Microelectronic Devices and CircuitsCombining solid state devices with electronic circuits for an introductory-level microelectronics course, this textbook offers an integrated approach so that students can truly understand how a circuit works. A concise writing style is employed, with the right level of detail and physics to help students understand how a device works. Other features include an emphasis on modelling of electronic devices, and analysis of non-linear circuits. Spice problems, worked examples and end-of-chapter problems are included. |
Contents
Uniform Semiconductors in Equilibrium | 11 |
The Five Basic Equations | 61 |
Flow Problems | 71 |
Copyright | |
18 other sections not shown
Common terms and phrases
active amplifier applied approximately assume base bias biased bipolar transistor calculate called capacitance capacitor carrier channel characteristics charge circuit collector common concentration conductance connected consider defined density depends depletion region device difference diffusion diode discussion doping drain effect electric field electrons emitter energy equation equivalent example excess expression factor FIGURE flow forward gain gate given hole illustrated in Fig important increases injection input integrated inverter junction layer length less levels limit linear load look metal minority carrier mode MOSFET obtain ohmic operation output p-n junction p-type population positive possible potential problem relatively resistance resistor result sample saturation semiconductor shown in Fig silicon situation small-signal solution stage structure surface terminal transistor turn typically voltage VOUT width write zero
References to this book
Electronics, Power Electronics, Optoelectronics, Microwaves ... Richard C. Dorf No preview available - 2018 |
Electronics, Power Electronics, Optoelectronics, Microwaves ... Richard C. Dorf No preview available - 2018 |