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Wounjhang Park
This course can also be taken for academic credit as ECEA 5632, part of CU Boulder’s Master of Science in Electrical Engineering degree.
Read more
This course can also be taken for academic credit as ECEA 5632, part of CU Boulder’s Master of Science in Electrical Engineering degree.
Read more
This course can also be taken for academic credit as ECEA 5632, part of CU Boulder’s Master of Science in Electrical Engineering degree.
This course presents in-depth discussion and analysis of metal-oxide-semiconductor field effect transistors (MOSFETs) and bipolar junction transistors (BJTs) including the equilibrium characteristics, modes of operation, switching and current amplifying behaviors.
At the end of this course learners will be able to:
1. Understand and analyze metal-oxide-semiconductor (MOS) device
2. Understand and analyze MOS field effect transistor (MOSFET)
3. Understand and analyze bipolar junction transistor (BJT)
Register for this course and see more details by visiting:
OpenCourser.com/course/q2hj8g/transistor
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What's inside
Syllabus
Metal-Oxide-Semiconductor (MOS) Device
In this module on MOS devices, we will cover the following topics:, MOS device structure, energy band diagram for MOS device at equilibrium, Flat band condition, Accumulation, Depletion, and Inversion of MOS under bias, Energy band diagram and charge distribution for MOS in inversion, Quantitative model and relevant parameters, Energy band diagram with channel bias, Inversion layer charge, and Effect on threshold voltage of MOS in non-equilibrium, C-V characteristics: Charge distribution under different biasing conditions, C-V characteristics: Frequency dependence, Effects of oxide charge on flat band and threshold voltages in non-ideal MOS, and Types of oxide charge in non-ideal MOS.
Read more
Syllabus
Metal-Oxide-Semiconductor (MOS) Device
In this module on MOS devices, we will cover the following topics:, MOS device structure, energy band diagram for MOS device at equilibrium, Flat band condition, Accumulation, Depletion, and Inversion of MOS under bias, Energy band diagram and charge distribution for MOS in inversion, Quantitative model and relevant parameters, Energy band diagram with channel bias, Inversion layer charge, and Effect on threshold voltage of MOS in non-equilibrium, C-V characteristics: Charge distribution under different biasing conditions, C-V characteristics: Frequency dependence, Effects of oxide charge on flat band and threshold voltages in non-ideal MOS, and Types of oxide charge in non-ideal MOS.
Read more
MOS Field Effect Transistor (MOSFET)
In this module on MOSFETs (metal-oxide semiconductor field effect transistors), we cover the following topics: History of development of MOSFETs, Device structure, Device types, Circuit symbols, Long channel theory, I-V characteristics, Modes of operation, Channel length modulation, Body bias effect, Bulk charge effect, Sub-threshold conduction, Source/drain charge sharing in short channel devices, Drain induced barrier lowering, Subsurface punchthrough, Mobility degradation, Velocity saturation, Drain current saturation, Scaling of drain current with channel length, and Scaling of speed with channel length.
Bipolar Junction Transistor (BJT)
In this module on BJTs (bipolar junction transistors), we will cover the following topics: BJT Device structures, Energy band diagrams, Active bias, Leakage current, Recombination in base, Hoe injection, Non-uniform doping in base, Current gain, Switching with BJT, Single heterojunction bipolar transistor, Double heterojunction bipolar transistor, Non-uniform material, Early effect, Emitter bias dependence, High-level injection, Base, emitter and collector transit times, and RC time constant.
Good to know
Good to know
Know what's good ,
what to watch for , and
possible dealbreakers
Develops a fundamental understanding of metal-oxide-semiconductor field effect transistors (MOSFETs) and bipolar junction transistors (BJTs)
Taught by Wounjhang Park, a renowned professor in the field of electrical engineering
Provides a comprehensive overview of the topic, covering both theoretical concepts and practical applications
Explores advanced concepts in transistor technology, such as drain induced barrier lowering and subsurface punchthrough
Requires students to have a strong foundation in electrical engineering
Save this course
Save Transistor - Field Effect Transistor and Bipolar Junction Transistor to your list so you can find it easily later:
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Reviews summary
Clear explanations and engaging tutorials
Learners say clear explanations and informative tutorials are the key features of this course. Engaging assignments are also praised, but learners note that these assignments are challenging. Students praise Professor Wounjhang Park for flawless explanations. Overall, reviews are largely positive. However, some learners express difficulty with diagrams and grading issues.
