Design a state machine that will control the sequence of the display (see Figure 4.1b). Your design should include three edge triggered D flip-flops, with each of the components controlled by one D flip-flop. Individual states of the sequence have been pre-defined (see Figure 4.1b), and the sequence should be run as an infinite loop. Any unused states can be treated as Don’t Cares. c) use Karnaugh Maps to derive input equations the three D flip-flops. Show the full circuit design for the display control unit. Use a block diagram for each D flip-flop
Design a state machine that will control the sequence of the display (see Figure 4.1b). Your design should include three edge triggered D flip-flops, with each of the components controlled by one D flip-flop. Individual states of the sequence have been pre-defined (see Figure 4.1b), and the sequence should be run as an infinite loop. Any unused states can be treated as Don’t Cares. c) use Karnaugh Maps to derive input equations the three D flip-flops. Show the full circuit design for the display control unit. Use a block diagram for each D flip-flop
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Design a state machine that will control the sequence of the display (see Figure 4.1b). Your design should include three edge triggered D flip-flops, with each of the components controlled by one D flip-flop. Individual states of the sequence have been pre-defined (see Figure 4.1b), and the sequence should be run as an infinite loop. Any unused states can be treated as Don’t Cares.
c) use Karnaugh Maps to derive input equations the three D flip-flops. Show the full circuit design for the display control unit. Use a block diagram for each D flip-flop.
Transcribed Image Text:State
000
100
110
a) Light display design
111
b) Display sequence
Figure 4.1
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