4. Analyze the sequential logic circuit shown and determine the function of each input pin. ܘܝ<--[ܐ...
5. Determine v(t) for t < 0 and t > 0 in the circuit shown 0.5 H 0 3? 8? 4i0 24 V (+ 20v
4.25 In the circuit shown in Figure P4.25. let forooto for O t < 1 s for 1 s ,<2s for 2 s stoo Find the energy stored in the inductor for all te 2 H Figure P4.25
Consider the following vectors 4 4 For each of the following vectors, determine whether it is in spana, b, c. If so, express it as a linear combination using a, b, and c as the names of the vectors above < Select an answer > 4 14 20 < Select an answer > < Select an answer >
4. The circuit shown in P-4 is a switching regulator. Please describe the functions of the OP amps of a, c. f, and d with the output waveform at A, C. F, and D Find the output voltage Vout and describe the overall function of the circuit, 3 k2 P-4>
Find the value of C for which the following function will be a probability function. (c) f(x)= cx" (1 – x)°, 0<x< 1
The sequential circuit shown below has two flip-flops A and B and one input x. It consists of a combinatorial logic connected to the flip-flops, as shown in the Figure 1. Below. Analyze the sequential circuit below: A J A' K Q lo B 2-to-1 MUX Y J Q 11 S B K CLK Figure 1a. Sequential Circuit a) Derive the next state equations for the sequential circuit above: find expressions for JA and KA and Jb and KB as...
#2. (30p) Initially circuit was de energized + s (ma) 20122HR 10 a) Find v(1) for 0 <<<0.2 and 0.2 st so using sequential-switching method: b) Sketch y(t) using solution (a); c) Find () using the method of superposition of step responses; d) Sketch (1) using solution (c), showing details of how you build the graph; 0.2 (s)
4. Find the Laplace transform of the following function. 0 st<1 t + 1 1s1<2 g(t) = 2st<3 01
Combinational logic: a) Design a circuit to compare two numbers each is 1-bit: A, B. With 3 outputs X for A-B ,Y for A<B, Z for A B b) Use the previous output (or only one of them) as selection lines for a multiplexer to give the larger number to the output of the multiplexer.
In the voltage regulating circuit that is shown the zener diode has Vz=4.8V. Its current its limited by the interval . Find the interval of the possible load resistances and the minimum and maximum power dissipated by the diode. Answer and 5mA < 12 < 100m.4