Professor provides clear and understandable explanations.
"professor Wounjhang Park explanations were flawless"
"short tutorial's were amazing , short yet informative"
Assignments are engaging but difficult.
"assignments are harder compared to other Coursera courses"
"The quiz especially week 3 will give you nightmares"
"I had to spend hours on 1 ques"
Some learners report problems with assignment grading and not receiving certificates
"none of the answers match, I don't know why"
"I am not getting any certificate though I have learned a lot from the videos"
Activities
Be better prepared
before
your course. Deepen your understanding
during
and
after
it. Supplement your coursework and achieve mastery of the topics covered
in Transistor - Field Effect Transistor and Bipolar Junction Transistor with these
activities:
Revisit fundamental concepts from linear circuits
Show steps
Strengthen your prerequisite knowledge in linear circuits to ensure a solid foundation for understanding MOSFET and BJT behavior.
Browse courses on
Linear Circuits
Show steps
-
Review textbook chapters and class notes
-
Practice solving circuit problems involving resistors, capacitors, and inductors
Review basic principles of semiconductor physics
Show steps
Solidify your core knowledge of the foundational principles in semiconductor physics to better understand the concepts discussed in the course.
Browse courses on
Semiconductor Physics
Show steps
-
Read textbook chapters and review notes from prerequisite courses
-
Solve practice problems and work through examples
Develop visual representations of MOSFET and BJT structures
Show steps
Reinforce your understanding of the physical structures of MOSFETs and BJTs by creating visual representations such as diagrams or models.
Show steps
-
Sketch the basic structures of MOSFETs and BJTs
-
Label the different components and terminals
-
Annotate the diagrams with key dimensions and parameters
Four other activities
Expand to see all activities and additional details
Show all seven activities
Organize course notes and assignments for enhanced recall
Show steps
Improve your retention of course material by regularly reviewing and organizing your notes, assignments, and quizzes.
Browse courses on
MOSFET
Show steps
-
Review lecture notes and make summaries
-
Organize assignments and quizzes by topic
-
Create flashcards or digital notes for key concepts
Analyze MOSFET and BJT circuits
Show steps
Enhance your problem-solving and analytical skills by practicing circuit analysis involving MOSFETs and BJTs.
Show steps
-
Solve textbook problems and assignments
-
Review lecture notes and online resources for guidance
-
Seek assistance from classmates or the instructor
Follow online tutorials to simulate MOSFET and BJT circuits
Show steps
Supplement your theoretical understanding by exploring practical circuit simulations and visualizing the behavior of MOSFETs and BJTs in different scenarios.
Browse courses on
Circuit Simulation
Show steps
-
Identify online tutorials or simulation software
-
Follow the instructions to simulate MOSFET and BJT circuits
-
Analyze the simulation results and compare them with analytical solutions
Contribute to open-source projects related to semiconductor devices
Show steps
Apply your knowledge and skills by contributing to real-world open-source projects that involve the design, simulation, or analysis of semiconductor devices.
Browse courses on
Semiconductor Devices
Show steps
-
Explore open-source projects and identify opportunities to contribute
-
Join the project community and learn about their development process
-
Submit bug fixes, feature enhancements, or documentation updates
Revisit fundamental concepts from linear circuits
Show steps
Strengthen your prerequisite knowledge in linear circuits to ensure a solid foundation for understanding MOSFET and BJT behavior.
Browse courses on
Linear Circuits
Show steps
Show steps
Show steps
- Review textbook chapters and class notes
- Practice solving circuit problems involving resistors, capacitors, and inductors
Review basic principles of semiconductor physics
Show steps
Solidify your core knowledge of the foundational principles in semiconductor physics to better understand the concepts discussed in the course.
Browse courses on
Semiconductor Physics
Show steps
Show steps
Show steps
- Read textbook chapters and review notes from prerequisite courses
- Solve practice problems and work through examples
Develop visual representations of MOSFET and BJT structures
Show steps
Reinforce your understanding of the physical structures of MOSFETs and BJTs by creating visual representations such as diagrams or models.
