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Electromechanical Engineering Technologist Job Description

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Electromechanical Engineering Technologist Job Description Template
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Electromechanical Engineering Technologist Career Job Description Duties Example
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This job description describes core job duties of electromechanical engineering technologist occupation.

Main Job Roles / Career Tasks:

1) Modify, maintain, or repair electrical, electronic, or mechanical components, equipment, or systems for making sure proper functioning.

2) Modify, maintain, or repair electrical, electronic, or mechanical components, equipment, or systems to make sure proper functioning.

3) Specify, coordinate, or conduct quality-control or quality-assurance programs procedures.

4) Establish maintain inventory, records, or documentation systems.

5) Fabricate or assemble mechanical, electrical, or electronic components or assemblies.

6) Select electromechanical equipment, materials, components, or systems to meet functional specifications.

7) Select use laboratory, operational, or diagnostic techniques or test equipment to assess electromechanical circuits, equipment, processes, systems, or subsystems.

8) Produce electrical, electronic, or mechanical drawings or other related documents or graphics necessary for electromechanical design, using computer-aided design CAD software.

9) Install or program computer hardware or machine or instrumentation software in microprocessor-based systems.

10) Consult with machinists or technicians to make sure that electromechanical equipment or systems meet design specifications.

11) Translate electromechanical drawings into design specifications, applying principles of engineering, thermal or fluid sciences, mathematics, or statistics.

12) Collaborate with engineers to implement electromechanical designs in industrial or other settings.

13) Analyze engineering designs of logic or digital circuitry, motor controls, instrumentation, or data acquisition for implementation into new or existing automated, servomechanical, or other electromechanical systems.

14) Conduct statistical studies to analyze or compare production costs for sustainable nonsustainable designs.

15) Determine whether selected electromechanical components comply with environmental standards regulations.

16) Develop or implement programs related to the environmental impact of engineering activities.

17) Identify energy-conserving production or fabrication methods, like by bending metal rather than cutting welding or casting metal.

18) Test analyze thermodynamic systems for renewable energy applications, like solar or wind, to maximize energy production.


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