Electro Mechanical Design Engineer

Bruker is a global leader in the development and manufacturing of advanced scientific instruments and analytical solutions for life and material sciences. Founded in 1960 and headquartered in Billerica, Massachusetts, Bruker empowers scientists to explore biological and material structures at molecular, cellular, and microscopic levels. The company collaborates closely with customers to drive innovation and productivity in fields such as molecular research, pharmaceuticals, microscopy, nano-analysis, and industrial applications. Bruker employs more than 10,000 people across more than 90 locations worldwide, continuing to expand its product portfolio and reputation for delivering state-of-the-art technologies to address today's analytical challenges. Bruker's micro-CT business delivers advanced 3D X-ray imaging solutions that support research, quality control, and innovation across life sciences, materials science, and industrial sectors. By combining high-resolution imaging technology with robust analytical software and global customer support, Bruker enables organizations to accelerate discovery, improve product development, and maintain high standards in non-destructive testing and analysis. The micro-CT portfolio is a strategic part of Bruker's commitment to providing state-of-the-art tools that drive scientific and business progress worldwide.

The Electro-Mechanical Design Engineer is responsible for conceiving, designing, and improving X-ray micro-CT imaging devices and related R&D setups, supporting the entire product life cycle, and maintaining technical documentation. The role involves electronics, electrical, and mechanical design, as well as cross-functional collaboration to deliver innovative solutions for advanced imaging systems.

• Responsible for Electronics development (40%)
  Design, prototype, and validate electronic circuits, including analog, digital, and mixed-signal systems.
  Develop PCB schematics and layouts, ensuring compliance with performance, EMC, and safety requirements.
  Select components based on electrical, thermal, and cost considerations.
  Collaborate with firmware/software engineers to define interfaces, test points, and integration requirements.
  Support testing, troubleshooting, and optimization of electronic hardware during product validation and production.

• Responsible for Electrical design (30%)
  Design and document electrical harnesses, cable assemblies, and wiring diagrams for systems and subsystems.
  Specify connectors, cable types, and routing strategies to meet mechanical and environmental constraints.
  Create and maintain detailed electrical schematics and bills of materials (BOMs).
  Support system-level power distribution and grounding strategies.
  Ensure compliance with relevant electrical standards.

• Responsible for Mechatronics (30%)
  Collaborate with mechanical design and test engineers to integrate sensors, actuators, and embedded systems into electromechanical assemblies.
  Support the development of motion control solutions, including motor drives and feedback systems.
  Participate in thermal management, packaging, and manufacturability reviews for mechatronic subsystems.
  Assist in prototype builds and coordinate with suppliers and manufacturing partners for mechatronic components.

• Responsible for General / Cross-functional
  Work closely with cross-disciplinary teams to ensure seamless system integration.
  Contribute to design reviews, risk assessments, and continuous improvement initiatives.
  Maintain documentation, revision control, and adherence to design and quality processes.
  Provide technical support throughout the product lifecycle – from concept to production and field support.

• Diplom/Master's degree
• Master of Science degree in Electro-Mechanical Engineering or equivalent
• 3+ years of professional experience
• Electronics Design:
  • Schematic capture, PCB layout, and component management using Altium Designer
  • Analog/digital circuit design; EMC-aware layout
  • Prototyping, testing, and validation with oscilloscopes and measurement tools
• Electrical Design:
  • Cable and harness design, electrical schematics, connector management, and power distribution using EPLAN Electric P8
  • Compliance with IEC/UL standards
  • Documentation and revision control
  • PLC programming and troubleshooting
• Mechanical Design:
  • 3D modeling and 2D drafting of assemblies and enclosures using SolidWorks
  • Design for manufacturability and integration of electronics and cabling
  • Basic thermal and structural analysis
• Systems Integration:
  • Cross-disciplinary design between electronics, electrical, and mechanical domains
  • System-level debugging and validation
• Product Lifecycle & Documentation:
  • BOM creation, version control (Git, PDM/PLM systems), and design documentation to international standards
• Engineering IT Tools:
  • Simulation, project/task management, and collaboration platforms
• Manufacturing & Testing:
  • Prototype assembly, test procedure development, and support for production ramp-up and troubleshooting
• Familiarity with bus systems and hardware interfaces of microcontrollers
• Familiarity with C/C++, Python
• Excellent cooperation and communication skills
• Team player with intrinsic motivation
• Very good spoken and written knowledge of English
• First insights into the fields of X-ray imaging technology is a plus