[IMAGE OF STM32H743IIT6]
The STM32H743IIT6 by STMicroelectronics features an Arm Cortex-M7 core running up to 480 MHz, with 2MB of flash memory and 1MB of RAM. Its architecture, including an Art Accelerator and L1 cache, supports real-time tasks efficiently. The integrated DSP and double-precision floating-point unit (DP-FPU) make it ideal for handling complex data processing. It also connects seamlessly to external memory and various peripherals, making it a strong choice for applications like motor control, audio, and industrial automation.
[IMAGE OF STM32H743IIT6 Pin Configuration]
[IMAGE OF STM32H743IIT6 Symbol]
[IMAGE OF STM32H743IIT6 Footprint]
[IMAGE OF STM32H743IIT6 3D Model]
The STM32H743IIT6 comes with dual-bank flash memory, allowing read-while-write support. This feature lets you access data and make updates simultaneously, making operations more efficient and flexible.
It includes 192 Kbytes of TCM RAM, divided into 64 Kbytes of ITCM RAM and 128 Kbytes of DTCM RAM. This fast memory setup supports time-sensitive tasks, helping the microcontroller run critical operations smoothly.
The microcontroller offers a flexible external memory controller that supports a data bus up to 32 bits. It connects easily to external memory types such as SRAM, PSRAM, SDRAM, and NOR/NAND flash, expanding storage options for larger applications.
Equipped with security options like ROP (Read-Out Protection), PC-ROP, and active tamper protection, the STM32H743IIT6 keeps your data secure. These features safeguard sensitive information against unauthorized access and tampering.
The microcontroller supports up to 168 I/O ports, each with interrupt capabilities. This versatility allows easy interfacing with multiple external devices and enhances the microcontroller's responsiveness to external signals.
With three ADCs and two DACs, the STM32H743IIT6 provides precise analog-to-digital and digital-to-analog conversions. This feature makes it ideal for applications that need high-quality signal processing, such as audio and motor control.
It includes a high-resolution timer, 12 general-purpose 16-bit timers, two PWM timers for motor control, and five low-power timers. These timers enable accurate control for time-sensitive tasks and improve efficiency in applications like motor control and automation.
The built-in true random number generator (RNG) supports encryption and security functions, making the microcontroller suitable for applications that need secure data handling and communication.
Four digital filters for external sigma-delta modulators enhance signal processing quality, especially useful in high-precision applications that rely on precise data measurement and conversion.
It supports a wide array of standard and advanced communication interfaces, including CAN, I2C, SAI, SDIO, SPI, USART, and USB. These interfaces make integration with external devices straightforward and adaptable to various applications.
Technical specifications, features, characteristics, and components with comparable specifications of STMicroelectronics STM32H743IIT6
[TABLE OF STM32H743IIT6 Specifications]
The parts on the right have specifications similar to the STMicroelectronics STM32H743IIT6
[TABLE OF Parts with Similar Specs]
The STM32H743IIT6 is well-suited for controlling various motor types, such as BLDC, PMSM, ACIM, and DC motors. It supports advanced PWM techniques and field-oriented control algorithms, enabling precise control over speed, torque, and position. This makes it ideal for applications like electric vehicles, robots, and power tools.
With strong digital signal processing capabilities, the STM32H743IIT6 can handle tasks like filtering, FFT, and data compression, which are essential in medical imaging and diagnosis applications such as ultrasound and MRI. It can also work with low-power and secure communication protocols for wearable medical devices.
The microcontroller supports industrial protocols such as CAN, Ethernet, Modbus, and Profibus, making it suitable for automation and control systems. Its real-time task capability allows it to manage functions like PID control and motion control, fitting applications like PLCs, inverters, and circuit breakers.
The STM32H743IIT6 can process high-quality audio signals, including MP3, AAC, and FLAC formats, through its SAI, I2S, and SPDIF interfaces. It can also generate and synthesize sounds, making it suitable for audio applications like smart speakers, soundbars, and headphones.
This microcontroller’s efficient processing power and low-power modes make it ideal for mobile devices, including gaming systems, tablets, and smartwatches. It supports interactive experiences and can connect seamlessly with external sensors for enhanced functionality.
With support for Ethernet, USB, and SDIO, as well as optional wireless connectivity through external modules, the STM32H743IIT6 fits well in IoT and smart applications. It can handle cloud connectivity, data encryption, and authentication, making it suitable for smart home, city, and agricultural technologies.
STMicroelectronics, a leading semiconductor manufacturer founded in 1987, is headquartered in Geneva, Switzerland. Known for its innovative, reliable components across automotive, industrial, and IoT applications, STMicroelectronics supports developers with products that enable efficient and sustainable technology solutions.
The main difference between the STM32H743IIT6 and STM32H743ZIT6 models is the package type and the number of I/O pins. The STM32H743IIT6 uses an LQFP-176 package and offers 140 I/O pins, while the STM32H743ZIT6 comes in an LQFP-144 package with 114 I/O pins. Both versions share the same core, memory, and peripheral features, making them functionally similar beyond these physical distinctions.
To program the STM32H743IIT6 with an ST-LINK/V2 debugger, first connect the ST-LINK/V2 to your PC via USB, and connect the target board through either the SWD or JTAG interface. Install and open the STM32CubeProgrammer software on your PC. Select the ST-LINK/V2 from the menu, then click Connect. Under the Download tab, choose the binary or hex file you want to load. Click Start Programming and wait for the process to finish. You can also program the STM32H743IIT6 using STM32CubeIDE or other compatible IDEs with ST-LINK/V2 support.
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The main difference between the STM32H743IIT6 and STM32H743ZIT6 models is the package type and the number of I/O pins. The STM32H743IIT6 uses an LQFP-176 package and offers 140 I/O pins, while the STM32H743ZIT6 comes in an LQFP-144 package with 114 I/O pins. Both versions share the same core, memory, and peripheral features, making them functionally similar beyond these physical distinctions.
To program the STM32H743IIT6 with an ST-LINK/V2 debugger, first connect the ST-LINK/V2 to your PC via USB, and connect the target board through either the SWD or JTAG interface. Install and open the STM32CubeProgrammer software on your PC. Select the ST-LINK/V2 from the menu, then click Connect. Under the Download tab, choose the binary or hex file you want to load. Click Start Programming and wait for the process to finish. You can also program the STM32H743IIT6 using STM32CubeIDE or other compatible IDEs with ST-LINK/V2 support.
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