Swaim had achieved the unique position of being the NTSB's National Resource Specialist for Aviation Systems Engineering. ![]() Starting in aviation as a teenager and licensed airplane mechanic, he later worked for aerospace firms around the world as an engineer until becoming an accident investigator at the National Transportation Safety Board from 1988 until retirement almost 32 years later. Robert Swaim is an internationally recognized expert in lithium batteries and power systems, both in aviation and motor vehicles. You must complete all course contact hours and successfully pass the learning assessment to obtain CEUs. However, prior experience in the automotive field as an engineer, technologist, or technician would be beneficial. PrerequisitesĪn engineering degree or prior knowledge of high voltage EV systems is not required in order to benefit from and successfully complete this course. Examine the EV HV system for faults, failures, and discharge circuitsĪny engineer or technician developing, verifying, or validating a vehicle electrification system will benefit from this course.Determine how to deal with HV vehicle subsystems during vehicle crash.Describe interlock system types, operational mechanism, strategic location, testing, schematic circuits, failure modes, diagnostics, and standardization.Explain OSHA PPE & FMVSS 305 requirements.Utilize appropriate processes and PPE tools when disabling/connecting EV.Identify, select, test, care for high voltage (HV) electrical gloves per ASTM requirements.Describe the various 圎V’s subsystems and components.Learning Objectivesīy participating in this course, you'll be able to: It also discusses how to develop and comply with FMVSS 305 requirements and OSHA PPE guidelines. The course explains the tools, PPE, safety procedures, and practices that should be in place, as well as methods to establish new procedures and test PPE. ![]() You’ll be introduced to various types of EV, their characteristics, architecture, and components, including how to determine critical connection and disconnection procedures. You’ll learn how to safely connect and disable a high voltage system for testing and diagnostic purposes - and during disaster and crash events. ![]() This one-day course explains EV safety fundamentals, including personal protective equipment (PPE) and how to develop and establish common safety procedures for working around high voltage vehicles. Engineers, technologists, and technicians involved in the design, development, testing, and/or servicing of high voltage EV systems must learn to protect themselves using safe procedures and practices. As electric vehicles (EV) and EV fleets become more prevalent, the critical need for OEMs, suppliers, companies, and organizations to provide comprehensive safety training for teams working with or around 圎V systems and platforms increases. Safety is paramount when working around any type of high voltage. Do you know what personal protective equipment (PPE), tools, and instruments are needed to keep you safe around high voltage (HV) vehicles? Are you aware of how to protect yourself or your employees when working around high voltage systems and platforms?
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