Design a counter circuit that has 2 inputs X and Y, and one output Z by using “one-hotstate” encoding. When X=1, the circuit counts up or down based on the value of Y; when X=0, the circuit remains in its previous state regardless of the value of Y. When Y=1, the circuit changes states upwards in the order given below and continues this way in a loop. When Y=0, the circuit changes states downwards in reverse order and continues this way in a loop. When the circuit counts upwards, the Z output is 1. The count order : 0, 2, 1, 3
Design a counter circuit that has 2 inputs X and Y, and one output Z by using “one-hotstate” encoding. When X=1, the circuit counts up or down based on the value of Y; when X=0, the circuit remains in its previous state regardless of the value of Y. When Y=1, the circuit changes states upwards in the order given below and continues this way in a loop. When Y=0, the circuit changes states downwards in reverse order and continues this way in a loop. When the circuit counts upwards, the Z output is 1. The count order : 0, 2, 1, 3
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 counter circuit that has 2 inputs X and Y, and one output Z by using “one-hotstate” encoding.
When X=1, the circuit counts up or down based on the value of Y; when X=0, the circuit remains in its previous state regardless of the value of Y. When Y=1, the circuit changes states upwards in the order given below and continues this way in a loop. When Y=0, the circuit changes states downwards in reverse order and continues this way in a loop. When the circuit counts upwards, the Z output is 1.
The count order : 0, 2, 1, 3
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