PROBLEM #04.1 For the circuit below, generate an output expression F. Make sure to show all...
1. Write the Boolean expression for each output from the PLA below: F = F G H 2. Draw the block diagram (not logic gates) and the truth table for a 4-1 multiplexer. Label all inputs, outputs and select lines. 3. Explain the problem with the S-R latch and how it is fixed by the J-K flip-flop 4. Write the truth table for a Gated D Latch: 5. Complete the following timing diagram for the rising-edge-triggered D flip-flop: akrrrr G1
Show all work please. 3.a Simplify the expression A + B + CB To receive credit, on each line you MUST include the simplification of one operator and the rule/reason that allowed you to move from the previous line to the current line (Note: add lines as needed, do not assume that the given number of steps is what you will need.) Expression Reason Original Expression A+B CB 3.b Draw a circuit diagram for A + B + CB Use...
NAND can do it all! a functioning integrated circuit. Now is your time to create a circuit using only NAND gates. 1. Using the function: F (A B) (C D) Implement this function using AND and OR gates. Use the logic converterto assess your circuit. Imagine that you have no access to AND or OR gates. Create a circuit that implements the same function using only NANDgates. Use the Logic Converterto assess your NAND circuit. Compare to the previous AND/OR...
(a) The circuit shown below in Figure 3 has a two-input logic gate hidden from view. By inspection of the output function F, identify the hidden logic gate. ; hidden logic F-(ADB)(C08) gate cas Figure 3 (b) Draw a truth table for the function F given in part (a) above and hence derive an alternative 'sum of products' expression for F.
please show the steps and please make sure the solution readable and clear. please be careful about this. best regards. A combinational circuit with four inputs (A,B,C,D) and one output (Z) is designed as follows using an 8:1 multiplexer. Inputs A, B, C are connected to the select lines S2,S1,S, respectively. Multiplexer has the following values connected to the data inputs: 10.14 =D; 1, is = 0; 12,1 = 1; h 13,1, =D For the circuit given above a) Fill...
b. Place the components and wire up the circuit shown in Figure 1. The "digital constant" input represent inputs A, and the output signal at PR1 represents the output F Note: the current that can be supplied by small transistors is fairly low. Therefore, the op amp (U1) is added to "buffer" the output signal. It does not affect the operation of the circuit. V1 02 100um 00um U1 PR1 Outofdote d Lo DG1 92 LED1 00um 00um Figure 1...
The circuit below takes as input a four bit unsigned binary number A A2 A Ao and generates a single output F. Design the circuit where F will only be true if the decimal value of the input mod 3 is equal to 1 (F is true if the input mod 3- 1; F will be false otherwise). To implement F, you may use only the 8 x 1 multiplexor given below. You may not use any additional gates (such...
Problem 1: consider the following circuit with 4 inputs A, B, c, D, and 3 outputs F, G, H. Each input/output is connected to an input/output port. 3-input OR gate Figure 1 a) Determine the Boolean algebra equations relating each input to each output of the circuit. b) Create the truth tables corresponding to the equations obtained above. There should be one truth table per equation c) Produce the Karnaugh maps corresponding to the truth tables d) Determine simplified Boolean...
Q.3-A). The circuit of Figure below shows how an eight-input MUX can be used to generate a four-variable logic function, even though the MUX has only three SELECT inputs. (a) Set up a truth table showing the output Z for the 16 possible combinations of input variables. b) Write the sum-of-products expression for Z and simplify it. 45 V 74HC151 MUX
Make sure you show all work and calculations to receive full credit For each problem, find the ΔΗ for the target reaction below, given the following step reactions and subsequent ΔΗ values: