Download Fundamentals of Electronic Circuit Design solutions manual by David J. Comer, Donald T. Comer PDF

By David J. Comer, Donald T. Comer

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79) The output variables of the Boost-Boost converter are considered to be the voltage variables, x2 and x4 . 84) U2 = 1 − The normalized static transfer matrix is now defined as a row vector relating the two output voltages with the scalar constant input voltage. Evidently, the entries of such a matrix are now functions of U1 and U2 . This matrix is constituted by the steady state values of the output voltages. 4 Alternative Model of the Boost-Boost Converter In order to simplify the manipulations involved in the controller design for the multi-variable Boost-Boost converter, we present the alternative average model of the system in the same spirit as that presented for the mono-variable case.

12 Power Converter Models with Non-ideal Components In this chapter, we have emphasized ideal components in the constitution of dynamical average DC-to-DC power converter models. For instance, we have not considered resistances in series with the inductors, we have neglected parallel conductances in combination with capacitors and have also assumed that the switches have no imperfections attached. In real life, inductors do exhibit associated resistances, capacitors must be considered along with parallel conductances, or equivalent series resistances, and switches are synthesized by means of physical transistor and diode arrangements which exhibit important resistances and parasitic voltage sources.

This is a natural convention that will be adopted in this chapter. However, in the following chapters, we will also use the alternative model for some of the converters, in particular for the Boost converter. The alternative models may be of significant help in the algebraic manipulations for the derivation of the various controller schemes. 13 shows the circuit diagram of a Boost converter prototype. 91 mH, C = 50 µF, R = 52 Ω, E = 12 V where the inductor L was designed to operate at 45 kHz. 14 depicts a picture of the actual Boost system.

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