Total of 64 lessons9 hours and 32 minutes and 56 seconds
With the intelligent development of automobile cockpits, its comfort has attracted more and more attention from users. In order to improve the user experience, more and more actuators are used in the cockpit to improve the comfort of the cockpit, and seat ventilation is one of the applications. Nanochip NSUC1610 is an ARM MCU that integrates a 4-way half-bridge driver. As a single-chip automotive small motor driver SoC, NSUC1610 supports direct power supply from 12V automotive batteries, complies with AEC-Q100 standards, and has a wide range of uses in the automotive field. It is suitable for controlling low-power motors and can drive BDC, BLDC and stepper motors. It helps customers reduce PCB size, simplify production design, and achieve more efficient, compact and cost-effective motor control designs.
Total of 1 lessons6 minutes and 19 seconds
Artificial intelligence also brings information security issues that cannot be ignored. The Internet of Everything, device security, a large number of new access devices, permission management and other issues have brought greater challenges to the construction and configuration of servers and data centers. Even in pursuit of breakthroughs in computing power, an emerging topic in recent years - quantum Computing also brings huge changes and threats to the industry. In the face of such threats, how should data centers and edge computing applications respond? Infineon provides exclusive solutions for information security protection. Its OPTIGA™ TPM (Trusted Platform Module) series includes a variety of security controls Protects the integrity and reliability of embedded devices and systems.
Total of 2 lessons1 hours and 12 minutes and 32 seconds
This course is the embedded Qt5 C++ development course in the series of courses taught by Punctual Atom to teach you step by step on Linux. The supporting development board of this course is the Punctual Atom I.MX6/STM32MP157 development board.
Total of 83 lessons1 days and 2 hours and 50 minutes and 31 seconds
On the basis of introducing FSP, we will focus on introducing some new features of the latest version 4.0.0 of FSP. I hope that through this speech, engineers can understand and become familiar with Renesas RA series product development tools. FSP, Renesas Electronics Flexible Configuration Software Package, is an enhanced software package designed to provide easy-to-use, scalable, high-quality software for embedded system designs using Renesas Electronics RA series ARM microcontrollers.
Total of 1 lessons57 minutes and 15 seconds
Microchip's "embedded to cloud" ecosystem supports developers every step of the way, offering a variety of development kits with numerous cloud partners in addition to industry-leading integrated development environments (IDEs) to ensure You have all the resources you need to bring your ideas to life.
Total of 1 lessons23 minutes and 8 seconds
Artificial intelligence is the hottest technology today. All major manufacturers want to make their own artificial intelligence products, but the entry threshold for artificial intelligence is very high. It is not easy to quickly make artificial intelligence products. This course will introduce you to it. This open source robot language recognition framework allows everyone to quickly implement their own artificial intelligence products and implement customized functions such as speech recognition, semantic understanding, and speech output.
Total of 15 lessons3 hours and 1 minutes and 6 seconds
As computing loads shift to edge devices, Microchip's FPGA products consume 30-50% less total power than similar medium-density FPGAs, with static power consumption reduced by 5-10 times, making them a series of emerging computing-intensive edge devices. (including those deployed in thermally and power-constrained environments). Microchip's FPGA intelligent embedded vision solutions cover the entire ecosystem of video, imaging and machine learning IP and tools, helping to quickly develop high-performance products commonly required in markets such as industrial, healthcare, broadcast, automotive, aerospace and security. , various designs with low power consumption and compact packaging.
Total of 1 lessons45 minutes and 8 seconds
As computing loads shift to edge devices, Microchip's FPGA products consume 30-50% less total power than similar medium-density FPGAs, with static power consumption reduced by 5-10 times, making them a series of emerging computing-intensive edge devices. (including those deployed in thermally and power-constrained environments). Microchip's FPGA intelligent embedded vision solutions cover the entire ecosystem of video, imaging and machine learning IP and tools, helping to quickly develop high-performance products commonly required in markets such as industrial, healthcare, broadcast, automotive, aerospace and security. , various designs with low power consumption and compact packaging.
Total of 1 lessons45 minutes and 8 seconds
Total of 40 lessons10 hours and 28 minutes and 43 seconds
This course is a core basic course for the electronic information science and technology major and an introductory course for electronic system design and integrated circuit application development. This course mainly includes an overview of embedded systems, ARM Cortex processor architecture, software and hardware development environment, basic internal hardware modules GPIO/timer/PWM/ADC modules, general peripheral communication interface UART/I2C/SPI interface, TCP/IP network Protocols and their implementation, internal mechanisms of embedded operating systems and their transplantation, SoPC heterogeneous embedded design, etc. Through the study of this course, students can master the concepts of embedded systems and their development methods, and be able to use the content they have learned to develop and design embedded systems.
Total of 32 lessons7 hours and 56 minutes and 35 seconds
Through the study of this course, you can help you understand the structure and working principles of microprocessor systems, master the software and hardware design methods of embedded microprocessor systems (SoC systems) represented by ARM, and initially possess the knowledge of computers and embedded microsystems. Analytical and application skills.
