Introduction to Energy, Renewable Energy and Electrical Engineering - Ewald F. Fuchs

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target="_blank" rel="nofollow" href="#ulink_d400fbf6-ad62-5a4f-8392-5431a21eeb38">2.9 Source Exchange/Transformation 2.10 Thévenin's and Norton's Theorems 2.11 Wheatstone and Thomson Bridges 2.12 Summary Problems References

      11  3 DC Circuit Transient Analysis 3.1 Capacitors 3.2 Inductors 3.3 Transient Analysis Applied to Circuits Resulting in First‐Order, Ordinary Differential Equations with Constant Coefficients 3.4 Transient Analysis Applied to Circuits Resulting in Second‐Order, Ordinary Differential Equations with Constant Coefficients 3.5 Summary Problems References

      12  4 Alternating Current (AC) Steady‐State Analysis with Phasors 4.1 Sinusoidal and Cosinusoidal Functions 4.2 Sinusoidal/Cosinusoidal and Complex Number Relations 4.3 Phasor Relations for Circuit Elements such as Resistor, Inductor, and Capacitor Summary 4.4 Delta‐Wye Transformation 4.5 Solution Based on Kirchhoff’s Laws 4.6 Solution Using Nodal Analysis 4.7 Solution with Mesh and Loop Analysis by Applying Kirchhoff’s and Ohm’s Laws 4.8 Solution Based on Superposition 4.9 Solution with Source Transformation/Exchange 4.10 Solutions Employing Thévenin’s and Norton’s Theorems and Source Transformations 4.11 Nonsinusoidal Steady‐State Response 4.12 Summary Problems References Appendix 4.A Conversion of Phasors from Rectangular to Polar Form

      13  5 Instantaneous and Steady‐State Power Analysis 5.1 Introduction 5.2 Instantaneous Power p(t) 5.3 Average (Real) Power P 5.4 Relation Between Root‐Mean‐Square (rms) or Effective (eff) Value and Amplitude 5.5 Fundamental or Displacement Power Factor 5.6 Complex Power 5.7 Fundamental Power Factor Correction 5.8 Residential Single‐Phase AC Power Circuits in the United States 5.9 Three‐Phase Distribution and Transmission Networks 5.10 Summary Problems References

      14  6 Coupled Magnetic Circuits, Single‐ and Three‐Phase Transformers 6.1 Introduction 6.2 Magnetic Circuits 6.3 Magnetically Coupled Circuits, Definition of Self‐ and Mutual Inductances 6.4 Unsaturated or Linear Single‐Phase Transformer 6.5 Ideal Transformer 6.6 Applications of Single‐Phase Power Transformers 6.7 Three‐Phase Power Transformers 6.8 To Ground or Not to Ground? That Is the Question 6.9 Results Obtained Through More Accurate Calculation and Measurement Methods 6.10 Summary Problems References

      15  7 Frequency Characteristics of Electric Circuits 7.1 Introduction 7.2 Sinusoidal/Cosinusoidal Frequency Analysis 7.3 Passive Filters 7.4 Active Filters 7.5 Summary Problems References

      16  8 Operational Amplifiers 8.1 Introduction 8.2 Ideal Operational (OP) Amplifier 8.3 Noninverting OP Amplifier 8.4 Unity‐Gain OP Amplifier 8.5 Inverting OP Amplifier 8.6 Differential Amplifier 8.7 Summing Networks 8.8 Integrating and

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