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Career and Education Opportunities for Electronics Engineers in Detroit, Michigan

Many educational and employment opportunities exist for electronics engineers in the Detroit, Michigan area. About 3,720 people are currently employed as electronics engineers in Michigan. By 2016, this is expected to grow 9% to about 4,040 people employed. This is better than the nation as a whole, where employment opportunities for electronics engineers are expected to grow by about 0.3%. In general, electronics engineers research, design, and test electronic components and systems for commercial, industrial, or scientific use utilizing knowledge of electronic theory and materials properties.

Electronics engineers earn approximately $37 per hour or $77,300 yearly on average in Michigan. Nationally they average about $41 hourly or $86,370 annually. Earnings for electronics engineers are not quite as good as earnings in the general category of Engineering in Michigan and better than general Engineering category earnings nationally. People working as electronics engineers can fill a number of jobs, such as: electronics design engineer, microwave engineer, and circuit designer.

There are six schools within twenty-five miles of Detroit where you can study to be an electronics engineer, among seventy-three schools of higher education total in the Detroit area. Given that the most common education level for electronics engineers is a Bachelor's degree, it will take about four years to learn to be an electronics engineer if you already have a high school diploma.

CAREER DESCRIPTION: Electronics Engineer

In general, electronics engineers research, design, and test electronic components and systems for commercial, industrial, or scientific use utilizing knowledge of electronic theory and materials properties. They also design electronic circuits and components for use in fields such as telecommunications, aerospace guidance and propulsion control, acoustics, or instruments and controls.

Electronics engineers talk with engineers, customers, vendors or others to consider existing and potential engineering projects or products. They also evaluate operational systems, prototypes and proposals and recommend repair or layout modifications, on the basis of factors such as environment and system capabilities. Equally important, electronics engineers have to direct and schedule efforts concerned with manufacture and modification of electronic equipment and systems. They are often called upon to design and perform operational, maintenance, and testing processes for electronic products and systems. Finally, electronics engineers furnish technical support and instruction to staff or customers regarding equipment standards, assisting with specific, difficult in-service engineering.

Every day, electronics engineers are expected to be able to articulate ideas and problems. They need to listen to and understand others in meetings. It is also important that they read and understand documents and reports.

It is important for electronics engineers to decide on material and equipment needs and order supplies. They are often called upon to operate computer-assisted engineering and layout software and apparatus to perform engineering tasks. They also inspect electronic equipment and systems to insure conformance to given requirements and applicable codes and regulations. They are sometimes expected to ready engineering sketches and requirements for construction and installation of equipment and systems. Somewhat less frequently, electronics engineers are also expected to ready documentation containing data such as confidential descriptions and specifications of proprietary hardware and software, product development and introduction schedules, product costs, and data related to product performance weaknesses.

and formulate and design applications and modifications for electronic properties used in components and systems, to further optimize technical performance. And finally, they sometimes have to design and perform operational, maintenance, and testing processes for electronic products and systems.

Like many other jobs, electronics engineers must be thorough and dependable and be reliable.

Similar jobs with educational opportunities in Detroit include:

