, Inc. (NYSE: VSH) today introduced a new high current inductor that provides 50 % lower DCR than typical power inductors for improved efficiency in high frequency DC/DC converters. Using materials and construction similar to the IHLP®, the Vishay Dale IHVR-4024KE-51 also boasts excellent saturation and temperature stability. Available in the compact 10 mm by 6 mm by 10 mm 4024 case size, the device enables high current density, while its vertical-mount design saves on board space.

Featuring high temperature operation to +155 °C, the inductor released today is optimized for energy storage in DC/DC converters up to 5 MHz and provides excellent attenuation of noise in high current filtering applications up to the SRF of the inductor. Applications for the IHVR-4024KE-51 will include servers and desktop PCs; high current POL converters; multi-phase, high current power supplies; battery-powered devices; distributed power systems; and FPGAs.

Packaged in a 100 % lead (Pb)-free shielded, composite construction that reduces buzz to ultra low levels, the RoHS-compliant inductor offers high resistance to thermal shock, moisture, and mechanical shock, and handles high transient current spikes without saturation.

Device Specification Table:

Part number IHVR-4024KE-51
Case size 4024
Inductance @ 100 kHz (μH) 0.12
DCR @ 25 °C (mΩ) 0.24
Saturation current typ. (A) 91¹; 130²
SRF typ. (MHz) 112


 ¹ DC current (A) that will cause L0 to drop approximately 20 %

² DC current (A) that will cause L0 to drop approximately 30 %

Samples and production quantities of the IHVR-4024KE-51 are available now, with lead times of 12 weeks for large orders.

Click to comment

Leave a Reply

Your email address will not be published. Required fields are marked *

To Top