Udemy - Mastering STM32CubeMX 5 and CubeIDE – Embedded Systems

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Mastering STM32CubeMX 5 and CubeIDE - Embedded Systems [TutsNode.com] - Mastering STM32CubeMX 5 and CubeIDE - Embedded Systems 2. Developing General Purpose InputOutput Drivers and Firmware
  • 1. Coding an InputOuput Driver.mp4 (311.3 MB)
  • 1. Coding an InputOuput Driver.srt (51.3 KB)
  • 2. Coding an Input Interrupt Driver.mp4 (132.5 MB)
  • 2. Coding an Input Interrupt Driver.srt (21.8 KB)
  • 3. Coding an Input Interrupt Driver (Multiple Inputs).mp4 (76.7 MB)
  • 3. Coding an Input Interrupt Driver (Multiple Inputs).srt (12.1 KB)
1. Introduction
  • 1. Introduction (Same as Promo Video).mp4 (42.3 MB)
  • 1. Introduction (Same as Promo Video).srt (5.9 KB)
  • 2. Download CubeMX 5 and CubeIDE.mp4 (29.8 MB)
  • 2. Download CubeMX 5 and CubeIDE.srt (4.0 KB)
  • 3. Installing CubeMX 5 and CubeIDE.mp4 (48.6 MB)
  • 3. Installing CubeMX 5 and CubeIDE.srt (7.6 KB)
  • 4. Installing CubeMX 5 Packages.mp4 (42.2 MB)
  • 4. Installing CubeMX 5 Packages.srt (7.0 KB)
  • 5. Overview of STM32CubeMX 5.mp4 (109.6 MB)
  • 5. Overview of STM32CubeMX 5.srt (24.2 KB)
  • 6. Overview of the Clock Configuration Tab.mp4 (29.6 MB)
  • 6. Overview of the Clock Configuration Tab.srt (8.2 KB)
3. Embedded Systems Bare-Metal Embedded-C and Assembly Programming with CubeIDE
  • 1. Coding Gpio Drivers From Scratch Using Datasheet Information (Part I).mp4 (193.5 MB)
  • 1. Coding Gpio Drivers From Scratch Using Datasheet Information (Part I).srt (46.7 KB)
  • 2. Coding Gpio Drivers From Scratch Using Datasheet Information (Part II).mp4 (119.3 MB)
  • 2. Coding Gpio Drivers From Scratch Using Datasheet Information (Part II).srt (25.1 KB)
  • 3. Coding ARM Assembly Applications in CubeIDE.mp4 (106.3 MB)
  • 3. Coding ARM Assembly Applications in CubeIDE.srt (25.0 KB)
  • 4. Coding Gpio Drivers From Scratch In Assembly Language (Part I).mp4 (129.7 MB)
  • 4. Coding Gpio Drivers From Scratch In Assembly Language (Part I).srt (29.7 KB)
  • 5. Coding Gpio Drivers From Scratch In Assembly Language (Part II).mp4 (121.9 MB)
  • 5. Coding Gpio Drivers From Scratch In Assembly Language (Part II).srt (22.5 KB)
  • 6. Converting Keil MDK ARM Assembly Syntax to GCC Assembly Syntax.mp4 (142.7 MB)
  • 6. Converting Keil MDK ARM Assembly Syntax to GCC Assembly Syntax.srt (24.2 KB)
4. Developing General Purpose Timers Drivers and Firmware
  • 1. Coding a Hardware Timer to generate precise Delays.mp4 (227.8 MB)
  • 1. Coding a Hardware Timer to generate precise Delays.srt (41.4 KB)
  • 2. Coding a Hardware Timer Driver for Output Compare Functionality.mp4 (135.8 MB)
  • 2. Coding a Hardware Timer Driver for Output Compare Functionality.srt (20.4 KB)
  • 3. Coding a Hardware Timer Driver for Counting Events.mp4 (64.0 MB)
  • 3. Coding a Hardware Timer Driver for Counting Events.srt (11.8 KB)
  • 4. Coding a Hardware Timer Driver for Generating PWM Signals.mp4 (49.2 MB)
  • 4. Coding a Hardware Timer Driver for Generating PWM Signals.srt (10.0 KB)
  • 5. Coding a Hardware Timer Driver for Generating Precise Interrupts.mp4 (66.5 MB)
  • 5. Coding a Hardware Timer Driver for Generating Precise Interrupts.srt (13.7 KB)
5. Developing Analog-to-Digital Conversion (ADC) Drivers and Firmware
  • 1. Coding an ADC Driver for Single Conversion Mode.mp4 (100.5 MB)
  • 1. Coding an ADC Driver for Single Conversion Mode.srt (15.5 KB)
  • 1.1 6_ADC_Single_Conversion_Mode.mp4 (43.8 MB)
  • 2. Coding an ADC Driver for Continuous Mode Conversion.mp4 (89.4 MB)
  • 2. Coding an ADC Driver for Continuous Mode Conversion.srt (19.0 KB)
  • 3. Coding an ADC Driver for Interrupt Conversion Mode.mp4 (59.2 MB)
  • 3. Coding an ADC Driver for Interrupt Conversion Mode.srt (11.6 KB)
  • 4. Coding an ADC Driver for Single-Channel DMA Mode.mp4 (56.3 MB)
  • 4. Coding an ADC Driver for Single-Channel DMA Mode.srt (12.2 KB)
  • 5. Coding an ADC Driver for Multi-Channel DMA Scan Mode.mp4 (133.9 MB)
  • 5. Coding an ADC Driver for Multi-Channel DMA Scan Mode.srt (27.0 KB)
6. Developing Serial Peripheral Interface ( SPI ) Drivers and Firmware
  • 1. Coding SPI Drivers for Polling Transfer Mode.mp4 (69.2 MB)
  • 1. Coding SPI Drivers for Polling Transfer Mode.srt (14.4 KB)
  • 2. Coding SPI Drivers for Interrupt Transfer Mode.mp4 (64.1 MB)
  • 2. Coding SPI Drivers for Interrupt Transfer Mode.srt (13.3 KB)
  • 3. Coding SPI Drivers for DMA Transfer Mode.mp4 (39.8 MB)
  • 3. Coding SPI Drivers for DMA Transfer Mode.srt (7.5 KB)
7. Developing Universal Asynchronous Receiver-Transmitter ( UART ) Drivers
  • 1. Coding UART Drivers for Polling Transfer Mode.mp4 (123.3 MB)
  • 1. Coding UART Drivers for Polling Transfer Mode.srt (26.8 KB)
  • 2. Coding UART Drivers for Interupt Transfer Mode.mp4 (127.8 MB)
  • 2. Coding UART Drivers for Interupt Transfer Mode.srt (25.3 KB)
  • 3. Coding UART Drivers for DMA Transfer Mode.mp4 (50.4 MB)
  • 3. Coding UART Drivers for DMA Transfer Mode.srt (10.8 KB)
  • 4. Coding Multiple UART Modules.mp4 (158.0 MB)
  • 4. Coding Multiple UART Modules.srt (28.6 KB)
8. Developing Universal Serial Bus ( USB) Drivers and Firmware
  • 1. Understanding the USB capabilities of different dev boards.mp4 (17.2 MB)
  • 1. Understanding the USB capabilities of different dev boards.srt (2.6 KB)
  • 2. Coding USB Drivers for Human Interface Device (HID) - Mouse Functionality.mp4 (170.5 MB)
  • 2. Coding USB Drivers for Human Interface Device (HID) - Mouse Functionality.srt (28.9 KB)
  • 3. Coding USB Drivers for Human Interface Device (HID) - Keyboard Functionality.mp4 (153.0 MB)
  • 3. Coding USB Drivers for Human Interface Device (HID) - Keyboard Functionality.srt (22.9 KB)
  • 4. Coding USB Drivers for Virtual Com Port Functionality (TX Only).mp4 (62.9 MB)
  • 4. Coding USB Drivers for Virtual Com Port Functionality (TX Only).srt (12.8 KB)
  • 5. Coding USB Drivers for Virtual Com Port Functionality (RX and TX ).mp4 (139.9 MB)
  • 5. Coding USB Drivers for Virtual Com Port Functionality (RX and TX ).srt (23.2 KB)
9. Developing Real-time Firmware with FreeRTOS
  • 1. Coding Experimenting with Tasks and Priorities.mp4 (143.2 MB)
  • 1. Coding Experimenting with Tasks and Priorities.srt (24.9 KB)
  • 2. Coding Accessing Hardware Drivers from Multiple Threads.mp4 (185.4 MB)
  • 2. Coding Accessing Hardware Drivers from Multiple Threads.srt (24.2 KB)
  • 3. Coding Accessing Hard

