Textbook Tokheirn Roger 2013 Digital Electronics Principles

Text Book Tokheirn Roger 2013 Digital Electronics Principles An

Text Book: Tokheirn, Roger. (2013). Digital Electronics: Principles and Applications, 8th Ed. New York, NY: McGraw-Hill. ISBN: Lab "Counters" Pikidern Design and Lab Counters 1. Using Multisim construct the circuit in Fig. 8-23, pg. 282 of Digital Electronics Principles and Applications. 2. Capture screenshots that verify the function of the circuit and paste into a Word document entitled "Lab3_StudentID". 3. Answer all parts of question #11 on page 299 Assignment "Shift Registers" Modern Digital Design and Lab Shift Registers Complete the following odd-numbered problems from Chapter 9 on pages 1 - 17: Answer ALL odd-numbered questions.

Paper For Above instruction

This assignment involves practical and theoretical tasks related to digital electronics, specifically focusing on counters and shift registers derived from Tokheirn's "Digital Electronics: Principles and Applications." The first part requires constructing a specific counter circuit in Multisim, a widely used circuit simulation software, based on a diagram provided in the textbook. The circuit is depicted in Figure 8-23 on page 282, which demonstrates a specific application of digital counters. After constructing the circuit, students must verify its functionality through digital screenshots, which should be compiled into a Word document titled "Lab3_StudentID," where StudentID is replaced with the student's actual identification number. This report serves as visual proof and documentation of the circuit’s operation.

Following the practical component, students are directed to answer all parts of question #11 on page 299 of the textbook, which pertains to shift registers—a fundamental component in digital systems used for data storage and transfer. Additionally, the assignment requests solving all odd-numbered questions from Chapter 9, pages 1 through 17, inclusive. These theoretical problems are designed to deepen understanding of digital shift registers by engaging students in problem-solving and conceptual analysis, enabling them to grasp the principles, operation, and application contexts of shift registers in modern digital design.

Overall, this assignment bridges practical circuit design and simulation skills with theoretical knowledge, promoting comprehensive understanding of counters and shift registers. Mastery of these topics is essential for advanced digital system development, embedded systems, and digital communication systems, which rely heavily on accurate data handling and timing control achieved via such digital components.

References

• Tokheirn, R. (2013). Digital Electronics: Principles and Applications (8th Ed.). McGraw-Hill.
• Rabaey, J. M., Chandrakasan, A., & Nikolic, B. (2003). Digital Integrated Circuits. Pearson.
• Wakerly, J. F. (2006). Digital Design: Principles and Practices. Pearson.
• Floyd, T. L. (2014). Digital Fundamentals. Prentice Hall.
• Malvino, A. P., & Leach, D. P. (2007). Digital Principles and Applications. McGraw-Hill.
• Leach, D., & Malvino, A. P. (2020). Digital Principles and Applications. McGraw-Hill.
• Mitra, D. (2004). Digital Signal Processing: A Computer-Based Approach. McGraw-Hill.
• Thorpe, D. (2012). Digital Electronics: A Practical Approach with Multisim. Prentice Hall.
• Hwang, W. (2013). Digital Logic and Microprocessor Design. Thomson.
• Roth, C. H., & Kinney, L. L. (2014). Fundamentals of Logic Design. Cengage Learning.