The Industrial Systems Technology curriculum is intended to train individuals to safely operate, maintain, repair, and install industrial equipment. Instruction includes basic skill and theory instruction required for diagnosing, testing, and correcting industrial mechanical systems. The programs also teach you how to evaluate and select industrial tools. You’ll learn about fluid mechanics, electricity, lubricants, and pumps. The programs cover everything you need to know to become an effective systems engineer.
Industrial systems technology programs are offered in many colleges and technical schools. Courses are available through community colleges, vocational/trade schools, technical/vocational schools, vocational-technical colleges and universities, and a few national chains of technical colleges. There are also several private institutions that offer systems technology certification. To become an effective systems engineer you will need to have a bachelor’s degree in electrical engineering, mechanical engineering, computer science, or biomedical technology.
One of the most popular programs is the Systems Technology Master’s program. Programs graduate students can expect to find jobs working in industrial, retail, diagnostic, and medical facilities. Many graduate students choose to become certified systems engineers. Certificate programs and diploma programs are also available for those who aren’t satisfied with the higher wages many companies pay for systems engineers. Some of the programs awarded high distinction accreditation by the U.S. Department of Labor and several other national employers.
Systems engineering is used in a wide variety of applications. From manufacturing to clinical, from commercial to government, from healthcare to manufacturing, the systems technology curriculum in schools prepares students for a rewarding career in a number of fields. Instruction includes core coursework in materials identification, analysis, design, troubleshooting, diagnosing, maintenance, and repair. Other instruction includes communications, control systems, control verification, integrated designs, software, integrated processing, and networking.
Instruction in industrial systems technology curriculum also teaches students how to use diagnostic and industrial machinery. Some of the topics taught in this segment include troubleshooting automatic machines, components identification, and component operation and control. The instruction also covers processes such as diagnosing and repairing electrical motors, gears, pulleys, belts, and other components. Other instruction includes reading diagrams, installing and maintaining equipment, and using electronic or mechanical tools. Students also learn about circuitry and how to protect and diagnose circuits.
A popular area of instruction in industrial systems technology is electrical maintenance. Electrical service includes installing, servicing, maintaining, repairing, and cleaning electronic and power systems. Many courses teach students how to install and troubleshoot various types of equipment, including computer equipment, cell phones, household utilities, and lighting systems. Electrical service includes skill training needed to troubleshoot electrical systems that are damaged or broken. This could include repairing a fuse, replacing an outlet, and testing a circuit. Instruction in this section of study includes learning about the different types of fuses, which are made of different materials, and how to recognize them.
Computer systems are among the most important aspects of modern society. Individuals use computers to store their information and to perform a wide range of jobs. Individuals use this technology for business, personal, and leisure activities. Instruction in industrial systems technology teaches students how to install and repair computers. Computer service includes skill training needed to diagnose and repair computer systems that are damaged or broken. This could include updating a virus-free operating system, adding hardware, and reformatting a hard drive.
Industrial mechanical systems maintenance is a growing field. Many people depend on industrial machinery to help them do their jobs and provide a reliable means of completing these tasks. Instruction in this field gives students the ability to diagnose and repair various problems that may occur with industrial machines. Knowledge gained in this category includes learning how to identify problems with motors, belts, pulleys, and other components. Hands-on practice in this section allows students to learn multi-craft technical skills necessary to repair equipment in an industrial setting.