the defining equations for analyzing a two-port network using
the y parameters are:
The defining equations for analyzing a two-port network using the y parameters are:
(3) Use LTSPice to obtain the y parameters for the resistive network shown in Figure 11.7 (4) Using the defining expressions for the y parameters, compute the currents I, and I which should flow in the network of Figure 11.7 if port voltages of Vi 5 VDC and V2- 15 VDC are applied. (5) Use LTSPice to confirm your calculations from step (4) VW FIGURE 11.7 Resistive two-port network for Prelab and Procedure (3) Use LTSPice to obtain the y...
Assume a two port network with Zo source impedance which has ideal S-parameters: S11, S12, S21, and S22. If Port #2 has a (i) Load, ZL, (ii) Open circuit and (iii) Short circuit, derive new S11-parameter values for these three cases. *RF system
Problem2. (20 points) A. Find the y-parameters for the two-port network given below. (16 points) 31 A 40 VI V2 B. Find the z-parameter z" and z12 in Ω for the circuit below and circle the correct answer: Show your work) (4 points) + I 1S2 3Ω -12 Vi 252 a) 2 b 3. 3.- 2. 3.2f. g 3,3
Design a two-port network using diodes (a diode waveform shaping circuit) that would result in the following transfer function. Slope 1 Vi -4.7 V 1.4V Slope Assume you have access to PN junction diodes with VDo 0.7 V and Zener diodes with Vz4V. You can use DC voltage sources and any other circuit elements in your design, but you must use Zener diode(s) in your design.
Problem # 2: Induction Motor Analysis Using The Thevenin Theorem [37 points] A three-phase, two pole, 25hp, 460V (line-line), 60Hz, wye-connected, squirrel-cage induction motor has the following per-phase parameters: Ri 0.53 Ohm X2 0.80 Ohm Xi 1.80 Ohms R2 0.30 Ohm Re- 400 Ohms Xm 25.0 Ohms You cannot use any approximate circ uit or any approximation in the calculations. (1) Determine the parameters of the Thevenin equivalent circuit. Draw the equivalent circuit with the appropriate parameter values indicated on...
Please show all the clearly step Y11 ist j30 and Y44 isnt -j12.85 Consider the 4-bus power system shown in Fig. 1. The system parameters are given below: 50 MVA, 20 kV, X-2090 40 MVA, 20 kV, X-20%, X, = 5% 50 MVA, 20 kV Δ /110 kV Ý, X= 1090 50 MVA, 20 kV MI 10 kV Ý, X= 10% Xi-24.2 Ω Generator G: Motor M: Transformer T1 : Transformer T2 : Transmission line: 3 4 T2 nu)M Fig....
Questions and answers are here, need solution process. 3. a) For the circuit shown in Figure Q3 (a): i) Find the mathematical expression for the transient behaviour of the voltage 6 vc across the capacitor and the current ic when the switch is moved into position 1 at t- 0 s ii) Find the mathematical expression for the response of vc and ic if the switch 4 is moved into position 2 at t charging phase) τ (where τ is...
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...
Answer A & B & C as fast as u can 1. The amplifie parameters for each transistor and circuit components are given in the figure, 100 for both Q1 and Q2, and VeEVEe 0.7V. VA 200V for Q1, and VAo for r of the following figure consists of two CE amplifiers connected in cascade. The consider the β and capacitor is very large. (120 pts) RI V. Q2 -4V culate corresponding DC currents (U-) and DC voltages (V-Vs) through...
Please show all work and equations needed to solve for the theoretical values. Problem 12 (lab) Determine the equivalent resistance of the circuit, the current through each resistor, and the corresponding voltage drop. Simulate the circuit using PHET's Circuit Construction Kit Determine the percent error in the current and voltage values obtained, treating the PHET values as experimental. 50.0 V mu 14.012 m. 7.00 12 27.00 S2 14.012 M 10.012