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دانلود کتاب The Art and Science of Microelectronic Circuit Design

دانلود کتاب هنر و علم طراحی مدارهای میکروالکترونیک

The Art and Science of Microelectronic Circuit Design

مشخصات کتاب

The Art and Science of Microelectronic Circuit Design

ویرایش:  
نویسندگان:   
سری:  
ISBN (شابک) : 3030898539, 9783030898533 
ناشر: Springer 
سال نشر: 2022 
تعداد صفحات: 444
[445] 
زبان: English 
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) 
حجم فایل: 15 Mb 

قیمت کتاب (تومان) : 55,000

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توجه داشته باشید کتاب هنر و علم طراحی مدارهای میکروالکترونیک نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.


توضیحاتی در مورد کتاب هنر و علم طراحی مدارهای میکروالکترونیک

این کتاب خوانندگان را از طریق کل مجموعه جنبه‌های نظری و عملی مرتبط با طراحی و سازماندهی تولید مدارهای مجتمع زیر میکرونی سیلیکونی راهنمایی می‌کند. این بحث شامل مبانی نظری عملکرد ترانزیستورهای اثر میدانی و دوقطبی، روش‌ها و ویژگی‌های طراحی ساختاری و شماتیک، راه‌حل‌های مهندسی پایه طراحی مدار و طراحی سیستم برای مدارهای مجتمع دوقطبی، CMOS، BiCMOS و TTL است. کتابخانه های طراحی استاندارد و جریان های طراحی معمولی.


توضیحاتی درمورد کتاب به خارجی

This book guides readers through the entire complex of interrelated theoretical and practical aspects of the end-to-end design and organization of production of silicon submicron integrated circuits. The discussion includes the theoretical foundations of the operation of field-effect- and bipolar transistors, the methods and peculiarities of the structural and schematic design, basic circuit-design and system-design engineering solutions for bipolar, CMOS, BiCMOS and TTL integrated circuits, standard design libraries, and typical design flows.



