Upon completing this course, you will:
Master the use of floating-point data types and input/output handling in C.
Understand and apply various operators and decision-making constructs in C programming.
Execute advanced bitwise operations and control LEDs using embedded C.
Achieve proficiency in bitwise manipulation and loop constructs for efficient code iteration and embedded system control.
Course Description
Embark on a comprehensive journey through ARM Cortex (STM32) Fundamentals: Building Embedded Systems. This course begins with essential data manipulation and input/output handling techniques, advancing your understanding of floating-point data types and versatile user input methods. Dive into operators and decision-making constructs, mastering for standardized integer types and honing skills in relational and logical operators.
Explore the complexities of bitwise operations, enabling precise LED control through embedded C programming. Elevate your proficiency with bitwise manipulation, mastering loop constructs for efficient code iteration and intricate LED control sequences.
By course end, you will possess the essential skills required for developing sophisticated embedded systems using ARM Cortex (STM32) technology. This course's unique focus on practical, hands-on applications and advanced techniques ensures you gain robust, real-world competencies in embedded systems development.
Target Learners
This course is ideal for:
1) Aspiring embedded systems engineers who want to gain a solid foundation in ARM Cortex (STM32) microcontroller programming.
2) Electronics and computer engineering students seeking practical experience in embedded systems.
3) Professional engineers looking to enhance their skills in embedded C programming and ARM Cortex (STM32) development.
Prerequisites
Before taking this course, learners should have:
1) Basic knowledge of C programming, including variables, data types, and basic control structures.
2) Familiarity with general computer programming concepts and logic.
3) An understanding of basic electronics principles, such as voltage, current, and circuit components.
4) A willingness to learn and experiment with embedded systems hardware and software.
Overview
Syllabus
- Data Manipulation and Input/Output Handling
- This module delves into fundamental concepts of data manipulation and input/output handling in C programming. Participants will grasp the nuances of floating-point data types like float and double, and master the use of scanf() for flexible user input, including scientific notation. They will also delve into the intricacies of pointer variables and data types, learning initialization and operations, along with discerning the significance of diverse pointer data types. By the end, learners will be proficient in effectively handling data and input/output operations, crucial skills for any C programmer.
- Operators, Decision-Making, and Data Handling
- This module focuses on essential components of C programming, empowering learners with foundational skills. Participants will grasp the importance of for standardized integer type definitions, enabling consistent data handling. They will then delve into the diverse realm of operators in C, mastering unary, relational, and logical operators, pivotal for data manipulation. The module progresses to decision-making constructs, teaching effective implementation of if, if-else, and if-else-if ladder statements. Finally, participants will explore the switch case statement and conditional operators, enhancing their proficiency in decision-making logic. By the end, learners will be equipped with a robust toolkit for effective C programming.
- Bitwise Operations and LED Control
- This module delves into the intricate world of bitwise operations and embedded C programming, equipping participants with advanced skills. Learners will master the application of bitwise operators in C, adeptly manipulating bits to determine even/odd numbers and perform efficient XOR operations. They will then explore the implementation of embedded C code to control LEDs, gaining insights into memory-mapped peripheral registers and the STM32 memory map. The module culminates in a comprehensive understanding of the process of activating LEDs, involving enabling peripheral clocks and coding precise activation sequences. By the end, participants will be proficient in advanced bit manipulation and embedded systems development.
- Bitwise Manipulation, Loop Mastery, and LED Precision
- This module is dedicated to enhancing participants' proficiency in advanced C programming techniques. It begins with an exploration of bitwise shift operators, enabling efficient data manipulation, modification of LED exercises, and precise bit extraction. Learners will then delve into mastering looping concepts, including while and do-while loops, for streamlined iteration through code sequences. The module culminates in the effective implementation of the 'for' loop construct, empowering participants to solve complex exercises and implement software delays for precise LED control. By the end, participants will have honed their skills in advanced data manipulation and efficient code iteration in C programming.
Taught by
EDUCBA