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ECE 201 Circuit Theory I1 Self - Inductance Faraday postulated that a magnetic field consists of lines of force surrounding the current-carrying conductor.

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Presentation on theme: "ECE 201 Circuit Theory I1 Self - Inductance Faraday postulated that a magnetic field consists of lines of force surrounding the current-carrying conductor."— Presentation transcript:

1 ECE 201 Circuit Theory I1 Self - Inductance Faraday postulated that a magnetic field consists of lines of force surrounding the current-carrying conductor. Think of these lines as elastic bands that close on themselves. As the current increases and decreases, the bands expand and collapse about the conductor.

2 ECE 201 Circuit Theory I2 Self – Inductance continued Expand for increasing magnetic field (due to increasing current). Compress for decreasing magnetic field (due to decreasing current). Faraday’s Law : the voltage induced into the conductor is proportional to the number of lines that cut the conductor.

3 ECE 201 Circuit Theory I3 Faraday’s Law λ is called the “flux linkage” and is measured in weber-turns

4 ECE 201 Circuit Theory I4 Magnetic field linking an N-turn coil

5 ECE 201 Circuit Theory I5 Permeance, P Permeance describes the magnetic properties of the space occupied by the flux. Linear for non-magnetic materials Units are webers/ampere-turn.

6 ECE 201 Circuit Theory I6 Self - Inductance

7 ECE 201 Circuit Theory I7 Voltage Polarity When i increases, di/dt is + and v is +. –Energy produces the magnetic field

8 ECE 201 Circuit Theory I8 Voltage Polarity When i decreases, di/dt is - and v is -. –i is still + –Magnetic field collapses - +

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