Semiconductors Book Outline

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NOTICE: As a courtesy, you are viewing a preview version of an upcoming book, Transistors and Semiconductors: Clearly, Simply, Intuitively, and Concisely Explained by Michael LoneWolf. Since this is just a preview, the text below has been stripped of formatting and images. I need YOUR help to have this book published. Please HELP by visiting my Funding Request page at the main website. DISCLAIMER: This is an obsolete (draft) version of book manuscript. It is not intended to be used for study or reference, but for book preview purposes only. Support the project so that you can purchase a print copy of the most up-to-date book version with all formatting and illustrations!

  • Thesis and Scope of this book (Introduction)
  • Before we begin (Preliminary information)
  • Interpreting and drawing a circuit
  • Engineering notation
  • Black-box conventions used throughout the book
  • Devices used in this book's examples
  • Test equipment
  • Tools
  • Choosing a correct resistor
  • Capacitors
  • Logarithms and logarithmic behavior
  • Safety
  • Diodes
  • Diode bias
  • Physical diode limitations and imperfections
  • Reverse, leakage current
  • Datasheets
  • Checking a diode with DMM
  • Special Insert – Thermal considerations
  • Variability of parameters
  • Special diodes
  • Diode applications
  • Diodes for voltage control
  • Light Emitting Diode (LED)
  • Diode as a Sensor
  • Diodes as Solar Cells
  • Controllable Diodes
  • Diode-type semiconductors DMM test
  • MOSFETs (switches)
  • Concepts
  • Special Insert – ESD Safety First
  • Ohmic mode
  • Low power supply voltages
  • How can we find what level of VGS drive voltage is necessary to conduct a certain level of current?
  • MOSFET as a low power switch
  • P-Channel MOSFET
  • MOSFETs in digital logic
  • MOSFET as a high-power switch
  • High frequency switching and dynamic effects
  • N-channel MOSFET “upside down”
  • Additional MOSFET notes and considerations
  • JFET (high input resistance amplifier)
  • JFET gate diode
  • Class-A amplifiers, Quiescent point
  • JFET Class A low-power amplifier
  • Input and output resistance, bandwidth, impedance
  • Further circuit analysis
  • Range of permissible IDQ and VDSQ levels
  • P-channel JFET
  • Further notes and circuits
  • BJT (universal transistor)
  • BJT drive requirements
  • Large signal behavior
  • BJT as a switch
  • Linear BJT operation
  • Improved Class-A BJT biasing
  • Emitter follower configuration – biasing consideration
  • Small-signal behavior (Subtle effects)
  • Practical common-emitter amplifier circuit
  • Practical Emitter Follower Amplifier Circuit
  • BJT as a switch revisited – three warnings
  • PNP BJTs and NPN-PNP stages
  • Multiple stages
  • Class AB power amplifier
  • Additional notes and further reading
  • Other electronic components and concepts
  • Other semiconductor devices
  • Non-linear devices and circuit protection devices
  • Integrated Circuits
  • Circuit blocks
  • Pulse Width Modulation and Motor Control
  • Switch Mode Regulation
  • H Bridge
  • Circuit analysis, Example circuits and projects
  • Circuit analysis
  • What to do when a circuit does not work
  • Power circuits
  • Light circuits
  • Time circuits
  • Audio circuits
  • Temperature circuits
  • Control circuits
  • Solar Projects
  • Driving High-Power MOSFETs
  • H-Bridge Protection, filtering, and energy storage
  • Appendix A Getting a job