5 Skills You Can Learn in Robotics & Automation Training School

In today's competitive field of robotics, having a fundamental understanding of its technologies is essential!

That’s why robotics training is critical. Fortunately, Universal Technical Institute’s Robotics & Automation Technician program is at six of our trade school locations. After learning the essentials of robotics and automation, graduates earn a degree or diploma and are prepared to pursue careers in the field of robotics.¹

But what specific skills would you learn from our robotics and automation courses?

Keep reading to learn more! Below, we’ll explain some of the skills students learn in robotics technician training.

What Is Robotics Training?

Robotics and automation training school offers hands-on training in controlled lab settings to simulate robotics field work and helps students develop theoretical knowledge to understand the technologies! These learning opportunities also help students collaborate with their fellow classmates, allowing them to practice the professionalism often required of technicians.

UTI's Robotics & Automation Technician program is no exception, guiding students through in-depth classroom instruction and hands-on lab experience to learn how to use various types of machinery, operate industry-standard robotic devices and maintain automated systems. Learning about automation is the biggest part of our robotics and automation training program since having an understanding of automation is often essential for maintaining and developing robotic technology!

Graduates of UTI's 51-week program at the Exton, Mooresville, Lisle, Houston and Rancho Cucamonga campuses receive diplomas. Students at our Canton campus receive certificates, and can add six months to their studies to earn an Associate of Applied Science (AAS) degree! After completing the robotics and automation training, students will be qualified to pursue entry-level careers as robotics or automation technicians!¹

5 Skills You Can Learn in Robotics Training School

1. Programming

Robotics programming is the use of computer engineering principles to control the behavior of robots. Programmers create code that informs a robot about its surroundings, allowing it to perform tasks autonomously. This skill requires a thorough understanding of both software and robotics principles, both of which help systems innovate.

2. Electronics and Circuit Design

Electronics and circuit design allow robots to function as their programming dictates. Because of this, robotics technicians often need experience in both electrical technology and computer science, as well as strong problem-solving skills.

In general, students in robotics training programs learn the fundamentals of DC and AC electricity before progressing to more advanced topics like foundation programming and digital electronics and circuits. In the field, technicians use this knowledge to service and maintain automated systems.

3. Manufacturing Systems and Technology

Manufacturing systems and technology entails designing, developing and building automated production systems that allow robots to successfully and consistently perform their tasks. These skills require an understanding of robotics principles such as  safety, automation processes, types, and uses of industrial robots, machine tools, and various other equipment within the field of automation.

4. Computer-Aided Design

Computer-aided mechanical (CAM) design is a branch of engineering that involves the creation of 3D models and components for using various software programs and tools. Students must understand mathematics, computer science, drafting and design principles in order to use CAM effectively. They can then produce detailed and accurate computer-aided drafting (CAD) designs that can be used to produce robotic parts, structures, mechanisms and systems, as well as efficiently design complex robotic products.

5. Troubleshooting

Robots must adhere to certain protocols and commands throughout their lives, so robotics engineers must be capable of identifying and correcting any issues that may arise during robot operation. This is where troubleshooting comes into play. To perform proper troubleshooting to fix faults in the robot's programming and operation and to fix mechanical problems that prevent operation, students must understand both hardware and software engineering principles in addition to programming languages.

Robotics Training FAQ

1. How Do I Start Learning Robotics?

Even if you have no prior experience working with machines, taking robotics courses while training at UTI can help you learn from the ground up. Students can learn all of the skills listed above in our robotics and automation courses!

2. Is Robotics a High-Paying Job?

According to the U.S. Bureau of Labor Statistics (BLS), the median annual wage for robotics technicians in the United States was $65,080 in May 2023.⁵⁹ This means half earned more and half earned less. Keep in mind that salary depends on several factors, including experience, employer, demand and cost of living in the area.

3. Does Robotics Require a Lot of Math?

Yes, it does! Developing, maintaining and repairing successful robotic systems requires a solid understanding of mathematics. Robotics technicians often use math to solve technical problems related to robotic navigation, coordination of multiple robots and behavior control.

Receive Robotics Training at UTI!

At a robotics and automation training school, students can learn key technician fundamentals and have the chance to gain hands-on experience with industry-standard equipment! Once they complete a robotics training program, they can pursue a career in this fast-moving field.¹

Does the prospect of learning the skills listed above excite you? Request more information on our website or call an admissions representative today at 1-800-834-7308 for more information. Apply for robotics training today and start learning!