Controls Engineer

About The Position

Requirements

• Bachelor’s degree in Electrical Engineering, Controls Engineering, Mechatronics, Computer Engineering, or related field, or equivalent practical experience.
• 3+ years of experience in industrial controls and/or robotics engineering, with direct involvement in commissioning robotic or cobot systems in manufacturing environments.
• Hands‑on experience programming and integrating industrial robots or cobots (e.g., FANUC, Universal Robots, KUKA, ABB) including motion programming, safety zoning, and I/O integration.
• Strong background in PLC/HMI programming and industrial networks, preferably Rockwell / Allen‑Bradley (ControlLogix, GuardLogix, FactoryTalk) with common fieldbuses such as EtherNet/IP, Profinet, or similar.
• Demonstrated experience implementing safety‑related control systems (e.g., safety PLCs, interlocks, light curtains, safety scanners, E‑stops) and working with safety standards for industrial robots/cobots (e.g., ISO 10218-1 and -2, ISO/TS 15066 or equivalent), including validation and documentation of safety functions.
• Ability to read and create electrical schematics, panel layouts, and network architectures, and to support panel build, power‑up, and debug in lab and plant environments. E-plan experience.
• Proven troubleshooting and root‑cause analysis skills for automation systems (robots, PLCs, vision, sensors, networks) under time‑constrained manufacturing conditions.
• Strong communication and collaboration skills, with the ability to work across disciplines (mechanical, software, operations, safety) and with suppliers and plant stakeholders.

Nice To Haves

• 5+ years of controls/robotics experience in automotive manufacturing or high‑volume industrial automation, including exposure to body shop or general assembly automation programs.
• Direct experience deploying cobot applications in proximity to operators, including risk assessment, zoning, speed/force tuning, and optimization of cycle time vs. safety constraints.
• Familiarity with GM automation standards and processes, such as GCCH, GCCS, GRS, PSS, g‑Comply checklists, NAX/SOR workflows, and plant buy‑off practices.
• Experience integrating cobots with 2D/3D vision, force control, and advanced sensing for guidance, inspection, and adaptive processes.
• Working knowledge of CODESYS and soft/virtual PLC experience.
• Exposure to simulation and digital twin tools for robotic cell design and validation (e.g., robot simulation, emulation, offline programming) and to modern robotics stacks (ROS/ROS2, MoveIt2) is a plus.
• Demonstrated ability to standardize solutions, write clear technical documentation, and mentor junior engineers or partners on controls and cobot best practices.

Responsibilities

• Design, implement, and commission controls solutions for robotic cells and automation projects within RTD, following GM controls standards and GCCH guidelines.
• Develop and maintain PLC, HMI, and related control logic, including standardized function blocks, fault handling, and diagnostics consistent with GM practices and GCCS.
• Integrate industrial robots (e.g., FANUC) with PLCs, safety systems, and field devices to meet functional, safety, and throughput requirements.
• Apply GM safety standards and risk assessment processes to ensure compliance with applicable safety codes and internal requirements.
• Collaborate with engineering design, robotics intelligence, advanced robotics development, and advanced systems development to define control system requirements, I/O, and network architecture for development cells and pilot systems.
• Support system bring-up, debug, and optimization at the Global Technical Center and, when required, at manufacturing sites.
• Create and maintain documentation (electrical schematics in ePLAN or similar tools, I/O lists, sequence of operations, network layouts, standards-compliant code templates) that align with GM controls and GCCH expectations.
• Provide technical support and knowledge transfer to manufacturing engineering and plant personnel as new solutions transition from development to production.
• Contribute feedback to continuous improvement of GM controls standards and GCCH/GCCS usage, based on lessons learned from RTD projects.

Benefits

• From day one, we're looking out for your well-being–at work and at home–so you can focus on realizing your ambitions.
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