  • Aerodynamics Engineer. Perform a variety of engineering work in designing, constructing, and testing aircraft, missiles, and spacecraft. May conduct basic and applied research to evaluate adaptability of materials and equipment to aircraft design and manufacture. May recommend improvements in testing equipment and techniques.
  • Biomedical Engineer. Apply knowledge of engineering, biology, and biomechanical principles to the design, development, and evaluation of biological and health systems and products, such as artificial organs, prostheses, instrumentation, medical information systems, and health management and care delivery systems.
  • Chemical Engineer. Design chemical plant equipment and devise processes for manufacturing chemicals and products, such as gasoline, synthetic rubber, and pulp, by applying principles and technology of chemistry, physics, and engineering.
  • Civil Engineer. Perform engineering duties in planning, designing, and overseeing construction and maintenance of building structures, and facilities, such as roads, railroads, airports, bridges, harbors, channels, dams, irrigation projects, pipelines, power plants, water and sewage systems, and waste disposal units. Includes architectural, structural, and geo-technical engineers.
  • Computer Engineer. Research, design, and test computer or computer-related equipment for commercial, industrial, or scientific use. May supervise the manufacturing and installation of computer or computer-related equipment and components.
  • Electrical Engineer. Design, develop, or supervise the manufacturing and installation of electrical equipment, components, or systems for commercial, industrial, or scientific use.
  • Fire Prevention Research Engineer. Research causes of fires, determine fire protection methods, and design or recommend materials or equipment such as structural components or fire-detection equipment to assist organizations in safeguarding life and property against fire, explosion, and related hazards.
  • Health, Safety, and Environment Manager. Plan, implement, and coordinate safety programs, requiring application of engineering principles and technology, to prevent or correct unsafe environmental working conditions.
  • Industrial Engineer. Design, develop, and evaluate integrated systems for managing industrial production processes including human work factors, quality control, inventory control, logistics and material flow, cost analysis, and production coordination.
  • Industrial Engineering Technician. Apply engineering theory and principles to problems of industrial layout or manufacturing production, usually under the direction of engineering staff. May study and record time, motion, and speed involved in performance of production, maintenance, and other worker operations for such purposes as establishing standard production rates or improving efficiency.
  • Manufacturing Engineer. Apply knowledge of materials and engineering theory and methods to design, integrate, and improve manufacturing systems or related processes. May work with commercial or industrial designers to refine product designs to increase producibility and decrease costs.
  • Mechanical Engineer. Perform engineering duties in planning and designing tools, engines, and other mechanically functioning equipment. Oversee installation, operation, and repair of such equipment as centralized heat, gas, and steam systems.
  • Nuclear Engineer. Conduct research on nuclear engineering problems or apply principles and theory of nuclear science to problems concerned with release, control, and utilization of nuclear energy and nuclear waste disposal.
  • Petroleum Engineer. Devise methods to improve oil and gas well production and determine the need for new or modified tool designs. Oversee drilling and offer technical advice to achieve economical and satisfactory progress.
  • Product Safety Engineer. Develop and conduct tests to evaluate product safety levels and recommend measures to reduce or eliminate hazards.

EDUCATIONAL OPPORTUNITIES: Electronics Engineer Training

University of Michigan-Ann Arbor - Ann Arbor, MI

University of Michigan-Ann Arbor, , Ann Arbor, MI 48109. University of Michigan-Ann Arbor is a large university located in Ann Arbor, Michigan. It is a public school with primarily 4-year or above programs. It has 40,618 students and an admission rate of 42%. University of Michigan-Ann Arbor has bachelor's degree, master's degree, and doctor's degree programs in Electrical, Electronics and Communications Engineering which graduated 139, fifty-five, and thirty-four students respectively in 2008.

University of Michigan-Dearborn - Dearborn, MI

University of Michigan-Dearborn, 4901 Evergreen Rd, Dearborn, MI 48128-1491. University of Michigan-Dearborn is a medium sized university located in Dearborn, Michigan. It is a public school with primarily 4-year or above programs. It has 8,311 students and an admission rate of 61%. University of Michigan-Dearborn has a bachelor's degree and a master's degree program in Electrical, Electronics and Communications Engineering which graduated sixty and twenty-three students respectively in 2008.

Wayne State University - Detroit, MI

Wayne State University, 656 West Kirby Street, Detroit, MI 48202. Wayne State University is a large university located in Detroit, Michigan. It is a public school with primarily 4-year or above programs. It has 31,025 students and an admission rate of 79%. Wayne State University has bachelor's degree, master's degree, and doctor's degree programs in Electrical, Electronics and Communications Engineering which graduated fifty-five, sixty-six, and five students respectively in 2008.

Oakland University - Rochester Hills, MI

Oakland University, , Rochester Hills, MI 48309-4401. Oakland University is a large university located in Rochester Hills, Michigan. It is a public school with primarily 4-year or above programs. It has 18,169 students and an admission rate of 78%. Oakland University has a bachelor's degree and a master's degree program in Electrical, Electronics and Communications Engineering which graduated one and thirty-five students respectively in 2008.

Lawrence Technological University - Southfield, MI

Lawrence Technological University, 21000 West Ten Mile Road, Southfield, MI 48075-1058. Lawrence Technological University is a small university located in Southfield, Michigan. It is a private not-for-profit school with primarily 4-year or above programs. It has 4,318 students and an admission rate of 60%. Lawrence Technological University has a bachelor's degree program in Electrical, Electronics and Communications Engineering which graduated thirty-five students in 2008.

