Solid State Electronic Devices by Streetman and Banerjee PDF
Lecture Summary. Carrier density is also affected by the presence of dopants, which change the width of the band gap and produce excess electrons or holes. Engineering impurities in semiconducting materials allows the production of electronic devices such as photovoltaics, light-emitting diodes, CD/DVD optical discs, and photosensors. EE 339 – Solid-State Electronic Devices Spring 2009 Instructor: Prof. Michael Orshansky Office: 5.442 ACES E-mail: [email protected]. Office hours: 5.442 ACES, MW 11am - noon Class hours: MWF 10:00-11:00am, BUR 136 TA: Robert Adams, [email protected] TA Office hours: TBD Grader: Ciyuan Qiu.
Solid State Electronic Devices 6th edition PDF Download
Book Title: | Author(s): | Publisher: | Size: |
---|---|---|---|
Solid State Electronic Devices | Ben G. Streetman, Sanjay Banerjee | PHI Learning | 78 MB |
This classic introductory textbook in its sixth edition retains the two basic goals: (1) develop the basic semiconductor physics concepts to understand current and future devices and (2) provides a sound understanding of current semiconductor devices and technology so that their applications to electronic and optoelectronic circuits and systems can be appreciated. The book is useful for advanced undergraduate and postgraduate students of electrical and electronics engineering and should also prove useful for practicing engineers and scientists, interested in updating their understanding of modern electronics. Table of Contents Preface. About the Authors. Crystal Properties and Growth of Semiconductors. Atoms and Electrons. Energy Bands and Charge Carriers in Semiconductors. Excess Carriers in Semiconductors. Junctions. Field-Effect Transistors. Bipolar Junction Transistors. Optoelectronic Devices. Integrated Circuits. High-Frequency and High-Power Devices. Appendices?
- Definitions of Commonly Used Symbols.
- Physical Constants and Conversion Factors.
- Properties of Semiconductor Materials.
- Derivation of the Density of States in the Conduction Band.
- Derivation of Fermi?Dirac Statistics.
- Dry and Wet Thermal Oxide Thickness Grown on Si (100) as a Function of Time and Temperature.
- Solid Solubilities of Impurities in Si.
- Diffusivities of Dopants in Si and SiO2.
- Projected Range and Straggle as Function of Implant Energy in Si. Answers to Selected Self Quiz Questions. Index.
A standout amongst the most generally utilized early on books on semiconductor materials, physical science, gadgets and innovation, Solid State Electronic Devices expects to: 1) create fundamental semiconductor material science ideas, so understudies can better comprehend present and future gadgets; and 2) give a sound comprehension of current semiconductor gadgets and innovation, with the goal that their applications to electronic and optoelectronic circuits and frameworks can be valued. Understudies are conveyed to a level of understanding that will empower them to peruse a significant part of the present writing on new gadgets and applications.