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Transcript
Chapter 16 Inductive AC Circuits • Objectives – After completing this chapter, the student should be able to: • Describe the phase relationship between current and voltage in an inductive AC circuit. • Determine the inductive reactance in an AC circuit. • Explain impedance and its effect on inductive circuits. • Describe how an inductor-resistor network can be used for filtering and phase shifting. • Explain how low-pass and high-pass inductive circuits operate. • Inductance in AC circuits – Inductors offer opposition to current flow. • Voltage placed across an inductor creates a magnetic field. • When AC voltage changes polarity, it causes the magnetic field to expand and collapse. • Voltage is induced in the inductor coil called a counter-electromotive force (CEMF). • CEMF – 180 degrees out of phase with the applied voltage. – Opposes the applied voltage. – Opposition is as effective in reducing current flow as a resistor. • Inductive reactance – The opposition offered to current flow by an inductor. – Measured in ohms. – Depends on its inductance and the frequency of the applied voltage. – Expressed by the symbol XL. • The formula for determining inductive reactance is: where: XL= 2fL = pi or 3.14. f = frequency in hertz. L = inductance in henries. • Applications of inductive circuits – Inductors are widely used in electronics. • Compete with capacitors for filtering and phase shift applications. – Inductors have fewer applications than capacitors because they are: • larger. • heavier. • more expensive. • Inductors provide a reactive effect while still completing a DC circuit path. • Capacitors provide a reactive effect, but block the DC elements. • Inductors and capacitors are sometimes combined to improve the performance of a circuit. • Series RL networks are used as high- and low-pass filters. • The frequency above or below the frequencies passed or attenuated is called the cut-off frequency. – Symbol is fco. – Can be determined by the formula: R C 2 fL where fco = cut-off frequency in hertz. R = resistance in ohms. = 3.14. f = frequency in hertz. L = inductance in henries. • In Summary – In a pure inductive circuit, the current lags the applied voltage by 90 degrees. – Inductive reactance • the opposition to current flow offered by an inductor in an AC circuit. • symbol is XL. • measured in ohms. • Formula: XL = 2fL. • Impedance • RL circuits used for: – High-pass filters. – Low-pass filters.
