How do I design a 3-bit down counter from 6 to 0 using a 7 segment display .The counting needs to wrap around to its lowest digit.With my situation I have a 2 display segment and not a 1 display segment. Am using a 74LS 112A DUAL J-K DUAL J-K FLIP FLOPS.But I need to have three flip flops to my 7 Display segment.
The truth table for the counter design is as follows
Simplifying using K map, we get
The final circuit diagram will be. I have used a 7447 bcd to seven segment decoder and a common anode seven segment display
How do I design a 3-bit down counter from 6 to 0 using a 7 segment...
Design a two-bit up/down binary counter using D flip-flops that can count in binary from 0 to 7. When the control input x is 0, the circuit counts down, and when it is 1, the circuit counts up. (a) Obtain the state table of the two-bit counter. (b) Obtain the state diagram (c) Draw the logic diagram of the circuit.
all please Design a 3-bit counter that has only one input, w. It counts down 7, 6,5,... 0, 7,.. whenever w-0, and counts up 0,1,2...7,0... when w 1 The output z-1, when the state of the counter is a prime number. Otherwise, z-0 1. List Inputs, Outputs and the count sequence. (5pts) 2. Draw the finite State machine for the counter. (10pts) 3. Draw the state transition table <extra columns for the flip flops values> (20pts) armed resource/content/1/case%20study.template.docx 4. Design...
UP/DOWN counter: Design a modulus-14 up/down counter using decade J-K flip-flops.
1) Design a synchronous 3-bit binary UP/DOWN counter uses the following counting pattern 10.2.3.7.6.40.1.3...) the counter will count in this pattern indefinitely when the input X is equal to 1. When the input the counter will reverse direction and count in the opposite pattern 0. 4 7310) Complete the state diagram, transition table, New state s and solve for the recitation equations for flipflops that will perform this function. (You do not need to draw the flip-flops Use the state...
Design a 3-bit counter with counting sequence of 1, 3, 7, 2. Note: Use the symbol in order of CBA. (1) Draw the resulting circuit using JK-type flip flops. (2) Draw the complete state diagram corresponding to your circuit.
Up-Down counter with enable using JK flip-flops: Design, construct and test a 2-bit counter that counts up or down. An enable input E determines whether the counter is on or off. If E = 0, the counter is disabled and remains in the present count even though clock pulses are applied to the flip-flops. If E= 1, the counter in enabled and a second input, x, determines the count direction. If x= 1, the circuit counts up with the sequence...
(b)(i) Using T flip-flop as main components, design a 3-bit synchronous counter that perform counting as the following sequence 0,2,4,6,1,3,5,7 then repeats (its sequence) [20 marks] (ii) Draw a complete circuit to show how the T flip-flops are interconnected and label it appropriately. Also show how the counter can be asynchronous reset. [5 marks] (iii) Draw a timing diagram for at least four clock cycles [8 marks)
Design a 3-bit down counter FSM with no inputs and three outputs. Do this using a T flip flop. a. Draw a state diagram and the corresponding state table. b. Derive the equations for output functions and flip-flop input functions c. Draw the logic circuit diagram
Design a 4-bit binary up counter (like the following state diagram) using JK flip flops. State diagram. 0000 0001 11111 (a) Draw the state table with the input values for J K flip flops(b) Simplify the input equations by K map (c) Draw the logic diagram
Using S-R flip-flops, design a 3-bit counter (C,B,A) with the repeating binary counting sequence: 1, 3, 2, 6, 7, 5, 4. - Show the circuit's state table with the present-state entries in ascending order, which should have the present state (t), next state (t+1), and flip-flop inputs. - Find the flip-flop input equations for RC, RB, and RA in Product of Sums form.