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Updated in [August 21st, 2023]
What skills and knowledge will you acquire during this course?
Upon completing this course, you will develop the following skills and knowledge:
Motor Analysis and Integration: You will learn to select the appropriate AC or DC motor for a given machine design. By understanding motor equations related to voltage, current, torque, and speed, you'll be able to integrate the chosen motor into a machine effectively.
Motor Control Circuit Implementation: This course will teach you how to create motor control circuits using both hardware and software. You will gain the ability to implement motors and accompanying rotary sensors into these circuits, enhancing your understanding of motor control systems.
Microprocessor Integration: You will learn how to integrate motors and motor control circuits into microprocessor-based development kits. This skill is crucial for building advanced embedded systems that involve motor-driven components.
Data Processing and Evaluation: The course will equip you with the knowledge to process motor feedback data using both hardware and firmware. You'll be able to extract meaningful information from the motor feedback and evaluate it further using a microprocessor.
How does this course contribute to professional growth?
This course offers several avenues for professional growth:
Specialization: By completing this course as part of the Embedding Sensor and Motors specialization, you'll gain in-depth expertise in sensor integration, motor control, and embedded systems. This specialization can set you apart in the field.
Practical Skills: The hands-on nature of the course ensures you acquire practical skills in designing, integrating, and controlling motors and sensors. These skills are highly valuable in industries involving automation, robotics, and IoT.
Microprocessor Development: The course enhances your ability to work with microprocessors and development kits, a fundamental skill for modern engineering roles.
Problem-Solving: Through building and troubleshooting circuits, you'll develop strong problem-solving skills, which are critical in engineering and technology careers.
Is this course suitable for preparing for further education?
Yes, this course can serve as a solid foundation for further education. The skills you acquire in motor control, sensor integration, and microprocessor development are applicable in advanced academic studies and research projects. The course's emphasis on hands-on experience and practical application aligns with the demands of many higher-level engineering programs. Additionally, the course being part of CU Boulder's Master of Science in Electrical Engineering degree underscores its suitability for preparing for further education.