Solid State Electronic Devices 5e PIE - STREETMAN, BEN G.

Solid State Electronic Devices 5e PIE

BEN G. STREETMAN

Yayınevi: Prentice Hall

Yayın tarihi: 08/2001

ISBN: 9780130261014

Yazar : SANJAY BANERJEE

İngilizce | 558 Sayfa |

Tür: Elektrik-Elektronik  |  Fizik-Astronomi

For undergraduate-level courses in Electronic Devices.The most widely used introduction to solid state electronic devices text, this book is designed to help students gain a basic understanding of semiconductor devices and the physical operating principles behind them. This two-fold approach 1) provides students with a sound understanding of existing devices, so that their studies of electronic circuits and systems will be meaningful, and 2) helps them develop the basic tools with which they can later learn about applications and the latest devices. The text provides one of the most comprehensive treatments of all the important semiconductor devices, and reflects the most current trends in the technology and theoretical understanding of the devices.

Features
NEW! Thoroughly updated to reflect the most current trends in the technology and theoretical understanding of devices.
NEW! Expanded description of silicon Czochralski growth, wafer production, and vapor phase epitaxy (Ch. 1).
NEW! Clearer discussion of chemical bonding, energy band formation and hole transport (Chs.2, 3 and 4).
NEW! Consolidated coverage of p-n junction diodes and its applications (Ch. 5). Provides students with immediate feedback about the practical relevance of the theory.
NEW! Greatly expanded/updated discussion of device fabrication processes (Ch. 5 and appendices).
Enables students to gain a useful understanding of how these semiconductor devices are made.
NEW! Earlier discussion of MOS devices (Ch. 6) Ahead of bipolar junction transistors reflects the preponderance of complementary MOS field effect transistors (MOSFETs) in integrated circuits today.
Enables students to devote more time, early in the semester, to this important semiconductor device. Provides instructors with a better pedagogic tool, since MOSFETs are somewhat easier to explain and understand than bipolar junction transistors.
NEW! Major revision of chapter on Field Effect Transistors (Ch. 6) Both in the underlying theory as well as discussion of a variety of short channel, high field and hot carrier effects in scaled, ultra-small MOSFETs. Includes extensive discussions of the current-voltage and capacitance-voltage characteristics of these devices and the information that can be gleaned from such measurements.
NEW! Updated chapter on Bipolar Junction Transistors (BJTs) (Ch. 7) To reflect current technology. Describes higher-order effects (including the Kirk effect and Webster effect); discusses the Gummel-Poon model (which is more elaborate and physically more accurate than the Ebers-Moll model); and updates the fabrication aspects of BJTs.
NEW! Consolidated coverage of optoelectronic devices in a single chapter (Ch. 8) Brings the discussion of semiconductor lasers into the same chapter as LEDs and detectors Reflects the growing importance of optoelectronics.
NEW! Updated coverage of integrated circuits (Ch. 9) Eliminates outdated material on bipolar processes to reflect the concerted shift to CMOS applications, such as logic and memory integrated circuits.
NEW! A section on the insulated gate bipolar transistor (Ch. 11) A device that is gradually supplanting the semiconductor-controlled rectifier.
NEW! Real data wherever feasible, replaces idealized current-voltage and capacitance-voltage plots with real data. Gives students a better feel for the device characteristics.
NEW! A list of the key equations for semiconductor devices-On the inside covers of the book. The equations which reflect current trends of the technology-are organized thematically to reflect the logical flow of the book. Comprehensive coverage provides one of the most comprehensive treatments of all the important semiconductor devices. Many other textbooks focus on just diodes, BJTs and MOSFETs.
Flexibility provides more material than would usually be covered in a one-semester course.
Chs. 1-8 include core material, allowing instructors to select material from the remaining chapters as fits their course needs.
About 200 problems.The problems involve students in extending concepts introduced in the text not just plugging in numbers as in many of the competing texts.
Photographs Illustrate many devices. Reading list at the end of each chapter. Contents
1. Crystal Properties and Growth of Semiconductors.
2. Atoms and Electrons.
3. Energy Bands and Charge Carriers in Semiconductors.
4. Excess Carriers in Semiconductors.
5. Junctions.
6. Field-Effect Transistors.
7. Bipolar Junction Transistors.
8. Optoelectronic Devices.
9. Integrated Circuits.
10. Negative Conductance Microwave Devices.
11. Power Devices.
Appendix I. Definitions of Commonly Used Symbols.
Appendix II. Physical Constants and Conversion Factors.
Appendix III. Properties of Semiconductor Materials.
Appendix IV. Derivation of the Density of States in the Conduction Band.
Appendix V. Derivation of Fermi-Dirac Statistics.
Appendix VI. Dry and Wet Thermal Oxide Thickness as a Function of Time and Temperature.
Appendix VII. Solid Solubilities of Impurities in Si.
Appendix VIII. Diffusivities of Dopants in Si and SiO2.
Appendix IX. Projected Range and Straggle as a Function of Implant Energy in Si, SiO2 and GaAs.
Index

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