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Lesson 16 Inductors Transient Analysis

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Inductors Transient Analysis Learning Objectives Calculate inductor voltage and current as a function of time. Explain inductor DC characteristics. – PowerPoint PPT presentation

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Title: Lesson 16 Inductors Transient Analysis


1
Lesson 16Inductors Transient Analysis
2
Learning Objectives
  • Calculate inductor voltage and current as a
    function of time.
  • Explain inductor DC characteristics.

3
Inductor Charging
  • Inductor Oppose Changes (Choking effects)
  • Inductor is initially fully discharged
  • acts like a open circuit
  • When switch is closed, the changing current
    across the inductor immediately induces a voltage
    that opposes that change, which keeps the current
    near zero

4
Inductor charging
  • As current iL builds up, the voltage across the
    R1 resistor increases.

5
Inductor Charging Equations
  • Voltages and currents in a charging circuit
    change exponentially over time

6
Steady State Conditions
  • Circuit is at steady state voltage and current
    reach their final values and stop changing
  • There is no change in current in the circuit, so
    the inductor has zero voltage induced across it.
    Inductor current will be steady
  • Inductor then looks like a short circuit

7
The Time Constant
  • Rate at which an inductor charges depends on R
    and L, which is called the TIME CONSTANT
  • Transients can be considered to last for five
    time constants

8
Example Problem 1
  • In the circuit below, the switch is initially
    open and conditions are at steady-state.
  • After the switch is shut, determine
  • how long it will take for the inductor to reach a
    steady-state condition (gt99 of final current).
  • Write the equation for the VL(t) iL(t).
    Sketch the transient.
  • Find the Energy stored in the Inductor.

9
Interrupting Current in an Inductive Circuit
  • When switch opens in an RL circuit
  • Energy is released in a short time
  • This may create a large voltage
  • Induced voltage is called an inductive kick
  • Opening of inductive circuit may cause voltage
    sparks of thousands of volts

10
Interrupting a Circuit
  • Switch flashovers are generally undesirable
  • They can be controlled with proper engineering
    design
  • These large voltages can be useful
  • Such as in automotive ignition systems

11
Inductor Discharging
  • Inductor is initially fully charged with constant
    100 ma current through it. It acts like a short
    circuit
  • When switch is opened, the inductor will
    immediately induce a voltage to keep the 100 mA
    current constant.
  • KVL can be used to calculate this induced voltage
  • Notice the polarity of the induced voltage!

12
Inductor Discharging
  • As stored energy is released, the induced
    voltage across the inductor drops.
  • This makes the voltage drop across the resistor
    drop, so current in the circuit drops

13
Inductor Discharging Equations
  • Voltages and currents in a discharging circuit
    also change exponentially over time

14
The Time Constant
  • Rate at which an inductor discharges depends on R
    and L, which is called the TIME CONSTANT
  • Transients can be considered to last for five
    time constants

15
Example Problem 2
  • The circuit shown below has been in operation
    with the switch shut for a long time. The switch
    opens at time t 0, determine
  • how long it will take for the inductor to
    discharge.
  • Write the equation for the VL, iL,. Sketch the
    transient.
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