At 900 V, small efficiency gaps can become big thermal problems. Inverters running SiC/GaN at high frequencies intensify ripple currents and internal heating, especially in the DC-link. In this webinar, we’ll quantify where inverter heat is generated, how voltage spikes and duty cycles age capacitors, and why LDF’s high-temperature tolerance (135°C class) and low ESR/ESL cuts self-heating, cooling hardware, and derating. We’ll contrast BOPP-C’s shrinkage and lifetime drop-off at elevated temps with LDF’s stable capacitance and 3–5× duty-cycle headroom creating smaller banks, lighter enclosures, and longer service intervals. Design for heat first. Learn how LDF keeps your DC-link cool, compact, and reliable at 900 V with drop-in compatibility.
3 Key Takeaways:
- Extended Operation and Reduced Cooling Demands: How 135°C tolerance and ultra-low ESR/ESL cut self-heating, cooling hardware, and derating.
- Lower Maintenance: Why LDF’s stability at high temps results in fewer parts, longer lifetimes, and less maintenance.
- Reduce Supply Chain Risk: How domestic and allied sourcing delivers supply-chain resilience and mitigates program risk.

Save Your Seat!
Learn how LDF outperforms BOPP-C under heat and stress for longer life, fewer parts, and smaller banks.