Use the LS163 hex counter with synchronous reset and other gates and wiring to create a...

Design a circuit for a synchronous 4-bit counter. Your counter should count up starting from 0...

Design a circuit for a synchronous 4-bit counter. Your counter should count up starting from 0 to 9 (00002 to 10012) and then wind back to 0 (00002) – after 9, it should go back to 0. Use 4 JK flip-flops and any other gates you need. Include your design documentation in your submission: a. Truth table b. Simplification (show your work) 2. Build this circuit in Logisim. Please label each gate, including flip-flops. You may need the following wiring...

3. Implement a synchronous BCD counter using JK flip-flops. Show Design.

3. Implement a synchronous BCD counter using JK flip-flops. Show Design.

Using 74F163 synchronous binary counter, draw MOD256 counter (either using IC’s pinout or as a block...

Using 74F163 synchronous binary counter, draw MOD256 counter (either using IC’s pinout or as a block diagram). Use other ICs if necessary

Write the VHDL code implementing a 6-bit synchronous counter with enable. The design should include the...

Write the VHDL code implementing a 6-bit synchronous counter with enable. The design should include the output to be connected to the next stage Then update the code to include an asynchronous reset

Use JK Flip Flop to design a 2-bit synchronous counter (up counter) that counts down as...

Use JK Flip Flop to design a 2-bit synchronous counter (up counter) that counts down as given: AB = 01, 11, 00, 10, and then again 01. Show the design steps (e.g state table, j and k inputs for k-maps etc) and draw the final circuit.

Design the following synchronous counters (one at a time) using the 7493 IC. Show all your...

Design the following synchronous counters (one at a time) using the 7493 IC. Show all your connections clearly (use Multisim). Show the connections to pins R0 (1) and R0 (2) so that you can get each of the following: Mod 10 counter, Mod 12 counter and Mod 15 counter. You must use a BCD decoder (74LS47N), resistors, and a seven-segment display

Design the following synchronous counters (one at a time) using the 7493 IC. Show all your...

Design the following synchronous counters (one at a time) using the 7493 IC. Show all your connections clearly (use Multisim). Show the connections to pins R0 (1) and R0 (2) so that you can get each of the following: Mod 10 counter Mod 12 counter Mod 15 counter You must use a BCD decoder (74LS47N), resistors, and a seven-segment display

What would happen with the ring counter if the reset switch set the value of the...

What would happen with the ring counter if the reset switch set the value of the counter to a ‘3’ instead of a ‘1’? Group of answer choices There would be a false output, but the counter would continue to run in the proper order after the “3” state The counter will count in the sequence: 3 -> 6 -> 5 -> 3 -> 6 -> ... which means two “on” outputs will be shifted left. The “3” state was...

1.IC 74161 is a synchronous 4-bit counter designed by Texas Instruments (TI). Find the data sheet...

1.IC 74161 is a synchronous 4-bit counter designed by Texas Instruments (TI). Find the data sheet for this IC on Google and answer the following questions: a)Use two 74161 ICs to design an 8-bit counter. Hint: work with the IC input and output pins. Consider the count sequence: 0-> 1-> 2-> 3-> 4-> 5-> 0 .... b) Use a 74161 IC and the “Clear” input pin to implement this count sequence. c) Use a 74161 IC and the “Load” input...

Ripple Counters and T-FFs. (a) Design a 5-bit ripple down-counter using T Flip-Flops and no other...

Ripple Counters and T-FFs. (a) Design a 5-bit ripple down-counter using T Flip-Flops and no other components. (b) Design a 5-bit ripple up-counter using T Flip-Flops and no other components. (c) What limits the maximum counting speed of your ripple counters? (d) Design a T Flip-Flop using only a D flip-flop with no extra logic gates.