Lecture Notes 9_Reactive

# 1 analysis of circuits 2013 3717 1 l1 1 1 l 2

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Unformatted text preview: 1 dt + L2 dt di = (L1 + L2 ) dt Same equation as a single inductor of value L1 + L2 • Current/Voltage Continuity • Average Current/Voltage • Buck Converter • Power and Energy • Summary di dt = = v= d(i1 +i2 ) = di1 + di2 dt dt dt v 1 1 v L1 + L2 = v L1 + L2 1 di 1 dt 1 L +L 1 E1.1 Analysis of Circuits (2013-3717) 2 Capacitors and Inductors: 9 – 6 / 12 Series and Parallel Inductors 9: Capacitors and Inductors • Capacitors • Types of Capacitor • Inductors • Passive Components • Series and Parallel Inductors • Series and Parallel Capacitors di di v = v1 + v2 = L1 dt + L2 dt di = (L1 + L2 ) dt Same equation as a single inductor of value L1 + L2 • Current/Voltage Continuity • Average Current/Voltage • Buck Converter • Power and Energy • Summary di dt = = v= d(i1 +i2 ) = di1 + di2 dt dt dt v 1 1 v L1 + L2 = v L1 + L2 1 di 1 dt 1 L +L 1 2 Same as a single inductor of value E1.1 Analysis of Circuits (2013-3717) 1 L1 1 1 +L 2 Capacitors and Inductors: 9 – 6 / 12 Series and Parallel Inductors 9: Capacitors and Inductors • Capacitors • Types of Capacitor • Inductors • Passive Components • Series and Parallel Inductors • Series and Parallel Capacitors di di v = v1 + v2 = L1 dt + L2 dt di = (L1 + L2 ) dt Same equation as a single inductor of value L1 + L2 • Current...
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## This document was uploaded on 02/20/2014 for the course EE 101 at WVU.

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