Consider the circuit in Figure 6 with terminals A and B. It consists of an ideal voltage source Vs and a voltage control

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Consider The Circuit In Figure 6 With Terminals A And B It Consists Of An Ideal Voltage Source Vs And A Voltage Control 1 (33.35 KiB) Viewed 17 times

Consider the circuit in Figure 6 with terminals A and B. It consists of an ideal voltage source Vs and a voltage controlled current source (VCCS) 0.5V.. where Vy is the voltage across resistor R You are asked to find the Norton equivalent circuit for the circuit in Figures Given resistors R1 = 40R = 40, R = 20 and an ideal voltage source Vs. where Vs = (X8+1) eg. if X8 = 4, Vs (4+1) SV. R1 R2 R3 0.5 V Figure 06 (a) Use the nodal voltage analisis to find the open-circuit voltage Voc between nodes A and B of the circuit. Show all your computations. Redraw the circuit shown in Figure 6 and label it ready for nodal voltage analysis (2 marks) Apply Kirchhoffs current law at the corresponding nodes (2 marks) (i) Express the currents in terms of node voltages. 3 marks) (IV) Determine the nude voltages and hence find Voc (4 marks) ELEC SZOF Final Project (2022) Page of 14 (b) Build your circuit in Figure Q6 with ORCAD. Using OrCAD to find the short-circuit current Ise across the terminals A and B of the circuits. You need to submit your schematics and Output file in pdf format (7 marks) Calculate the Norton equivalent resistance Rx of the circuit (2 marks) (c)