1.) You have been handed a state diagram that you have been asked to implement the design for. (Unused states: extra state encodings can be treated as "don't care" values and are use...
Given the State Table Below 01* 02 03 1 203 X-1 0 000 01 0 0 0 1 0 0 A. Draw a state Diagram (5 points) B. Create the "design truth table" for the "next state" and the "output" (5 points) C. Make a Karnaugh for each "next state" and the "output" (10 points) When making the Karnaugh maps, "xO1" should be along the top and "0203'" along the side (The two missing states should be considered "DONT CARES")...
Given the State Table Below 01 02 Q3 X-1 A. B. C. Draw a state Diagram (S points) Create the "design truth table" for the "next state" and the "output" (5 points) Make a Karnaugh for each "next state" and the "output" (10 points) When making the Karnaugh maps, "xQ1" should be along the top and "O203" along the side (The two missing states should be considered "DONT CARES") Write the "Next State" and Output equations from the Karnaugh maps...
A combination circuit is specified by the following Boolean functions listed below. h(a, b, c) = b,c' + a'c Implement the circuit with a 3x8 decoder. Provide truth table and drawing the logic/circuit diagram. Use the block diagram for the decoder provided in Figure A4 in supplements. Please label the inputs and outputs clearly. Note: use single 3x8 decoder Question 2 (15 points] A priority encoder is an encoder circuit that includes the Truth Table of a priority function. The...
Design a counter that counts in the sequence 0, 3, 4, 1, 2, 5 repeatedly. Use D flip-flops. Treat the unused states as don't cares. Draw the logic diagram. Does this circuit self-correct for all unused states? Be sure the work for this final step is visible, don't just guess.
Please work on Part E & F Given the State Table Below Q1 Q2 Q3 X-1 X-0 X-1 10111loloi A. Draw a state Diagram (5 points) B. Create the "design truth table" for the "next state" and the "output"' (5 points) C. Make a Karnaugh for each "next state" and the "output" (10 points) When making the Karnaugh maps, "xQ1" should be along the top and "0203" along the side (The two missing states should be considered "DONT CARES") Write...
9. Product State Graph ou are asked to design a sequence detector to detect the input codes 10 and 01. The input of the circuit is and the output is Z, which only changes at a clock edge. Overlaps must also be detected. Z only changes at the clock edge . [2%] A. Restate the problem by circling the most appropriate term within the parentheses 1. The circuilt type is (combinational- asynchronous- FSM). 2. The subcategory of the circuit is...
Digital Logic Design Need help with homework. Also need to create Logisim circuit with results. Thank you! Your IDs gn project, spring semester Your name 19 Digital Logic Design. Mid-semester desi This is a synchronous counter design. Tables and Karnaugh maps are provided. Do this alone, do not consult with friends except for general structions guidance-I want to see your design. Design, Synchronous counter. (#2 of 3) (repeat). That is QdQcQbQa-0001 (one), 0010 (t Note: Qa is the I.s.b. Design...
Can anyone explain how can you get the above logic diagram? I have no clue how the answer is like that. I've been trying to derive the truth table and draw the logic diagram, but it's not the same as the above answer. Exercise 9. Design of Sequential Circuits Design the sequential circuit illustrated by Figure 10. The circuit has an input X and an output Z. The out put Z goes high (1) whenever the target sequence 1-1-1 has...
Finite state machine (FSM) counter design: Gray codes have a useful property in that consecutive numbers differ in only a single bit position. Table 1 lists a 3-bit modulo 8 Gray code representing the numbers 0 to 7. Design a 3-bit modulo 8 Gray code counter FSM. a) First design and sketch a 3-bit modulo 8 Gray code counter FSM with no inputs and three outputs, the 3-bit signal Q2:0. (A modulo N counter counts from 0 to N −...