فهرست مطالب

Preface
Acknowledgements
Contents
Chapter 1: Standard Characteristics of Digital Microcircuits
	1.1 Structure of Digital Microciruits
		1.1.1 General Structure of Digital Microcircuits
		1.1.2 Architecture of Internal Cells of Digital Microcircuits
		1.1.3 Architecture of Digital Mirocircuit Matching Elements
	1.2 System of Main Parameters and Chracteristics of Digital Microcircuits
		1.2.1 Functional Parameters of Digital Microcircuits
		1.2.2 Electical Parameters of Digital Microcircuits
		1.2.3 Dynamic Parameters of Digital Microcircuits
	1.3 Schematic Implementation of Digital Microcircuits
		1.3.1 Power Characteristics of Standard Logic Cells of Digital Microcircuits
		1.3.2 Schematic Implementation of Standard Digital Microcircuits
		1.3.3 Techniques of Digital Microcircuits Element Base Selection
	1.4 Impact of Destabilizing Factors on Serviceability of Digital Microcircuits
		1.4.1 Immunity of Digital Microcircuits to Electrostatic Discharge
		1.4.2 Microcircuits Overload Tolerance
		1.4.3 Dependence of Electrical Characteristics of Digital Microcircuits Upon Operational Modes
		1.4.4 Immunity of Digital Microcircuits to the Impact Produced by Interferences
	1.5 Parasitic Elements and Effects in Digital Microcircuits
		1.5.1 Parasitic Transistor Elements Inside Digital Microcircuit Dice
		1.5.2 Miller´s Effect
		1.5.3 Latch-Up Effect
	References
Chapter 2: Schematic Solutions of Digital CMOS Microcircuits
	2.1 Standard Logic Cells of Digital CMOS Microcircuits
		2.1.1 Static CMOS Logic Cells
		2.1.2 Standard LC of Dynamic CMOS Logic
	2.2 Memory Elements of the Digital CMOS Integrated Circuits
		2.2.1 Memory Elements, Clocked by the Level of the Synchrosignal
		2.2.2 Memory Elements, Clocked by the Synchrosignal Edge
	References
Chapter 3: Schematic Technical Solutions of the Bipolar Integrated Circuits
	3.1 Digital Integrated Circuits on the Bipolar Transistors with the Schottky Diodes
		3.1.1 Basic TTLS Logic Elements of Digital Integrated Circuits
		3.1.2 Basic Logic Elements of Schottky Transistor Logic
		3.1.3 Basic Logic Elements of the Integrated Schottky Logic
		3.1.4 Base Logic Elements of the Diode-Transistor Logic with Schottky Diodes
	3.2 Memory Elements of TTLS Integrated Circuits
		3.2.1 Memory Elements, Synchrosignal Edge Cycled
		3.2.2 Memory Elements, Cycled by the Level of the Synchrosignal
	3.3 Schematics of the Input Matching Elements of the TTLS Integrated Circuits
		3.3.1 Input Matching TTLS Elements of Integrated Circuits with the standard TTL input levels
		3.3.2 Input ME TTLS of Integrated Circuits with the Enhanced Load Capacitance
		3.3.3 Input ME TTLS of the Integrated Circuits with the Paraphrase Outputs
		3.3.4 Input ME TTLS Integrated Circuits with Memory
		3.3.5 Input BE TTLS of Integrated Circuits with the Enhanced Noise Immunity
		3.3.6 Input Matching Element with Conversion of the Signal Levels
		3.3.7 Protection Diagrams of the Input ME TTLS Integrated Circuits
	3.4 Schematics of the Output Matching Elements of TTLS Integrated Circuits
		3.4.1 Output ME TTLS of Integrated Circuits with Standard TTL Output Levels
		3.4.2 Output ME of TTLS Integrated Circuits with Memory
		3.4.3 Output ME of TTLS Integrated Circuits with Conversion of signal levels
		3.4.4 Schematics of the Protection Circuits of the Output ME of TTLS Integrated Circuits
	3.5 Digital Integrated Circuits on the Basis of the Integrated Injection Logic
		3.5.1 Varieties of the Basic Elements of the I2L Integrated Circuits
		3.5.2 Memory Elements of I2L Integrated Circuits
		3.5.3 Schematics of the Input Matching Elements of the I2L Integrated Circuits
		3.5.4 Protection of the I2L Pins of the Integrated Circuits from Overvoltage and Static Electricity
	References
Chapter 4: Circuit Engineering of Bi-CMOS IC
	4.1 Basic Logic Elements of Bi-CMOS IC
	4.2 Bi-CMOS IC Memory Elements
	4.3 Circuit Engineering of Bi-CMOS IC Input Matching Components
		4.3.1 Input MC of Bi-CMOS IC with Signal Level Conversion
		4.3.2 Input MC of Bi-CMOS IC with Increased Load Capacity
		4.3.3 Input MC of Bi-CMOS IC with Paraphase Outputs
		4.3.4 Input MC of Bi-CMOS IC with Increased Noise Immunity
		4.3.5 Input MC of Bi-CMOS Memory IC
		4.3.6 Circuit Engineering of Input MC of Bi-CMOS IC Protection
	4.4 Circuit Engineering of Bi-CMOS IC Matching Output Components
		4.4.1 Output MC of Bi-CMOS IC with the Formation of CMOS Output Levels
		4.4.2 Output MC of Bi-CMOS ICs with the Formation of TTL Output Levels
		4.4.3 Output MC of Bi-CMOS IC with the Formation of ECL Output Levels
		4.4.4 Output MC BI-CMOS Memory ICs
		4.4.5 Circuit Engineering of the Output MC BI-CMOS IC Protection Circuits
	References
Chapter 5: Structure and Specific Features of Design Libraries for Submicron Microcircuits
	5.1 Development Process Flow and Standard Structure of a Process Design Kit (PDK)
