Embedded Systems STM32 HAL APIs Driver Development

Embedded Systems STM32 HAL APIs Driver Development, available at $74.99, has an average rating of 4.67, with 44 lectures, based on 248 reviews, and has 1948 subscribers.

You will learn about Write firmware using only HAL functions Understand the Cortex-M Architecture Write Analog-to-Digital Converter (ADC) drivers using HAL functions Write PWM drivers using HAL functions Write UART drivers using HAL functions Write TIMER drivers using HAL functions Write Interrupt drivers using HAL functions Write SPI drivers using HAL functions Write I2C drivers using HAL functions Write RTC drivers using HAL functions Write DMA drivers using HAL functions Write RCC drivers using HAL functions This course is ideal for individuals who are If you are an absolute beginner to embedded systems, then take this course. or If you are an experienced embedded developer and want to learn how to professionally develop embedded applications for ARM processors, then take this course. It is particularly useful for If you are an absolute beginner to embedded systems, then take this course. or If you are an experienced embedded developer and want to learn how to professionally develop embedded applications for ARM processors, then take this course.

Enroll now: Embedded Systems STM32 HAL APIs Driver Development

Summary

Title: Embedded Systems STM32 HAL APIs Driver Development

Price: $74.99

Average Rating: 4.67

Number of Lectures: 44

Number of Published Lectures: 44

Number of Curriculum Items: 44

Number of Published Curriculum Objects: 44

Original Price: $34.99

Quality Status: approved

Status: Live

What You Will Learn

Write firmware using only HAL functions

Understand the Cortex-M Architecture

Write Analog-to-Digital Converter (ADC) drivers using HAL functions

Write PWM drivers using HAL functions

Write UART drivers using HAL functions

Write TIMER drivers using HAL functions

Write Interrupt drivers using HAL functions

Write SPI drivers using HAL functions

Write I2C drivers using HAL functions

Write RTC drivers using HAL functions

Write DMA drivers using HAL functions

Write RCC drivers using HAL functions

Who Should Attend

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.

Target Audiences

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.

Welcome to the Embedded Systems STM32 Hardware Abstraction Layer (HAL) Driver Development course.

The STM32 Hardware Abstraction Layer (HAL) provides a simple, generic multi-instance set of APIs (application programming interfaces) to interact with the upper layers like the user application, libraries and stacks.

The HAL driver APIs are split into two categories: generic APIs, which provide common and generic functions for all the STM32 series and extension APIs, which include specific and customized functions for a given line or part number. The HAL drivers include a complete set of ready-to-use APIs that simplify the user application implementation. For example, the communication peripherals contain APIs to initialize and configure the peripheral, manage data transfers in polling mode, handle interrupts or DMA, and manage communication errors.

In summary, the HAL offers high-level and feature-oriented APIs with a high-portability level. These hide the MCU and peripheral complexity from the end-user.

With a programming based approach, this course is designed to give you a solid foundation in firmware and peripheral driver development for the STM32 family of microcontrollers. The goal of this course is to teach you how to navigate the microcontroller reference manual and datasheet to extract the right  information to professionally  build peripheral drivers and firmware using the STM32 HAL APIs

By the end of this course you will be able to develop drivers for peripherals like the ADC, UART,PWM, GPIO, TIMER,I2C, SPI, RTC, RCC, EXTI etc.  You will also master the STM32 architecture and how to build professional embedded firmware for STM32 microcontrollers.

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 toggling some register bits.

–Some highlights

Write  Analog-to-Digital Converter (ADC) drivers using HAL functions

Write  PWM  drivers using HAL functions

Write  UART drivers using HAL functions

Write  TIMER drivers using HAL functions

Write  Interrupt drivers using HAL functions

Write  SPI drivers using HAL  functions

Write  I2C drivers using HAL  functions

Write  RTC drivers using HAL functions

Write  DMA drivers using HAL functions

Write  RCC drivers using HAL functions

Course Curriculum

Chapter 1: Introduction

Lecture 1: Downloading the required documentation

Chapter 2: Getting Started

Lecture 1: Notice

Lecture 2: Downloading CubeIDE

Lecture 3: Setting Up STM32CubeIDE

Lecture 4: Overview

Lecture 5: Notice

Lecture 6: Getting the right STM32 Package

Chapter 3: General Purpose Input/Output Driver Development

Lecture 1: Overview of ARM Cortex-M General Purpose Input/Output Module

Lecture 2: Notice

Lecture 3: Coding : Getting familiar with the Setup and HAL

Lecture 4: Coding : Developing a GPIO Driver using information from the documentations

Chapter 4: Universal Asynchronous-Synchronous Receiver-Transmitter (USART)

Lecture 1: Overview of the UART Protocol

Lecture 2: Coding : Developing a UART Driver (Pt. 1)

Lecture 3: Coding : Developing a UART Driver (Pt. 2)

Lecture 4: Coding : Retargeting printf

Chapter 5: General Purpose Timer Driver Development

Lecture 1: Understanding the System Tick (SysTick) Timer

Lecture 2: Understanding STM32 Timers

Lecture 3: Coding : Developing a Hardware Timer Driver (Pt. 1)

Lecture 4: Coding : Developing a Hardware Timer Driver (Pt. 2)

Chapter 6: Analog-to-Digital Converters Driver Development

Lecture 1: Understanding ADC Independents Modes

Lecture 2: Coding : Developing the ADC Continuous Conversion Driver (Part I)

Lecture 3: Coding : Developing the ADC Continuous Conversion Driver (Part II)

Lecture 4: Coding : Developing the ADC Single Conversion Driver

Chapter 7: Interrupt Programming

Lecture 1: Understanding Interrupts

Lecture 2: Coding : Developing the EXTI Input Interrupt Driver

Lecture 3: Coding : Using Multiple EXTI Input Interrupts

Lecture 4: Coding : Developing the ADC Interrupt Driver

Lecture 5: Coding : Developing the UART Interrupt Driver

Lecture 6: Coding : Using Multiple UART Modules

Chapter 8: Direct Memory Access (DMA) Driver Development

Lecture 1: Overview of the Direct Memory Access (DMA) Module

Lecture 2: Coding : Developing the ADC DMA Driver

Lecture 3: Coding : Developing the ADC Multi-Channel DMA Driver

Lecture 4: Coding : Developing the UART DMA Driver

Lecture 5: Coding : DMA Memory to Memory Transfer

Chapter 9: Serial Peripheral Interface (SPI) Driver Development

Lecture 1: Understanding the SPI Protocol

Lecture 2: Coding : Developing the SPI Polling Driver

Lecture 3: Coding : Developing the SPI Interrupt Driver

Lecture 4: Coding : Developing the SPI DMA Driver

Chapter 10: Inter- Integrated Circuit (I2C) Driver Development

Lecture 1: Understanding the I2C Protocol

Lecture 2: Coding : Writing an I2C Driver to read data from the ADXL345 Accelerometer (Pt1)

Lecture 3: Coding : Writing an I2C Driver to read data from the ADXL345 Accelerometer (Pt2)

Chapter 11: Real Time Clock (RTC) Programming

Lecture 1: Understanding Real Time Clocks

Lecture 2: Coding : Developing the Real Time Clock Driver

Chapter 12: Closing

Lecture 1: Closing Remarks

Instructors

BHM Engineering Academy
21st Century Engineering Academy

Israel Gbati
Embedded Firmware Engineer

Rating Distribution

1 stars: 12 votes

2 stars: 10 votes

3 stars: 34 votes

4 stars: 72 votes

5 stars: 120 votes

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