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Learning switching theory or  digital electronics is like playing a football. Open doors to careers and hobbies in online digital job field

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Learning switching theory or  digital electronics is like playing a football. Open doors to careers and hobbies in online digital job field

Building on the knowledge you gained in the Digital Electronics course will help you to move forward in digital field and opens even more doors to diverse careers, projects and jobs .

The trainer is certified person in Coursera and in NPTEL. He has 20 years of teaching field experience in both theoretical and practical.

Without computers and digital systems we cannot imagine our lives and coming future rapidly increasing in digital field. Think about how many of them are now operated their works particularly in  industries,  businesses and projects that involve computers or computer control. Even though bio medical ,mechanical and automobiles are chock full of digital electronics now. All of this involves digital electronics, and you want in on it today.

In this  course, you will learn digital electronic circuits, switching theory and logic design  and also it will be in use to make digital systems.. You'll don't need a good understanding of any  electronics skills but  some simple math skills, a computer, and that's it.

No prior knowledge of digital electronics or programming is required, and yet by the end of this course you'll have built functioning digital electronic circuits and surely you can design some digital circuits which you want.

Lesson overview:

In this course ,you further develop your knowledge and skills to include digital electronics and practice your skills on real-life digital components.

In the first section you may learn the how the digital era changed  and how it helps your career and Review of number systems

Second section you may learn the full information on number systems and logic operation,error detection and correction codes

In this course you will gain a wide knowledge on digital systems and this course surely will help you to move forward or jump in VLSI field.

In this course we'll be covering:

  • History of Electronics and how digital field emerged

  • What is signal, analog and digital signal?

  • What is digital system?

  • Number systems full and its conversions

  • Introduction to Boolean Algebra

  • Basic Logic operations

  • Boolean theorems and postulates

  • Demorgans theorems

  • Consensus theorem

  • Boolean function

  • Dual of the Boolean function and Complement of a Boolean function

  • Representation of Boolean function: Min term and max term

  • standard or canonical SOP form

  • Conversion of SOP to standard or canonical SOP form

  • Conversion of SOP to standard or canonical SOP form with truth table (2 methods)

  • Standard POS & Conversion of POS to standard or canonical POS form

  • Conversion

  • Minimization of switching functions using K-Maps

  • 2,3,4,5 variable K-Maps

  • Code converters

  • BCD to Excess-3 vice versa

  • Binary to Gray vice versa etc.,

    Combinational logic circuits

  • Half adder

  • Full adder

  • Half subtractor

  • Full subtractor

  • Parallel adder

  • Decoders

  • Encoders

  • Multiplexers

  • DE multiplexers

  • Sequential logic circuits

  • Flip flops

  • Registers

  • Counters

    and much more and more.

Enroll now

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Teaches essential concepts and techniques in digital electronics, including number systems, logic operations, combinational and sequential logic circuits
Covers a wide range of topics in digital electronics, including number systems, Boolean algebra, logic gates, combinational circuits, sequential circuits, and more
Provides hands-on practice through real-life digital components and exercises
Suitable for beginners with no prior knowledge of digital electronics
Taught by an experienced instructor with 20 years of teaching experience in digital electronics
May require some basic math skills and access to a computer

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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 Switching Theory & Logic Design of Digital Circuits with these activities:
Industry Meet-ups
Attend industry meet-ups to connect with professionals in the field, learn about career opportunities, and stay updated on the latest trends.
Browse courses on Networking
Show steps
  • Identify relevant industry meet-ups in your area.
  • Attend the meet-ups and actively engage in conversations.
  • Follow up with connections made at the events.
Digital Design and Computer Architecture
Review this comprehensive textbook to expand your understanding of digital design and its applications in computer architecture.
Show steps
  • Read through the chapters relevant to the topics covered in the course.
  • Solve the end-of-chapter exercises to test your comprehension.
Number Systems Review
Review the different number systems used in digital electronics to solidify your understanding.
Browse courses on Number Systems
Show steps
  • Read through the course materials on number systems.
  • Complete the practice problems on number system conversion.
Five other activities
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Show all eight activities
Study Group Discussions
Engage in regular study sessions with classmates to discuss course concepts, clarify doubts, and work on problems together.
Show steps
  • Form a study group with 2-4 classmates.
  • Meet regularly to review lecture notes, solve practice problems, and share insights.
Logic Gates Simulation
Use simulation software to experiment with different logic gates and circuits to reinforce your understanding of their behavior.
Browse courses on Logic Gates
Show steps
  • Choose a simulation software such as Logisim or Multisim.
  • Create simple logic circuits using basic gates like AND, OR, and NOT.
  • Simulate the circuits and observe the output for different input combinations.
K-Map Minimization Practice
Engage in practice exercises to improve your skills in minimizing Boolean functions using K-Maps.
Browse courses on Boolean Functions
Show steps
  • Review the theory behind K-Maps and minimization techniques.
  • Solve practice problems involving 2, 3, and 4-variable K-Maps.
  • Compare your solutions with the provided answer key.
Contribute to Digital Electronics Projects
Participate in open-source projects related to digital electronics to gain practical experience and contribute to the field.
Browse courses on Open Source
Show steps
  • Identify open-source projects that align with your interests and skills.
  • Contribute bug reports, feature requests, or code improvements.
  • Participate in discussions and collaborate with other contributors.
Digital Circuit Design Project
Design and simulate a digital circuit to solve a specific problem, applying the concepts learned in the course.
Show steps
  • Identify a problem that can be solved using digital logic.
  • Design the circuit using logic gates, flip-flops, and other components.
  • Simulate the circuit using software or hardware to verify its functionality.
  • Present your design and findings in a written report or presentation.

