These software-powered SiC Inverter Control Modules are designed to help engineers create functionally safe, robust and modular E-motor drives while dramatically shortening time-to-market.
The CXT-ICM3SA series offers optimal hardware and software integration of CISSOID’s existing line of 3-phase 1200V/340A-550A SiC MOSFET Intelligent Power Modules (IPMs) with an OLEA T222 Field Programmable Control Unit (FPCU) control board and OLEA APP INVERTER application software, supplied in partnership with Silicon Mobility.
Depending on the selected ICM product, this modular core engine is capable of powering and controlling high voltage SiC traction inverters with battery voltages up to 850V, at output power in excess of 350kW, and with peak efficiency above 99%.
This integration facilitates the rapid development of SiC inverters by solving EMC issues often generated due to fast-switching SiC transistors, by supporting different modulation schemes, e.g. SVPWM or DPWM, combined with dead time compensation, and by offering advanced motor control algorithms, including Field Oriented Control (FOC) and Flux Weakening management.
CISSOID is providing a complete SiC inverter reference design allowing motor bench testing of the ICM together with key peripheral elements such as current sensors, a high-performance DC-Link capacitor and EMI filter.
The ICM efficiently supports the drive of high-speed motors, thanks to the combination of CISSOID’s low losses SiC power module with the ultra-fast real-time FPCU, enabling high switching frequencies up to 50kHz. In addition, this application-specific processor dedicated to e-motor control, with onboard programmable hardware, accelerates the response time to critical events, off-loading the processor cores and enhancing functional safety.
Both the FPCU and the control software are ISO-26262 ASIL C/D certified and AUTOSAR 4.3 compliant.