A digital combination lock has four states: closed, 1/3 open, 2/3 open, andopen. It is opened using the correct series of three-bit binary entries. When in the closedstate, entering 001 moves it to the 1/3 open state. From there, 101 moves it to the 2/3open state, but any other entry moves it back to closed. From 2/3 open, 011 moves it toopen (and any other entry moves back to closed). When in the open state, the lock shouldgenerate an output Y which is true (which controls a solenoid that opens the lock). Thenthe lock automatically moves to the closed state. a)Draw the State Machine diagram b)Create the state table d)Design the digital lock using the D flip-flops
A digital combination lock has four states: closed, 1/3 open, 2/3 open, andopen. It is opened using the correct series of three-bit binary entries. When in the closedstate, entering 001 moves it to the 1/3 open state. From there, 101 moves it to the 2/3open state, but any other entry moves it back to closed. From 2/3 open, 011 moves it toopen (and any other entry moves back to closed). When in the open state, the lock shouldgenerate an output Y which is true (which controls a solenoid that opens the lock). Thenthe lock automatically moves to the closed state. a)Draw the State Machine diagram b)Create the state table d)Design the digital lock using the D flip-flops
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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A digital combination lock has four states: closed, 1/3 open, 2/3 open, and
open. It is opened using the correct series of three-bit binary entries. When in the closed
state, entering 001 moves it to the 1/3 open state. From there, 101 moves it to the 2/3
open state, but any other entry moves it back to closed. From 2/3 open, 011 moves it to
open (and any other entry moves back to closed). When in the open state, the lock should
generate an output Y which is true (which controls a solenoid that opens the lock). Then
the lock automatically moves to the closed state.
a)Draw the State Machine diagram
b)Create the state table
d)Design the digital lock using the D flip-flops
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