Show steps
Show steps
Show steps
- Sketch the basic structures of MOSFETs and BJTs
- Label the different components and terminals
- Annotate the diagrams with key dimensions and parameters
Four other activities
Expand to see all activities and additional details
Show all seven activities
Organize course notes and assignments for enhanced recall
Show steps
Improve your retention of course material by regularly reviewing and organizing your notes, assignments, and quizzes.
Browse courses on
MOSFET
Show steps
Show steps
Show steps
- Review lecture notes and make summaries
- Organize assignments and quizzes by topic
- Create flashcards or digital notes for key concepts
Analyze MOSFET and BJT circuits
Show steps
Enhance your problem-solving and analytical skills by practicing circuit analysis involving MOSFETs and BJTs.
Show steps
Show steps
Show steps
- Solve textbook problems and assignments
- Review lecture notes and online resources for guidance
- Seek assistance from classmates or the instructor
Follow online tutorials to simulate MOSFET and BJT circuits
Show steps
Supplement your theoretical understanding by exploring practical circuit simulations and visualizing the behavior of MOSFETs and BJTs in different scenarios.
Browse courses on
Circuit Simulation
Show steps
Show steps
Show steps
- Identify online tutorials or simulation software
- Follow the instructions to simulate MOSFET and BJT circuits
- Analyze the simulation results and compare them with analytical solutions
Contribute to open-source projects related to semiconductor devices
Show steps
Apply your knowledge and skills by contributing to real-world open-source projects that involve the design, simulation, or analysis of semiconductor devices.
Browse courses on
Semiconductor Devices
Show steps
Show steps
Show steps
- Explore open-source projects and identify opportunities to contribute
- Join the project community and learn about their development process
- Submit bug fixes, feature enhancements, or documentation updates
Career center
Learners who complete Transistor - Field Effect Transistor and Bipolar Junction Transistor will develop knowledge and skills
that may be useful to these careers:
Semiconductor Device Engineer
Semiconductor Device Engineer
Semiconductor Device Engineers may enjoy the in-depth discussion of metal-oxide-semiconductor field effect transistors (MOSFETs) and bipolar junction transistors (BJTs) in this course. These concepts may be used in the design and development of semiconductor devices.
Electrical Engineer
Electrical Engineer
Electrical Engineers may be interested in this course because it offers a foundation in the principles of MOSFETs and BJTs. Electrical Engineers generally use this information in the design and development of electrical systems.
Microelectronic Engineer
Microelectronic Engineer
This course presents in-depth knowledge on MOSFETs and BJTs, which may be useful for Microelectronic Engineers. This can help these professionals to develop an understanding of how these devices work and how to use them in electronic designs.
Circuit Design Engineer
Circuit Design Engineer
Circuit Design Engineers may find this course helpful for understanding the operation of MOSFETs and BJTs. This course in particular dives into the modes of operation and switching and current amplifying behaviors of these transistors.
Radio Frequency Engineer
Radio Frequency Engineer
This course may be useful for Radio Frequency Engineers due to its coverage of MOSFETs and BJTs. These devices are commonly used in radio frequency applications such as amplifiers, oscillators, and mixers.
Photonics Engineer
Photonics Engineer
For Photonics Engineers who are interested in designing and developing photonic devices, the concepts presented in this course can be useful. Specifically, an understanding of MOSFETs and BJTs can be applied to the design of photonic integrated circuits.
Quality Assurance Engineer
Quality Assurance Engineer
Quality Assurance Engineers in the electronics industry may find this course helpful. It provides a foundation in the principles of MOSFETs and BJTs, which are commonly used in electronic devices.
Systems Engineer
Systems Engineer
Systems Engineers who work with electronic systems may find the information in this course beneficial. It covers the fundamentals of MOSFETs and BJTs, which are essential components in many electronic systems.
Patent Attorney
Patent Attorney
This course may be useful for Patent Attorneys who specialize in electronics. It provides an understanding of the technical aspects of MOSFETs and BJTs, which can assist in understanding patent applications and claims related to these devices.
Technical Writer
Technical Writer
Technical Writers who specialize in electronics may find this course useful. It offers concepts in MOSFETs and BJTs, which are frequently mentioned in technical documentation for electronic devices.
Sales Engineer
Sales Engineer
Sales Engineers in the electronics industry may find this course useful. It provides knowledge in MOSFETs and BJTs, which are frequently used in electronic products. This understanding can aid in effectively communicating product features and benefits to customers.
