The SiC Inverter Reference Design is based on CISSOIDs unique hardware and software platform, setting new levels in terms of power density and efficiency, enabling the rapid development of Silicon Carbide (SiC) based inverters for electric drive trains. 

The reference design offers a modular electrical and mechanical integration of a 3-phase 1200V/550A SiC MOSFET Intelligent Power Module from CISSOID, combined with the OLEA® T222 FPCU based control board and OLEA® APP INVERTER application software from Silicon Mobility. 

The complete reference design includes a DC-Link capacitor, DC and phase current sensors, an EMI filter and liquid cooling.

Learn more about the platform

The SiC Inverter Reference Design is based on CISSOIDs unique hardware and software platform, setting new levels in terms of power density and efficiency, enabling the rapid development of Silicon Carbide (SiC) based inverters for electric drive trains. 

The reference design offers a modular electrical and mechanical integration of a 3-phase 1200V/550A SiC MOSFET Intelligent Power Module from CISSOID, combined with the OLEA® T222 FPCU based control board and OLEA® APP INVERTER application software from Silicon Mobility. 

The complete reference design includes a DC-Link capacitor, DC and phase current sensors, an EMI filter and liquid cooling.

Learn more about the platform

The SiC Inverter Reference Design is based on CISSOIDs unique hardware and software platform, setting new levels in terms of power density and efficiency, enabling the rapid development of Silicon Carbide (SiC) based inverters for electric drive trains. 

The reference design offers a modular electrical and mechanical integration of a 3-phase 1200V/550A SiC MOSFET Intelligent Power Module from CISSOID, combined with the OLEA® T222 FPCU based control board and OLEA® APP INVERTER application software from Silicon Mobility. 

The complete reference design includes a DC-Link capacitor, DC and phase current sensors, an EMI filter and liquid cooling.

Learn more about the platform

The SiC Inverter Reference Design is based on CISSOIDs unique hardware and software platform, setting new levels in terms of power density and efficiency, enabling the rapid development of Silicon Carbide (SiC) based inverters for electric drive trains. 

The reference design offers a modular electrical and mechanical integration of a 3-phase 1200V/550A SiC MOSFET Intelligent Power Module from CISSOID, combined with the OLEA® T222 FPCU based control board and OLEA® APP INVERTER application software from Silicon Mobility. 

The complete reference design includes a DC-Link capacitor, DC and phase current sensors, an EMI filter and liquid cooling.

Learn more about the platform

The  3-Phase 1200V/340A SiC Inverter Control Module (ICM) offers optimal mechanical and electrical integration of the 3-Phase 1200V/340A SiC MOSFET Intelligent Power Module (IPM) from CISSOID with the OLEA® T222 FPCU-based SiC Inverter Control Board and OLEA® APP INVERTER application software from Silicon Mobility. This unique integration of a compact low losses SiC IPM with an ultra-fast, low power consumption, and critically safe real-time controller is setting new levels in terms of power density and efficiency. Integrated hardware and the application software support rapid development of SiC inverters for compact and efficient motor drives in E-Mobility applications. The platform is supplied with highly configurable control application software supporting various types of electric motors and position sensors.

The  3-Phase 1200V/550A SiC Inverter Control Module (ICM) offers optimal mechanical and electrical integration of the 3-Phase 1200V/550A SiC MOSFET Intelligent Power Module (IPM) from CISSOID with the OLEA® T222 FPCU-based SiC Inverter Control Board and OLEA® APP INVERTER application software from Silicon Mobility. This unique integration of a compact low losses SiC IPM with an ultra-fast, low power consumption, and critically safe real-time controller is setting new levels in terms of power density and efficiency. Integrated hardware and the application software support rapid development of SiC inverters for compact and efficient motor drives in E-Mobility applications. The platform is supplied with highly configurable control application software supporting various types of electric motors and position sensors.

The  3-Phase 1200V/450A SiC Inverter Control Module (ICM) offers optimal mechanical and electrical integration of the 3-Phase 1200V/450A SiC MOSFET Intelligent Power Module (IPM) from CISSOID with the OLEA® T222 FPCU-based SiC Inverter Control Board and OLEA® APP INVERTER application software from Silicon Mobility. This unique integration of a compact low losses SiC IPM with an ultra-fast, low power consumption, and critically safe real-time controller is setting new levels in terms of power density and efficiency. Integrated hardware and the application software support rapid development of SiC inverters for compact and efficient motor drives in E-Mobility applications. The platform is supplied with highly configurable control application software supporting various types of electric motors and position sensors.

The  3-Phase 1200V/340A SiC Inverter Control Module (ICM) offers optimal mechanical and electrical integration of the 3-Phase 1200V/340A SiC MOSFET Intelligent Power Module (IPM) from CISSOID with the OLEA® T222 FPCU-based SiC Inverter Control Board and OLEA® APP INVERTER application software from Silicon Mobility. This unique integration of a compact low losses SiC IPM with an ultra-fast, low power consumption, and critically safe real-time controller is setting new levels in terms of power density and efficiency. Integrated hardware and the application software support rapid development of SiC inverters for compact and efficient motor drives in E-Mobility applications. The platform is supplied with highly configurable control application software supporting various types of electric motors and position sensors.

For rapid evaluation of the Silicon Carbide (SiC) pin fin power modules, CISSOID has developed a 3D-printed compact cooler (ACC-PLA1961A).

The complete kit (ACC-PLA1077A) consists of the compact cooler and the necessary materials to mount one of CISSOIDs Intelligent Power Modules.

For rapid evaluation of the Silicon Carbide (SiC) pin fin power modules, CISSOID has developed a 3D-printed reference cooler (ACC-PLA1959E). 

This cooler is designed for tabletop laboratory use and includes both pressure and temperature measurement ports on the input and output sides. It is 3D printed in PA12 material and can be used with fluid temperatures up to 70°C.

The complete kit (ACC-PLA1008D) consists of the reference cooler and the necessary materials to mount one of CISSOIDs Intelligent Power Modules.

MAGMA is a high temperature Pulse Width Modulation (PWM) Controller. It operates at constant frequency, adjustable from 50KHz up to 500KHz. MAGMA can operate with input voltages from 6 to 30V. It also features an internal voltage reference, input feed forward compensation making it less sensitive to input voltage variations, and a soft start activated whenever MAGMA comes out of stand-by or the output is enabled. An under-voltage lockout function maintains the PWM output low until the controller has sufficient supply voltage for proper operation. A “power good” comparator returns a “good” signal when the DC-DC converter output voltage has reached a programmable threshold. A synchronization pin can be driven by an external clock while the internal clock is available on CKOUT pin.

EREBUS® is CISSOID’s technology allowing to build High Temperature, High Efficiency Step-down DC-DC Converters on the basis of CISSOID’s two-chip set MAGMA -HYPERION and two power MOSFETs.

VESUVIO is CISSOID’s technology allowing to build High Temperature, High Efficiency Step-down DC-DC Converters on the basis of CISSOID’s two-chip set MAGMA -HYPERION and two power MOSFETs.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7408 contains 4 independent high-temperature 2-input AND gates. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-744040 is a high-temperature 12-stage asynchronous binary counter. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-74132 contains 4 independent high-temperature 2-input NAND gates with Schmitt trigger. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7486 contains 4 independent high-temperature 2-input XOR gates. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7474 contains 2 independent high-temperature positive-edge triggered D-type Flip-flop. It can operate with a supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7432 contains 4 independent high-temperature 2-input OR gates. It can operate with supply voltage from 3V to 5.5V.