What Does An Electromechanical Engineer Do?

WHAT DOES AN ELECTROMECHANICAL ENGINEER DO?

Updated: Mai 31, 2025 - The Electromechanical Engineer develops electromechanical systems by integrating electronic and mechanical components to design innovative motion furniture and sleep-related products. This position drives cost-efficient, manufacturable, and high-quality solutions through collaboration with suppliers and internal teams. The engineer also ensures product reliability and compliance by conducting thorough testing, analysis, and certification processes.

A Review of Professional Skills and Functions for Electromechanical Engineer

1. Electromechanical Engineer Accountabilities

AutoCAD Electrical: Produce and revise detailed electrical schematics from an I/O list using AutoCAD Electrical.
AutoCAD, Excel, Visual Manufacturing: Utilize AutoCAD, Excel, and Visual Manufacturing to document projects.
Control Design: Upgrade standard control designs by improving assembly procedures, designs, and costs.
CAD Standards Management: Maintain internal and client CAD standards and the drawing database.
Inspection: Perform equipment inspections during fabrication and assembly and before shipment.
Printer Operation: Maintain and operate printers to produce drawings.
Submittal Package Development: Develop submittal packages with component cut sheets and parts breakdown.
Collaboration: Collaborate with sales engineers to verify and convert rough drafts of Piping and Instrument Diagram into final copies.
Electrical Sizing: Calculate the sizing of electrical components.
AutoCAD Drawing: Produce and revise detailed drawings using AutoCAD for fabricated equipment assemblies.
Layout Sketching: Sketch the machine layout and compute angles, weights, surface areas, dimensions, radii, clearances, tolerances, leverages, and location of holes.
Electrical Engineering Package Development: Develop electrical requirements necessary for an electrical engineering package.
Motor Control Design: Design standard and special motor control.
Bill of Materials: Select components and develop the bill of material.
Schematics and Programming: Develop schematics, programming, and production drawings.
Customer Technical Support: Provide technical support to customers for startups, program modifications, and troubleshooting.

2. Electromechanical Engineer Functions

Product Line Management: Cooperates with the business to create, evaluate, and extend the product lines.
Project Leadership: Ensures the technical project lead and project team supervision.
Project Preparation: Participates in the preparation of new projects (with internal/external customers, grant projects).
Project Planning: Cooperates on and coordinates the preparation of plans for the projects and programs, defines project milestones, and can assess the appropriate project costs.
Research and Development Participation: Participates in the project research and development activities.
Methodology and Technology Application: Develops and applies advanced methodologies and technologies to improve the development of electromechanical systems.
Results Interpretation and Reporting: Interprets and presents results of work performed, recommends developments for new, broad technologies, and presents final project report to customers and management.
Team Collaboration: Interacts with the team to anticipate and resolve the project issues and priorities.
Technological Concept Development: Participates and defines novel technological concepts to overcome conflicting requirements and challenging technical criteria.
Test Definition and Safety Evaluation: Participates in the definition of tests and acceptance of test procedures and safety and reliability evaluations of electro-mechanical systems.

3. Electromechanical Engineer Job Description

Technology and Equipment Selection: Identify and select innovative technologies and equipment to support the project and build adequate prototypes.
Design Participation: Take an active part in the mechanical, electrical, and control design of new equipment.
Supplier and Sub-contractor Management: Manage and follow up with suppliers and sub-contractors.
Prototype Design and Testing: Design and build prototypes, run performance and functional tests.
Documentation and Reporting: Write protocols, documentation, tests, and essay reports.
Problem Resolution: Resolve any arising problems or complaints in the field of responsibility.
Team Collaboration: Maintain a close collaborative relationship with the bioprocess team.
Functional Parameter Review: Review functional parameters for electro-mechanical and fire study design of the proposed architecture concepts.
Design Analysis: Analyze electro-mechanical design and fire design plans to ensure that all the prerequisites are fulfilled based on legal descriptions.
Technical Specification Preparation: Prepare and monitor the technical specifications based on Greek legislation relating to building design and development.

4. Electromechanical Engineer Details and Accountabilities

Medical Device Development: Be a direct contributor to medical device development through Research and Development, prototyping, testing, and CAD modeling.
Production Support: Support the ongoing production of released products.
PCB, Firmware, and Hardware Design: Design new PCBs, firmware, and hardware components to support current and future products.
Verification and Validation Support: Support the development and execution of verification and validation protocols.
Technical Documentation: Develop technical documentation (e.g., labels, drawings, specifications, manuals, protocols, work instructions, etc.).
Quality and Regulatory Support: Support Quality and Regulatory efforts in maintaining existing DHF documentation and satisfying all documentation requirements.
Cross-functional Collaboration: Collaborate with cross-functional teams and interface with contractors and suppliers to meet project timelines and deliverables.
Regulatory Compliance: Work within ISO 13485, FDA, and Health Canada requirements.
Electromechanical Design: Design and realize Electrical Mechanical modules and sub-systems.
CAD Design: 2D and 3D CAD design of various Measurement Electronics concepts and modules.
Product Documentation: Produce Technical Product Documentation for designs.
Outsourcing Support: Support outsourcing of specific activities, for example, the design of Printed Circuit Boards.

5. Electromechanical Engineer Additional Details

Electromechanical System Development: Develop electromechanical systems for the motion furniture industry.
System Integration: Integrate electronic and mechanical systems to create finished product designs.
Product Design Architecture: Drive design architecture for electronics and mechanical systems to create new sleep-related product solutions.
Design for Manufacturing and Quality: Drive Design for Cost (DFC), Manufacturability (DFM), and Quality (DFQ) elements into product designs.
Supplier Collaboration: Collaborate with suppliers to develop new concepts, systems, and material applications.
Concept Specification and Prototype Evaluation: Work within a team to create specifications for new concepts and evaluate prototypes.
DFMEA Review: Complete DFMEA reviews with cross-functional teams.
Stress Analysis: Perform stress analysis using engineering theory as well as computational FEA tools.
Tolerance and Stack-up Analysis: Ensure proper fit and function through tolerance and stack-up analysis of parts.
Regulation and Certification: Review regulation standards and work with test laboratories to certify products.
Test Equipment and Procedure Development: Develop test equipment and procedures to model real-world use cases.
Product Testing and Validation: Support system-level and finished product-level testing to validate reliability.
Statistical Analysis: Apply statistical methods to analyze component and system reliability.
Warranty and Usage Data Analysis: Analyze warranty and usage data to identify opportunities for product improvement.

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