High-Power Modules Enable Energy-Efficient Electrified Trains to Drive Decarbonization

Date
05/08/2023

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High-Power Modules Enable Energy-Efficient Electrified Trains to Drive Decarbonization

­To meet global climate targets, transportation must shift to more environmentally friendly vehicles such as energy-efficient electrified trains. Trains, however, have demanding operating profiles with frequent acceleration and braking, while being expected to operate reliably over a long service life. Consequently, energy-efficient traction applications with high-power density, reliability, and quality are required for implementation.

Infineon Technologies AG is addressing these requirements by adding two new products to its CoolSiC power module portfolio: the FF2000UXTR33T2M1 and the FF2600UXTR33T2M1. The power modules use newly developed 3.3 kV CoolSiC MOSFETs and Infineon’s interconnection technology .XT. The modules come in XHP™2 package and have been specifically tailored for traction applications.

Designed for demanding applications such as traction, these devices will be presented at this year's PCIM conference in Nuremberg, Germany. “For environmentally friendly mobility, rail technology requires innovative semiconductor solutions designed specifically for these applications,” said Dr. Peter Wawer, Division President of Infineon’s Green Industrial Power Division. “With low switching losses and the ability to enable higher switching frequencies, Infineon's new silicon carbide products contribute to greener and quieter trains, which are extremely important features for tomorrow's train traffic.”

In addition to an efficient and robust silicon carbide (SiC) chip, power modules for traction drives require packaging that allow fast switching, along with interconnection technologies that enable a long service life time. Infineon’s new power modules offer these exact features: The CoolSiC MOSFET chips with integrated body diodes in Infineon's XHP 2 packaging enable low switching losses while maintaining high reliability and power density.

The XHP 2 packaging also features low stray inductance, a symmetrical and scalable design, and high current carrying capability. The FF2000UXTR33T2M1 module offers a drain-source-on-state resistance of 2.0 mΩ, while the FF2600UXTR33T2M1 features a drain-source-on-state resistance of 2.6 mΩ. Despite the demanding operating profiles of trains, Infineon's .XT interconnect technology improves power cycling capabilities.

Compared to conventional solutions, Infineon’s CoolSiC power modules enable overall energy consumption in the motor and converter of the train to be reduced by ten percent. Additionally, train operators benefit from a more compact, lighter converter, along with a simplified cooling systems. While this is paying into the decarbonization efforts of Infineon, traction manufacturers and railway service operators, citizens also benefit from lower noise levels when trains go through a neighborhood. An Infineon SiC-based XHP 2 power module has been proven in a joint field test with streetcars conducted by Siemens Mobility and Stadtwerke München (SWM) in 2022. The test has shown that power semiconductors based on SiC significantly reduce engine noise during operation.

Availability

The CoolSiC XHP 2 3,3 kV high-power modules are available as samples for selected customers.

For more information, go here.

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