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MOSFET Crash Course
Hey there. Welcome to my 'MOSFET Crash course'. In this course, The core concepts of MOSFETs like their construction, working and applications will be dealt.
After studying this course, you'll be able to
Read more
Hey there. Welcome to my 'MOSFET Crash course'. In this course, The core concepts of MOSFETs like their construction, working and applications will be dealt.
After studying this course, you'll be able to
Read more
Hey there. Welcome to my 'MOSFET Crash course'. In this course, The core concepts of MOSFETs like their construction, working and applications will be dealt.
After studying this course, you'll be able to
1. Design logic circuits using CMOS Logic.
2. Design a MOSFET Amplifier using any one of the three combinations ( Use MOSFETs as electronic switches.
4. Understand the difference between BJT and FET
5. Understand the different types of FET and MOSFET
6. Know the formation of different logic gates using PMOS and NMOS.
7. Know how to use TinkerCAD, A circuit simulation tool.
8. Use MOSFET to control electronic components like LEDs
9. Understand the terminologies like Power Consumption, Fan In, Transconductance etc.
MOSFETS are widely used in industries. Some of the major applications of MOSFETS are:
1. MOSFET is used for switching and amplifying electronics signals in the electronic devices.
2. It is used as an inverter.
3. It can be used in digital circuits.
4. MOSFET can be used as a high frequency amplifier.
5. It can be used as a passive element e.g. resistor, capacitor and inductor.
6. It can be used in brushless DC motor drive.
7. It can be used in electronic DC relay.
8. It is used in switch mode power supply (SMPS).
Register for this course and see more details by visiting:
OpenCourser.com/course/uoob2l/mosfet
Good to know
Good to know
Know what's good ,
what to watch for , and
possible dealbreakers
Develops a comprehensive understanding of MOSFETs, including their design, applications, and limitations
Provides hands-on experience with MOSFETs through simulations and practical examples
Addresses key concepts relevant to the field of electronics, such as amplifiers and logic circuits
Covers a wide range of topics, from basic principles to advanced applications
Emphasizes practical applications, making the course relevant for engineers and technicians
Requires students to come in with some background knowledge in electronics or physics
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Activities
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MOSFET Crash Course.
These are activities you can do either before, during, or after a course.
Career center
Learners who complete MOSFET Crash Course will develop knowledge and skills
that may be useful to these careers:
Electrical Engineer
Electrical Engineer
Electrical Engineers design, develop, test, and supervise the installation and maintenance of electrical equipment and systems. This 'MOSFET Crash Course' may help build a foundation for those who wish to begin work in this area, as it introduces the core concepts of MOSFETs and how they can be applied to producing electronic signals and building digital circuits.
Electronic Engineer
Electronic Engineer
Electronic Engineers design, develop, test, and supervise the installation and maintenance of electrical and electronic equipment and systems. This 'MOSFET Crash Course' may help build a foundation for those who wish to begin work in this area, as it introduces the core concepts of MOSFETs and how they can be applied to producing electronic signals and building digital circuits.
Computer Hardware Engineer
Computer Hardware Engineer
Computer Hardware Engineers implement and test computer systems for functionality, reliability, and performance. Their work includes the design and analysis of computer systems and their components. This 'MOSFET Crash Course' may help build a foundation for those who wish to begin work in this area, as it introduces the core concepts of MOSFETs and how they can be applied to producing electronic signals and building digital circuits.
Industrial Electrician
Industrial Electrician
Industrial Electricians install, maintain, and repair electrical systems and equipment in industrial settings. This 'MOSFET Crash Course' may help build a foundation for those who wish to begin work in this area, as it introduces the core concepts of MOSFETs and how they can be applied to producing electronic signals and building digital circuits.
Research Scientist
Research Scientist
Research Scientists conduct research and development in the physical sciences, engineering, and life sciences. This 'MOSFET Crash Course' may help build a foundation for those who wish to begin work in this area, as it introduces the core concepts of MOSFETs and how they can be applied to producing electronic signals and building digital circuits.
Hardware Designer
Hardware Designer
Hardware Designers design and develop computer hardware. This 'MOSFET Crash Course' may help build a foundation for those who wish to begin work in this area, as it introduces the core concepts of MOSFETs and how they can be applied to building digital circuits.
Electronics Technician
Electronics Technician
Electronics Technicians install, maintain, and repair electronic equipment. This 'MOSFET Crash Course' may help build a foundation for those who wish to begin work in this area, as it introduces the core concepts of MOSFETs and how they can be applied to producing electronic signals and building digital circuits.
