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Chapter 6 RL and RC Circuits. Inductors and Capacitors Energy Storage Components Voltages and currents are related through calculus rather than ohm’s.

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Presentation on theme: "Chapter 6 RL and RC Circuits. Inductors and Capacitors Energy Storage Components Voltages and currents are related through calculus rather than ohm’s."— Presentation transcript:

1 Chapter 6 RL and RC Circuits

2 Inductors and Capacitors Energy Storage Components Voltages and currents are related through calculus rather than ohm’s law – But KCL and KVL always apply at each instant Resistors gave us static circuit behavior Now we have dynamic currents and voltages changing over time You may find a plotting calculator, or MATLAB to be very helpful in visualizing the variables

3 How they work Inductor—Wire wrapped around magnetic core, current flow induces magnetic field, which dynamically induces voltage drop Capacitor—Two metal plates separated by a film, voltage applied causes “displaced current” to accumulate on plates

4 Energy is stored Inductors store energy – Coil (inductor) in your car fires spark plugs at right moment Capacitors store energy – Capacitor in your camera stores energy from batteries to fire flashbulb when picture is taken. They can only release what has been stored – Can’t generate energy – They are passive components similar to resistors

5 R, L, C Comparison

6 5.1 Inductors A time-varying current source is applied across an inductor. Using the basic mathematical model, – What is the resulting voltage across the inductor vs time? – What is the power, energy, etc, vs time? – What if a time-varying voltage source is used instead? – To solve—determine which formula applies, then apply it.

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13 5.2 Capacitors A time-varying voltage source is applied across a capacitor. Using the basic mathematical model, – What is the resulting current across the capacitor vs time? – What is the power, energy, etc, vs time? – What if a time-varying current source is used instead? – To solve—determine which formula applies, then apply it.

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24 Series and Parallel combinations Inductors are like resistors as far as series and parallel combinations Capacitors are the opposite of resistors in terms of how they combine

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32 5.4 Natural Response These are circuits that have been “charged up” by an external source, which is removed at t=0 We simply calculate the dissipation of the stored energy into the rest of the circuit

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