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Kevin D. Donohue, University of Kentucky1 Energy Storage Elements Capacitance/Inductance and RC Op Amp Circuits.

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Presentation on theme: "Kevin D. Donohue, University of Kentucky1 Energy Storage Elements Capacitance/Inductance and RC Op Amp Circuits."— Presentation transcript:

1 Kevin D. Donohue, University of Kentucky1 Energy Storage Elements Capacitance/Inductance and RC Op Amp Circuits

2 Kevin D. Donohue, University of Kentucky2 Energy Storage in Electric Circuits Analogous to a spring storing the energy used to compress it or a flywheel storing the energy used rotate it …  a capacitor can store energy in an electric field from the voltage used to move charge into it.  An inductor can store the energy in a magnetic field from the current used to create lines of flux around it. L +v(t)-+v(t)- i(t)i(t) C +v(t)-+v(t)- i(t)i(t)

3 Kevin D. Donohue, University of Kentucky3 Examples Solve for voltages, currents, charge, power, and energy in simple circuits containing inductors and capacitors.

4 Kevin D. Donohue, University of Kentucky4 Ideal and Practical Models  What happens if current changes instantaneously in an ideal inductor?  What happens if voltage changes instantaneously in a ideal capacitor?  What would be an equivalent model for an ideal inductor in a DC circuit?  What would be an equivalent model for an ideal capacitor in a DC circuit?

5 Kevin D. Donohue, University of Kentucky5 Ideal and Practical Models  A small amount of current leaks through the dielectric in an actual capacitor. A practical model can be constructed from 2 ideal lumped-parameter models  The coils used to construct an inductor may have a significant resistance component. A practical model can be constructed from 2 ideal lumped- parameter models C R leak L

6 Kevin D. Donohue, University of Kentucky6 Capacitor Combinations  Series capacitors can be combined according to the following formula:  Parallel capacitors can be combined according to the following formula: C1C1 C2C2 CNCN C eq C1C1 C2C2 CNCN   … …

7 Kevin D. Donohue, University of Kentucky7 Inductor Combinations  Series inductors can be combined according to the following formula:  Parallel inductors can be combined according to the following formula: L1L1 L2L2 LNLN L eq L1L1 L2L2 LNLN   … …

8 Kevin D. Donohue, University of Kentucky8 Examples Simplify circuits with series and parallel combinations of inductor and capacitors.

9 Kevin D. Donohue, University of Kentucky9 Application - Integrator Circuit Show that this circuit integrates the input signal v s (t) according to the equation below for time greater than 0: +vo(t)-+vo(t)- vs(t)vs(t) R C

10 Kevin D. Donohue, University of Kentucky10 Application - Differentiator Circuit Show that this circuit differentiates the input signal v s (t) according to the equation below: +vo(t)-+vo(t)- vs(t)vs(t) R C

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