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EECS 40 Spring 2003 Lecture 10S. Ross and W. G. OldhamCopyright Regents of the University of California DIGITAL ADVANTAGES Digital Communication –Digital.

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Presentation on theme: "EECS 40 Spring 2003 Lecture 10S. Ross and W. G. OldhamCopyright Regents of the University of California DIGITAL ADVANTAGES Digital Communication –Digital."— Presentation transcript:

1 EECS 40 Spring 2003 Lecture 10S. Ross and W. G. OldhamCopyright Regents of the University of California DIGITAL ADVANTAGES Digital Communication –Digital representation makes encoding and processing easier –Reconstruct signal to arbitrary accuracy (need bandwidth) Computers –Arbitrary computational accuracy, just add more significant figures (big floating-point unit) –Can store information with arbitrary accuracy (big memory)

2 EECS 40 Spring 2003 Lecture 10S. Ross and W. G. OldhamCopyright Regents of the University of California ANALOG VS. DIGITAL

3 EECS 40 Spring 2003 Lecture 10S. Ross and W. G. OldhamCopyright Regents of the University of California LOGIC GATES A B C=A·B AND Here we have an abstract symbol for a logic circuit. A, B, and C are Boolean variables. Each can take on the value logic 1 or logic 0. Remember, logic 1 is represented by a potential of, say, 5 V with respect to ground, and logic 0 is usually represented by a potential of 0 V. Values close to these nominal levels still work as logic 1 or logic 0, e.g., 4 V may work as logic 1. We will study the detailed electrical workings of logic gates in weeks to come, today we will be abstract.

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