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Introduction to advanced peripherals in the STM32 series and their significance in embedded systems.<br>
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Advanced Peripherals of the STM32 Series: Unleashing the Power of GPIOs, UART, SPI, I2C, and more I. Introduction ● Introduction to advanced peripherals in the STM32 series and their significance in embedded systems. ● Briefly explain the goal of the blog: to explore the capabilities and applications of GPIOs, UART, SPI, I2C, and other peripherals. II. GPIOs (General Purpose Input/Output)
● Explanation of GPIOs and their role in controlling and interfacing with external devices. ● Examples of GPIO usage in various applications, such as LED control and button inputs. ● Discussion of different modes and configurations available for GPIOs. III. UART (Universal Asynchronous Receiver-Transmitter) ● Description of the functionality and purpose of UART in serial communication. ● Explanation of the configuration and setup of UART communication. ● Discussion of UART applications, such as transmitting data to other devices or debugging. IV. SPI (Serial Peripheral Interface) ● Introduction to SPI and its role in inter-device communication. ● Explanation of the SPI bus architecture and the master-slave relationship. ● Examples of SPI applications, such as connecting sensors and display modules. V. I2C (Inter-Integrated Circuit) ● Description of the I2C protocol and its advantages in communication between multiple devices. ● Explanation of the addressing scheme and data transfer process in I2C. ● Discussion of real-world applications of I2C, such as connecting sensors and EEPROMs. VI. Other Advanced Peripherals ● Brief mention of other peripherals found in the STM32 series, such as timers, ADC, and DMA. ● Highlighting their importance and potential applications. VII. Call-to-Action ● Encouragement for readers to explore the Indian Institute of Embedded Systems (IIES) for further learning opportunities in Embedded Systems. ● Providing a link to the IIES website to know more about embedded course.