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2. H(s)Vo/v, for the circuit shown in Figure P9-12. 1 ΜΩ Figure P9-12 2. H(s)Vo/v, for the circuit shown in Figure P9-12. 1 ΜΩ Figure P9-12
For the circuit shown in Figure 1, determine (a) The transfer function H(s) Vo(s)/V(s) 1 (b)....
For the circuit shown in Figure 1, determine (a) The transfer function H(s) Vo(s)/V(s) 1 (b). The impulse response h(t) given that R,-5Q, R2-2Q, L,-1 mH, and L2 = 2 mH Ri L R2 Figure 1.
Find the transfer function Vo(s)/V(s) for the circuit shown in the figure. 1. IH OO00 H...
Find the transfer function Vo(s)/V(s) for the circuit shown in the figure. 1. IH OO00 H w 0000 TH IF IF
12. The ideal op-amp circuit is shown in Figure. Find , and, respectively 2012 30k V+...
12. The ideal op-amp circuit is shown in Figure. Find , and, respectively 2012 30k V+ + Vo un V. 10ko | + 4V 12. The ideal op-amp circuit is shown in Figure. Find V+ ,V_ and vo, respectively. 2022 Vo 30k 2 V+ w V. w 10k2 4V
2. For the circuit shown in Figure 2: (a) (5 points) Calculate the transfer function H(s)-Volo)/V(o)....
2. For the circuit shown in Figure 2: (a) (5 points) Calculate the transfer function H(s)-Volo)/V(o). (b) (5 points) Find vo(t) due to a unit step input using the residue method. (e) (5 points) Find vo(t) due to a unit ramp input using the residue method. (d) (10 points) If v(t) 5/5 cos(2t-33.43499) V, find the steady-state expression for volt). R2 R1 2Ω 2Ω L 2H Volt) С 0.5F
Figure 1 Q 3. For the circuit in figure 2 find Vo/V. (25 Points) R, 2...
Figure 1 Q 3. For the circuit in figure 2 find Vo/V. (25 Points) R, 2 Figure 2 Q4. Design a differentiator circuit as shown in figure 3 to give /u - 10 kHz and Jir- 20 KHZ The pass b (APBI = 25. (25 Points)
Circuit Analysis in the s-Domain 15.3. The initial voltage across the capacitor in the circuit shown in Figure P15.3 is v(0) 1 V, and the initial current through the inductor is i(0)0 mA Find th...
Circuit Analysis in the s-Domain 15.3. The initial voltage across the capacitor in the circuit shown in Figure P15.3 is v(0) 1 V, and the initial current through the inductor is i(0)0 mA Find the voltage vo (t) across the capacitor for t 2 0 Figure P15.3 50 mH 1 kS2 V. Volt) T 0.1 μF The circuit in the s-domain is shown below. R2 Va 1k 0.05s 1/(sC)-1e7/s Vo R1 2k V (0-ys 5/s 1/s 1 format long; 2...
In the voltage-divider circuit shown in the figure, the no-load value of vo is 5 V...
In the voltage-divider circuit shown in the figure, the no-load value of vo is 5 V When the load resistance RI is attached across the terminals a and b, vo drops to 3 V.(Figure 1) PartA Find RL Express your answer with the appropriate units RI-7.28 Submit Previous Answers Request Answer Incorrect, Try Again: One attempt remaining Provide Feedback igure 1 of 1 40Ω 20 V R2 vo
T1.4. The circuit shown in Figure T1.4 has Vs = 12 V, v 2 =4 V,...
T1.4. The circuit shown in Figure T1.4 has Vs = 12 V, v 2 =4 V, and R 1 =42 Figure T1.4 a. Find the values of a. v1; b. i c. R2 T1.5. We are given Vs =15 V, R=10 , and a= 0.3 S for the circuit of Figure T1.5. Find the value of the current i sc flowing through the short circuit. o ar, a=0.35 Figure T1.5
1. Find vo for the circuit shown in Figure 1. 2 k2 2k12 in Fü 2...
1. Find vo for the circuit shown in Figure 1. 2 k2 2k12 in Fü 2 k2 M av © 220 Figure 1. Circuit for problem 1.
10.21 Find Vo in the circuit shown un Fig p10.21 using mesh equations. 2? 2? 12/0...
10.21 Find Vo in the circuit shown un Fig p10.21 using
mesh equations.
2? 2? 12/0 V 2I Figure P10.21
For the circuit shown in Figure 1, determine (a) The transfer function H(s) Vo(s)/V(s) 1 (b). The impulse response h(t) given that R,-5Q, R2-2Q, L,-1 mH, and L2 = 2 mH Ri L R2 Figure 1.
Find the transfer function Vo(s)/V(s) for the circuit shown in the figure. 1. IH OO00 H w 0000 TH IF IF
12. The ideal op-amp circuit is shown in Figure. Find , and, respectively 2012 30k V+ + Vo un V. 10ko | + 4V 12. The ideal op-amp circuit is shown in Figure. Find V+ ,V_ and vo, respectively. 2022 Vo 30k 2 V+ w V. w 10k2 4V
2. For the circuit shown in Figure 2: (a) (5 points) Calculate the transfer function H(s)-Volo)/V(o). (b) (5 points) Find vo(t) due to a unit step input using the residue method. (e) (5 points) Find vo(t) due to a unit ramp input using the residue method. (d) (10 points) If v(t) 5/5 cos(2t-33.43499) V, find the steady-state expression for volt). R2 R1 2Ω 2Ω L 2H Volt) С 0.5F
Figure 1 Q 3. For the circuit in figure 2 find Vo/V. (25 Points) R, 2 Figure 2 Q4. Design a differentiator circuit as shown in figure 3 to give /u - 10 kHz and Jir- 20 KHZ The pass b (APBI = 25. (25 Points)
Circuit Analysis in the s-Domain 15.3. The initial voltage across the capacitor in the circuit shown in Figure P15.3 is v(0) 1 V, and the initial current through the inductor is i(0)0 mA Find the voltage vo (t) across the capacitor for t 2 0 Figure P15.3 50 mH 1 kS2 V. Volt) T 0.1 μF The circuit in the s-domain is shown below. R2 Va 1k 0.05s 1/(sC)-1e7/s Vo R1 2k V (0-ys 5/s 1/s 1 format long; 2...
In the voltage-divider circuit shown in the figure, the no-load value of vo is 5 V When the load resistance RI is attached across the terminals a and b, vo drops to 3 V.(Figure 1) PartA Find RL Express your answer with the appropriate units RI-7.28 Submit Previous Answers Request Answer Incorrect, Try Again: One attempt remaining Provide Feedback igure 1 of 1 40Ω 20 V R2 vo
T1.4. The circuit shown in Figure T1.4 has Vs = 12 V, v 2 =4 V, and R 1 =42 Figure T1.4 a. Find the values of a. v1; b. i c. R2 T1.5. We are given Vs =15 V, R=10 , and a= 0.3 S for the circuit of Figure T1.5. Find the value of the current i sc flowing through the short circuit. o ar, a=0.35 Figure T1.5
1. Find vo for the circuit shown in Figure 1. 2 k2 2k12 in Fü 2 k2 M av © 220 Figure 1. Circuit for problem 1.
10.21 Find Vo in the circuit shown un Fig p10.21 using
mesh equations.
2? 2? 12/0 V 2I Figure P10.21
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