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ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 1 Lecture 23 Announcements Correction to HW #2, Problem 19.3 solution Clarification.

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Presentation on theme: "ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 1 Lecture 23 Announcements Correction to HW #2, Problem 19.3 solution Clarification."— Presentation transcript:

1 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 1 Lecture 23 Announcements Correction to HW #2, Problem 19.3 solution Clarification on HW #6, Problem 1

2 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 2 Lecture 23 HW #6, Problem 1

3 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 3 Lecture 23 Summary of results k = 1 CCM (CCM below resonance)

4 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 4 Lecture 23 Discontinuous Conduction Modes In the “type k” discontinuous conduction mode, the tank rings through k complete half cycles during each half switching period. The output diode rectifiers then become reverse-biased, and remain off until the input bridge transistors switch to initiate the next half switching period. Q: Why do the diodes decide to interrupt the ringing after k half-cycles, instead of k– 1, or k+1, or...?

5 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 5 Lecture 23 The k = 1 DCM  ≥ π ( F ≤ 1 )

6 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 6 Lecture 23 Why the diodes become reverse- biased Inductor voltage waveform explanation CCM

7 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 7 Lecture 23 Why the diodes become reverse- biased Inductor voltage waveform explanation

8

9 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 9 Lecture 23 Why the diodes become reverse-biased State-plane explanation

10 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 10 Lecture 23 The k = 1 DCM Steady-state solution

11 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 11 Lecture 23 The k = 1 DCM Mode boundary

12 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 12 Lecture 23 State Plane Diagram k = 1 DCM

13 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 13 Lecture 23 Summary of results k = 1 DCM

14 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 14 Lecture 23 The k = 2 DCM  ≥ 2π ( F ≤ 1/2 )

15 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 15 Lecture 23 Charge Arguments and Averaging

16 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 16 Lecture 23 State Plane Diagram k = 2 DCM

17 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 17 Lecture 23 Solution for radii The k = 2 DCM Steady-state solution

18 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 18 Lecture 23 Summary of results k = 2 DCM

19 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 19 Lecture 23 Summary of Results: k = 2 DCM Output plane characteristics Control plane characteristics

20 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 20 Lecture 23 General Solution for the Steady-State Characteristics of the Series Resonant Converter Mode index k and subharmonic number  Type k CCM

21 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 21 Lecture 23 General Solution for the Steady-State Characteristics of the Series Resonant Converter Type k CCM

22 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 22 Lecture 23 Type k CCM Steady-State Solution Elliptical output characteristic with Control plane characteristic

23 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 23 Lecture 23 Type k CCM Waveforms Switch network output voltage Tank inductor current, odd k (ZCS) Tank inductor current, even k (ZVS)

24 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 24 Lecture 23 Type k DCM Tank inductor current, odd k Tank inductor current, even k

25 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 25 Lecture 23 Type k DCM Steady State Solution and Mode Boundaries Type k DCM, odd k Mode boundaries Output voltage and Type k DCM, even k Mode boundaries Output current and

26 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 26 Lecture 23 Type k DCM odd k even k Output plane Equivalent model

27 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 27 Lecture 23

28 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 28 Lecture 23 CCM and DCM Boundaries

29 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 29 Lecture 23 Complete SRC Characteristics Control Plane

30 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 30 Lecture 23 SCR Output Characteristics Above Resonance

31 ECEN 5817 Resonant and Soft-Switching Techniques in Power Electronics 31 Lecture 23 SRC Output Characteristics Selected Modes Below Resonance

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