34. Identify the functional components of the microcontroller block diagram shown in Figure 14-39 Address bus...
Problem 1: Consider the block functional diagram of the satellite attitude control system shown in Figure (a), here below. The output of this system exhibits continued oscillations and is not desirable. This system can be improved by using a tachometer feedback. Ki, as shown in Figure (b). Assuming that = 4, using block diagram algebra and theory of time performance specifications for second order systems, please, compute: (1) the value of the gain K such that closed loop transfer function...
For the first figure please draw the functional block
diagram, please keep it simple no need to solve it with
functions
The second picture is an example of how the solution should look
like
We were unable to transcribe this imageSwer the Following Questions: uestion No. (1) in the past, control systems used a human operator as part of a closed-loop control system. Sketch the block diagram of the valve control system shown in Figure (1). Human Output operator Met...
Specify the 16-bit contro
l word that must be applied to the datapath of Figure 8-11 to
implement each of the following microoperations:
a) R3 <-- Data in
b) R4 <-- 0
c) R1 <-- sr R4
d) R3 <-- R3 + 1
e) R2 <-- sl R2
f) R1 <-- R2 R4
g) R7 <-- R1 + R3
h) R4 <-- R5 - Constant in
RW 0 Write D data 15 DA 14 D address 8×n Register file 12...
For the block diagram of a feedback control system that is shown in Figure Q1 below, find the transfer function Ts) Y(s) /R(s) for the system. 2 R(s) Y(s) :? 2 2 Figure Q1
Consider the single line diagram of a 3-bus power system shown in Figure 2. Slack bus 3 Figure 2. The data for this system are given in Tables 1 and 2. Bus Table 1 Generation Load Assumed PG QGPLQL bus voltage (MW) (MVar) (MW) (MVar) 1.05 +10.0 - - 1.0 + 0.0 50 30 305.6 140.2 1.0 +0.0 0.0 0.0 138.6 45.2 slack bus) Table 2 Bus-to-bus Impedance 0.2 + j0.04 .01 +0.03 2.3 0.0125 + j0.025 (0) Convert all...
5. A block diagram of a control system is shown in Figure 3. [10 marks] (a) Find the transfer function of the control system. (b) Assign three poles of the system to -6, -8 and -7 by using time domain full-state feedback control design techniques. 10 marks] 10 15
The system shown in the figure is in equilibrium. The middle string is exactly horizontal. Block A weights 34 N, block B weighs 50 N, and angle φ = 39 degrees. Find the angle θ. Your answer should be in degrees, but enter only the numerical part in the box. We were unable to transcribe this imageWe were unable to transcribe this imagee T1 Тz А B -O
Question 4 (20 marks) (a) A Timer 2 block diagram is shown in Fig.7. Timer 2 is used to generate a delay of 50 us. Determine the value of the PR2 if the TMR2 is 0, the prescaler and the postscaler of 1:1 are selected. Assume that the crystal clock is running at the frequency of 20 MHz. Ignore the overhead due to instructions in the calculation. [6 marks] (ii) Explain how the microcontroller knows the delay of 50 us...
Draw a block diagram of the system shown below
Figure P6.36 is the circuit diagram of a speed-control system in which the dc motor voltage ua is supplied by a generator driven by an engine. This system has been used on locomotives whose diesel engine operates most efficiently at one speed. The efficiency of the electric motor is not as sensitive to speed and thus can be used to drive the locomotive at various speeds. The motor voltage va is...