A single-phase source is applied to a two-terminal, passive circuit with equivalent impedance Z = 3.0 ∠ − 45 ° Ω , measured from the terminals. The source current is i ( t ) = 2 2 cos ( ω t ) kA . Determine the (a) instantaneous power, (b) real power, (c) reactive power delivered by the source, and (d) source power factor.
A single-phase source is applied to a two-terminal, passive circuit with equivalent impedance Z = 3.0 ∠ − 45 ° Ω , measured from the terminals. The source current is i ( t ) = 2 2 cos ( ω t ) kA . Determine the (a) instantaneous power, (b) real power, (c) reactive power delivered by the source, and (d) source power factor.
Solution Summary: The author explains the instantaneous power, the equivalent impedance, and the expression for the polar form.
A single-phase source is applied to a two-terminal, passive circuit with equivalent impedance
Z
=
3.0
∠
−
45
°
Ω
, measured from the terminals. The source current is
i
(
t
)
=
2
2
cos
(
ω
t
)
kA
. Determine the (a) instantaneous power, (b) real power, (c) reactive power delivered by the source, and (d) source power factor.
Title: Modelling and Simulating Boost
Converter Battery Charging Powered by PV
Solar
Question:
I need a MATLAB/Simulink model for a
Boost Converter used to charge a battery,
powered by a PV solar panel. The model
should include:
1. A PV solar panel as the input power
source.
2. A Boost Converter circuit for voltage
regulation.
3. A battery charging system.
4. Simulation results showing voltage,
current, and efficiency of the system.
Please provide the Simulink file and any
necessary explanations.
Please answer
Please solve
Chapter 2 Solutions
MindTap Engineering, 1 term (6 months) Printed Access Card for Glover/Overbye/Sarma's Power System Analysis and Design, 6th
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