How to ensure the efficiency and reliability of high-power wireless charging applications such as electric vehicle charging stations
To ensure the efficiency and reliability of high-power wireless charging applications such as electric vehicle charging stations, wireless power transfer circuits need stable, high-capacitance, high-voltage capacitors to serve as the tank capacitor in the LC resonant circuit. But these demanding circuits present a number of design challenges when using multi-layer ceramic capacitors (MLCCs). In addition to covering the basics of performing wireless power transfer with resonant circuits using MLCCs, this webinar also cover the following topics:
- How to balance circuit design needs for multi-chip assemblies
- The impacts of temperature rise and thermal management when using MLCCs and techniques for avoiding electrical failure and mechanical cracking
- An alternative solution for designing wireless resonant circuits using a custom approach to large capacitor assemblies that offers high voltage and high capacitance in a compact form factor
Watch the webinar here: