Electronic Devices and CircuitsUsing a structured, systems approach, this book provides a modern, thorough treatment of electronic devices and circuits. KEY TOPICS Topical selection is based on the significance of each topic in modern industrial applications and the impact that each topic is likely to have in emerging technologies. Integrated circuit theory is covered extensively, including coverage of analog and digital integrated circuit design, operational amplifier theory and applications, and specialized electronic devices and circuits such as switching regulators and optoelectronics. For electronic engineers and technologists. |
Contents
Frequency Response | 302 |
Regulated and Switching | 512 |
553 | 640 |
Copyright | |
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Other editions - View all
Electronic Devices and Circuits Theodore F. Bogart,Jeffrey S. Beasley,Guillermo Rico No preview available - 2004 |
Common terms and phrases
analog analysis approximate bandwidth bias current C₁ C₂ capacitance capacitor characteristics circuit shown closed-loop gain CMOS collector current component configuration connected corner frequency cutoff frequency device differential amplifier electrons emitter equation equivalent circuit example Exercise feedback filter forward biased frequency response gate ideal input resistance input signal input voltage JFET load line lower cutoff frequency maximum midband MOSFET negative NMOS node Note obtain offset voltage op-amp open-loop open-loop gain operational amplifier output resistance output voltage parameters peak phase plot pn junction pulse Q₁ R₁ R₂ ratio region resistor semiconductor shown in Figure shows silicon simulation slew rate small-signal Solution specifications SPICE stage switch temperature transistor typical V₁ V₂ voltage gain voltage source volts waveform zener diode ΚΩ