What does an electro-mechanical engineer do?
An electro-mechanical engineer's primary job responsibility is to oversee equipment installation with subcontractors and General. They ensure complete installation is done, as stated by site management. Typically, they design and develop systems and products like cables, connectors, penetrators, and guidelines as per specifications; cost-effectiveness and safety standards are met. They also direct and coordinate activities related to installation to ensure systems and products conform to electro-mechanical engineering design laterally with customer specifications. In addition, they conduct research and evaluate data for clients' proposed design, parameters, including manuals to identify design and feasibility.
Electro-mechanical engineer responsibilities
Here are examples of responsibilities from real electro-mechanical engineer resumes:
- Control and manage the testing documentation of magnetics and mechanical documents using custom small scale PDM system base on windows files.
- Provide mechanical design and sustaining engineering expertise to troubleshoot manufacturing defect trends and achieve a more robust and producible product.
- Instrument design are in compliance to CGMP, FDA and ISO standards.
- Facilitate the creation of new advance product designs and layouts with AutoCAD and SolidWorks.
- Create engineering change notice (ECN) and incorporate changes per red line markup.
- Process ECN's, maintain print room, and design machine details from engineering layout.
- Complete and submit all assemblies/parts into PDM system for release and distribution to various departments for approval.
- Create E/M packaging design for PC boards house in black boxes to control flight attitude of light jet aircraft.
- Perform FEA analysis confirming design deficiency.
- Design and fabricate electro-mechanical apparatuses to support testing and prototyping.
- Coordinate with BIM managers and team consultants including architectural, structural, civil, and electrical to accommodate mechanical requirements.
- Authore and present technical manuals, troubleshoot guides, technical reports and presentations to provide instructional training to technicians and supervisors.
- Bill of materials, ECOs, visualization and documentation of assembly working as a team through the manufacturing process.
- Check all new drawings, ECOs to verify compliance with input, industry, military and company standards and contractual requirements.
- Assign as project manager leading/directing activities of two manufacturing engineers , 2 mfg.
Electro-mechanical engineer skills and personality traits
We calculated that 18% of Electro-Mechanical Engineers are proficient in Solidworks, Mechanical Design, and Mechanical Systems. They’re also known for soft skills such as Creativity, Listening skills, and Math skills.
We break down the percentage of Electro-Mechanical Engineers that have these skills listed on their resume here:
- Solidworks, 18%
Designed parts and assemblies using SolidWorks with Simulation.
- Mechanical Design, 7%
Provided mechanical design and electrical design, fabricated, integrated, tested and debugged hardware/software for Johnson & Johnson Company.
- Mechanical Systems, 5%
Instruct operations and repair of building mechanical systems.
- Windchill, 4%
Used Pro/Engineer Wildfire, Windchill, Intralink and ProductView, daily.
- Test Results, 3%
Test results were translated to be used by other personnel with varying technical backgrounds and skill levels.
- Test Equipment, 3%
Led efforts to develop and validate automated pressure and environmental test equipment.
Most electro-mechanical engineers use their skills in "solidworks," "mechanical design," and "mechanical systems" to do their jobs. You can find more detail on essential electro-mechanical engineer responsibilities here:
Creativity. To carry out their duties, the most important skill for an electro-mechanical engineer to have is creativity. Their role and responsibilities require that "mechanical engineers design and build complex pieces of equipment and machinery." Electro-mechanical engineers often use creativity in their day-to-day job, as shown by this real resume: "generate 3d models and manufacture drawings using inventor release 9 per ansi y14.5. "
Listening skills. Many electro-mechanical engineer duties rely on listening skills. "mechanical engineers often work on projects with others, such as architects and computer scientists," so an electro-mechanical engineer will need this skill often in their role. This resume example is just one of many ways electro-mechanical engineer responsibilities rely on listening skills: "communicated with outside vendors for prototyping and potential product uses. "
Math skills. electro-mechanical engineers are also known for math skills, which are critical to their duties. You can see how this skill relates to electro-mechanical engineer responsibilities, because "mechanical engineers use the principles of calculus, statistics, and other advanced subjects in math for analysis, design, and troubleshooting in their work." An electro-mechanical engineer resume example shows how math skills is used in the workplace: "translate electromechanical drawings into design specifications, applying principles of engineering, thermal sciences, mathematics, or statistics. "
Mechanical skills. electro-mechanical engineer responsibilities often require "mechanical skills." The duties that rely on this skill are shown by the fact that "mechanical skills allow engineers to apply basic engineering concepts and mechanical processes to the design of new devices and systems." This resume example shows what electro-mechanical engineers do with mechanical skills on a typical day: "developed optical, electromechanical and software components of a prototype medical shock monitor. "
Problem-solving skills. A commonly-found skill in electro-mechanical engineer job descriptions, "problem-solving skills" is essential to what electro-mechanical engineers do. Electro-mechanical engineer responsibilities rely on this skill because "mechanical engineers need good problem-solving skills to take scientific principles and discoveries and use them to design and build useful products." You can also see how electro-mechanical engineer duties rely on problem-solving skills in this resume example: "analyzed equipment, perform detailed equipment-failure analysis, root-cause identification, equipment operating issues and recommended resolutions. "
The three companies that hire the most electro-mechanical engineers are:
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Compare different electro-mechanical engineers
Electro-mechanical engineer vs. Engineer
Engineers are highly trained professionals who determine the feasibility of various projects, usually related to the construction industry. They are considered experts in mathematics and science, two disciplines that they need to use in designing and coming up with plans for projects. They should also be well-versed in different construction or industrial materials, and they ensure that appropriate materials are used for the project. They also ensure that the projects meet the requirements of the groups that hired them. They create spaces that would both address the needs of the end-users and the industry standards. They also ensure that the projects they make would stand the test of time.
