Work Flexibility: Hybrid or Onsite
Who we want:
Describe the open role, highlighting key responsibilities and tasks. This verbiage will be used in job postings to draw in potential candidates.
What you will do:
Technical Responsibilities:
- Design and develop electrical components and sub-systems for medical devices
- Apply advanced circuit and electrical system test methods
- Conduct or design prototyping and bench testing
- Conduct problem solving, identify potential solutions, and evaluate them against component and sub-system requirements
- Conduct research and studies to support product design
- Translate design inputs to engineering specifications and produce component and sub-system level designs
Business Responsibilities:
- Demonstrate advanced understanding of customer needs and design inputs
- Demonstrate proficiency with product’s intended use and clinical procedures
- Learn how the financial models are constructed
Med Device Compliance:
- Follow fundamental industry standards, design requirements and test strategies which apply to regulatory requirements
- Independently create or refine engineering documentation, such as the Design History file
- Follow R&D procedure like design controls and risk management, per the Quality Management System
General Responsibilities:
- Work cooperatively with R&D, Quality, Manufacturing, Regulatory, Clinical, Marketing and Project Management to ensure project success as a key member of the team, collaborating with others and solidifying relationships
- Quickly process and assimilate procedures, policies, processes, systems, and technology required
- Work on complex problems, applying advanced experience and learnings
- Demonstrate ownership and prioritize work with minimal supervision
- Build relationships and influence among peers
Minimum Qualifications (Required):
- Bachelor's degree in EE or related discipline & 2+ years of work experience
Preferred Qualifications (Strongly desired):
Technical Skills:
- Working knowledge of electrical design process, electrical components, and manufacturing methods
- Ability to interpret, analyze, and test electrical designs
- Proficiency with design and concept generation CAD, CAE, or simulation tools
- Ability to apply analysis tools and statistical methods
- Knowledge of system components and associated requirements
- Understanding of the system lifecycle and effects of design choices on the system
Travel Percentage: 20%
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