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l H ine the b-parameters of the 2. Determ two-port circuit shown Use these parameters to...
3. (a) Find the h-parameters for the 2-port network shown in Figure 3. (b) Obtain the...
3. (a) Find the h-parameters for the 2-port network shown in Figure 3. (b) Obtain the impedance Z111(s) between the terminal 1-1' when Z1 Z2 = Z3 = 1 and Z4 = 1 and a resistor R= 1N is connected between the terminals 2-2. I I, 1 2 + + V, ZA v 12 "I 2 23 Figure 3.
Use the Method Below 1. Use the method presented in lecture (matched source on one side; matched load on the other) to...
Use the Method Below
1. Use the method presented in lecture (matched source on one side; matched load on the other) to determine the scattering parameters of the normalized two-port circuit below. Calculate the scattering parameters of the circuit below when used in a 50 2 system 50 Ω 100 Ω Sol: we first normalize the impedance values of the circuit to 50 Ω . To find the scattering parameters Si and S1, attach a matched source to port 1...
Use MATLAB simulink 6.8 An RLC circuit with a parallel bypass resistor (Problems 3.10 and 5.11)...
Use MATLAB simulink
6.8 An RLC circuit with a parallel bypass resistor (Problems 3.10 and 5.11) is shown in Fig. P6.8. At time t-0 the circuit has zero current in both loops and the capacitor C has a stored charge of 0.01 C. The system parameters are R1 = 0.4 Ω, R2-0.2 Ω, C = 0.04 F, and L = 0.01 H. Use Simulink to obtain the system response where the source voltage is a sinusoidal function, en()0.5 sin 10t...
In a series R-L-C circuit, L = 0.190 H , C = 84.5 μF and the...
In a series R-L-C circuit, L = 0.190 H , C = 84.5 μF and the voltage amplitude of the source is 290 V . Part A What is the resonance angular frequency of the circuit? ω0 = rad/s SubmitMy AnswersGive Up Part B When the source operates at the resonance angular frequency, the current amplitude in the circuit is 0.610 A . What is the resistance R of the resistor? R = Ω SubmitMy AnswersGive Up Part C At...
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5...
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5 H ist andRI = 4 Ω and R2=2Q. (i) Compute the transfer function. (ii) Compute the COMPLETE range of for which the circuit is BIBO stable. R2 out C : 0.25 F. Compute H(s)-out ) Determ ne the complete range of m for which Vin(s) (b) Let R= 2 Ω the circuit is BIBO stable in out mvtt) out
Question 1 For the circuit shown in figure 1; i. Find the transfer impedance function, H(s)...
Question 1 For the circuit shown in figure 1; i. Find the transfer impedance function, H(s) = Vds(s) Find the poles and zeros for this transfer function and plot them on the s - Find the magnitude of the transfer function in decibels. [10] s-plane [8] ii [3] 2H 20 20 2 H Figure Question 2 The hybrid parameters (h-parameters) for the two -port network circuit in figure 2 are; 5 h=2 0.05 Find the equivalent impedance parameters (z-parameters) Find...
In a series R-L-C circuit, L = 0.215 H , C = 82.5 μF and the...
In a series R-L-C circuit, L = 0.215 H , C = 82.5 μF and the voltage amplitude of the source is 260 V . 1)What is the resonance angular frequency of the circuit? 2)When the source operates at the resonance angular frequency, the current amplitude in the circuit is 0.595 A . What is the resistance R of the resistor? 3)At the resonance frequency, what are the peak voltages across the inductor, the capacitor, and the resistor?
Name: Section: Jan. 31, 2018 1. Consider the circuit shown in figure 1 (a) Write the...
Name: Section: Jan. 31, 2018 1. Consider the circuit shown in figure 1 (a) Write the mesh-current equations for the circuit. DO NOT SOLVE. (b) Write the node.voltage equations for the cireuit. DO NOT SOLVE 2. Consider the circuit shown in figure 2. The sinusoidal source is v,(04 sin (100t+90) volts (a) Transform the circuit to the frequency domain. (b) Use phasors with the mesh-current method to find the steady state expression for i(t). (c) Find the average power absorbed...
