FORT LAUDERDALE, Fla. -- KEMET Corporation has announced a complete capacitance and voltage offering for the KC-LINK ceramic surface mount capacitors in the EIA 3640 case size. The very high ripple current capabilities make KC-LINK capacitors ideal for use with fast-switching wide bandgap (WBG) semiconductors, which enables power converters to operate at higher voltages, temperatures and frequencies, and achieve higher efficiency levels and greater power density. The devices are suitable for use in DC-Link, snubber and resonant applications.
KC-LINK capacitors are available with capacitance values ranging from 4.7nF to 220nF and voltage ranges of 500V to 1700V. These devices utilize KEMET’s robust Class I C0G Base Metal Electrode (BME) dielectric technology giving them superior capacitance stability over temperature and voltage, combined with high ripple current capability. Furthermore, the capacitors exhibit extremely low equivalent series resistance (ESR) and equivalent series inductance (ESL). With an operating temperature range of -55°C to +150°C, KEMET’s KC-LINK capacitors can be mounted near fast-switching semiconductors in high density power applications.
KC-LINK capacitors are also ideal for resonant converters and wireless chargers in applications such as cloud computing and charging electric vehicles. These often require very low capacitance shift over operating conditions. The high mechanical robustness allows the capacitor to be mounted without the use of lead frames. This provides extremely low equivalent series inductance (ESL) increasing the operating frequency range allowing for further miniaturization. Available in both commercial and automotive (AEC-Q200) grades, this series is Pb-Free, RoHS and REACH compliant.
To further increase power density, KEMET has developed KONNEKTTM which utilizes an innovative Transient Liquid Phase Sintering (TLPS) technology to create a leadless multi-chip solution. When combined with KEMET’s KC-LINK, KONNEKT enables a low-loss, low inductance package capable of handling extremely high ripple currents in the hundreds of kilohertz.
For more information, visit www.kemet.com/KC-LINK.