Sponsored by Knowles Precision Units
Many energy electronics in the present day are being designed to be used in high-temperature, high-voltage environments, reminiscent of inside electrical autos. Nonetheless, dimension, weight, and energy (SWaP) are additionally key components driving digital product growth. These conflicting design standards are a difficulty for a lot of electrical engineers as a result of house shouldn’t be obtainable to easily add a cooling system, as this may add weight and improve the product’s general footprint. Due to this fact, many of those digital parts are inclined to “operating sizzling” on the excessive temperatures and excessive voltages utilized in these tiny areas.
Given the challenges for EV parts, it’s essential for designers to pick out the proper high-voltage, high-temperature capacitors to satisfy software necessities and business certifications. We’ll evaluation how decreasing losses in a DC-DC converter, the converter (and general automobile) advantages from improved vitality effectivity, a extra streamlined design, and diminished heating from parts; how capacitor traits impression temperature rise and reliability; and the way low loss, extremely secure high-capacitance MLCCs can optimize energy electronics.
In the end, the extra effectively energy is transformed, the additional distance the EV can journey on one cost. Study extra about choosing the proper capacitors to function reliably and effectively, even in essentially the most demanding EV functions.
Sponsored by Knowles Precision Units
