P1 Systems Engineer
Applied Industrial Technologies · Maryland Heights, MO · 1 wk ago
Information TechnologyFull-time
Key Responsibilities
- Design electrical control architectures, system requirements, schematics, wiring drawings, and power control layouts.
- Perform fluid power and electrical system modeling, architecture development, and simulation.
- Review and analyze existing fluid power and control systems for potential system updates.
- Integrate hardware and software across vehicle or equipment platforms.
- Conduct verification, validation, troubleshooting, and performance analysis.
- Collaborate with suppliers and internal teams on component selection and development.
- Support prototype builds, testing, production launches, and engineering documentation.
Required Qualifications
- Associate’s degree in Fluid Power, Electrical, Mechanical, Mechatronics Engineering, or related field.
- 1+ years of machine-control software programming experience.
- Experience with CoDeSys, C, C++, Plus 1 Guide, Power Vision, or LabVIEW.
- Familiarity with systems engineering methods and requirements management.
- Familiarity with CANalyzer, AutoCAD Electrical, and Peak or Kvaser CAN capture tools.
- Familiarity in document control systems such as PDM (Product Data Management) /PLM (Project Life Management) based systems.
Preferred Qualifications
- Bachelor’s degree in Electrical Engineering or related discipline.
- Experience in Industrial controls and automation, servo controls, PLC Logic, and Distributed control systems.
- Experience with EVs, hybrid vehicles, energy storage, batteries, motors, inverters, chargers, DC-DC converters, and related subsystems.
- Knowledge of ISO 26262, IEC 61508, UL, SAE, high-voltage systems, BMS, drives, power electronics, CAN networks, controls, and embedded software.
- Experience with Model-Based Systems Engineering (MBSE) and cybersecurity requirements for connected electrical systems.
Key Skills
- Fluid Power Systems Knowledge
- Electrical Power Engineering
- Problem solving, root-cause analysis, and technical leadership
- Project management and cross-functional collaboration
- Data analysis, reporting, communication, and presentation
Typical Work Environment
- Engineering office
- Laboratory
- Prototype
- Testing
- Manufacturing environments
- Customer sites
- Suppliers
- Test facilities