V1 = 40∠10 ° V2 = 50∠35 ° R = 45 Ω XL = 45 Ω XC = 40 Ω Zload = 10 Ω Using Thevenin Theorem, search for : i. voltage drop across the load ii. Load current, ILOAD. iii. Voltage, VXL and current, IXL of inductor, XL.
V1 = 40∠10 ° V2 = 50∠35 ° R = 45 Ω XL = 45 Ω XC = 40 Ω Zload = 10 Ω Using Thevenin Theorem, search for : i. voltage drop across the load ii. Load current, ILOAD. iii. Voltage, VXL and current, IXL of inductor, XL.
Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter2: Fundamentals
Section: Chapter Questions
Problem 2.8P: Consider the circuit shown in Figure 2.23 in time domain. Convert the entire circuit into phasor...
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V1 = 40∠10 °
V2 = 50∠35 °
R = 45 Ω
XL = 45 Ω
XC = 40 Ω
Zload = 10 Ω
Using Thevenin Theorem, search for :
i. voltage drop across the load
ii. Load current, ILOAD.
iii. Voltage, VXL and current, IXL of inductor, XL.
iv. Voltage, VXC and current, IXC of capacitor, XC.
v. Time domain representation of load voltage and load current.
vi. Time domain representation of voltage and current, for capacitor and inductor.
vii. The sinusoidal waveforms for part (v) and (vi)
viii. The value of load, ZMAX that shall replace the existing load in order to get maximum average power transfer.
ix. Calculate the maximum average power that will be transferred to load when load is replaced with ZMAX
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