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Lecture 14 Second-order Circuits (2)

Lecture 14 Second-order Circuits (2). Hung-yi Lee. Second-Order Circuits Solving by differential equation. Second-order Circuits. Steps for solving by differential equation 1. List the differential equation ( Chapter 9.3 ) 2. Find natural response ( Chapter 9.3 )

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Lecture 14 Second-order Circuits (2)

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  1. Lecture 14Second-order Circuits (2) Hung-yi Lee

  2. Second-Order CircuitsSolving by differential equation

  3. Second-order Circuits • Steps for solving by differential equation • 1. List the differential equation (Chapter 9.3) • 2. Find natural response (Chapter 9.3) • There are some unknown variables in the natural response. • 3. Find forced response (Chapter 9.4) • 4. Find initial conditions (Chapter 9.4) • 5. Complete response = natural response + forced response (Chapter 9.4) • Find the unknown variables in the natural response by the initial conditions

  4. Review Step 1: List Differential Equations

  5. Review Step 2: Natural Response Overdamped Real Critical damped λ1, λ2 is Underdamped Complex Undamped

  6. Fix ω0, decrease α The position of the two roots λ1 and λ2. α=0 Undamped

  7. Example 9.11 Natural response iN(t):

  8. Example 9.11 Natural response iN(t): Forced response iF(t)=0 Complete response iL(t): Two unknown variables, so two initial conditions.

  9. Example 9.11 Initial condition short 30V open

  10. Example 9.11

  11. Example 9.11 Textbook:

  12. Example 9.12 Natural response vN(t): Forced response vF(t):

  13. Example 9.12 Initial condition: short 0V open

  14. Initial condition: Example 9.12 Different R gives different response

  15. Initial condition: Example 9.12 Overdamped:

  16. Initial condition: Example 9.12 Critical damped:

  17. Initial condition: Example 9.12 Underdamped:

  18. Example 9.12 31.58 cos x sin x

  19. Example 9.12

  20. Non-constant Input • Find vc(t) for t > 0 when vC(0) = 1 and iL(0) = 0

  21. Non-constant Input Natural response vN(t): Forced response vF(t):

  22. Non-constant Input Initial Condition:

  23. Non-constant Input

  24. Second-Order CircuitsZero Input + Zero State & Superposition

  25. Review: Zero Input + Zero State y(t): voltage of capacitor or current of inductor y(t) = general solution + special solution = = = natural response +forced response y(t) = state response (zero input) + input response (zero state) Set sources to be zero Set state vc, iL to be zero = state response (zero input) + input 1 response + input 2 response …… If input = input 1 + input 2 + ……

  26. Example 1 (pulse) Find vC(t) for t>0 State response (Zero input):

  27. Example 1 (pulse) Find vC(t) for t>0 State response (Zero input):

  28. Example 1 (pulse) Find vC(t) for t>0 Input response (Zero State): (set state to be zero) - … … =

  29. Example 1 … …

  30. Example 1 Input response (Zero State): - … … =

  31. Example 1 Input response (Zero State): - … … =

  32. Example 1 Input response (Zero State) State response (Zero input)

  33. Example 1 – Differential Equation (pulse) Find vC(t) for t>0 Assume 30s is large enough

  34. Example 1 – Differential Equation

  35. Example 1 – Differential Equation

  36. Example 2 Find vC(t) for t>0 State response (Zero input): Changing the input will not change the state (zero input) response.

  37. Example 2 Find vC(t) for t>0 Input response (Zero state): Input (set state to be zero) What is the response? 4 methods

  38. Example 2 – Method 1 for Zero State Natural Response: Forced Response:

  39. Example 2 – Method 1 for Zero State

  40. Example 2 – Method 2 for Zero State Find the response of each small pulse Then sum them together

  41. Example 2 – Method 2 for Zero State - … … =

  42. Example 2 – Method 2 for Zero State Consider a point a value of the pulse at t1 is a

  43. Example 2 – Method 2 for Zero State Consider a point a value of the pulse at t1 is

  44. Example 2 – Method 2 for Zero State We can always replace “a” with “t”.

  45. Example 2 – Method 3 for Zero State … … … The value at time point a … … … a

  46. Example 2 – Method 3 for Zero State

  47. Example 2 – Method 4 for Zero State Source Input: Input (Zero State) Response Source Input: … Input (Zero State) Response

  48. Example 2 – Method 4 for Zero State

  49. Example 2 Method 2: Method 3: Method 4:

  50. Example 2

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