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Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space...
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of...
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) (10 MARKS] 122 112 112 M + + vi(t) 1 H llll 1 H elle 1F vo(t)
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of...
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 192 192 112 M M w + + Vilt) 1 H sooo 1 H nooo 1F vo(t) Figure 1
the circuit is figure 1 a) Consider the electrical circuit in Figure 1. Determine the state...
the circuit is figure 1
a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 112 112 192 M + + vi(t) 1 H llll 1 H elle 1F HE vo(t)
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of...
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 192 192 192 m V:(t) 1 H 1F volt) Figure 1
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of...
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 112 192 112 VAD 1 H 1F Figure 1
a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit...
a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 1 Ω 192 112 W vi(t) 1 H elle 1 H Illl 1 F volt) Figure 1
Find the state space representation of the electrical circuit shown in figure, output is iL, and...
Find the state space representation of the electrical
circuit shown in figure, output is iL, and vL.
M
using mesh analysis method Whe Find the transfer function output for the electrical circuit below input...
using mesh analysis method
Whe Find the transfer function output for the electrical circuit below input 2H 2221F 0000 222 22 222 v(t) 232 + vo 21 VLt) 1F 2H WE 0000 llll VL(1) (a) (b)
We want to analyze the following electrical circuit R + + C C R y The...
We want to analyze the following electrical circuit R + + C C R y The output is the voltage across the resistor R,. We assign the state variables like this voltage across C xcurrent through L x3 = voltage across C, Then the state vector is x 1) Obtain the state-space representation of the system 2) Determine the observability of the state equation obtained in (1) 3) Let x(0) [x (0)x,(0) x,(0) =[1 0 o] Derive a control input...
Question 3(25 Marks (a) Find the transfer function of the system shown in figure 2 1F 1 Ohm 1F 1 ...
Question 3(25 Marks (a) Find the transfer function of the system shown in figure 2 1F 1 Ohm 1F 1 Ohm 1 Ohm 1F 1F 1F 1 ohm e Vout Figure 2 (b) Express the transfer function in state space form (c) Use pole placement to determine the gains that will cause the system to have a settling time of 0.1 seconds and an overshoot of 10% (d) Draw an electronic circuit that designed will implement the controller you have...
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) (10 MARKS] 122 112 112 M + + vi(t) 1 H llll 1 H elle 1F vo(t)
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 192 192 112 M M w + + Vilt) 1 H sooo 1 H nooo 1F vo(t) Figure 1
the circuit is figure 1
a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 112 112 192 M + + vi(t) 1 H llll 1 H elle 1F HE vo(t)
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 192 192 192 m V:(t) 1 H 1F volt) Figure 1
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 112 192 112 VAD 1 H 1F Figure 1
a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 1 Ω 192 112 W vi(t) 1 H elle 1 H Illl 1 F volt) Figure 1
Find the state space representation of the electrical
circuit shown in figure, output is iL, and vL.
M
using mesh analysis method
Whe Find the transfer function output for the electrical circuit below input 2H 2221F 0000 222 22 222 v(t) 232 + vo 21 VLt) 1F 2H WE 0000 llll VL(1) (a) (b)
We want to analyze the following electrical circuit R + + C C R y The output is the voltage across the resistor R,. We assign the state variables like this voltage across C xcurrent through L x3 = voltage across C, Then the state vector is x 1) Obtain the state-space representation of the system 2) Determine the observability of the state equation obtained in (1) 3) Let x(0) [x (0)x,(0) x,(0) =[1 0 o] Derive a control input...
Question 3(25 Marks (a) Find the transfer function of the system shown in figure 2 1F 1 Ohm 1F 1 Ohm 1 Ohm 1F 1F 1F 1 ohm e Vout Figure 2 (b) Express the transfer function in state space form (c) Use pole placement to determine the gains that will cause the system to have a settling time of 0.1 seconds and an overshoot of 10% (d) Draw an electronic circuit that designed will implement the controller you have...
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