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Lecture 10: Inductance & Capacitance Nilsson 6.1-6.5. ENG17 (Sec. 1): Circuits I Summer 1 2014. July 8, 2014. Overview. Inductors Capacitors Series-Parallel L/C Mutual Inductance Self Inductance Energy Stored. Inductance in the Real World. What Does an Inductor Look Like?.
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Lecture 10: Inductance & CapacitanceNilsson 6.1-6.5 ENG17 (Sec. 1): Circuits I Summer 1 2014 July 8, 2014
Overview • Inductors • Capacitors • Series-Parallel L/C • Mutual Inductance • Self Inductance • Energy Stored
What Does an Inductor Do? • Inductor: electrical component that opposes any change in electrical current • Associates electrical current and magnetic fields • Magnetic field generated by charge in motion(i.e., current) • If current changes wrt time, mag field changes wrt time • Varying mag field results in voltage in linked conductor
Add’l Note • Inductors can store energy through the mag fields • Used in spark plugs • Inductors do not generate energy, so they are still passive devices
Inductors in Circuits Symbol: L Units: [H] for henrys = [Wb/A]
Overview • Inductors • Capacitors • Series-Parallel L/C • Mutual Inductance • Self Inductance • Energy Stored
What Does a Capacitor Do? • Capacitor: electrical component that consists of 2 conductors separated by dielectric • “Stores” electric charge (like a battery) • Associated with electric fields, due to separation of charge (voltage) • If voltage varies with time, E-field varies with time • Varying E-field generates displacement current in space occupied by field • Capacitance relates displacement current to voltage
Capacitors in Circuits Symbol: C Units: [F] for farads = [C/V]
Example Obtain the energy stored in each capacitor under DC conditions.
Example Under DC conditions, find i, vc, and iL. Also, find the energy stored in the capacitor and inductor.
Overview • Inductors • Capacitors • Series-Parallel L/C • Mutual Inductance • Self Inductance • Energy Stored
Inductors Series-Parallel Parallel Series
Capacitors Series-Parallel Parallel Series
Overview • Inductors • Capacitors • Series-Parallel L/C • Mutual Inductance • Self Inductance • Energy Stored
Overview • Inductors • Capacitors • Series-Parallel L/C • Mutual Inductance • Self Inductance • Energy Stored
Overview • Inductors • Capacitors • Series-Parallel L/C • Mutual Inductance • Self Inductance • Energy Stored
Recap • Inductors • Capacitors • Series-Parallel L/C • Mutual Inductance • Self Inductance • Energy Stored