Computer Scientist
Computer Scientist
Computer Scientists conduct research and development in computer science and its applications. This 'MOSFET Crash Course' may be useful for those who wish to work as Computer Scientists, as it can help to build an understanding of the hardware that software runs on.
Systems Analyst
Systems Analyst
Systems Analysts design, develop, and implement computer systems. This 'MOSFET Crash Course' may be useful for those who wish to work as Systems Analysts, as it can help to build an understanding of the hardware that software runs on.
Data Scientist
Data Scientist
Data Scientists collect, analyze, and interpret data to extract meaningful insights. This 'MOSFET Crash Course' may be useful for those who want to work as Data Scientists, as it can help to build an understanding of the underlying hardware and software used in data storage, retrieval, and analysis.
Product Designer
Product Designer
Product Designers develop and design products. This 'MOSFET Crash Course' may be useful for those who wish to work as Product Designers, as it can help to build an understanding of the hardware and electronic components that go into product design.
Software Engineer
Software Engineer
Software Engineers design, develop, test, and maintain software systems. This 'MOSFET Crash Course' may be useful for those who wish to work as Software Engineers, as it can help to build an understanding of the hardware that software runs on.
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design and build machines, engines, and other mechanical devices. This 'MOSFET Crash Course' may be useful for those who wish to work in industries where mechanical devices are used, such as robotics or automotive engineering, as it can help to build an understanding of the electronic components that go into these devices.
Chemical Engineer
Chemical Engineer
Chemical Engineers design and build chemical plants and processes. This 'MOSFET Crash Course' may be useful for those who wish to work in industries where chemical engineering is used, such as manufacturing or energy, as it can help to build an understanding of the electronic components that go into these processes.
Civil Engineer
Civil Engineer
Civil Engineers design and build infrastructure, such as bridges, roads, and buildings. This 'MOSFET Crash Course' may be useful for those who wish to work in industries where civil engineering is used, such as construction or transportation, as it can help to build an understanding of the electronic components that go into these structures.
For more career information including salaries, visit:
OpenCourser.com/course/uoob2l/mosfet
Reading list
We've selected 11 books
that we think will supplement your
learning. Use these to
develop background knowledge, enrich your coursework, and gain a
deeper understanding of the topics covered in
MOSFET Crash Course.
This classic textbook on microelectronic circuits that is commonly used by university students. It comprehensive reference on the subject and provides a strong background for understanding the principles and applications of MOSFETs.
Provides a comprehensive overview of solid-state electronic devices, including MOSFETs. It valuable resource for understanding the physics and operation of MOSFETs.
Provides a detailed overview of MOSFET technologies used in digital integrated circuits. It valuable resource for understanding the design and fabrication of MOSFETs for high-performance applications.
Provides a comprehensive overview of CMOS VLSI design, including MOSFETs. It valuable resource for understanding the design and implementation of CMOS integrated circuits.
Provides a comprehensive overview of analog integrated circuit design, including MOSFETs. It valuable resource for understanding the design and implementation of analog integrated circuits.
Provides a comprehensive overview of microelectronics, including MOSFETs. It valuable resource for understanding the principles and applications of MOSFETs.
Provides a comprehensive overview of semiconductor device fundamentals, including MOSFETs. It valuable resource for understanding the physics and operation of MOSFETs.
Provides a comprehensive overview of the physics of semiconductor devices, including MOSFETs. It valuable resource for understanding the fundamental principles of MOSFET operation.
Provides a comprehensive overview of RF microelectronics, including MOSFETs. It valuable resource for understanding the design and implementation of RF integrated circuits.
Save
Provides a comprehensive overview of power electronics, including MOSFETs. It valuable resource for understanding the design and implementation of power electronic systems.
Provides a comprehensive overview of switch-mode power supplies, including MOSFETs. It valuable resource for understanding the design and implementation of switch-mode power supplies.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/uoob2l/mosfet
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Effort
4 total hours
Via
Udemy
Good to know
Develops a comprehensive understanding of MOSFETs, including their design, applications, and limitations
Provides hands-on experience with MOSFETs through simulations and practical examples
Addresses key concepts relevant to the field of electronics, such as amplifiers and logic circuits
Covers a wide range of topics, from basic principles to advanced applications
Emphasizes practical applications, making the course relevant for engineers and technicians
Requires students to come in with some background knowledge in electronics or physics
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