This whitepaper, originally presented at HiTEN 2017, reviews a comparison between solders and transient liquid phase sintered (TLPS) interconnects in high temperature multi-layer ceramic capacitors
Abhijit Gurav presented the latest data we've collected on our BME Ceramic DC Link capacitor platform. These C0G ceramic capacitors are designed for high frequency and high-temperature DC Link applications. This update was presented at APEC 2017 in Tampa, FL.
Wide-bandgap applications need DC Link and decoupling capacitors that can withstand 200°C, work at 1 MHz switching frequencies, and support up to 2,000 V. KEMET continues to move forward on developing the most advanced ceramic DC Link capacitor technology. Dr. John Bultitude presents the work his team has done to make ultra-stable, highly robust Ceramic DC Link Capacitors available in Leadless stacks.
Wide bandgap semiconductors are driving the need for ceramic DC-Link capacitor solutions. At PEIM, KEMET presented work related to our BME C0G technology.
Learn how to simulate capacitors with your application's voltage, frequency, and temperature using KEMET's K-SIM. (Also known as KEMET SPICE.)