Disregard question 11, using same figure 1 diagram for 12-15Homework Answers
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Disregard question 11, using same figure 1 diagram for 12-15
Answer the following questions 12-15 with...
The parameters are as follows k=10 a=0.50 b=0.3 c=0.6 d=9 w_1=12 w_2=15 Kv=30 A feedback control system (illustrated in Figure 1) needs to be designed such that the closed-loop system is asymptotical...
The parameters are as follows
k=10 a=0.50 b=0.3 c=0.6 d=9 w_1=12 w_2=15
Kv=30
A feedback control system
(illustrated in Figure 1) needs to be designed such that the
closed-loop system is asymptotically stable and such that the
following design criteria are met:
the gain crossover frequency wc should be between
w1 and w2.
the steady-state error should be zero in response to a unit
step reference.
the velocity constant should be greater than Kv (in
other words, the steady-state unit...
Question 4: Figure 4 In the series-shunt feedback amplifier shown in Figure 4, the transistors are...
Question 4: Figure 4 In the series-shunt feedback amplifier shown in Figure 4, the transistors are biased with ideal current-sources 1, 0.1mA, 12 1mA, the devices operate with VE0.7V and t = 100. The input signal V, has a zero DC component. Resistances are (a) If the open loop gain is large, what do you expect the closed-loop gain A, -V/V, to be? Give both an expression and its approximate value (b) Find the DC emitter current in each of...
G) r(t) Figure 1: Feedback control system A pulley and belt transmission has a linearized relationship between the driven pulley angle θ(t) in degrees and the input torque u(t) in Newton meters given...
G) r(t) Figure 1: Feedback control system A pulley and belt transmission has a linearized relationship between the driven pulley angle θ(t) in degrees and the input torque u(t) in Newton meters given by the following differential equation du(t) A feedback control system (illustrated in Figure 1) needs to be designed such that the closed-loop system is asymptotically stable and such that the following design criteria are met: 1. the gain crossover frequency a should be between and a 2....
The parameters are as follows k=10 a=0.50 b=0.3 c=0.6 d=9 w_1=12 w_2=15 Kv=30 A feedback control system (illustrated in Figure 1) needs to be designed such that the closed-loop system is asymptotical...
The parameters are as follows
k=10 a=0.50 b=0.3 c=0.6 d=9 w_1=12 w_2=15
Kv=30
A feedback control system (illustrated in Figure 1) needs to be
designed such that the closed-loop system is asymptotically stable
and such that the following design criteria are met:
the gain crossover frequency wc should be between
w1 and w2.
the steady-state error should be zero in response to a unit
step reference.
the velocity constant should be greater than Kv (in
other words, the steady-state unit...
1. For the signal represented in the figure, answer the following questions. a. b. What is...
1. For the signal represented in the figure, answer the following questions. a. b. What is the period of the signal?(5) What is the signal equation? g(t)2(5) The signal is Find the trigonometric Fourier series coefficients using the following equations: (15) c. (even/odd) and the offset is d. g(t)dt bn=-| g(t)sin(naOtJdt
1. For the circuit shown in the figure, we wish to find the currents 11, 12,...
1. For the circuit shown in the figure, we wish to find the currents 11, 12, and 13. Use Kirchhoff's rules to obtain equations for a. the upper loop, b. the lower loop, and c. the junction on the left side. In each case, suppress units for clarity and simplify, combining the terms. d. Solve the junction equation for 13. e. Using the equation found in part (d), eliminate 13 from the equation found in part (b). f. Solve the...
question b or the control system in Figure 1: C(s) Find the closed-loop transfer function T(s)-- R(s) a) b) Find a...
question b
or the control system in Figure 1: C(s) Find the closed-loop transfer function T(s)-- R(s) a) b) Find a value of Kp that will yield less than 15% overshoot for the closed-loop system. (Note: ignore the zero dynamics to calculate Kp initially). c IIsing vour K from nart h) write a MATI AR scrint that calculates the closedloon Motor Plant R(s)+ C(s) Controller 10 Kp (s+9) s2 +6s15 12 Figure 1: Unity feedback with PD control
or the...
C(s) G(s) Figure 1: A block diagram for Problems 1-4 For the given unity feedback system with G(s...
C(s) G(s) Figure 1: A block diagram for Problems 1-4 For the given unity feedback system with G(s) - s 5)3' (a) Find the location of the dominant poles to yield a 1.2 second settling time and overshoot of 15% (b) If a compensator with a zero at-1 is used to achieve the conditions of Part a, what must be the angular contribution of the compensator pole be? (c) Find the location of the compensator pole. (d) Find the gain...
Can someone help me with these questions? Answer the question(s) below based upon the following diagram....
Can someone help me with these questions?
Answer the question(s) below based upon the following diagram. $25 --- $15 world + Tariff world 10,000 12,000 25,000 42,000 60,000 8) Refer to the figure above. With free trade, the total quantity of imports would equal A) 10,000 units. B) 20,000 units. C) 22,000 units. D) 30,000 units. 9) Refer to the figure above. With free trade, the total value of imports would equal A) $10. B) $100,000. C) $200,000 D) $300,000....
