From the global positioning system that can continuously provide the
location of a vehicle to giant electric power generators, electrical and
electronics engineers are responsible for a wide range of technologies.
Electrical and electronics engineers design, develop, test, and
supervise the manufacture of electrical and electronic equipment. Some
of this equipment includes broadcast and communications systems;
electric motors, machinery controls, lighting, and wiring in buildings,
automobiles, aircraft, and radar and navigation systems; and power
generating, controlling, and transmission devices used by electric
utilities. Many electrical and electronics engineers also work in areas
closely related to computers. However, engineers whose work is related
exclusively to computer hardware are considered computer
hardware engineers, another engineering specialty covered elsewhere
in the Handbook.
Electrical and electronics engineers specialize in different areas
such as power generation, transmission, and distribution;
communications; and electrical equipment manufacturing, or a specialty
within one of these areas—industrial robot control systems or aviation
electronics, for example. Electrical and electronics engineers design
new products, write performance requirements, and develop maintenance
schedules. They also test equipment, solve operating problems, and
estimate the time and cost of engineering projects.
Electrical and electronics engineers held about 292,000 jobs in
2002, making up the largest branch of engineering. Most jobs were in
professional, scientific, and technical services firms, government
agencies, and manufacturers of computer and electronic products and
machinery. Wholesale trade, communications, and utilities firms
accounted for most of the remaining jobs.
Electrical and electronics engineering graduates should have
favorable employment opportunities. The number of job openings resulting
from employment growth and the need to replace electrical engineers who
transfer to other occupations or leave the labor force is expected to be
in rough balance with the supply of graduates.
Employment of electrical and electronics engineers is expected to grow
more slowly than the average for all occupations through 2012.
Although rising demand for electrical and electronic goods, including
advanced communications equipment, defense-related electronic equipment,
and consumer electronics products should increase, foreign competition
for electronic products and increasing use of engineering services
performed in other countries will act to limit employment growth Job
growth is expected to be fastest in services industries—particularly
consulting firms that provide electronic engineering expertise.
Continuing education is important for electrical and electronics
engineers. Engineers who fail to keep up with the rapid changes in
technology risk becoming more susceptible to layoffs or, at a minimum,
more likely to be passed over for advancement.
Median annual earnings of electrical engineers were $68,180 in 2002.
The middle 50 percent earned between $54,550 and $84,670. The lowest 10
percent earned less than $44,780, and the highest 10 percent earned more
than $100,980. Median annual earnings in the industries employing the
largest numbers of electrical engineers in 2002 were:
Scientific research and development services
$77,410
Semiconductor and other electronic component manufacturing
72,670
Electric power generation, transmission, and distribution
71,640
Navigational, measuring, electromedical, and control
instruments manufacturing
70,430
Architectural, engineering, and related services
66,980
Median annual earnings of electronics engineers, except computer,
were $69,930 in 2002. The middle 50 percent earned between $55,930 and
$85,980. The lowest 10 percent earned less than $46,310, and the highest
10 percent earned more than $103,860. Median annual earnings in the
industries employing the largest numbers of electronics engineers in
2002 were:
Federal government
$78,830
Architectural, engineering, and related services
72,850
Navigational, measuring, electromedical, and control
instruments manufacturing
70,950
Semiconductor and other electronic component manufacturing
70,800
Wired telecommunications carriers
62,670
According to a 2003 salary survey by the National Association of
Colleges and Employers, bachelor’s degree candidates in
electrical/electronics and communications engineering received starting
offers averaging $49,794 a year; master’s degree candidates averaged
$64,556; and Ph.D. candidates averaged $74,283.
Links to non-BLS Internet sites are provided for your
convenience and do not constitute an endorsement.
Information on careers and employment, education, publications, and
conferences related to electrical and electronics engineers is available
from:
Institute of Electrical and Electronics Engineers, 445 Hoes
Lane, Piscataway, NJ 08855-1331. Internet: http://www.ieee.org
See the introduction to the section on engineers
for information on working conditions, training requirements, and other
sources of additional information.
Suggested citation: Bureau of Labor Statistics,
U.S. Department of Labor, Occupational Outlook Handbook,
2004-05 Edition,
Electrical and Electronics Engineers
, on the Internet at http://www.bls.gov/oco/
ocos031.htm
(visited January 28, 2005).