University of Detroit Mercy - Detroit, MI

University of Detroit Mercy, 4001 W McNichols Rd, Detroit, MI 48221-3038. University of Detroit Mercy is a medium sized university located in Detroit, Michigan. It is a private not-for-profit school with primarily 4-year or above programs. It has 5,725 students and an admission rate of 64%. University of Detroit Mercy has bachelor's degree, master's degree, and doctor's degree programs in Electrical, Electronics and Communications Engineering which graduated seven, eleven, and one students respectively in 2008.

CERTIFICATIONS

Planning and Scheduling Professional: The PSP certification is to recognize specialists who meet a demanding set of planning and scheduling criteria by a rigorous examination, experience, education and ethical qualificaion.

For more information, see the AACE International (Association for the Advancement of Cost Engineering through total cost management) website.

Geometric Dimensioning & Tolerancing Professional - Technologist: ASME GDTP Certification provides the means to recognize proficiency in the understanding and application of the geometric dimensioning and tolerancing (GD&T) principles expressed in the ASME Y14.

For more information, see the American Society of Mechanical Engineers International website.

CompTIA Radio Frequency Identification (RFID+) Certification: CompTIA Radio Frequency Identification (RFID+) certification validates the knowledge and skills of professionals who work with RFID technology.

For more information, see the Computing Technology Industry Association (CompTIA) website.

RADAR Electronics Technician: Radar electronics technicians are expected to obtain knowledge of radar basics and concepts which are then applicable to all the.

For more information, see the ETA International website.

Associate Certified Electronics Technician: Knowledge areas include: Electrical Theory, Electronic Components, Soldering-Desoldering & Tools, Block Diagrams - Schematics - Wiring Diagrams, Cabling, Power Supplies, test Equipment & Measurements, Safety Precautions, Mathematics & Formulas, Radio Communication Technology, Electronic Circuits: Series & Parallel, Amplifiers, Interfacing of Electronics Products, Digital Concepts & Circuitry, Computer Electronics, Computer Applications, Audio & Video Systems, Optical Electronics, Telecommunications Basics, Technician Work Procedures.

For more information, see the ETA International website.

IPC-A-600 Acceptability of Printed Circuit Boards: The IPC-A-600 Training and Certification Program helps all segments of the electronics interconnection industry improve their understanding of printed board quality issues; greatly enhances communication between PCB manufacturers, their suppliers and their customers; and provides a valuable portable credential to industry professionals as well as recognition for their companies.

For more information, see the IPC (Institute of Interconnecting and Packaging Electronic Circuits) website.

Electron Microscopy Technologist: The Microscopy Society of America (MSA), the world's largest professional association of microscopists, provides the only certification of technologists in biological transmission electron microscopy available in the Americas.

For more information, see the Microscopy Society of America website.

Junior Telecommunications Engineer: Telecommunications certification is applicable to professionals involved in the science and practice of communications by electromagnetic means.

For more information, see the National Association of Radio and Telecommunications Engineers, Inc. website.

LOCATION INFORMATION: Detroit, Michigan

Detroit, Michigan
Detroit, Michigan photo by Durova

Detroit is located in Wayne County, Michigan. It has a population of over 912,062, which has shrunk by 4.1% in the past ten years. The cost of living index in Detroit, 86, is well below the national average. New single-family homes in Detroit are priced at $108,900 on average, which is well below the state average. In 2008, eighty-five new homes were built in Detroit, down from one hundred fifty-four the previous year.

The three big industries for women in Detroit are health care, educational services, and transportation equipment. For men, it is transportation equipment, construction, and administrative and support and waste management services. The average commute to work is about 28 minutes. More than 11.0% of Detroit residents have a bachelor's degree, which is lower than the state average. The percentage of residents with a graduate degree, 4.2%, is lower than the state average.

The unemployment rate in Detroit is 27.0%, which is greater than Michigan's average of 14.3%.

The percentage of Detroit residents that are affiliated with a religious congregation, 37.7%, is less than both the national and state average. The most common religious groups are the Catholic Church, the Muslim Estimate and the Lutheran Church.

Detroit is home to the Memorial Park Marina and the Detroit Golf Club as well as Chene Park and Mallett Playground. Visitors to Detroit can choose from Corktown Inn, Clark's Motel and Days Inn of Downtown Detroit for temporary stays in the area.