Dreamstime_Yuriy-Chaban_26149915
dreamstime_yuriychaban_26149915
Dreamstime_Roman-Borodaev_80223561
dreamstime_romanborodaev_80223561
Dreamstime_Lightmuch_29646674
dreamstime_lightmuch_29646674
Dreamstime_Jamesteohart_161233010
dreamstime_andjamesteohart_161233010_promo
ID 211678764 © Andrey Sayfutdinov | Dreamstime.com
Lithium_Ion_Batteries_Stock_1_Dreamstime_
Toshiba (generated with AI)
ednp_toshibaautobrushedmotordriver_eyecandy
Dreamstime_luchschen_187489042
66eadfc5a8722fdcec117756 Dreamstime Luchschen 187489042

Handling High Power Density in Additive Manufacturing (Download)

Sept. 18, 2024
Log in to download the PDF of this article on the relationship between additive manufacturing and power density.

Read this article online.

Today’s designers are now more equipped to achieve high power density in power electronics applications. One excellent example of this is a method known as additive manufacturing (AM). A flyback AC-DC power converter using AM needs three-dimensional (3D) integration for passive and active components, particularly when working with industry-standard parts.

3D printing makes it possible for designers to produce the flexibility to construct diversified plastic carriers from varied materials, but without the need for expensive tooling. And, still, it enables complex structures for thermally, electrically, and mechanically improved setups.