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Digital BiCMOS Integrated Circuit Design: The Springer International Series in Engineering and Computer Science, cartea 193

Autor Sherif H.K. Embabi, Abdellatif Bellaouar, Mohamed I. Elmasry
en Limba Engleză Paperback – 27 sep 2012
Digital BiCMOS Integrated Circuit Design is the first book devoted entirely to the analysis and design of digital BiCMOS integrated circuits. BiCMOS Integrated Circuit Design also reviews CMOS and CML integrated circuit design. The application of BiCMOS in the design of digital subsystems, e.g. adders, multipliers, RAMs and PLAs is addressed. The book also introduces the reader to IC process technology: CMOS, bipolar and BiCMOS. The modeling of both the bipolar and MOS devices are covered. Many process/device/circuit design issues are discussed.
Digital BiCMOS Integrated Circuit Design can be used by engineers, researchers, graduate and senior undergraduate students working in the area of digital integrated circuits, digital circuits and system design, BiCMOS process and device modeling.
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Specificații

ISBN-13: 9781461363910
ISBN-10: 1461363918
Pagini: 424
Ilustrații: XXI, 398 p.
Dimensiuni: 155 x 235 x 22 mm
Greutate: 0.59 kg
Ediția:Softcover reprint of the original 1st ed. 1993
Editura: Springer Us
Colecția Springer
Seria The Springer International Series in Engineering and Computer Science

Locul publicării:New York, NY, United States

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Cuprins

1. Introduction.- 1.1. Why BiCMOS?.- 1.2. This Book.- 1.3. Process Technology.- 1.4. Device Design Considerations.- 1.5. Device Modeling.- 1.6. MOS Digital Integrated Circuits.- 1.7. Bipolar CML Integrated Circuits.- 1.8. BiCMOS Digital Integrated Circuits.- 1.9. BiCMOS Digital Circuit Applications.- References.- 2. Process Technology.- 2.1. CMOS Process Technology.- 2.2. Bipolar Process Technology.- 2.3. Isolation in CMOS and Bipolar Technologies.- 2.4. CMOS and Bipolar Process Convergence.- 2.5. BiCMOS Technology.- 2.6. Complementary BiCMOS Technology.- 2.7. BiCMOS Design Rules.- 2.8. Chapter Summary.- References.- 3. Device Design Considerations.- 3.1. Design Considerations for MOSFET’s.- 3.2. Design Considerations for Bipolar Transistors.- 3.3. BiCMOS Device Design Considerations.- 3.4. BiCMOS Device Scaling.- 3.5. Chapter Summary.- References.- 4. Device Modeling.- 4.1. Modeling of the MOS Transistor.- 4.2. Modeling of the Bipolar Transistor.- 4.3. Chapter Summary.- References.- 5. MOS Digital Integrated Circuits.- 5.1. The Static NMOS Inverter.- 5.2. NMOS Circuit Configurations.- 5.3. Dynamic NMOS Circuits.- 5.4. Complementary MOS (CMOS) Circuits.- 5.5. Chapter Summary.- References.- 6. Bipolar CML Integrated Circuits.- 6.1. Emitter Coupled Logic (ECL).- 6.2. Emitter Function Logic (EFL).- 6.3. DC Specifications for a Practical EFL.- 6.4. Chapter Summary.- References.- 7. BiCMOS Digital Integrated Circuits.- 7.1. Comparison between Bipolar and MOS Transistors.- 7.2. BiCMOS Totem-Pole Inverter.- 7.3. Full-Voltage-Swing BiCMOS Drivers.- 7.4. Current Mode BiCMOS Circuits.- 7.5. Chapter Summary.- References.- 8. BiCMOS Digital Circuit Applications.- 8.1. Adders.- 8.2. Multiplier.- 8.3. Random Access Memory.- 8.3.4. Content Addressable Memory.- 8.4. ProgrammableLogic Arrays.- 8.5. Data Path.- 8.6. BiCMOS Logic Cells.- 8.7. BiCMOS Gate Arrays.- 8.8. Chapter Summary.- References.