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7.5. Given the timing diagram of Fig. 7.41, reconstruct the ASM chart that corresponds to it....
1. Given the state diagram shown below for a state machine with one-bit input W and two-bit output Z: a. (20 points) Using the state assignments below, make the state-assigned table. Let S0 = 001, S1 = 010, and S2 = 100. b. (20 points) Let the state variables be Y2, Y1, and Y0. Derive an expression for each of the next state variables. c. (10 points) Derive expressions for the output of this state diagram. d. (20 points) Draw...
A digital communication system uses the signals si(t) and s2(t) shown in Fig. 1 to t equally likely bits '0' and '1', respectively. The signaling duration is 4 seconds. The receiver uses a filter h(t) shown in Fig. 2 s1 (t) s2(t) 0 Figure 1: Set of signals in Problem 1 h(t) 0 Figure 2: h(t) in Problem 1 (a) Determine the parameter ri for this system. HINT: Remember that ri is equal to this convolution 81(t) * h(t) evaluated...
Problem 3. (25 pts) The timing diagram for three state cases represents the high impedance state with a line between the low (0) and high (0) states, as ill figure: ustrated in the following 0 Low (0) High Impedance (Z)1 High (1) a. (15 pts) Draw the timing diagrams for the outputs A,B,C,D of the following circuit given the input diagrams in the next page. (NOTE: to help you, dashed lines are shown for the different levels) b. (10 pts)...
5) Decoders: Given the following circuit, S0 and S1 are computed using a 4-2 priority encoder with the priorities indicated on the figure. (hint: IDLE signal is always 0, if any of the inputs 10,11,12, or 13 is 1) 6 points) 4-to-2 Priority Encoder 10 YO YI 13 IDLE 13> 11 > 12>10 12 Full c Adder So Fill the following table showing the output signals S0 and SI given the input signals w, x, y, a) and z. Prof...
please show steps, and solve asap BEE 433 Electronic Circuit Design Problem Set #1 Due date: Answer the following problems and Circle the answers. 1.1 (Fig. 1.1 from the textbook) In the voltage amplifier circuit of Fig. 1.1, let vs = 100 mV, Rs = 100 k 52, Vi = 75 mV, RL = 10 S2, and vo = 2 V. If connecting a 30-S2 resistance in parallel with RL drops vo to 1.8 V, find Ri, A., and R....
Can you use Multisim or something similar. I got the truth table and design, but having a hard time with the actual wiring. I need to see where each cable and light bulb go. 3.4. Multiplexer Multiplexers are very useful components in digital systems. They transfer a large number of information units over a smaller number of channels, (usually one channel) under the control of selection signals. Fig. 3 is a 4-line to l-line MUX. In this circuit, lo, 11, 12,...
Problem 6 State space representation of motor - driven cart with inverted pendulum You are given that the cart carrying the inverted pendulum shown in the figure below is driven by an electric motor powering one pair of wheels so that the whole cart, pendulum and all, becomes the load on the motor. z is the cart position, M is its mass, θ is the pendulum angle with respect to the vertical, I its length, and m its mass. The...
Problem: Who Is within D Degrees of Separation? Given a series of "knows" relationships such as "Alice knows Bob", a degree D, and a person P, output the group of people that are within D degrees of separation of person P For example, given the input, which consists of a network of acquaintances followed by one or more queries of the form "degree person" such as Alice knows Bob Carol knows Dave Carol knows Bob Bob knows Eve Eve knows...
Q1. You are given a 12 V DC power supply. You are expected to develop a voltage divider to achieve a voltage of nominal 5V value using a pair of resistors from the E 12 range, with the restrition that you are not expected to draw a current of more than 1 mA from the 12 V DC supply i. Develop a simple circuit showing the possible values for each resistor pair, and the range of the DC output possible...
PLEASE DO IN MATLAB Problem 8 (PID feedback control). This problem is about Proportional-Integral-Derivative feedback control systems. The general setup of the system we are going to look at is given below: e(t) u(t) |C(s) y(t) P(s) r(t) Here the various signals are: signal/system r(t) y(t) e(t) P(s) C(s) и(t) meaning desired output signal actual output signal error signal r(t) y(t) Laplace transform of the (unstable) plant controller to be designed control signal Our goal is to design a controller...