Analog Circuit Basics: From System Level to Circuit Level" closely focuses on the theme of weak signal processing circuits and organizes content from system level to circuit level. The system-level circuit teaching goal is ECG signal processing circuit design, and the circuit-level circuit teaching goal is Single-ended output two-stage operational amplifier circuit design. The course closely combines simulation experiments with theoretical teaching, organically integrating the theoretical foundation and related skills necessary for modern analog circuit engineers.
Total of 37 lessons6 hours and 46 minutes and 53 seconds
Introducing the three development kits (ProfiMEMS, SensorTile.box and LIS25BA Board) used in the 2020 MEMS Sensor Creative Design Competition (competition registration is open), aiming to let more users understand and familiarize themselves with the use of the kits, and facilitate developers to provide based on ST Develop and debug your own application design on the platform.
Total of 2 lessons1 hours and 16 minutes and 33 seconds
Lecture 32 by Ma Zuoqun of Zhejiang University on Circuits and Electrical Machines
Total of 16 lessons18 hours and 15 minutes and 41 seconds
"Digital Large Scale Integrated Circuit" is a basic course for graduate students in microelectronics that teaches the basic theory and knowledge of digital large scale integrated circuits. It is not only a core course for students majoring in microelectronics, but also a basic course for students majoring in power supply to learn digital integrated circuit design. The course focuses on nanometer and deep submicron CMOS process conditions, digital circuit principles and design techniques at the system level integration level, including the characteristics and models of devices and interconnect lines, key indicators and optimization methods of digital VLSI, and common logic Type, basic functional units, working principles and design methods of important on-chip subsystems (clock, power network), etc. By studying this course, you can understand how to use MOS tubes to implement complex digital chips, what are the differences between real digital integrated circuits and ideal digital circuits, and the speed, power consumption, robustness, cost, etc. of the chip. What factors are related to the characteristics and how to optimize them.
Total of 125 lessons1 days and 5 hours and 40 minutes and 56 seconds
Basics of Circuit Theory Zhao Jinquan, Xi'an Jiaotong University
Total of 99 lessons3 days and 1 hours and 58 minutes and 53 seconds
Video tutorial on hardware components and electromagnetic compatibility
Total of 15 lessons1 hours and 43 minutes and 3 seconds
Hardware trio low-speed ADC video tutorial
Total of 10 lessons1 hours and 52 minutes and 48 seconds
EMC pre-test environment construction
Total of 1 lessons27 minutes and 38 seconds
LCR series resonant circuit Fudan University
Total of 2 lessons9 minutes and 32 seconds
Introducing the technical principles of digital active noise-cancelling headphones (ANC); introducing the development trends and technical challenges of the new generation of noise-cancelling headphones; focusing on the solutions and product advantages of ADI's dedicated ANC SoC; focusing on successful application cases and third-party resource introductions .
Total of 2 lessons1 hours and 11 minutes and 10 seconds
Mechanics in Electronic Packaging Liu Sheng, Huazhong University of Science and Technology
Total of 25 lessons8 hours and 19 minutes and 21 seconds
This course is the main electronic circuit course for the electronic information engineering major. It requires students to firmly grasp the basic working principles of radio transceiver system unit circuits, basic analysis methods, basic testing and engineering design methods, and cultivate students' ability to analyze circuits and understand circuits.
Total of 46 lessons1 days and 12 hours and 3 minutes and 26 seconds
This course mainly studies the working principles and composition of each unit of sending and receiving equipment in communication systems, as well as the working principles, typical circuits and analysis methods of various unit circuits that constitute sending and receiving equipment. It should be noted that in nonlinear electronic circuits, in order to achieve the same function, different circuit forms are used due to different index requirements. In addition, even if the circuit is of the same form, if its working status, input signal properties, level, output filter characteristics, etc. are different, the functions implemented will be different. Therefore, we must pay attention to mastering the basic principles of various functional circuits, the characteristics and applicable occasions of different circuits, and grasping the internal connections and commonalities of each functional circuit.
Total of 60 lessons1 days and 14 hours and 16 minutes and 8 seconds
Want to understand how high-voltage isolation technology works? Watch and learn about surge testing for isolation.
Total of 3 lessons24 minutes and 0 seconds
Analog-to-digital (or digital-to-analog) data conversion is an important component in many forms of electronic systems, but the technique of data sampling raises many design issues and considerations. The first part of this online seminar series will explore the fundamentals of data sampling and the implications of quantization, undersampling and oversampling, process gain, anti-aliasing filtering, and more. Part Two will explore mainstream data converter architectures in detail and help listeners understand how sampling, quantization, and digitization occur and, more importantly, how this affects the correct selection of converters in a given application. This seminar will also discuss the sources of sampling anomalies that affect linearity, distortion, and noise and how to manage them.
Total of 2 lessons1 hours and 36 minutes and 42 seconds
An instrumentation amplifier is a high-gain, DC-coupled amplifier with differential input, single-ended output, high input impedance and high common-mode rejection ratio, as well as low drift and low noise. Instrumentation amplifiers are compact devices commonly used to amplify weak signals that are submerged in strong interference and noise environments. Instrumentation amplifiers are not only common in instrumentation applications, but are also used in a wide variety of other systems from computers to automobiles. This seminar will focus on the basic principles, circuit structure and key technical specifications of instrumentation amplifiers, and focus on typical applications and solutions to common problems engineers apply when applying instrumentation amplifiers (including single-supply applications). In addition, ADI's representative instrumentation amplifiers will be briefly introduced.
Total of 1 lessons28 minutes and 19 seconds
The success of a system design depends on proper signal conditioning in the signal path. It is important to understand and implement correct filtering to obtain the best compromise of characteristics such as roll-off, bandpass flatness, and stability. In this online seminar, our analog experts will analyze the design process of low-pass and high-pass active filters, discuss filter principles and architecture, and introduce design tools and new active filters that can help simplify and accelerate the design process. Filter Evaluation Board
Total of 1 lessons37 minutes and 13 seconds
Here, you will learn basic electronic devices and circuits (semiconductor devices, basic amplifier circuits, power amplifier circuits), circuit characteristic analysis (frequency response, feedback amplifier circuit), and the application of electronic circuits (analog integrated circuit basics, integrated Application of operational amplifier circuits, DC stabilized power supply) and other classic and up-to-date knowledge
Total of 106 lessons18 hours and 21 minutes and 24 seconds
According to application classification, most capacitors are often divided into four types: AC coupling, including bypass (passing AC and blocking DC); decoupling (filtering AC signals or filtering out high-frequency signals superimposed on DC signals or filtering out power supplies) , low-frequency components in reference power and signal circuits); active or passive RC filtering or frequency selection networks; analog integrators or sample-and-hold circuits (capturing and storing charge)
Total of 4 lessons1 hours and 33 minutes and 39 seconds
Basic knowledge of digital circuits (number system, coding, logic algebra, logic gates, flip-flops, etc.), combinational circuit analysis and design methods, sequential circuit analysis and design methods, pulse waveform generation and shaping, programmable logic devices, and analog-digital conversion etc.
Total of 103 lessons20 hours and 48 minutes and 42 seconds
Professor Xu Huimin's "Digital Circuits" describes the basic knowledge, principles and basic applications, improvement and expansion of digital circuits from simple to in-depth. The content is well organized, the knowledge structure is clear, and it focuses on cultivating hands-on ability.
Total of 111 lessons1 days and 21 hours and 40 minutes and 52 seconds
The basis of microelectronics technology - microlithography and micro/nano processing technology is the processing technology that humans can achieve nanometer precision so far. Its processing equipment and processing technology are also constantly developing to meet the needs of chip processing from micron to nanoscale. need. Once electronic components are made to the nanoscale, the operating speed and memory of the chip will be greatly improved, thus opening up a new way for the design and implementation of future single-electron computers or nanocomputers.
Total of 16 lessons6 hours and 37 minutes and 56 seconds
Semiconductor manufacturing technology is the foundation for the development of the semiconductor industry. The level of manufacturing technology directly affects the performance and development of semiconductor products. Photolithography, etching, deposition, diffusion, ion implantation, heat treatment and thermal oxidation are all commonly used semiconductor manufacturing technologies.
Total of 4 lessons1 hours and 33 minutes and 7 seconds
Simulate the process implementation methods, working principles and models of various active and passive devices used in CMOS integrated circuit design. As an excellent analog integrated circuit designer, only after deeply mastering the working principles and characteristics of various devices can we design high-quality analog integrated circuits.
Total of 52 lessons19 hours and 18 minutes and 30 seconds
Through the study of 20 unit circuits such as operational amplifier circuits, master the basic structure, testing and application of diodes, transistors, resistors, capacitors and other components; master rectification, filtering, voltage stabilizing circuits, common emitter and common collector amplifier circuits, Analyze and apply methods of signal processing circuits such as operational amplifier circuits; master analysis and design methods of digital logic circuits such as counters, decoders, and oscillators.
Total of 98 lessons20 hours and 49 minutes and 51 seconds
Total of 9 lessons3 hours and 25 minutes and 35 seconds
Total of 80 lessons13 hours and 37 minutes and 50 seconds
digital
Total of 166 lessons20 hours and 59 minutes and 47 seconds
Total of 110 lessons1 days and 16 hours and 7 minutes and 48 seconds
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