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PROBLEM #1: The circuit shown in Figure P4.4 consists of the cascade connection of three sections....
1 4.4-1 The circuit shown in Fig. P4.4-1 has system function given by H(S) = Let...
1 4.4-1 The circuit shown in Fig. P4.4-1 has system function given by H(S) = Let R= 2 and 1+RCS C = 3 and use Laplace transform techniques to solve the following. (a) Find the output y(t) given an initial capaci- tor voltage of y(0%) =3 and an input x(t) u(t). (b) Given an input x(t) = u(t – 3), determine the initial capacitor voltage y(0%) so that the output y(t) is 1 volt at t = 6 seconds. =...
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving...
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving for the transfer function find how each stage behaves versus frequency o 2) Using this information find how the total circuit behaves versus frequency 2) Find the transfer function for each stage 3) Find the transfer function of the total circuit 4) Plot the |H(jo) 2 as a cascade Av R4 R1 ww Vin Vout R3 Ov Stage II Stage II Stage...
Question 1 An electronic circuit is shown in Figure 1. In order to simulate the circuit,...
Question 1 An electronic circuit is shown in Figure 1. In order to simulate the circuit, a transfer function is needed. a) Is this an open loop or closed loop process? Justify your answer. (3 marks) b) Find the transfer function V.(s) for the electrical network shown in Figure 1. V:(s) (10 marks) c) What is the order of the process? (2 marks) d) Determine the roots of the transfer function and comment on the stability of the process. (5...
1. Connect the circuit shown in Figure 23. The values of the resistors are given below...
1. Connect the circuit shown in Figure 23. The values of the resistors are given below in Table and the source voltage (vs) is 20 V. Ri R4 R5 Figure 23 - General Resistive Circuit R 4.7 ko Rz 15 k22 | Rz 10 k R4 22 ke | Rs 6.8 ko Table 6 - Values of Resistors 2. Calculate all the component currents (i, through is), all the component voltages (Vị through vs) using circuit theories you have learned...
1. Kirchoff's Rules See Figure 1. The circuit consists of two batteries and five resistors. The...
1. Kirchoff's Rules See Figure 1. The circuit consists of two batteries and five resistors. The terminal voltage of each battery is specified and the resistance value of each resistor is given. Find the potential difference Vab, that is, V- Va. 2. Electric Potential R -1. R24 Ryan cizut Voilor R,= R₂:22 R₂=R4 = 4.2 Rs = 3.0 V. - 5 V, 20v Figure 1 Figure 4 C, C-1 uf Ccy 2uF V-10v Figure 5 Figure 2 Figure 6 C-2...
Problem 4.14 The circuit shown in figure(Figure 1)is a dc model of a residential power distribution...
Problem 4.14 The circuit shown in figure(Figure 1)is a dc model of a residential power distribution circuit. Use the node- voltage method to find the branch currents ij - in if R1 = 2.022, R2 = 4.022, R3 = 2.012, R4 = 12.02, Rs = 24.0 2, R6 = 48.0 22 Part A Find the value of j. Express your answer with the appropriate units. IT HÅ ? i = Value Units Submit Request Answer Parte Find the value of...
who can solve this problem? thanks Problem 3: Chain rule and circuit design Consider the circuit in the below figure...
who can solve this problem? thanks
Problem 3: Chain rule and circuit design Consider the circuit in the below figure. You can as me zero initial conditions. t WW-어 2R L stage 1 stage 3 stage 4 stage 2 Part I: Redraw the above circuit in the s-domain and compute the transfer functions Ti(s), T(s). Tfs), Tds) of each one stages Part II: Somebody with a rusty recollection of linear circuits analyzed the above circuit and concluded that the transfer...
help with these three <Chapter 23 Problem 23.55 < 8 of 1 RE The circuit shown...
help with these three
<Chapter 23 Problem 23.55 < 8 of 1 RE The circuit shown in the figure (Figure 1) consists of a 5.1- V battery, a 32-mH inductor, and four 58-22 resistors. Part A Find the characteristic time for this circuit. Express your answer using two significant figures. IV AX O ? Figure < 1 of 1 > Submit Request Answer pa0000 Part B What is the current supplied by this battery two characteristic time intervals after closing...
Part A LR Circuits: As shown in the figure, a circuit consists of a resistor R=17...
Part A LR Circuits: As shown in the figure, a circuit consists of a resistor R=17 in series with an ideal inductor L= 49 H having no resistance. At time t=0 s, there is a 12-A current in the circuit. At that instant, what is the rate of change of the current? Loooo 0 -19 A/S 0 12 Ao O 35 A/S O -4.2 Als -27 As
In the circuit shown in the figure below, let L = 4.70 H, R = 4.20...