Product Manager
Product Manager
This course may be of interest to Product Managers in the electronics industry. It helps build a basic understanding of MOSFETs and BJTs, which can be valuable when making product decisions or working with engineering teams.
Science Teacher
Science Teacher
For Science Teachers specializing in physics or engineering, this course can help build a foundation for teaching about MOSFETs and BJTs. These concepts are commonly included in high school or college-level physics and engineering curricula.
Marketing Manager
Marketing Manager
Marketing Managers in the electronics industry may find this course useful. It provides knowledge in MOSFETs and BJTs, which can aid in developing marketing strategies and understanding customer needs in the electronics market.
Financial Analyst
Financial Analyst
This course may be of interest to Financial Analysts who focus on the electronics industry. It offers a foundation in MOSFETs and BJTs, which can help in understanding the technical aspects of companies and making informed investment decisions.
For more career information including salaries, visit:
OpenCourser.com/course/q2hj8g/transistor
Reading list
We've selected 14 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
Transistor - Field Effect Transistor and Bipolar Junction Transistor.
This classic textbook provides an in-depth analysis of the physics and technology of semiconductor devices. It offers a comprehensive reference for advanced learners who want to delve deeper into the theoretical foundations of transistor operation.
Considered as the definitive reference on the subject, this book provides an in-depth analysis of the physical principles of semiconductor devices. It offers a solid theoretical foundation for the course's content.
Offers a comprehensive overview of modern VLSI devices, and their fabrication and characteristics. It provides the background and context that make the course more accessible and meaningful for learners.
This textbook offers an in-depth exploration of transistor physics and devices. It provides a comprehensive understanding of the fundamental principles governing transistor operation, which is essential for a deeper understanding of the course material.
This textbook covers a wide range of solid-state electronic devices, including MOSFETs and BJTs. It provides a thorough understanding of the underlying physics and operation of these devices, complementing the course content effectively.
This textbook covers a broad range of microelectronics concepts, including MOSFETs and BJTs. It offers a practical and intuitive approach that makes the subject more accessible and easier to grasp.
This textbook provides a comprehensive overview of CMOS VLSI design, including the design of MOSFET-based circuits and systems. It offers a practical perspective that complements the theoretical foundations covered in the course.
Focuses on the modeling and simulation of MOSFETs. It offers practical insights and techniques that complement the theoretical concepts covered in the course.
This textbook presents the basic principles of semiconductor physics and devices. It offers a clear and concise introduction to the fundamental concepts, which can be helpful for learners who need to strengthen their foundational understanding before delving deeper into the course topics.
This textbook covers a broad range of microelectronic circuit design concepts, including MOSFETs and BJTs. It provides additional context and practical examples that enhance the understanding of the course material.
This textbook provides a clear and concise introduction to semiconductor device fundamentals. It offers a good starting point for learners who need to strengthen their foundational knowledge before delving deeper into the course topics.
This textbook provides a comprehensive overview of microelectronic devices and circuits, including MOSFETs and BJTs. It offers a balanced treatment of theory and practical applications, making it suitable for both academic and professional contexts.
Save
Offers a historical perspective on the development of transistors and semiconductors. It provides a fascinating account of the scientific breakthroughs and technological advancements that led to the modern era of electronics, adding depth and context to the course material.
Dedicated exclusively to bipolar junction transistors, this book provides specialized knowledge on their characteristics, operation, and applications. It offers a deeper understanding of this specific topic covered in the course.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/q2hj8g/transistor
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Effort
3 weeks of study, 2-5 hours per week.
Level
Advanced
Via
Coursera
Institution
University of Colorado Boulder
Instructor
Wounjhang Park
Language
English
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آذربایجان دیلی
This course belongs to a
collection
called
Semiconductor Devices. It's comprised of three courses:
- Diode - pn Junction and Metal Semiconductor Contact
- Semiconductor Physics
- Transistor - Field Effect Transistor and Bipolar Junction Transistor (viewing)
Good to know
Develops a fundamental understanding of metal-oxide-semiconductor field effect transistors (MOSFETs) and bipolar junction transistors (BJTs)
Taught by Wounjhang Park, a renowned professor in the field of electrical engineering
Provides a comprehensive overview of the topic, covering both theoretical concepts and practical applications
Explores advanced concepts in transistor technology, such as drain induced barrier lowering and subsurface punchthrough
Requires students to have a strong foundation in electrical engineering
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