Career center

Learners who complete Switching Theory & Logic Design of Digital Circuits will develop knowledge and skills that may be useful to these careers:
Digital Logic Designer
Digital Logic Designers are responsible for the design and implementation of digital logic circuits, which are used in a wide variety of electronic devices. This course provides a comprehensive overview of digital logic design principles, including Boolean algebra, combinational logic circuits, and sequential logic circuits. With the knowledge gained from this course, you will be well-equipped to design and implement digital logic circuits for a variety of applications.
Computer Hardware Engineer
Computer Hardware Engineers design, develop, and test computer hardware components, such as processors, memory, and storage devices. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of computer hardware. With the knowledge gained from this course, you will be well-prepared to design and test computer hardware components.
Electronics Engineer
Electronics Engineers design, develop, and test electronic circuits and systems. This course provides a comprehensive overview of digital logic design principles, which are used in a wide variety of electronic devices. With the knowledge gained from this course, you will be well-equipped to design and test electronic circuits and systems.
Embedded Systems Engineer
Embedded Systems Engineers design, develop, and test embedded systems, which are computer systems that are designed to be embedded within a larger system. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of embedded systems. With the knowledge gained from this course, you will be well-prepared to design and test embedded systems.
Field-Programmable Gate Array (FPGA) Engineer
FPGA Engineers design, develop, and test Field-Programmable Gate Arrays (FPGAs), which are programmable logic devices that can be used to implement a wide variety of digital logic circuits. This course provides a comprehensive overview of digital logic design principles, which are essential for understanding the operation of FPGAs. With the knowledge gained from this course, you will be well-equipped to design and test FPGAs.
Digital Signal Processing Engineer
Digital Signal Processing Engineers design, develop, and test digital signal processing systems, which are used to process digital signals. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of digital signal processing systems. With the knowledge gained from this course, you will be well-prepared to design and test digital signal processing systems.
Robotics Engineer
Robotics Engineers design, develop, and test robots. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of robots. With the knowledge gained from this course, you will be well-prepared to design and test robots.
Telecommunications Engineer
Telecommunications Engineers design, develop, and test telecommunications systems. This course provides a comprehensive overview of digital logic design principles, which are used in a wide variety of telecommunications systems. With the knowledge gained from this course, you will be well-equipped to design and test telecommunications systems.
Aerospace Engineer
Aerospace Engineers design, develop, and test aircraft, spacecraft, and other aerospace systems. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of aerospace systems. With the knowledge gained from this course, you will be well-prepared to design and test aerospace systems.
Biomedical Engineer
Biomedical Engineers design, develop, and test medical devices and systems. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of medical devices and systems. With the knowledge gained from this course, you will be well-prepared to design and test medical devices and systems.
Chemical Engineer
Chemical Engineers design, develop, and test chemical processes and products. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of chemical processes and products. With the knowledge gained from this course, you will be well-prepared to design and test chemical processes and products.
Civil Engineer
Civil Engineers design, develop, and test infrastructure systems, such as bridges, roads, and buildings. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of infrastructure systems. With the knowledge gained from this course, you will be well-prepared to design and test infrastructure systems.
Environmental Engineer
Environmental Engineers design, develop, and test environmental systems, such as water treatment plants and air pollution control systems. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of environmental systems. With the knowledge gained from this course, you will be well-prepared to design and test environmental systems.
Industrial Engineer
Industrial Engineers design, develop, and test industrial systems, such as manufacturing plants and supply chains. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of industrial systems. With the knowledge gained from this course, you will be well-prepared to design and test industrial systems.
Mechanical Engineer
Mechanical Engineers design, develop, and test mechanical systems, such as engines, machines, and vehicles. This course provides a strong foundation in digital logic design, which is essential for understanding the operation of mechanical systems. With the knowledge gained from this course, you will be well-prepared to design and test mechanical systems.

Reading list

We've selected nine 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 Switching Theory & Logic Design of Digital Circuits.
Provides a comprehensive overview of the foundations of computer science. It good choice for students who want to learn about the design and implementation of computer systems.
Provides a comprehensive overview of algorithms and data structures. It good choice for students who want to learn about the design and implementation of efficient algorithms.
Provides a comprehensive overview of linear algebra. It good choice for students who want to learn about the foundations of computer science.
Provides a comprehensive overview of digital design and computer architecture. It good choice for students who want to learn about the design and implementation of digital systems.
Covers the fundamentals of digital logic and microcomputer design. It good choice for beginners who want to learn about the design and implementation of digital circuits.
Provides a comprehensive overview of calculus. It good choice for students who want to learn about the foundations of computer science.

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