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Updated in [September 27th, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)section 1:sequential circuit block diagramsection 2:Flip Flop -SRJKTDMaster slaveTruth tablecharacteristic tableexcitation tableconversion of flip flopsection 3:sequential circuit design state tablestate diagramproblems(solved step by step procedure) section 4:counter asynchronous countersection 5:concept of ASM chartmelay ASM moore ASMEnd of the course students will known the working operation of flip flop using truth table able to implement the characteristic and excitation table using k-mapsdraw the state table and state diagramcan implement sequential circuit using flip flopcan implement the ASM chart** New lectures will be added based on request
We considered the value of this course from many aspects, and finally summarized it for you from two aspects: skills and knowledge, and the people who benefit from it:
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What skills and knowledge will you acquire during this course?
By the end of this course on Sequential Circuit-Digital Electronics, students will acquire the following skills and knowledge:
1. Understanding of sequential circuit block diagram: Students will be able to comprehend the structure and components of a sequential circuit.
2. Knowledge of Flip Flop: Students will gain a deep understanding of different types of Flip Flops, including SR, JK, T, D, Master-Slave, and their working principles.
3. Mastery of Truth Table: Students will be able to construct truth tables for various Flip Flops and understand their logical behavior.
4. Familiarity with Characteristic Table: Students will learn how to create characteristic tables for Flip Flops, which describe their input-output relationships.
5. Proficiency in Excitation Table: Students will be able to generate excitation tables for Flip Flops, which specify the input values required to transition between different states.
6. Conversion of Flip Flop: Students will learn how to convert one type of Flip Flop into another, enabling them to choose the most suitable Flip Flop for a given application.
7. Sequential Circuit Design: Students will gain expertise in designing sequential circuits using state tables and state diagrams, which provide a systematic approach to circuit design.
8. Problem-solving skills: The course will provide step-by-step procedures to solve problems related to sequential circuits, allowing students to apply their knowledge in practical scenarios.
9. Understanding of Asynchronous Counter: Students will learn about the concept and operation of asynchronous counters, which are widely used in digital electronics.
10. Concept of ASM Chart: Students will be introduced to the concept of ASM (Algorithmic State Machine) chart, a graphical representation of sequential circuits that simplifies the design process.
11. Knowledge of Mealy and Moore ASM: Students will understand the differences between Mealy and Moore ASM, two commonly used models for designing sequential circuits.
By the end of the course, students will be able to implement sequential circuits using Flip Flops, design state tables and state diagrams, and utilize ASM charts for circuit design. Additionally, the course offers the flexibility to add new lectures based on student requests, ensuring a comprehensive learning experience.
Who will benefit from this course?
This course on Sequential Circuit-Digital Electronics will benefit individuals who are interested in or pursuing a career in the field of electronics, specifically in digital circuit design.
1. Electronics Engineering Students: This course will be highly beneficial for students studying electronics engineering as it covers the fundamental concepts of sequential circuits, including flip flops, state tables, state diagrams, and ASM charts. It will provide them with a strong foundation in digital circuit design.
2. Electrical Engineering Students: Students studying electrical engineering with a focus on digital systems will find this course valuable. It will enhance their understanding of sequential circuits and enable them to design and implement complex digital systems.
3. Computer Science Students: This course will be useful for computer science students who want to gain a deeper understanding of the underlying principles of digital circuits. It will help them comprehend the inner workings of computer hardware and improve their ability to design efficient algorithms.
4. Electronics Professionals: Professionals working in the field of electronics, such as circuit designers, embedded systems engineers, and digital system architects, can benefit from this course. It will refresh their knowledge of sequential circuits and provide them with practical skills to design and implement complex digital systems.
5. Hobbyists and DIY Enthusiasts: Individuals interested in electronics as a hobby or those who enjoy building their own electronic projects will find this course helpful. It will enable them to understand and implement sequential circuits in their projects, expanding their capabilities and enhancing their overall understanding of digital electronics.
Course Syllabus
sequential circuit block diagram
Flip Flop
sequential circuit design
counter design
ASM Chart
bonus lecture in digital ckt