Figure 2 1 Flowchart for repeateddivision method of

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Figure 2 -1 Flowchart for repeated-division method of decimal-to-binary conversion of integers. The same

Figure 2 -1 Flowchart for repeated-division method of decimal-to-binary conversion of integers. The same process can be used to convert a decimal integer to any other number system. Digital Systems: Principles and Applications, 10 e By Ronald J. Tocci, Neal S. Widmer, and Gregory L. Moss © 2007 Pearson Education, Inc. Pearson Prentice Hall Upper Saddle River, NJ 07458

Figure 2 -2 Converting (a) binary to Gray and (b) Gray to binary. Digital

Figure 2 -2 Converting (a) binary to Gray and (b) Gray to binary. Digital Systems: Principles and Applications, 10 e By Ronald J. Tocci, Neal S. Widmer, and Gregory L. Moss © 2007 Pearson Education, Inc. Pearson Prentice Hall Upper Saddle River, NJ 07458

Figure 2 -3 An eight-position, three-bit shaft encoder. Digital Systems: Principles and Applications, 10

Figure 2 -3 An eight-position, three-bit shaft encoder. Digital Systems: Principles and Applications, 10 e By Ronald J. Tocci, Neal S. Widmer, and Gregory L. Moss © 2007 Pearson Education, Inc. Pearson Prentice Hall Upper Saddle River, NJ 07458

Figure 2 -4 Example of noise causing an error in the transmission of digital

Figure 2 -4 Example of noise causing an error in the transmission of digital data. Digital Systems: Principles and Applications, 10 e By Ronald J. Tocci, Neal S. Widmer, and Gregory L. Moss © 2007 Pearson Education, Inc. Pearson Prentice Hall Upper Saddle River, NJ 07458

Figure 2 -5 Asynchronous serial data with even parity. Digital Systems: Principles and Applications,

Figure 2 -5 Asynchronous serial data with even parity. Digital Systems: Principles and Applications, 10 e By Ronald J. Tocci, Neal S. Widmer, and Gregory L. Moss © 2007 Pearson Education, Inc. Pearson Prentice Hall Upper Saddle River, NJ 07458