Implement the function using 4:1 MUX; F (A, B, C) = ∑ (0, 1, 5, 7) [take A as input]
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Q# 7 (3 marks) Implement the Boolean function F(K,A,B,C,D) shown below using a single decoder of a suitable size and multi- input OR gate and inverter. Note the order of the variables in the function F and use the same order when implementing input to the decoder. + (4-1) MUX (2-1) FIK.A,BC,D) MUX + 0 + - Si So BUD
Please solve the problems from 2_5 Digital system Problem 2 Design a combinational circuit with inputs a, b, c, d and outputs w, x, y, z. Assume that the inputs a, b, c d represent a 4-bit signed number (2s complement). The output is also a signed number in 2s complement which is 5 greater than the input if the input is less than 2, and is 2 less than the input if the input is greater than or equal...
Please solve the problems from 1_5 Digital system Complete the following homework problems. Show all work (making sure it is legible) and circle all answers for clarity Problem 1 w3 w4 B w1 a) Determine Boolean functions for intermediate outputs w,w2,w3, and w4 as well as the output signals X and Y. b) Construct a truth table showing the intermediate outputs wl,w2,w3, and w4 as well as the output signals X and Y c) Use K-maps to find simplified expressions...
Question 1 Digital Electronics and Combinational Logic 1a) Analog and Digital Electronics i. Write either "digital" or "analog" in this to indicate whether the property in that row is - typical of digital electronics or analog electronics. The first row has been completed as an example. Property Digital/Analog Difficult, manual circuit design Analog Continuous valued signals Tolerant of electrical noise Circuit state tends to leak Intolerant of component variations ii. In older cars the timing of the electrical pulses to...
T1100 Digital Systems I- Final Examination Winter 2019 Pag e | 10/24 (i) Given the following Boolean function FA,B,C) m(0,1,3,6) Implement F(A,B,C) using a (4x1) MUX where A and B are used as selectors.
Please if possible give some reasoning on 5, thanks! 4. A bank vault has three locks with a different key for each lock. Each key is controlled by a different person. For the vault to open, at least two people must insert their key into their assigned lock. The signal lines A, B, and C are 1 if the appropriate key is inserted into lock 1, 2, or 3, respectively. Write an equation for the function F which is 1...
(iii) The functionality of a digital unit is provided in the following table: S I Cin=0 Cin = 1 F = A + B (addition) F= A +1 (increment) F = A -1 (decrement) F=A+B'+1 (subtraction) Derive the MUX inputs lo, 11, 12, and 13 that implement that unit? Ici АНХ FA TIT MUX 4x1 Y; CH1 Show your work:
Q31 For the figure shown below W is an input, (X, Y and Z) are connected to (S2, S and So), find the Boolean function F (W, X, Y, Z) in SOP and implement it use: 1. Multiplexer: One-piece (4 to 1) and external gates (W, X are selectors). 2. Decoder: Five (2 to 4) with AND gate. 0 1 8 to 1 MUX Do D, F OP D, S S S 35 Marks] X Y Z Q31 For the...
3) (10 points) Implement F(A, B, C) = m(0,1,4,7) using an 2-to-1 MUX (use the symbol) and any other basic logic gates necessary (AND, OR, or NOT gates). Show the truth table and minimize any combinational logic (other than the MUX) in sum-of-products form. Use the left most input(s) for the MUX select input(s) in your schematic.
partb Problem 2 [15 points] Consider again the function F(x, y, z, w) from problem 1. (a) [5 points) Implement F using one 2-1 MUX and additional gates (show work for all choices for the selection variables) (b) [5 points] Implement F using only 2-to-1 MUXes and no additional gates (this means that NOT gates are not available as well). Explain how dy ny rx 0