In the circuit shown in the figure below, let L = 4.70 H, R = 4.20 s, and ε = 120 V. What is the self-induced emf 0.200 s after the switch is closed? 225.6 * V What is the equation for the current as a function of time in this circuit? R Need Help? Read It Watch It
1 4.4-1 The circuit shown in Fig. P4.4-1 has system function given by H(S) = Let R= 2 and 1+RCS C = 3 and use Laplace transform techniques to solve the following. (a) Find the output y(t) given an initial capaci- tor voltage of y(0%) =3 and an input x(t) u(t). (b) Given an input x(t) = u(t – 3), determine the initial capacitor voltage y(0%) so that the output y(t) is 1 volt at t = 6 seconds. =...
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving for the transfer function find how each stage behaves versus frequency o 2) Using this information find how the total circuit behaves versus frequency 2) Find the transfer function for each stage 3) Find the transfer function of the total circuit 4) Plot the |H(jo) 2 as a cascade Av R4 R1 ww Vin Vout R3 Ov Stage II Stage II Stage...
Question 1 An electronic circuit is shown in Figure 1. In order to simulate the circuit, a transfer function is needed. a) Is this an open loop or closed loop process? Justify your answer. (3 marks) b) Find the transfer function V.(s) for the electrical network shown in Figure 1. V:(s) (10 marks) c) What is the order of the process? (2 marks) d) Determine the roots of the transfer function and comment on the stability of the process. (5...
1. Connect the circuit shown in Figure 23. The values of the resistors are given below in Table and the source voltage (vs) is 20 V. Ri R4 R5 Figure 23 - General Resistive Circuit R 4.7 ko Rz 15 k22 | Rz 10 k R4 22 ke | Rs 6.8 ko Table 6 - Values of Resistors 2. Calculate all the component currents (i, through is), all the component voltages (Vị through vs) using circuit theories you have learned...
1. Kirchoff's Rules See Figure 1. The circuit consists of two batteries and five resistors. The terminal voltage of each battery is specified and the resistance value of each resistor is given. Find the potential difference Vab, that is, V- Va. 2. Electric Potential R -1. R24 Ryan cizut Voilor R,= R₂:22 R₂=R4 = 4.2 Rs = 3.0 V. - 5 V, 20v Figure 1 Figure 4 C, C-1 uf Ccy 2uF V-10v Figure 5 Figure 2 Figure 6 C-2...
Problem 4.14 The circuit shown in figure(Figure 1)is a dc model of a residential power distribution circuit. Use the node- voltage method to find the branch currents ij - in if R1 = 2.022, R2 = 4.022, R3 = 2.012, R4 = 12.02, Rs = 24.0 2, R6 = 48.0 22 Part A Find the value of j. Express your answer with the appropriate units. IT HÅ ? i = Value Units Submit Request Answer Parte Find the value of...
who can solve this problem? thanks
Problem 3: Chain rule and circuit design Consider the circuit in the below figure. You can as me zero initial conditions. t WW-어 2R L stage 1 stage 3 stage 4 stage 2 Part I: Redraw the above circuit in the s-domain and compute the transfer functions Ti(s), T(s). Tfs), Tds) of each one stages Part II: Somebody with a rusty recollection of linear circuits analyzed the above circuit and concluded that the transfer...
help with these three
<Chapter 23 Problem 23.55 < 8 of 1 RE The circuit shown in the figure (Figure 1) consists of a 5.1- V battery, a 32-mH inductor, and four 58-22 resistors. Part A Find the characteristic time for this circuit. Express your answer using two significant figures. IV AX O ? Figure < 1 of 1 > Submit Request Answer pa0000 Part B What is the current supplied by this battery two characteristic time intervals after closing...
Part A LR Circuits: As shown in the figure, a circuit consists of a resistor R=17 in series with an ideal inductor L= 49 H having no resistance. At time t=0 s, there is a 12-A current in the circuit. At that instant, what is the rate of change of the current? Loooo 0 -19 A/S 0 12 Ao O 35 A/S O -4.2 Als -27 As
In the circuit shown in the figure below, let L = 4.70 H, R = 4.20 s, and ε = 120 V. What is the self-induced emf 0.200 s after the switch is closed? 225.6 * V What is the equation for the current as a function of time in this circuit? R Need Help? Read It Watch It
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