for parts (a) and (b) should agree with Table 5.2. D, L. Fig. 5.21 Buck-boost converter of Problems 5.1 and 5.13. Show that the converter operates in discontinuous conduction mode when K < K̟ a) expressions for K and K,a Derive an expression for the de conversion ratio ViV, of the buck-boost converter operating in and derive b) discontinuous conduction mode. c) For K = 0.1, plot VIV over the entire range 0SDSI.

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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PROBLEMS
5.1
The elements of the buck-boost converter of Fig. 5.21 are ideal: all losses may be ignored. Your results
for parts (a) and (b) should agree with Table 5.2.
D,
R v
Fig. 5.21 Buck-boost converter of Problems 5.1 and 5.13.
Show that the converter operates in discontinuous conduction mode when K < Ka and derive
expressions for K and Kg
Derive an expression for the de conversion ratio ViV, of the buck-boost converter operating in
(a)
(b)
discontinuous conduction mode.
(c)
For K = 0.1, plot VIV, over the entire range 0<DSI.
Transcribed Image Text:PROBLEMS 5.1 The elements of the buck-boost converter of Fig. 5.21 are ideal: all losses may be ignored. Your results for parts (a) and (b) should agree with Table 5.2. D, R v Fig. 5.21 Buck-boost converter of Problems 5.1 and 5.13. Show that the converter operates in discontinuous conduction mode when K < Ka and derive expressions for K and Kg Derive an expression for the de conversion ratio ViV, of the buck-boost converter operating in (a) (b) discontinuous conduction mode. (c) For K = 0.1, plot VIV, over the entire range 0<DSI.
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