Total of 67 lessons10 hours and 11 minutes and 10 seconds
An embedded system is a special computer system that tailors the software and hardware according to the needs of the application to meet customized requirements; it is a product of the combination of advanced computer technology, semiconductor technology, electronic technology and specific applications in various industries. With the development of semiconductor technology, Moore's Law will continue to be effective within ten years, which indicates that the integration level of chips will be further improved; while performance is improved, chip area and price are also continuously reduced. This further expands the application scope of embedded systems, and almost all products can integrate chips. This phenomenon is called "Disappearing Computer", which means that embedded systems will be ubiquitous. .
Total of 54 lessons10 hours and 42 minutes and 3 seconds
The content included in the course is the knowledge necessary for students to develop basic embedded software. It is organized in the order of introduction to embedded systems, embedded hardware basics, embedded software basics, embedded operating systems, and embedded software development.
Total of 40 lessons1 days and 3 hours and 19 minutes and 37 seconds
Embedded software design is a professional course in computer, software engineering and other disciplines. It is an important course with strong practicality and technical nature. The main task of this course is to comprehensively introduce GNU C language programming ideas and methods based on ARM/embedded Linux operating system, as well as embedded simulation technology based on STM32 processor and Proteus. Through the study of this course, students can master the basic processes and methods of embedded software design.
Total of 77 lessons8 hours and 39 minutes and 25 seconds
Chapter 1 Introduction Chapter 2 Embedded System Design Methodology Chapter 3 Embedded Processor Chapter 4 Storage System Chapter 5 Bus and Communication Interface Chapter 6 I/O Interface Circuit Chapter 7 Embedded Operating System
Total of 46 lessons1 days and 13 hours and 29 minutes and 26 seconds
This course requires students to have a foundation in C language programming. In the course, ARM microcontrollers (single-chip computers) and embedded systems are gradually explained. The teaching is arranged for practice and encourages hands-on practice and free innovation. It is suitable for undergraduate students and those who want to participate in scientific and technological activities. By.
Total of 59 lessons17 hours and 24 minutes and 50 seconds
Master Linux common operating commands and system management; understand embedded system process management, file management, and the Linux kernel; be familiar with ARM operating system transplantation and device driver file management on different hardware platforms and other related knowledge, learn QT program development, and embed Debugging of system programs. Enable students to learn the thinking methods of analyzing and solving problems in embedded development, and master the basic methods and common algorithms of programming;
Total of 82 lessons17 hours and 3 minutes and 44 seconds
An embedded system refers to a computer or computing device that performs a specific function or uses a specific embedded application software. An embedded system is a system that includes embedded hardware, embedded operating system, supporting software and various application software. The current embedded technology is already a comprehensive technology involving computer architecture, computer software and other related electronic technologies.
Total of 49 lessons1 days and 7 hours and 30 minutes and 19 seconds
This course is based on the KL series microcontrollers with ARM Cortex-M0+ core to explain the basic knowledge elements and software and hardware design methods of embedded systems. It uses componentization methods to improve software and hardware design specifications and reduce learning difficulty. Including knowledge system, learning misunderstandings and learning suggestions; hardware minimum system and software minimum system; basic specifications of hardware components and underlying driver components; UART, PWM, AD, DA, SPI, I2C, TSI, USB and other modules.
Total of 35 lessons6 hours and 11 minutes and 38 seconds
Development of embedded Linux system based on ARM
Total of 1 lessons25 minutes and 40 seconds
ARM-based embedded Linux system under development
Total of 1 lessons25 minutes and 0 seconds
ARM-based embedded Linux system development
Total of 1 lessons25 minutes and 0 seconds
Huaqing Vision Training Tutorial, 1. The meaning of performance; 2. Common tools (top, vmstat, iostat, sysctl, etc.); 3. Advanced performance debugging methods: a.oprofile, b.gprofile; 4. Kernel tracking methods: LTT; 5. Real-time problem analysis and resolution.
Total of 2 lessons1 hours and 14 minutes and 27 seconds
Huaqing Vision Training Course, on the basis of introducing the basic knowledge of embedded system development, analyzes Vxwoks system transplantation, driver development, and application development.
Total of 2 lessons54 minutes and 42 seconds
Core content: 1. The concept of Internet of Things. 2. The concept of embedded development. 3.Arduino open source hardware platform. 4. Construction of Arduino development environment.
Total of 4 lessons30 minutes and 18 seconds
The execution component is an important part of embedded applications. Different control scenarios require the use of different execution components. In this course, students will take stock of the usage methods and usage scenarios of the most commonly used execution components, so that students can correctly select execution components according to the needs of the application.
Total of 5 lessons34 minutes and 21 seconds
Environmental monitoring is a commonly used application field for embedded application systems. This lesson mainly explains how to use Arduino with various types of sensors to sense the surrounding environment.
Total of 4 lessons24 minutes and 3 seconds
Playing with Arduino—Writing good control code
Total of 3 lessons31 minutes and 55 seconds
Arduino bus communication overview
Total of 3 lessons16 minutes and 31 seconds
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