Electric vehicle (EV) drivetrain system
Infineon's next-generation electric drivetrain semiconductor solutions offer optimum power density, cost efficiency, and environmental sustainability.
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Collapse all subcategories Expand all subcategoriesEnabling efficient and sustainable EV drivetrain innovations
At the core of all these electric vehicle technologies is the electrified powertrain. Infineon supports developers to meet current and future environmental legislation and customer requirements. Our power semiconductor solutions and smart control ICs enable multi-target optimization for system cost reduction, increased power density, higher application efficiency, and modular systems supporting your preferred topology. Dedicated software and design houses support you with intelligent solutions for electric car drivetrains to achieve even more efficiency through a software design that is precisely tailored to your use case.
Key factors of a successful powertrain electrification
- Scalable and flexible application designs
- Powerful, space-optimized, and efficient solutions
- Enabling 400 V and 800 V systems
- Automotive-qualified semiconductor products
- FuSa and data security enablement
- Semiconductor partner with a deep system competency
Reliable and resilient electric drivetrain solutions
- Multicore microcontrollers for highly integrated solutions
- Power technologies in Si, SiC, and GaN for best performance and with a broad package portfolio
- Dedicated and complementing power packages
- Extensive toolchain and enablement environment
High-performance solutions for sustainable and powerful transportation
- AURIX™ microcontrollers
- OPTIREG™ PMICs
- Transceivers
- ISOFACE™ digital isolators
- XENSIV™ current sensors
- EiceDRIVER™ gate drivers
- Power Switches: Si, SiC, and GaN
- CoolMOS™, CoolSiC™, TRENCHSTOP™ 5, OptiMOS™
Discover our full range of recommended products for your application.
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Electric drive train system
Main inverter
The main inverter controls the electric motor and is a key component in electric cars, as it determines the driving behavior. Semiconductors transform the direct current from the battery into the alternating current that drives the motor.
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Electric drive train system
Battery management system (BMS)
Battery management systems (BMS) are electronic control circuits that monitor and regulate the charging and discharge of batteries.
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Electric drive train system
On-board charger (OBC)
The On-board charger (OBC) is the device in the car which re-charges the high-voltage battery in a plug-in vehicle (PHEV) or battery-powered electrical car (EV) directly from the grid while the car is parked and connected to a charging station/pile.
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Electric drive train system
Auxiliary inverter
Discover Infineon’s broad range of dedicated auxiliary inverter solutions. Whatever your (H)EV needs are, we have the know-how and components to realize them to your specifications.
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Electric drive train system
HV-LV DC-DC converter
The auxiliary HV/LV DC/DC job is to enable the bi-directional energy flow between these two electrical subnets.
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Electric drive train system
Fast EV charging
As e-mobility increasingly becomes part of daily life, there is a growing need for more efficient charging solutions. Fast electric vehicle (EV) charging stations equipped with powerful DC chargers are currently the answer.
Online Courses
In depth introduction of Infineon's one stop shop reference design for EV traction Inverter.
- Understand Infineon’s purpose in delivering quality above and beyond the standard and find out how we execute that standard in development, qualification, manufacturing and testing
- Learn where and how this high-quality standard is reflected and discover our success stories
With the growing market of electrical vehicles, the industry has put forward more requirements for the performance of charging piles. This e-learning will show you that the emergence of CoolSiC™ MOSFETs has improved the charging pile industry to make the EV charger smaller, faster and with higher efficiency.
- Distinguish the features and benefits of Infineon’s CoolSiC™ solutions in target applications and identify Infineon’s fully scalable CoolSiC™ portfolio to meet this automotive market transition
- Explain the reasons for the increasing introduction of silicon carbide technology in the automotive applications
This training covers the harmonized frame of standards from international bodies like ISO, IEC, SAE and UL dedicated to the Wireless Power Transfer system technologies.
In this online course you will learn about cost-optimized, but highly efficient electric vehicles charging solutions based on IGBT and CoolMOS™, and explore Infineon’s wide portfolio that supports every segment of the EV charging application.
This training covers the most relevant standards for high power charger design, grouped into 4 major areas:
• charging topology
• communication
• accessories
• safety and security
- The training covers detailed information about Infineon's 3rd generation automotive EiceDRIVER™ 1EDI305xAS
- Participants will learn how these products help to reduce switching losses and improve thermal efficiency, resulting in longer range for hybrid and electric vehicles
Every switch needs a driver, and the right driver makes a difference.
Infineon offers different isoalted gate driver families, such as the EiceDRIVER™ Compact and the EiceDRIVER™ Enhanced. Each family has different features to protect the switch and application.
The EiceDRIVER™ isolated gate driver offers advanced features such as reinforced isolation, Miller clamp, slew rate control and short circuit protection to protect the switch and application. It also enables condition monitoring and rapid prototyping.
The EiceDRIVER™ is the perfect fit for industrial application, particular in combination with Infineon CoolSiC™ and IGBT switches.
Training topics:
- Get to know how AURIXTM is able to answer the needs of the electric vehicle market
- Recognize and explore how AURIX™ TC3xx addresses key electric vehicle challenges, and understand the main features of the AURIX™ TC3xx microcontroller
In this training you will:
- Be familiar with silicon carbide MOSFET structures and their characteristics
- Get to know Infineon's CoolSiC™ MOSFET, its features, its improvements over a typical trench MOS and how it performs against its competitors
In this training you will:
- Get to know Infineon’s IPOSIM tool, specifically for an automotive electric vehicle inverter
- Discover the steps involved in simulating different parameters and comparing the results of different Infineon products to see which is the best fit for your application
In this training you will:
- Learn about the transition from fule injection combustion engine to full battery electric vehicles and the main 48V powered applications.
- Additionally get an overview about Infineon’s comprehensive MOSFET portfolio for 48 V applications and their support material
- Infineon's HybridPACK™ Drive silicon carbide compact power modules cater to the increasing demand for high range, efficiency, and power in electrified vehicles, enabling longer drive range, compact size, and optimized system cost.
- The second generation of Infineon's HybridPACK™ Drive, utilizing CoolSiC™ technology, offers a scalable product family with enhanced features and package improvements, providing added value to customers.
