Electrical Engineering: Principles and Applications, Part 1The author's guiding philosophy in writing this book has three elements: to present basic concepts to readers in a general setting, to show how the principles of electrical engineering apply to specific problems in their own fields, and to remove frustration from the learning process. Emphasizing the basic concepts of the field, this book covers circuit analysis, digital systems, electronics, and electromechanics. This book develops theoretical and experimental skills and experiences in the following areas: basic circuit analysis and measurement, first- and second-order transients, steady-state ac circuits, resonance and frequency response, digital logic circuits, microcontrollers (68HC11), computer-based instrumentation, diode circuits, electronic amplifiers, field-effect and bipolar junction transistors, operational amplifiers, ac and dc machines, and more. For engineers or any other professionals who need a solid foundation in the basics of circuits, digital systems, analog electronics, and electromechanics. |
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amplifier amplitude analysis Answer applied armature Assume bias Bode plot capacitance capacitor characteristic circuit elements circuit of Figure circuit shown coil common-mode components conductors connected Consider the circuit constant cos(wt current flowing current source currents and voltages dc motor Determine differential diode electrical electronic energy Equation equivalent circuit Example Exercise filter flux frequency given ideal illustrated in Figure induction motor inductor input impedance input signal input terminals input voltage inverting Karnaugh map LabVIEW logic lowpass machine magnetic field magnitude op amp open circuit operation output voltage parallel phase phasor polarity power delivered power factor PSpice resistors rotational rotor Section sensor shown in Figure sinusoidal small-signal solution solve speed stator switch synchronous Thévenin equivalent three-phase torque transfer function transistor truth table V₁ versus voltage gain voltage source waveform wire zero ΚΩ