While similarities exist, there are also some differences between electro-mechanical engineers and engineer. For instance, electro-mechanical engineer responsibilities require skills such as "mechanical design," "mechanical systems," "windchill," and "test results." Whereas a engineer is skilled in "python," "cloud," "c++," and "c #." This is part of what separates the two careers.
Engineers tend to make the most money working in the automotive industry, where they earn an average salary of $97,672. In contrast, electro-mechanical engineers make the biggest average salary, $96,932, in the technology industry.engineers tend to reach similar levels of education than electro-mechanical engineers. In fact, engineers are 2.6% more likely to graduate with a Master's Degree and 1.0% more likely to have a Doctoral Degree.Electro-mechanical engineer vs. Facility engineer
A facilities engineer specializes in managing and maintaining equipment and machinery in manufacturing plants or similar settings. Duties will revolve around conducting research and analysis through extensive data and blueprints, evaluating systems using various reports, handling issues, providing corrective measures, and performing regular inspections and maintenance. Furthermore, it is essential to implement all safety standards and regulations to ensure a safe and productive work environment for everyone.
In addition to the difference in salary, there are some other key differences worth noting. For example, electro-mechanical engineer responsibilities are more likely to require skills like "solidworks," "mechanical design," "windchill," and "test results." Meanwhile, a facility engineer has duties that require skills in areas such as "plumbing," "project management," "ladders," and "autocad." These differences highlight just how different the day-to-day in each role looks.
On average, facility engineers earn a higher salary than electro-mechanical engineers. Some industries support higher salaries in each profession. Interestingly enough, facility engineers earn the most pay in the energy industry with an average salary of $109,339. Whereas electro-mechanical engineers have higher pay in the technology industry, with an average salary of $96,932.Average education levels between the two professions vary. Facility engineers tend to reach similar levels of education than electro-mechanical engineers. In fact, they're 1.2% less likely to graduate with a Master's Degree and 1.0% more likely to earn a Doctoral Degree.What technology do you think will become more important and prevalent for electro-mechanical engineers in the next 3-5 years?
Dr. Richard Onyancha
Associate Professor of Mechanical Engineering and Department Head, Rose-Hulman Institute of Technology
Electro-mechanical engineer vs. Development engineer
A Development Engineer is responsible for the development and validation of products, systems, and components. They are also responsible for quality control of work and continuous improvement of engineer activities.
There are many key differences between these two careers, including some of the skills required to perform responsibilities within each role. For example, an electro-mechanical engineer is likely to be skilled in "mechanical design," "mechanical systems," "windchill," and "engineering design," while a typical development engineer is skilled in "java," "python," "c #," and "software development."
Development engineers earn the highest salary when working in the technology industry, where they receive an average salary of $105,648. Comparatively, electro-mechanical engineers have the highest earning potential in the technology industry, with an average salary of $96,932.When it comes to education, development engineers tend to earn higher degree levels compared to electro-mechanical engineers. In fact, they're 6.5% more likely to earn a Master's Degree, and 2.3% more likely to graduate with a Doctoral Degree.Electro-mechanical engineer vs. Product engineer
A product engineer specializes in designing and developing commercial materials and services. They are primarily responsible for conducting thorough research and analysis of the latest trends and marketing conditions to come up with new ideas and products for the public. Moreover, they are also responsible for producing reports and presentations, coordinating with the development team of their company. Product engineers also reach out to vendors and suppliers for the raw materials, set regulations and standards for the product, and even conduct a rigorous and regular quality check.
Even though a few skill sets overlap between electro-mechanical engineers and product engineers, there are some differences that are important to note. For one, an electro-mechanical engineer might have more use for skills like "mechanical design," "mechanical systems," "windchill," and "engineering design." Meanwhile, some responsibilities of product engineers require skills like "cad," "product design," "project management," and "c++. "
In general, product engineers earn the most working in the technology industry, with an average salary of $90,301. The highest-paying industry for an electro-mechanical engineer is the technology industry.product engineers reach similar levels of education compared to electro-mechanical engineers, in general. The difference is that they're 2.7% more likely to earn a Master's Degree, and 0.4% more likely to graduate with a Doctoral Degree.Types of electro-mechanical engineer
Updated January 8, 2025
