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For Engineering and HR leaders at global OEMs and suppliers within the automotive, aerospace, industrial, and rail industries who are experiencing a talent shortage of EV software personnel and/or lacking a full suite of skill sets and seeking a clear path forward, LHP’s new EV Systems and Software Academy is a proven pathway for increasing capacity, that allows software engineers to become EV specialists through stackable training modules.
LHP’s new EV Systems and Software Academy was created by EV experts who have already made this leap. Unlike inconsistent self-learning methods that use non-certified online training portals, burdensome internal training that stretches the capacity of already overworked professionals, or rigid and expensive university courses that may or may not deliver the required skill sets, our EV experts guide your team through relevant and customized modules that fit your specific needs. Our team of experts stays with you through the entire learning path and provides an applicable learning curriculum that translates directly to your role day in and day out.
Course catalog available below:
Course information is subject to change.
1-4 hours
Intent: Introductions to each training topic.3-5 days
Intent: Create a foundation for performing in a cyber, systems or software engineering role and interfacing engineering stakeholders.
Audience: Engineers and Engineering Managers.
Ongoing
Intent: Continue on-the-job development through project delivery and workshops led by an LHP Technical Specialist.
Audience: Engineers on a track to become a technical specialist for a specific domain.
An intro into systems engineering, requirements, testing, functional safety, and ALM for automotive systems. Students will learn to perform a simple HARA, write requirements based on safety goals, and develop test cases.
Learn how to use CAN, the main communication protocol for automotive controls, and apply it to an ECU using industry tools like CANalyzer and CAPL Scripting.
Learn the basic concepts of Embedded C predominantly used in low-level software development.
Students will learn how to monitor battery health and detect faults using MATLAB & Simulink on a Battery Management System.
From theory to practice: Integrating Systems Engineering, Functional Safety, and HIL Testing for effective ECU control.
Enable portable rapid prototyping and on-site testing with this course.
Both In-person and Virtual Classrooms
The session starts on June 03, 2024, with the following course breakdown:
June 03 - Introduction to Systems Engineering
June 06 - CAN Basics
June 10 - Embedded C
June 17 - Model-Based Design
June 24 - HIL Testing
More information coming soon!
More information coming soon!