Lead Engineer - Electric Drives Software

Who will you be working with? You will be part of a global engineering team specializing in Drives Control and Power Electronics for locomotives and off highway vehicles products, supporting critical traction, auxiliary, and energy conversion products. The team is distributed across the United States, India (Bengaluru), and Brazil, and works closely with systems, hardware, software, validation, and manufacturing stakeholders. The group includes senior technical experts and emerging engineers with deep experience in control software, power electronics hardware, system architecture, simulation (HIL/Opal‑RT), and component validation . The team operates in a highly collaborative manner, with frequent cross‑location technical reviews, design discussions, and problem‑solving sessions. You will work closely with experienced engineers and technical leaders on business‑critical programs, contributing to both new product development and sustaining/obsolescence initiatives, while adhering to strong engineering, safety, and compliance standards. How will you make a difference? The Lead Engineer will design, develop, and validate C and C++ embedded software for power electronics drive controllers, including Traction Motor Controllers (TMC) and Auxiliary Logic Controllers (ALC). These systems deliver critical traction and auxiliary functionality for locomotives and off‑highway mining trucks. This role provides technical and organizational leadership by clearly communicating business objectives, program priorities, and engineering processes within a defined business segment. You will apply deep technical expertise to solve complex problems, establish and execute engineering objectives for yourself and others, and drive both short‑term deliverables and longer‑term strategic initiatives. What will your typical day look like? Define application requirements, system architecture, specifications, and verification/validation strategies for power‑electronics drive control systems. Develop application‑layer embedded software in C for Xilinx Zynq FPGAs, Motorola PowerPC, and legacy processors supporting drives control for locomotives and off‑highway vehicles (OHV). Design, refine, and maintain control algorithms for power electronics converters—including AC‑DC, DC‑DC, and DC‑AC topologies—such as traction inverters, active front‑end converters, dual active bridge converters, and related systems supporting traction motor drives, auxiliary blowers, choppers, blower motors, battery charging, and other auxiliary loads. Establish technical ownership of next‑generation control architectures and implementations centered on Zynq FPGA and embedded processor platforms. Support system‑level integration of controllers and components into locomotive and off‑highway mining truck platforms. Investigate software reliability issues in electric drive systems, performing root‑cause analysis and implementing corrective actions. Evaluate and contribute to the conceptual development of new electric drives control technologies and applications. Execute design, analysis, and evaluation activities in accordance with sound engineering principles, business standards, and applicable product and program requirements. Collaborate in cross‑functional team assignments to support organizational initiatives and resolve common engineering challenges. Ensure accurate and complete documentation of technical data in compliance with established engineering policies and procedures. Drive innovation through the development of improved control algorithms, enhanced diagnostics, higher product reliability, advanced data analysis techniques, improved runtime software interfaces, and more effective troubleshooting approaches.