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Radio Frequency Identification Device Specialist

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AVG. SALARY

$104,530

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EDUCATION

Bachelor's degree

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JOB OUTLOOK

Stable

Interviews

Insider Info

Igor Acimovic is a radio frequency engineer who grew up in Bosnia-Herzegovina. The education system is different there. He studied electrical engineering in high school and the decision to do that was basically made in primary school.

"My father is also an engineer and so that's probably where the interest came from first," says Acimovic. (Although his father is a software engineer, not an RF engineer.)

This early exposure to electrical engineering concepts helped Acimovic when he came to North America to study electrical engineering. Many of his fellow students who had attended high school in North America were overwhelmed at first by the material, he says. But it wasn't as bad for him.

Acimovic says this area of study is difficult because it has, "a lot of abstract (concepts) like fields and current... that people don't get in touch with in their normal lives. So it was a challenge, it was difficult, and not for everybody."

Acimovic credits one of his engineering professors with encouraging him to focus on RF engineering.

"There were only a few people that were actually brave enough to kind of jump (into RF engineering), but actually the main credit should go to the professor," says Acimovic. "In his courses he was able to inspire people to actually do it, despite the difficulties of the courses and this particular specialty. I think it's very important to have a good...professor to introduce the subject properly and then it's much easier to make that decision."

Acimovic now works for a telecommunications company. Here's how he describes his current work: "Right now I'm working on RF amplifiers, so it's basically for a cellphone infrastructure. All the cellphone towers that you see around, basically at the foot of the tower there's a radio transceiver, and... that transceiver is connected to the network and basically the data that comes through that radio is transmitted through the air to all the users that are around. So I'm working on that infrastructure, basically... the part that provides output power, so that goes to the antennae and that gets radiated into the air and received by all the cellphones."

The challenging nature of RF engineering means that a competitive nature is a good quality to have, says Acimovic.

"Having a strong imagination I also think is a big asset," says Acimovic. "Being able to envision things -- not just follow the group, but to get out of it a little bit and try to explore new things, even though at first sight they may seem implausible. It's kind of a little bit of an adventure-seeking... kind of spirit.

"People should be able to not just take the tasks that other people have already done [and] not just walk the well-trodden path," Acimovic adds. "One should be able to kind of go on the margins and try to push the envelope."

Derek McNamara is a professor in a school of informational technology and engineering. His research interests include antennas, computational electromagnetics and microwave circuits. In the past he has worked in industry as well as at a government lab.

McNamara says it was his interest in electromagnetic theory that drew him to RF engineering.

"It may sound nerdish, but when I went into the electromagnetism course I thought this stuff was absolutely beautiful, and I've been hooked ever since," says McNamara. "It just captured my imagination."

McNamara says RF engineers don't just need to understand abstract concepts like electromagnetic theory, however. They also have to relate well to people. He says this is true for all types of engineers.

"In industry, when we had to deal with customers, there were some of my colleagues that when customers arrived we locked them in a room, figuratively speaking, because when they spoke they were perhaps a little bit arrogant or aggressive or didn't explain what they meant clearly or were trying to impress," says McNamara. "And these aren't good communication skills, as far as I'm concerned."

Vivian Lund is a senior RF engineer with an engineering consulting firm. She helps a diverse range of clients with their RF projects. The projects are low- to mid-powered transmitters and receivers for avionics, ISM (industrial, scientific and medical) and utility meters.

"When I was about nine, my love of music led me to learning about electronic audio equipment," says Lund. "When I was about 11, I bought my first electronics books to learn more about how radios worked. I was fascinated by radio wave propagation at the various frequencies around the globe, and got interested in amateur radio. The men in my family were all either engineers or architects, so some of it was in my blood."

It's a challenging profession. But if you like solving problems, those challenges can be fun and interesting challenges. "Sometimes the components in your design do not meet specifications and you have to find a work-around," says Lund.

"Sometimes the schedules are difficult. Almost every problem you encounter has some sort of new twist to it."

Lund says there are a number of things she enjoys about being an RF engineer.

"I love technology, test equipment, electronics and computers," she says. "I love learning new things. Getting to play with new technology on the job and creating new products is the best part of being an RF engineer."

Contact

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    ndcrn@nd.gov | (701) 328-9733

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