NXP electrification provides a complete system solution for electric vehicles. Equipped with battery management systems, powertain control and traction inverters, ready to deliver the optimized performance and integrated safety that OEMs need. Start your training today with our electrification training academy.
As the automotive industry accelerates toward a more sustainable future, electrification stands at the forefront of innovation. The Electrification Academy is a comprehensive learning platform designed to equip engineers, developers and system architects with the knowledge and tools needed to design, develop and deploy next-generation electric vehicle (EV) systems.
Whether you're exploring battery management, power electronics or system-level integration, this academy offers a structured and practical approach to mastering the key technologies driving the EV revolution.
| Training | Details |
|---|---|
| Automotive Electrification Introduction | Start your journey with a broad overview of electrification trends and technologies in the automotive industry |
| Vehicle Architecture Evolution – Impact for Electrified Vehicles | Understand how evolving vehicle architectures are reshaping the design of electrified systems |
| New Opportunities for Connected Electric Vehicles | Explore how connectivity enhances the value and functionality of electric vehicles |
| The Power of Vehicle-to-Cloud Enablement for Autonomous and Electric Vehicles | Learn how cloud integration supports smarter, safer and more efficient EV systems |
| Training | Details |
|---|---|
| NXP Scalable and Coherent Battery Management System Solutions | Discover NXP’s modular BMS architecture for high-voltage and low-voltage applications |
| NXP Battery Management Solutions Overview | Get a comprehensive look at NXP’s full BMS product portfolio |
| Battery Pressure Monitoring Sensor for Detecting Lithium Ion Thermal Runaway in Traction Battery | Learn about early detection of thermal runaway using pressure sensors |
| Training | Details |
|---|---|
| Speed-Up BMS Application Development with NXP's HVBMS RD and Model-Based Design Toolbox (MBDT) | Accelerate BMS development using model-based design and reference platforms |
| Model-Based Top-Down Flow for Safety Related Automotive Battery Management ICs | Understand how model-based workflows support functional safety in BMS design |
| Designing Safety Applications with S32K3xx Hardware and Software | Explore how to build safety-critical BMS applications using NXP’s S32K3xx platform |
| Training | Details |
|---|---|
| High Voltage Battery Management System Reference Design | Dive into a practical reference design for high-voltage battery systems |
| New Battery Management Systems Solutions for Automotive Low Voltage Applications (14 V to 48 V) | Explore BMS solutions tailored for 14 V–48 V low-voltage EV subsystems |
| Innovation at System Level: Battery Junction Box Solutions | Explore how battery junction boxes improve safety and modularity in EV battery packs |
| Training | Details |
|---|---|
| Improving Traction Inverter Efficiency and BOM with an Advanced, Single-Channel Gate Driver: GD3162 | Learn how the GD3162 enhances inverter efficiency and reduces system cost |
| Advanced Isolated HV Gate Driver for Enabling Automotive ePowertrains and Industrial Applications | Explore high-voltage gate driver solutions for robust and scalable ePowertrains |
| EV Efficiency and System Optimization Using GD3162 | See how the GD3162 contributes to overall EV system efficiency |
| Training | Details |
|---|---|
| Electrification: Functional Safety Concept and Collaterals for EV Traction Inverter | Understand the safety architecture and documentation required for inverter systems |
| Traction Inverter: Safety Concept for Resolver Software | Details safety strategies for integrating resolver feedback in traction inverter systems |
| Training | Details |
|---|---|
| Future Trends for HV Inverters | Explores upcoming innovations and design directions in high-voltage inverter systems |
| Next Generation of NXP EV Traction Inverter with S32K39 MCU and FS26 SBC | Introduces advanced inverter architecture using NXP’s latest MCU and system basis chip |
| The Adoption of Hybrid and GaN Technologies for EV Traction Inverter Solutions | Explores the growing adoption of hybrid and GaN technologies in inverters |
| Training | Details |
|---|---|
| NXP Software and Tools Solutions for Motor Control Applications in Automotive | Covers software platforms and development tools for efficient motor control in EVs |
| Training | Details |
|---|---|
| xEV Solutions for OBC and DCDC | On-board charger and DC-DC converter solutions for electric vehicles |
| Electric Vehicle On-Board Charger (OBC) Solution | Comprehensive OBC reference design for efficient and safe charging |
| Training | Details |
|---|---|
| NXP EasyEVSE EV Charging Station Software and Support | Software and support tools for developing EVSE (Electric Vehicle Supply Equipment) |
| The Future of EV Charging Station Development | Trends and innovations shaping the next generation of EV charging stations |
| Training | Details |
|---|---|
| Energy Prediction and Appliance Pattern Recognition at the Edge | Using edge computing to optimize energy usage and recognize appliance patterns |
| EV Charging Ahead: Enabling Accurate Energy Measurement, Secure Remote Management and Intuitively Safe Operation | Smart metering, remote management and operational safety in EV charging |
| NXP Solutions for Connected EV Charging, Featuring the Azure IoT Central Cloud Services from Microsoft | Cloud-connected EV charging using Microsoft Azure IoT services |
| Training | Details |
|---|---|
| EV Charging: Alternating Current (AC) Solutions | AC charging technologies and their implementation in EV infrastructure |
| EV Charging: Direct Current (DC) and Battery Storage Solutions | DC fast charging and integration with energy storage systems |
Microcontrollers for automotive vehicle dynamics, domain control and safety applications.