Advanced Manufacturing

Radio Frequency Identification Device Specialist

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AVG. SALARY

$101,220

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EDUCATION

Bachelor's degree

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JOB OUTLOOK

Stable

What To Learn

High School

Suggested Steps to Prepare for a Radio Frequency Identification Device Specialist Career (Grades 6-12)

Check out the recommended classes, activities and skills below for each grade level. These recommendations are very general -- discuss your specific course plan with your school counselors and teachers.

AI-assisted and curriculum-reviewed guidance. Talk with your counselor or teacher about your specific plan.
Grades 6-8

Helpful Classes

  • Math
  • Science
  • Technology
  • Design

Things to Try

  • Measure parts, follow a sequence, and check whether the finished item matches the design, Practice using diagrams, labels, and simple quality checks during a build task, Compare how materials, heat, speed, or machine settings can change a product, Interview a radio frequency identification device specialist about precision, safety, and production steps

Focus Skills

  • Measurement
  • Precision
  • Procedure-following
  • Troubleshooting
  • Quality checking

Helpful Classes

  • Manufacturing Technology
  • Algebra I
  • Physical Science
  • Technical Drawing
  • Safety

Recommended Learning Areas

  • oral health
  • patient communication
  • procedures
  • safety
  • records

Things to Try

  • Join a shop, robotics, or manufacturing activity and practice step-by-step production work, Read a simple blueprint, work order, or process sheet and explain the key details, Observe how operators, assemblers, or inspectors keep parts organized and within tolerance, Shadow a radio frequency identification device specialist or plant worker to see how quality and output are tracked

Focus Skills

  • Measurement
  • Precision
  • Procedure-following
  • Troubleshooting
  • Quality checking

Helpful Classes

  • Manufacturing Technology
  • Geometry
  • Blueprint Reading
  • Materials Processing
  • Computer Applications

Recommended Learning Areas

  • oral health
  • patient communication
  • procedures
  • safety
  • records

Things to Try

  • Complete a build or fabrication project and document each setup, measurement, and adjustment, Practice using gauges, checklists, and work instructions to verify quality, Compare manual, automated, and robotic production steps and explain the differences, Write notes on defects, downtime, scrap, or process changes

Focus Skills

  • Measurement
  • Precision
  • Procedure-following
  • Troubleshooting
  • Quality checking

Helpful Classes

  • Precision Manufacturing
  • Technical Math
  • Blueprint Reading
  • Quality Control
  • Robotics

Recommended Learning Areas

  • oral health
  • patient communication
  • procedures
  • safety
  • records

Things to Try

  • Complete a manufacturing project tied to setup, machining, welding, assembly, inspection, or automation, Use blueprints, process sheets, or control plans to keep work accurate and consistent, Observe how workers track throughput, quality, maintenance, and safety in a production line, Interview professionals about tolerances, troubleshooting, and lean improvement

Focus Skills

  • Measurement
  • Precision
  • Procedure-following
  • Troubleshooting
  • Quality checking

Helpful Classes

  • Advanced Manufacturing
  • Technical Math
  • Blueprint Reading
  • Quality Assurance
  • Industrial Safety

Recommended Learning Areas

  • oral health
  • patient communication
  • procedures
  • safety
  • records

Things to Try

  • Build a portfolio with parts, measurements, process notes, quality checks, and production data, Complete a capstone tied to machining, fabrication, assembly, inspection, or automation, Compare pathways in welding, machining, quality, robotics, process operations, and plant support, Practice documenting defects, setup changes, and workflow improvements

Focus Skills

  • Measurement
  • Precision
  • Procedure-following
  • Troubleshooting
  • Quality checking

Beyond High School

Here's a list of programs that you should consider if you're interested in this career:

Education Level

Education training and experience are required at different levels for success in different occupations.

Bachelor's degree

A bachelor's degree in engineering is required for almost all entry-level engineering jobs. Employers also value practical experience, such as internships or participation in cooperative engineering programs, in which students earn academic credit for structured work experience.

Insider Info

Additional Information

Radio frequency engineers typically have a bachelor's degree in electrical engineering, and some have a master's in engineering. RF engineering is a specialty area within electrical engineering.

Some engineering programs include co-ops. These are work placements and can be a great way to get practical experience during your degree. They can often lead to a job upon graduation, also. Engineering teams at companies often have people with bachelor's and master's level training working together.

"Most have BSEE (Bachelor of Science in Electrical Engineering)," says RF engineer Vivian Lund. "I have MSEE (Master of Science)."

"In my personal opinion, I think... a master's degree is increasingly expected," says Derek McNamara. He teaches RF engineering at a university and has worked in industry doing RF engineering.

"[I]f you have a kind of a hands-on person solving practical problems most of the time... then the bachelor's degree plus some experience [is probably] satisfactory," says McNamara. "But if there's a lot of innovation needed on the RF side, typically they would put the people who have got the master's degree training along that side, because they would have just gone so much further on the theoretical side."

Extra Requirements

Licensure is not required for entry-level positions. A Professional Engineering (PE) license, which allows for higher levels of leadership and independence, can be acquired later in one’s career.

For additional information, visit these websites: