This course systematically introduces contemporary electronic systems based on the system-on-chip (SoC) concept, including system composition, design methods, latest technologies, design examples, experiment contents and experiment results, etc. The focus is to help students systematically master the design methods of contemporary electronic systems, as well as cultivate innovative design ideas.
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This course systematically introduces contemporary electronic systems based on the system-on-chip (SoC) concept, including system composition, design methods, latest technologies, design examples, experiment contents and experiment results, etc. The focus is to help students systematically master the design methods of contemporary electronic systems, as well as cultivate innovative design ideas.
--Section 1 Introduction of Electronic System
--Section 2 Examples of Contemporary Electronic System
--Section 3 The Components of Contemporary Electronic System
--Section 4 Design Methods of Contemporary Electronic System
--Section 1 Sensor definition
--Section 2 Classification and performance indicators of sensors
--Section 3 Introduction of commonly used sensors
--Section 4 Introduction of commonly used Actuators
--Section 1 Introduction to analog signal processing
--Section 2 Signal amplifier and isolation amplifier
--Section 3 Active filter
--Section 4 Operation amplifier (1)
--Section 5 Operation amplifier (2)
--Section 6 Voltage comparator
--Section 7 Power amplifier
--Section 8 Analog-to-digital converter
--Section 9 Digital-to-analog converter
--Section 1 Introduction to DC voltage regulator
--Section 2 Linear regulator
--Section 3 Switching regulator
--Section 1 Introduction to microprocessors
--Section 2 The Development of Microprocessor and System-on-Chip
--Section 3 Microprocessor classification
--Section 4 Examples of microprocessors and system-on-chip
--Section 5 Hardware architecture of microprocessor and system-on-chip
--Section 6 Peripheral interfaces and devices
--Section 7 Embedded software development method
--Section 8 Embedded operating system
--Section 9 Introduction to the Development of Peripheral Applications
--Section 1 Introduction to TM4C123
--Section 2 TM4C123 experimental board
--Section 3 TM4C123 software development
--Section 4 TM4C123 example experiment
--Section 1 Introduction to PSoC
--Section 2 Introduction to PSoC experimental board
--Section 3 PSoC software development method
--Section 4 PSoC example experiment
--Section 1 Introduction to FPGA
--Section 2 Development trend of FGPA
--Section 3 Characteristics of FPGA
--Section 4 Structure of FPGA
--Section 5 FPGA structure example
--Section 6 FPGA design tools and methods
--Section 7 QuartusⅡ integrated development environment
--Section 8 Introduction to DE2-115 experiment platform
--Section 9 Verilog hardware description language
--Section 10 Example of digital circuit design and simulation
--Section 1 Introduction to SOPC
--Section 2 Introduction to Nios II Microprocessor
--Section 3 Introduction to Avalone bus
--Section 4 Introduction to SOPC design method
--Section 5 Example of SOPC design
--Section 6 Nios II software design
--Section 1 Contents and requirements of the experiment
--Section 2 Experimental equipment and apparatus
--Section 3 Precautions and debugging methods
--Section 4 Experiment results
博士,副教授。2002-2003年赴美国UCSD访问半年。主讲《模拟电子技术基础》、《现代电子系统设计》、《电子技术专题》。主编教材《可编程片上系统原理与实训》、《TM4C123微处理器原理与实践》,参编教材《模拟电子技术基础》第四版、《模拟电子技术基本教程》。曾获北京市青年教师教学基本功大赛二等奖,清华大学青年教师教学基本功大赛一等奖,清华大学实验技术成果一等奖,清华大学实验技术成果三等奖,清华大学SRT优秀指导教师,清华大学教学成果一等奖等。以第一作者在国内外期刊发表教学论文五篇,其中一篇被SCI收录。
秦俭,男,清华大学自动化系高级工程师,电工电子技术实验中心EDA实验室主任,长期从事电子技术课程的实验教学工作,从教21年,曾获清华大学实验技术成果一等奖等。