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What can I do with my degree?

Industrial Electronics Technician

Industrial electronics technicians ensure manufacturing and assembly equipment operates properly, and they perform repairs when necessary. They can work as field technicians, visiting sites to work on equipment, or as bench technicians working within service centers. Industrial electronics workers commonly use signal generators and voltage meters to test faulty wiring, replace hardware components and troubleshoot computer control systems. They also work on antennas, programmable logic controllers and transmitters.

Most electronics installers and repairers have the equivalent of high school diplomas and have completed some postsecondary coursework related to electronics. Much of the training for these professionals occurs on the job, and new hires are usually assigned to work under more experienced professionals.

Although there are no required licenses for this career field, many technicians do become certified. Associate's degree program graduates can immediately test for the Associate Certified Electronics Technician (CETa) credential offered by the Electronics Technicians Association. Professionals with the CETa can then test for a variety of journeyman certifications, such as in industrial and alternative energy. The International Society of Certified Electronics Technicians offers a similar path, requiring professionals to first earn the basic Certified Electronics Technician designation. They can then test for a journeyman-level certification in industrial electronics.
Employers of Industrial Technology Majors

• Manufacturing Industries 
• Engineering Firms 
• Industrial Design Consulting Firms 
• Construction Companies 
• Government Agencies 
• Hospitals 
• Retail Organizations 
• Public Utility Companies 
• Pharmaceutical Companies 
• Industrial Sales Companies 

Related Occupations for Industrial Technology Majors

Consultant	Project Supervisor or Manager
Cost Estimator	Quality Assurance Technician
Drafter	Quality Control Technician
Electronics Technician	Robotics Technician
Industrial Automated Systems	Safety Coordinator
Industrial Designer	Safety Engineer
Materials & Processes	Safety Supervisor
Operations Manager	Sales Representative
Operator	Site Supervisor
Personnel Manager	Technician
Planner	Time Study Analyst
Production Manager	Vocational Teaching

 
 

Preparing for a Job in Industrial Technology


Some of these occupations may require additional education at Graduate or Professional schools. For information on qualifications and career specifics consult the Occupational Outlook Handbook or other career resources. Also, take advantage of career counseling offered by the Center for Student Excellence.



Obtain good computer, communication and organizational skills.

Pursue an internship, co-op, or field placement.

Obtain math skills.

Develop analytical skills.

Attend trade shows for updates on new technology.

Obtain safety certification if offered at university.

For design firms need creativity, imagination, and knowledge of CAD.

more information:       http://www.hinds.k12.ms.us/domain/633

Electronic Engineer and comunication career

Training in industrial electronics typically covers performing maintenance, installation, and repairs on electronic equipment used for industrial purposes. Find out about the requirements of these programs, and learn about career options, job growth and salary info for electronics graduates.

Industrial production has relied on electricity for almost a century. In turn, users of industrial electronics have relied on those who design, install, and repair them. These include electricians, industrial electronics technicians, and elevator.

The Industrial Technology program will prepare individuals to install, maintain and repair electromechanical equipment used in the careers and construction industry. Companies across the state of Mississippi are rapidly updating their manufacturing and construction processes in order to be more competitive in the global economy. Effective maintenance is a key requirement in producing a high quality product with the speed of delivery demanded by today's consumers. As a result, a large number of technicians are now required to have education and training in Industrial Technology. Hinds County Technical Career and Student Reception Industry Center recognizes professional certifications from the National Center for Education and Research. (NCCER) A rigorous two-year curriculum will allow students the opportunity to complete the "COUNTER" training modules for the NCCER Industrial Maintenance I certification. Students are then eligible for articulation with Hinds Community College, obtaining up to 6 hours Of university credit towards an associate degree in electrical technology. They completed the Industrial Technology program will also have their names entered into the national industry database through the Mississippi Construction Labor Foundation (MCEF) for future employment and professional development opportunities.

Importance of the Industrial Electronics

The electronics industry is composed of organizations involved in the manufacture, design and development, assembly, and servicing of electronic equipment and components. Together, these organizations offer a wide variety of products that frequently have only one thing in common: They depend upon electronic technology to operate. Electronics is one of the fastest evolving and most innovative industries, and also one of the most competitive. The research and development of new, better products is of great importance in electronics, where companies often compete fiercely to bring the newest technology to market first.

Electronics is the branch of science and technology that deals with the study, application, and control of the conduction of electricity in a vacuum, in gases, in liquids, in semiconductors, and in conducting and superconducting materials. There are thousands of electronic products with countless applications. These products consist of materials, parts, components, subassemblies, and equipment that use the principles of electronics to perform their major functions.

As a whole, the goal of the industry is to meet the needs of electronics producers by providing electronic parts or products for sale. Much effort and money is put into research and development in order to produce improved parts and products, as well as to improve the process for producing them.