8 H 2 Q iL Vs (t 22 1. vs (t) 2 V; this is a...
8 H 2 Q iL Vs (t 22 1. vs (t) 2 V; this is a dc source. Solve using a simple circuit analysis method 2. Us (t) 2u (t) V; solve by writing and solving the differential equation for the circuit, as in Ch. 8. You = = 0 for t0. can assume that ir 2u (t) V; solve using the Thévenin method, as in Ch. 8. You can assume that i, = 0 for t< 0. 3. vg...
PLEASE HELP! Jan. 31, 2018 Name: Section: I. Consider the circuit shown in figure (a) Write...
PLEASE HELP!
Jan. 31, 2018 Name: Section: I. Consider the circuit shown in figure (a) Write the mesh-current equations (b) Write the for the circuit. D。~of SOL the circuit DO NOT SOLVE shown in figure 2. The sinusoidal source is the circuit to the frequency domain er the circuit (a) Transto with the mesh-current method to find thement (b) Use phasors with the mesh (c) Find the average power absorbed source is 、dt) = 2 sin (100t + 90") volts....
3. (a) Find the h-parameters for the 2-port network shown in Figure 3. (b) Obtain the impedance Z111(s) between the terminal 1-1' when Z1 Z2 = Z3 = 1 and Z4 = 1 and a resistor R= 1N is connected between the terminals 2-2. I I, 1 2 + + V, ZA v 12 "I 2 23 Figure 3.
Use the Method Below
1. Use the method presented in lecture (matched source on one side; matched load on the other) to determine the scattering parameters of the normalized two-port circuit below. Calculate the scattering parameters of the circuit below when used in a 50 2 system 50 Ω 100 Ω Sol: we first normalize the impedance values of the circuit to 50 Ω . To find the scattering parameters Si and S1, attach a matched source to port 1...
Use MATLAB simulink
6.8 An RLC circuit with a parallel bypass resistor (Problems 3.10 and 5.11) is shown in Fig. P6.8. At time t-0 the circuit has zero current in both loops and the capacitor C has a stored charge of 0.01 C. The system parameters are R1 = 0.4 Ω, R2-0.2 Ω, C = 0.04 F, and L = 0.01 H. Use Simulink to obtain the system response where the source voltage is a sinusoidal function, en()0.5 sin 10t...
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5 H ist andRI = 4 Ω and R2=2Q. (i) Compute the transfer function. (ii) Compute the COMPLETE range of for which the circuit is BIBO stable. R2 out C : 0.25 F. Compute H(s)-out ) Determ ne the complete range of m for which Vin(s) (b) Let R= 2 Ω the circuit is BIBO stable in out mvtt) out
Question 1 For the circuit shown in figure 1; i. Find the transfer impedance function, H(s) = Vds(s) Find the poles and zeros for this transfer function and plot them on the s - Find the magnitude of the transfer function in decibels. [10] s-plane [8] ii [3] 2H 20 20 2 H Figure Question 2 The hybrid parameters (h-parameters) for the two -port network circuit in figure 2 are; 5 h=2 0.05 Find the equivalent impedance parameters (z-parameters) Find...
Name: Section: Jan. 31, 2018 1. Consider the circuit shown in figure 1 (a) Write the mesh-current equations for the circuit. DO NOT SOLVE. (b) Write the node.voltage equations for the cireuit. DO NOT SOLVE 2. Consider the circuit shown in figure 2. The sinusoidal source is v,(04 sin (100t+90) volts (a) Transform the circuit to the frequency domain. (b) Use phasors with the mesh-current method to find the steady state expression for i(t). (c) Find the average power absorbed...
8 H 2 Q iL Vs (t 22 1. vs (t) 2 V; this is a dc source. Solve using a simple circuit analysis method 2. Us (t) 2u (t) V; solve by writing and solving the differential equation for the circuit, as in Ch. 8. You = = 0 for t0. can assume that ir 2u (t) V; solve using the Thévenin method, as in Ch. 8. You can assume that i, = 0 for t< 0. 3. vg...
PLEASE HELP!
Jan. 31, 2018 Name: Section: I. Consider the circuit shown in figure (a) Write the mesh-current equations (b) Write the for the circuit. D。~of SOL the circuit DO NOT SOLVE shown in figure 2. The sinusoidal source is the circuit to the frequency domain er the circuit (a) Transto with the mesh-current method to find thement (b) Use phasors with the mesh (c) Find the average power absorbed source is 、dt) = 2 sin (100t + 90") volts....
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