	5.2 Terms and Definitions Used to Describe PDK Components
	5.3 PDK Standardization
	5.4 Mixed Analog/Digital Microcircuit Design Flow
	5.5 Summarized Information Model of Mixed Analog-Digital IC Design
	5.6 Specifying Basic PDK Components and Standard Elements List
	5.7 Development Features of Digital Libraries for Designing ASICs with Submicron Design Rules
	5.8 Structural and Circuit-Level Features of Designing Basic Cells for Submicron Microcircuits Library
		5.8.1 Voltage Level Shifters
		5.8.2 Power Gating Circuits
		5.8.3 Isolation Library Cells for Submicron Microcircuits
		5.8.4 ``Always-on´´ Buffers
	5.9 Standard PDK Data Files
	5.10 Standard PDK Current Source Models (CCS)
	5.11 Methods and Examples of Standard IC Design Tools Adaptation to 90, 65, and 45 Nm Microcircuit Design
		5.11.1 Synopsys Tutorial (Educational) Design Kit: Capabilities, Applications, and Prospects
		5.11.2 Synopsys EDK Overview
		5.11.3 Synopsys Digital Standard Cell Library
		5.11.4 I/O Standard Cell Library
		5.11.5 Standard Set of PDK Memory Modules
		5.11.6 Phase-Locked Loop (PLL)
		5.11.7 Geography of EDK Applications and Prospects
	5.12 Contents of Educational Design Kits Provided by IMEC
	References
Chapter 6: Digital IC and System-on-Chip Design Flows
	6.1 Choosing the IC Design Flow
	6.2 System Design Stage
	6.3 Functional Design Stage (Fig. 6.3)
	6.4 Logic Design Stage
	6.5 Physical (Topological) Design Stage
	6.6 Stage of Physical Verification and Preparation for Production (Fig. 6.6)
	6.7 Project Certification
	6.8 SoC Design Flow
		6.8.1 Trends in the Development of Design Tools
		6.8.2 SoC Design Methodology
		6.8.3 SoC Design Flow
		6.8.4 SoC System Design
		6.8.5 CAD Software for the System Level
	6.9 Practical Example of the System-on-Chip Simulation
		6.9.1 Standard Design Flow of the SoC of Cadence Company
		6.9.2 Description of the Simulation and Verification Environment
		6.9.3 Project in the Cadence Incisive Environment
	References
Chapter 7: Fundamentals of CMOS Microcircuits Logic Design with Reduced Power Consumption
	7.1 Basics of Low-Power-Driven Logic Synthesis of CMOS Microcircuits
	7.2 Identification of Power Dissipation Sources in CMOS Microcircuits
	7.3 Probabilistic Evaluation of Optimization Options by Predicted Switching Activity of IC Nodes
	7.4 Selection of Element Basis for Low-Power CMOS Microcircuit Design
	7.5 Logic Synthesis of CMOS Microcircuits in the Basis of Library Elements
	7.6 Power Dissipation-Driven Optimization of Two-Level Logic Circuits
	7.7 Selection of Basic Gates for Technology-Independent Functional Circuit
	7.8 Optimization of Multilevel Logic Circuits of Multi-input Gates
	7.9 Optimization of Multilevel Logic Circuits of Double Input Gates
	7.10 Technology Mapping
	7.11 Estimation of Power Consumption of Designed CMOS Microcircuits at Logic and Circuitry Levels
	7.12 Low-Power CMOS Microcircuit Design Technology with ELS Package
	7.13 ELS Software Package Architecture
	7.14 Functional Capabilities of ELS Software Package
	References
Chapter 8: Fundamentals of Building a Quality Management System for Manufacturing Submicron Integrated Circuits Based on Test ...
	8.1 Methodology of the Organization of Technological Test Control in the Process of Design and Production of Microelectronic P...
		8.1.1 Place and Role of Semiconductor Test Structures in the Process of Manufacturing Integrated Circuits
		8.1.2 Classification of Technological Test Structures
		8.1.3 Methods of Placing Test Structures on Semiconductor Wafers
	8.2 Principles of Control of the Process of Manufacturing Chips Using Test Structures
		8.2.1 Assessment of the Quality of the Process Based on the Method of Interoperative Control of Wafers
		8.2.2 Typical Composition of the Test Module for Monitoring Production Processes
		8.2.3 Typical Composition of Test Structures for Quality Control of Submicron ICs
		8.2.4 Statistical Processing of Measurement Results of Test Structures
	8.3 Forecasting the IC Yield Based on the Results of the Test Control
		8.3.1 Features of Simulation of the IC Yield
		8.3.2 Model of Postoperative Separation of Defects in the Technological Process of IC Manufacturing
	8.4 Typical Structure of the System of Technological Process Test Quality Control
		8.4.1 Features of the Organization of Test Modules for Bipolar and CMOS ICs
		8.4.2 Typical Example of the Use of Test Modules for the Analysis of the Manufacturing Process in the Conditions of Mass Produ...
	8.5 The Main Technological Factors Affecting the Reliability of Microelectronic Products
		8.5.1 Fundamentals of the Theory of Reliability of Semiconductor Devices and Integrated Circuits
		8.5.2 Ways to Improve the Reliability of the Metallization System of Integrated Circuits and Semiconductor Devices
	References
Index




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