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Chapter 5: CAPACITANCE and INDUCTANCE

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Presentation on theme: "Chapter 5: CAPACITANCE and INDUCTANCE"— Presentation transcript:

1 Chapter 5: CAPACITANCE and INDUCTANCE
Capacitors Inductors Capacitor Inductor Combinations

2 Review So far, we have talked about two kinds of circuit elements:
Sources (independent and dependent) active, can provide power to the circuit. Resistors passive, can only dissipate power.

3 Energy Storage Elements
Capacitors store energy in an electric field Inductors store energy in a magnetic field Capacitors and inductors are passive elements: Can store energy supplied by circuit Can return stored energy to circuit Cannot supply more energy to circuit than is stored Voltages and currents in a circuit with energy storage elements are solutions to linear, constant coefficient differential equations!

4 For Practical Solutions
Practicing engineers almost never solve the differential equations directly. Instead, they use: LaPlace transforms (covered in EEE 302) AC steady-state analysis These techniques covert the solution of differential equations into algebraic problems-circuit analysis.

5 Example Applications Capacitors and inductors are used to build filters and amplifiers with desired frequency responses: RF and IF amplifiers in a superhetrodyne receiver Instrumentation amplifiers Capacitors are used in A/D converters to hold a sampled signal until it can be converted into bits Integrated circuits have layers of conductors (metal, silicon with impurities) with insulators (glass) between. This is a capacitor! This capacitance is one of the limiting factors in processor speeds This capacitance is used to create RAM’s

6 Capacitance Capacitance occurs when two conductors (plates) are separated by a dielectric (insulator). Charge on the two conductors creates an electric field that stores energy. The voltage difference between the two conductors is proportional to the charge: q = C v The proportionality constant C is called capacitance. Units of Farads (F) - C/V

7 Capacitors i(t) + - v(t) The rest of the circuit

8 Capacitors (cont’d) Energy stored:

9 Example i(t) The rest of the circuit + 0.2F v(t) - t i(t) 1A -1A 1s 2s

10 Example (cont’d) t v(t) 5V 1s 2s wc(t) 2.5J 2s 1s t

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