Determine the inputs (10, 11, 17) of the 8-to-1 multiplexer shown in Figure 1 such that...
Determine the inputs (10, 11, 17) of the 8-to-1 multiplexer shown in Figure 1 such that the given multiplexer implements the Boolean function Y(A,B,C,D) = m(1,2,6,7,8,9,13,14). 10 11 12 13 14 15 16 17 S2 S1 SO -Y А в с Figure 1 (The symbol 'is corresponding to complement operation. For instance, A' means "complement of A") 10 1. O > /1 2.1 < 3. A 12 < 4. A 13 > 5. B 14 6. B 15 7. C...
The parameters are as follows
k=10 a=0.50 b=0.3 c=0.6 d=9 w_1=12 w_2=15
Kv=30
A feedback control system
(illustrated in Figure 1) needs to be designed such that the
closed-loop system is asymptotically stable and such that the
following design criteria are met:
the gain crossover frequency wc should be between
w1 and w2.
the steady-state error should be zero in response to a unit
step reference.
the velocity constant should be greater than Kv (in
other words, the steady-state unit...
Question 4: Figure 4 In the series-shunt feedback amplifier shown in Figure 4, the transistors are biased with ideal current-sources 1, 0.1mA, 12 1mA, the devices operate with VE0.7V and t = 100. The input signal V, has a zero DC component. Resistances are (a) If the open loop gain is large, what do you expect the closed-loop gain A, -V/V, to be? Give both an expression and its approximate value (b) Find the DC emitter current in each of...
G) r(t) Figure 1: Feedback control system A pulley and belt transmission has a linearized relationship between the driven pulley angle θ(t) in degrees and the input torque u(t) in Newton meters given by the following differential equation du(t) A feedback control system (illustrated in Figure 1) needs to be designed such that the closed-loop system is asymptotically stable and such that the following design criteria are met: 1. the gain crossover frequency a should be between and a 2....
The parameters are as follows
k=10 a=0.50 b=0.3 c=0.6 d=9 w_1=12 w_2=15
Kv=30
A feedback control system (illustrated in Figure 1) needs to be
designed such that the closed-loop system is asymptotically stable
and such that the following design criteria are met:
the gain crossover frequency wc should be between
w1 and w2.
the steady-state error should be zero in response to a unit
step reference.
the velocity constant should be greater than Kv (in
other words, the steady-state unit...
1. For the signal represented in the figure, answer the following questions. a. b. What is the period of the signal?(5) What is the signal equation? g(t)2(5) The signal is Find the trigonometric Fourier series coefficients using the following equations: (15) c. (even/odd) and the offset is d. g(t)dt bn=-| g(t)sin(naOtJdt
1. For the circuit shown in the figure, we wish to find the currents 11, 12, and 13. Use Kirchhoff's rules to obtain equations for a. the upper loop, b. the lower loop, and c. the junction on the left side. In each case, suppress units for clarity and simplify, combining the terms. d. Solve the junction equation for 13. e. Using the equation found in part (d), eliminate 13 from the equation found in part (b). f. Solve the...
question b
or the control system in Figure 1: C(s) Find the closed-loop transfer function T(s)-- R(s) a) b) Find a value of Kp that will yield less than 15% overshoot for the closed-loop system. (Note: ignore the zero dynamics to calculate Kp initially). c IIsing vour K from nart h) write a MATI AR scrint that calculates the closedloon Motor Plant R(s)+ C(s) Controller 10 Kp (s+9) s2 +6s15 12 Figure 1: Unity feedback with PD control
or the...
C(s) G(s) Figure 1: A block diagram for Problems 1-4 For the given unity feedback system with G(s) - s 5)3' (a) Find the location of the dominant poles to yield a 1.2 second settling time and overshoot of 15% (b) If a compensator with a zero at-1 is used to achieve the conditions of Part a, what must be the angular contribution of the compensator pole be? (c) Find the location of the compensator pole. (d) Find the gain...
Can someone help me with these questions?
Answer the question(s) below based upon the following diagram. $25 --- $15 world + Tariff world 10,000 12,000 25,000 42,000 60,000 8) Refer to the figure above. With free trade, the total quantity of imports would equal A) 10,000 units. B) 20,000 units. C) 22,000 units. D) 30,000 units. 9) Refer to the figure above. With free trade, the total value of imports would equal A) $10. B) $100,000. C) $200,000 D) $300,000....
Determine the inputs (10, 11, 17) of the 8-to-1 multiplexer shown in Figure 1 such that the given multiplexer implements the Boolean function Y(A,B,C,D) = m(1,2,6,7,8,9,13,14). 10 11 12 13 14 15 16 17 S2 S1 SO -Y А в с Figure 1 (The symbol 'is corresponding to complement operation. For instance, A' means "complement of A") 10 1. O > /1 2.1 < 3. A 12 < 4. A 13 > 5. B 14 6. B 15 7. C...
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