Fundamentals of MicroelectronicsTo succeed in the practice of microelectronics in industry, students must develop the ability to think intuitively about circuits. They need to move beyond simply plugging and chugging numbers in equations and be prepared to face real design trade-offs. Fundamentals of Microelectronics, Preview Edition helps students develop intuitive techniques so they can design and implement circuits not just analyze them. Using many real-word examples and applications, the text motivates the student to understand the importance of today's microelectronics. |
Contents
Basic Physics of Semiconductors | 19 |
Diode Models and Circuits | 56 |
19 | 108 |
Copyright | |
9 other sections not shown
Common terms and phrases
A₁ amplifier analysis Assume base current bias current biasing bipolar transistor C₁ Calculate capacitance capacitor cascode Chapter circuit depicted circuit of Fig circuit shown CMOS collector current compute constant current flowing current mirror current source D₁ depicted in Fig Determine device differential pair diode electrons emitter follower equal Example Figure filter gate hence I/O impedances I₁ illustrated in Fig input impedance input/output characteristic inverter Ka₁ load M₁ M₂ MOSFET NMOS node op amp operation output impedance output resistance plot PMOS pnp transistor pole Q₁ Q1 and Q2 R₁ R₂ Rc Vout Repeat Problem resistor result Rout saturation shown in Fig signal small-signal model Solution topology transconductance transfer function V₁ Vcc Rc VD,on Vin1 Vin2 voltage gain voltage source Vout Vin Vout Vout waveform zero ΚΩ