Description


Description

Hello Welcome to the Mastering STM32CubeMX 5 and CubeIDE course

This course teaches you how build embedded systems firmware and peripheral drivers using the STM32CubeMX 5 framework and the STMCubeIDE development environment. This course has many sections but primarily the course can be divided into three parts.

The first part deals with peripheral driver development. In this part we master how to use the STM32CubeMX framework to setup the clocks and register parameters of our peripheral drivers and then go on to the CubeIDE development environment to complete the development and testing of peripheral drivers. We shall master different setup configurations of our peripheral drivers in this part. These peripherals include the Universal Serial Bus (USB), the PWM, the SPI, the ADC, UART and the DMA.

The second part of this master course deals with developing embedded firmware applications using some of the Middleware provided by the STM32CubeMX framework. One of such Middleware we shall master is the FreeRTOS Realtime Kernel. We shall see how to use STM32CubeMX to create tasks and semaphores and other kernel components for realtime firmware development. We shall also see how to develop these kernel components from scratch using our CubeIDE development environment alone.

The third part of the course deals with working the CubeIDE as a standalone development environment. Over here we shall see how to develop bare-metal embedded-c firmware and drivers without using any libraries. We shall literally download the microcontroller chip’s datasheet and develop our firmware and drivers using information from the datasheet only. We shall then go on to use this same datasheet information to develop firmware and peripheral drivers using ARM Assembly Language.

Please take a look at the full course curriculum.

REMEMBER : I have no doubt you will love this course. Also it comes with a FULL money back guarantee for 30 days! So put simply, you really have nothing to loose and everything to gain.

Sign up and let’s start building some drivers.
Who this course is for:

If you are an absolute beginner to embedded systems, then take this course.
If you are an experienced embedded developer and want to learn how to professionally develop embedded applications for ARM processors, then take this course.

Requirements

STM32 board
No programming experience needed – I’ll teach you everything you need to know.

Last Updated 12/2020



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Udemy - Mastering STM32CubeMX 5 and CubeIDE – Embedded Systems

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4.3 GB
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Udemy - Mastering STM32CubeMX 5 and CubeIDE – Embedded Systems

Torrent hash: 4808C26E3A8184C0E7874C013A35C24CE7A13336