The electronics industry dates to the 1800s, when scientists first discovered that they could pass electricity through gas from one metal electrode to another. The first commercial vacuum tube was built in 1904 by John Ambrose Fleming, a British scientist, who used it to detect radio signals. Vacuum tubes continued to be the standard in the industry until the 1950s, when the first transistor and semiconductor diodes were invented and introduced. During this time, integrated circuits were also introduced. By the mid-1980s, other countries, such as Japan, had become serious competitors of U.S. companies when it came to electronics manufacturing. Modern markets are global ones, and companies both buy and sell parts and products to other countries. Many electronics manufacturing companies outsource parts, allowing them to be more competitive on the global market.

The electronics manufacturing industry can be divided into four primary segments: government products, industrial products, consumer products, and electronic components. Each category serves a specific market, which allows it to focus on components and products geared toward their customers. The government market is primarily developed for aircraft and military products, as well as communication technology and medical devices. Industrial products include large-scale computers, radio and television broadcasting equipment, telecommunications equipment, and electronic office equipment, while consumer products are the well-known televisions, cell phones, DVD players, smartphones, radios, video game systems, personal computers, electronic ovens, and home intercommunication and alarm systems. The final segment, that of components, are the manufacturers that produce and sell electron tubes, semiconductors, and passive components.

According to a 2015 report published by IBISWorld, the global consumer electronics manufacturing industry was valued at $283 billion. The largest segment of the consumer electronics market is audio visual equipment, and the Americas account for nearly half of the global consumer electronics market value, as cited by another market research group.

Objectives and competences

The degree in Industrial Electronics and Automation Engineering allows a graduate to obtain management, organization and planning positions in a number of areas. In technical terms it enables them to carry out studies, analysis and design of technological systems in the field of electronics and control.


This professional profile allows the following professional opportunities:


Professional opportunities


Technical and managing positions in companies within the industrial field and services.
Technical, commercial, management and leading positions in all sectors where electronics and automation engines interfere.
Management, organization, planning, quality and environment in the companies related with this kind of activities.
Public administration, teaching and innovation.
Development of control systems and factory automatization, robotic devices and artificial vision systems.
Design of electronic circuits, domotic systems and design of applications with microchips.
Studies of renewable energies, sustainability and environment.
Analysis and development of electrical and electronic circuits, control techniques and industrial automatization.
Carrying out and implementation of projects in the area of industrial IT, instrumentation and monitoring.
Design, construction and supervision of control systems, analogue electronics, digital power.

Wath is Electronic Engineer and comunication career?

 

 

Industrial electronics is a branch of electronics that deals with power electronic devices such as thyristors, SCRs, AC/DC drives, meters, sensors, analyzers, load cells automatic test equipment, mulitimeters, data recorders, relays, resistors, semiconductors, transistors, waveguides, scopes, amplifiers, radio frequency (RF) circuit boards, timers, counters, etc. It covers all of the methods and facets of: control systems, instrumentation, mechanism and diagnosis, signal processing and automation of various industrial applications. The core research areas of industrial electronics include electrical power machine designs, power conditioning and power semiconductor devices. A lot of consideration is given to power economy and energy management in consumer electronic products.

So to put it simply, industrial electronics refers to equipment, tools and processes that involve electrical equipment in an industrial setting. This could be a laboratory, automotive plant, power plant or construction site etc. Industrial electronics are also used extensively in: chemical processing plants, oil/gas/petroleum plants, mining and metal processing units, electronics and semiconductor manufacturing.


The scope of industrial electronics ranges from the design and maintenance of simple electrical fuses to complicated programmable logic controllers (PLCs), solid-state devices and motor drives. Industrial electronics can handle the automation of all types of modern day electrical and mechanical industrial processes. Some of the specialty equipment used in industrial electronics includes: variable frequency converter and inverter drives, human machine interfaces, hydraulic positioners and computer or microprocessor controlled robotics.

Industrial electronics is a large family indeed, but remember it is different than entertainment and consumer electronics. Instead of thinking DVD players and computers we are talking about things such as capacitors, motor drives, panel meters, limit switches and testers. Actually the list goes on and on.

Because industrial electronics covers such a wide range of devices it’s important that you keep on top of your maintenance schedule or you will find yourself replacing items quite frequently. You should also keep abreast of all the new developments in the electronic world as new items are being manufactured all of the time and you may want too upgrade some of your components to stay up to date. As with all types of electronics you should also be aware of all of the safety hazards of each individual ítem.

  

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LINK:                                                                http://learn.org/directory/category/Mechanical_and_Electrical_Repair/Electrical_Technology_Repair/Industrial_Electronics.html