If you’ve been considering a career in electronic components, there are several things to consider. These include the job market, educational requirements, salary range, and industry outlook. These are all important factors in deciding whether or not this career path is right for you. Read on to learn more about this career path and what it has to offer.
Job market for electronic components
Electronic components technicians have numerous job options, and the demand for them is high. This field is well-paying, and many electronic technicians enjoy good job security and the opportunity to travel. Electronic components technicians often require at least a secondary school education. Many electronic components careers have high starting salaries, which can pay off student loans. This job also develops problem-solving skills, so many workers find it appealing.
Those who want to enter the field may be apprehensive at first, but there are numerous training and certification programs available. While an associate’s degree is not always required, it can help you stand out among your competitors. In addition to working with electronics, an electronic components career may involve working with computers. These technicians maintain servers and repair computers of all types. They may even be asked to help people with daily computer problems.
Electronic engineers work on cutting-edge technology. They develop sophisticated design processes and test sophisticated products. For example, electronic engineers in the defence industry may assess equipment behaviour and fault diagnosis, develop new components, or analyze data. Electronic engineers can also work in software development, design engineering, or applications engineering. They may work with chips, integrated circuits, or other components that use electricity as a source of power.
Electronic technicians have a promising job market, and there are more than 130,000 electronics technicians in the country, according to the Bureau of Labor Statistics. According to statistics, the field of electronics technicians is expected to grow by about 200 jobs over the next decade. In addition, the jobs are expected to be open to anyone with a high-quality education and relevant experience.
While the job market for electronic components is generally stable, it can be unpredictable. The demand for skilled workers is often higher than supply, and this causes an increase in the workload of workers. In some sectors, this may lead to overtime work and extra duties. However, if you are passionate about this career, it can be lucrative and fulfilling.
Salary range for electronic components workers
Salary range for electronic components workers varies widely, and can be very rewarding. This field involves complex and often innovative technology that keeps our society running smoothly. From televisions and radios to cell phones, electronic components play a vital role in our lives. Electronic technicians are skilled at fixing anything from broken smartphones to the technology that helps airplanes land. They often find client work that pays well.
The average Electronic Components salary is $101,339 per year, but individual salaries can be much higher. Top earners in the industry can make up to $120,500 per year. Salaries also vary based on location and experience. To find out more about your potential salary, browse the Electronic Components salary directory on ZipRecruiter.
Entry-level positions can earn as low as $37,050 per year. More experienced workers can earn up to $67,237 annually. This is a very competitive field, but it does pay well. With a strong education, you can secure a lucrative position. A high salary is a great way to pay off student loans.
Education requirements for electronic components workers
Those interested in a career in electronic components and systems are advised to pursue a degree in this field. This is usually a two-year program that will combine classroom instruction with hands-on experience. This course will prepare students for the technical and practical skills needed for the job and also helps them develop soft skills.
Students who choose this field should understand the basics of electronics and electrical principles. They must know how to identify problems with electronic systems and devise solutions to address them. They should also be able to design and implement electronic components. The education required for an electronic components worker varies considerably from field to field.
Those interested in a career in electronic components should take the CareerExplorer online career test to see if this career is the right one for them. Its results have been described by users as “shockingly accurate.” To become an electronic assembler, you need a high school diploma. However, on-the-job training will also be available. Previous experience with electrical components and electronics is also helpful.
Those interested in a career in electronics can apply to plants making electronic equipment. Many electronics plants post want ads or put up signs outside of their facilities. You can also contact your school placement office for information on available jobs in the electronics industry. State employment offices can also help you find a suitable position. Once you have obtained some experience, you can progress to other positions, such as supervisors or laboratory assistants. Alternatively, you can also become an advanced specialist in electronics by getting additional education.
Electronic components workers may work independently, as consultants, or as part of a team in a large company. The hours and working schedules vary depending on the industry you’re working in. In hospitals, for example, you’ll often be required to work around the clock, while industrial manufacturers typically limit their hours to daytime during business hours.
Industry outlook for electronic components workers
In the United States, the industry employs 209,430 people and is estimated to grow by 1% annually by 2022. The field is considered relatively diverse, with about 2% of companies owned by women. It also has a higher percentage of minority ownership than the rest of the manufacturing sector.
As a result, the industry is very competitive and is dependent on economic conditions around the world. With the globalization of the electronics industry, many U.S. manufacturers have entered partnerships with foreign and Japanese firms. This highly competitive environment is an important factor for many electronics workers to consider. But, it is not the only factor affecting employment prospects.
The use of electronic components has been increasing steadily since the early 1990s and has increased dramatically in the 2000s. This trend is due in large part to the growing popularity of computers. Back in the late 1970s, electronic parts made up just 1% of a typical automobile, but according to Statista, they will account for up to 35 percent by 2010 and 50 percent by 2030.
The Electronic Components Market is highly segmented by geography and by type. The largest region by volume is Asia Pacific, followed by North America, Western Europe, and other regions. The fastest-growing regions are Africa, the Middle East, and South America. These regions are projected to experience rapid growth through 2021.
The United States continues to hold a comparative advantage in many industry segments, but this advantage is being challenged by technologically advanced countries. The consumer electronics industry is already facing severe competition from imported electronic goods and components. While the future effects of this trend will depend on trade policies and market forces, the electronic components industry is likely to continue to face high competition.
The global market for electronic components is expected to grow by 9% through 2026, according to IBISWorld. Increased demand for flexible and miniaturized devices is driving the global demand for these components. The increasing number of smart devices and internet-of-things devices is also driving the industry. Meanwhile, the rising price of metals is hampering the production costs of components.