Embedded Engineer III

About The Position

Requirements

• Bachelor’s degree in Controls Engineering, Mechanical Engineering, Electrical Engineering, or related discipline and 5-7 years of experience
• Demonstrated understanding of relevant physics domains and system behavior, including heat transfer, fluid flow, cooling loops, HVAC and battery thermal interactions.
• Proven experience developing production-intent control strategies (control logic, calibration approach, edge-case robustness), preferably using MATLAB toolchain or equivalent model-based tools.
• Demonstrated experience executing validation workflows across MiL, SiL, HiL, and vehicle testing, including analysis and issue resolution.
• Strong ability to work cross-functionally (thermal hardware, EE, embedded SW, vehicle integration) to ensure system-level performance and compatibility.
• Demonstrated leadership abilities—able to guide engineers, lead technical direction, and drive execution across stakeholders.
• Flexibility and adaptability in a fast-paced environment with evolving program priorities, technical trade-offs, and cross-functional dependencies.
• Strong written and verbal communication; able to present technical tradeoffs, risks, and decisions to diverse audiences.
• Strong work ethics, highly motivated, and ability to drive results in a collaborative engineering environment.

Nice To Haves

• Direct experience with eCascadia vehicle systems or Class 8 BEV thermal architectures and validation constraints.
• Experience coordinating multiple thermal loops (battery loop, power electronics loop, e-powertrain loop, HVAC loop) and optimizing for energy efficiency and drivability constraints - or equivalent.
• Experience with production calibration workflows, CAN-based tools and diagnostics ecosystems, and formal requirements/test traceability approaches.
• Familiarity with embedded automotive software development environments (e.g., AUTOSAR-based architectures) and interfaces between controls models and production ECUs.
• Proven success working in globally distributed teams (e.g., coordinating deliverables across multiple engineering centers) consistent with global coordination expectations.
• Track record of mentoring engineers and building sustainable team practices (planning, metrics, review cadence, technical standards).
• Experience applying modern engineering tools (automation, data analytics, AI-assisted engineering) to improve development efficiency, validation quality, or requirements traceability.

Responsibilities

• Lead the development and validation of thermal management control strategies for battery-electric Class 8 Cascadia (eCascadia) vehicles, overseeing integration of controls for battery thermal, power electronics cooling, e-powertrain thermal loops, and cab HVAC.
• Responsible for thermal management controls system-level performance across key operating scenarios (hot/cold ambient, grade, high-load duty cycles, fast charging, idle/soak) and ensure robust operation under real-world customer use.
• Drive alignment of thermal controls strategy with vehicle energy/efficiency targets and cross-domain constraints (battery limits, derates, charging, HVAC comfort).
• Responsible for verification workflow across MiL, SiL, and HiL, ensuring models, interfaces, and test artifacts are traceable to requirements and support release decisions.
• Partner with simulation and plant-model stakeholders to ensure correlation between model predictions and physical results, and to close gaps discovered during SiL/HiL/vehicle testing.
• Lead the planning and support execution of eCascadia thermal controls validation, including test strategy, coverage, prioritization, issue triage, and closure to support eCascadia releases.
• Provide technical leadership and mentorship for a small team of engineers; define objectives, prioritize work, establish metrics, and ensure quality and timely delivery of thermal controls milestones.
• Collaborate effectively across engineering sites and stakeholders, with regular engagement in Portland, Detroit, Stuttgart, and Bangalore engineering groups to ensure execution.
• Operate in alignment with company policies, code of conduct, and engineering governance expectations; contribute to a safe, respectful, and inclusive workplace.

Benefits

• lucrative benefits
• competitive salaries