AC circuits: inductive reactance, capacitive reactance...
Transcript of AC circuits: inductive reactance, capacitive reactance...
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AC circuits: inductive reactance, capacitive reactance, impedance and admittance
CHM6158C - Lecture 18
Notes from Gibilisco; Teach Yourself Electricity and Electronics, McGraw-Hill, Chapters 13-15
• voltage-current profiles of L, C, RL, RC and circuits• impedance of RL, RC and RLC circuits
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Inductive reactance (XL)
inductance = property of circuit where change in electric current through the circuit induces an electromotive force that opposes the change in current= …..
Increase AC frequency –what will be the effect?
fLX L 28.6=Inductive reactance:
Inductance (Henrys = Ωs)
Frequency (Hz)
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Examples
• inductance = 0.50 H, frequency = 60 Hz, what is XL?
• for the same circuit as above, we use a battery with 12 VDC, what is XL?
What are the units of XL?
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Voltage-current profile
Current lags driving (source) voltage
For pure inductance circuit For pure resistance circuit
Current in phase with driving (source) voltage
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Inductive reactance and resistance
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Combined inductance and resistance
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Phase angle
Apply Pythagoras to obtain hypotenuse = impedance
sinφ =
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Capacitive reactance (XC)
Similarly to inductance, capacitance has an effect on impedance
By convention, capacitive reactance is expressed as a negative ohmic value
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AC and capacitance
What is the voltage-current profile going to look like?
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Current leads voltage
)28.6/(1 fCXC −=Capacitive reactance:
FHz
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Inverse relationship
Intuitive understanding:Larger C ⇒ more movement of charge ⇒ smaller resistanceHigher f ⇒ more movement of charge ⇒ approach short-circuit
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Examples
• capacitor = 0.001 μF, frequency = 1 MHz, what is XC?
• for the same circuit as above, we use a battery with 12 VDC, what is XC?
For the second question, what this mean for transmission on DC across a capacitor?
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Combined capacitive reactance and resistance
Work out phase angle
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Impedance
Impedance (Z) = resistance to AC current, composed of resistance, inductive reactance and capacitive reactance
Inductive reactance
Capacitive reactance
Resistance
Absolute value of impedance
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RLC in-series circuit
Examples:
• R = 50 Ω, XL = 22 Ω, XC = -33 Ω
• R = 50 Ω, XL = 444 Ω, XC = -444 Ω
Z = R + j(XL + XC)
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Inverse definitions
DC circuit
Resistance (R) ≠ conductance (G)
AC circuit
Impedance (Z) ≠ admittance (Y)
Reactance (X) ≠ susceptance (B)
BUT, note sign inversion for imaginary numbers:BC = 1/XC, but due to imaginary numbers:
jBC = -j/XC
Example:
XC = 10 Ω, what is jBC?
jBC = 1/(j10) = (1/j)(1/10) = -j 0.1
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RLC in-parallel
GB planeY = G + j(BL + BC)
Example:• G = 0.1 Siemens, BL = -j0.010, BC = j0.020