Career Definition for an Electromechanical Instrumentation Engineer
Electromechanical instrumentation engineers test, repair and maintain equipment used to make goods that operate on the powers of electricity and mechanics. Many of these products have become highly technical; thus, computers have grown more and more important for this career. Students wishing to become electromechanical instrumentation engineers can choose from several levels or types of engineering degrees, which are typically academically rigorous.
|Education||Associate and bachelor's degrees available|
|Job Skills||Computer software experience, technical skills, strong writing|
|Median Salary (2017)*||$56,740 for electro-mechanical technicians
$63,660 for electrical and electronics engineering technicians
|Job Growth (2016-2026)*||4% for electro-mechanical technicians
2% for electrical and electronics engineering technicians
Source: *U.S. Bureau of Labor Statistics
Students looking to become electromechanical instrumentation engineers will find themselves studying in a tough academic climate; engineering degrees are challenging and require knowledge in many subject areas. Prospective engineers will take courses in math, physics and basic engineering; in addition, a heavy emphasis has been placed on computer science in response to the complex computer programs which have become a major part of the industry.
Hopeful electromechanical instrumentation engineers may want to pursue degrees such as an Associate of Applied Science in Instrumentation Technology, a Bachelor of Science in Engineering with a concentration in Electromechanical Engineering, or a Bachelor of Science in Electro-Mechanical Engineering Technology; associate degrees can be completed in approximately two years, bachelor's degrees in four.
Expertise in computer software has become increasingly important for electromechanical instrumentation engineers; many firms require job candidates to have experience with computer-aided design programs. Electromechanical instrumentation engineers must also be capable of working with other highly technical devices. Strong writing skills are also a necessity; electromechanical instrumentation engineers frequently draft memos that discuss highly technical terms for audiences which may not have a background in the field.
Career and Economic Outlook
The Bureau of Labor Statistics (www.bls.gov) reports that 13,800 jobs existed for electromechanical technicians (who usually have a certificate or associate degree) as of 2016. Job growth from 2016 to 2026 is expected at just 4%, which is slower than average. An increase of 2% is expected for electrical and electronic engineering technicians, who usually hold an associate's or bachelor's degree. As of May 2017, the median annual salary for electromechanical technicians was $56,740, and the median salary for electrical and electronics engineering technicians was $63,660, according to the BLS.
Alternate Career Options
You might also want to look into these options for careers in machine engineering:
Learning their skills through college, vocational or apprenticeship programs, machinists then secure jobs setting up, operating and monitoring machine tools that may be automatic, manual or computer-numerically controlled (CNC). According to the BLS in 2017, machinists could expect slower than average employment growth of 2% through 2026 and were paid a median annual wage of $42,600 in 2017.
Mechanical Engineering Technician
Average job growth of 5% was projected for these techs, from 2016-2026, and an annual median salary of $55,360 was reported by the BLS in 2017. Applicants who have earned associate's degrees or taken postsecondary courses in mechanical engineering technology may have the best prospects securing positions where they assist mechanical engineers in designing, testing and manufacturing a variety of mechanical devices.