STM32F407VET6 Microcontroller for Embedded Systems: Datasheet, CAD-Model

STM32F407VET6 Basic Introduction:

The STM32F407VET6 is a high-performance microcontroller based on the ARM Cortex-M4 core. It is part of the STM32F4 series, which is known for its advanced features and capabilities. This article aims to provide an overview of the STM32F407VET6 and highlight its key features and applications.

STM32F407VET6 Pinout:

STM32F407VET6 CAD-Model:

Symbol

Footprint

3D-Model

STM32F407VET6 Key Features:

ARM Cortex-M4 Core: The STM32F407VET6 is powered by the ARM Cortex-M4 core, which offers a combination of high performance and low power consumption. This core supports a wide range of digital signal processing (DSP) and floating-point operations, making it suitable for demanding applications.

Clock Speed: The microcontroller operates at a maximum clock speed of 168 MHz, allowing for fast and efficient execution of instructions. This high clock speed enables real-time processing and responsiveness in applications such as industrial control systems, robotics, and motor control.

Memory: The STM32F407VET6 features 512KB of Flash memory for program storage and 192KB of SRAM for data storage. This ample memory capacity allows for the implementation of complex algorithms and the storage of large amounts of data.

Peripherals: The microcontroller offers a wide range of peripherals, including UART, SPI, I2C, USB, CAN, and Ethernet interfaces. These peripherals facilitate communication with external devices and enable the microcontroller to interface with various sensors, actuators, and communication modules.

Advanced Analog Features: The STM32F407VET6 includes a 12-bit analog-to-digital converter (ADC) with up to 24 channels, providing precise and accurate analog signal acquisition. It also features a digital-to-analog converter (DAC) for generating analog output signals.

STM32F407VET6 Applications:

Industrial Automation: The STM32F407VET6 is well-suited for industrial automation applications such as process control, monitoring systems, and data acquisition. Its high-performance capabilities enable real-time control and efficient data processing.

Robotics: With its powerful processing capabilities and extensive peripheral support, the microcontroller is ideal for robotics applications. It can control motors, sensors, and actuators, enabling the development of autonomous robots, drones, and robotic arms.

Internet of Things (IoT): The STM32F407VET6 can be used in IoT applications where connectivity and low power consumption are crucial. Its built-in Ethernet and USB interfaces, along with support for various wireless communication protocols, make it suitable for IoT gateway devices and edge computing.

Audio and Video Processing: The microcontroller’s DSP capabilities and high clock speed make it suitable for audio and video processing applications. It can be used in audio codecs, video streaming devices, and multimedia systems.

STM32F407VET6 Block Diagram

Conclusion:

The STM32F407VET6 is a powerful microcontroller that offers advanced features and capabilities for a wide range of embedded systems applications. Its high-performance ARM Cortex-M4 core, ample memory, and extensive peripheral support make it a popular choice among developers. Whether it’s industrial automation, robotics, IoT, or audio/video processing, the STM32F407VET6 provides the necessary tools to build efficient and reliable embedded systems.

Frequently Asked Questions

What’s the Supply Voltage of STM32F407VET6?

3.3V.

Related Articles

FT234XD-R Interface Bridge: Footprint, Datasheet, Alternatives

Release time:2023-09-15       Page View：447

FT234XD-R, a USB to serial UART interface with optimized packaging for smaller PCB designs (3mm x 3mm 12 pins DFN)! We wiil give you a brif introduction of its Footprint, Datasheet, Alternatives.

AD210AN Isolation Amplifier: Pinout, Applications, Datasheet

Release time:2023-09-12       Page View：496

The AD210AN is a Precision, Wide Bandwidth 3-Port Isolation Amplifier. This article will unlock its pinout, datasheet, parts comparison and more details about AD210AN.

LD1117S33TR Voltage regulator: PDF, Pinout, Alternatives

Release time:2023-09-12       Page View：669

Fixed Tin LD1117 PMIC 4 TO-261-4, TO-261AA LD1117S33TR--An adjustable and fixed low-drop positive voltage regulator! This article will reveal LD1117S33TR's pinout, datasheet, alternative and other information.

IRFZ44NL Transistors: Datasheet, Replacement

Release time:2023-09-12       Page View：530

Here are the following introduction to the advantages of IRFZ44NL: Advanced processing techniques to achieve,extremely low on-resistance per silicon area. This benefit,combined with the fast switching speed and ruggedized Device design,provides the designer with an extremely efficient and reliable device for use in a wide variety of applications.

LMD18200T 3A 55V Motor Controllers: Pinout, Datasheet

Release time:2023-09-12       Page View：235

LMD18200T:3A mA 13mA mA Motor Drivers 11 42V V 55V V2. This article will reveal the datasheet , pinout of the controller LMD18200T and other information like the distinction of LMD18200T and LMD18200T/NOPB you want to know.

ATMEGA328-PU MCU|PDF,Pinout,Atmega328-PU vs ATMEGA328P-AU

Release time:2023-09-12       Page View：558

ATMEGA328-PU：32KB 16K x 16 FLASH AVR 8-Bit Microcontroller ATmega Series ATMEGA328 28 Pin 20MHz 5V 28-DIP (0.300, 7.62mm). This article will include its pinout, features, datasheet and more detailed information about the difference between ATMEGA328-PU and ATMEGA328P-AU.

SN6505BDBVR IC transformer Driver: Pinout, PDF and Alternatives

Release time:2023-09-12       Page View：462

SN6505BDBVR : 6 Terminations2.25V~5.5V 6 Pin SN6505 Specialized Power Management ICs1 Outputs1 Functions.

ATMEGA1284P-MU Microcontrollers: Datasheet, Distinction

Release time:2023-09-12       Page View：696

128KB 64K x 16 FLASH AVR 8-Bit Microcontroller AVR® ATmega Series ATMEGA1284P 44 Pin 20MHz 44-VFQFN Exposed Pad. Today we're bringing you the datasheet pinout, features, datasheet, the difference between ATMEGA1284P-MU and ATMEGA1284P-MUR and more detailed information.

Qualcomm carrier aggregation technology, the best solution for 5G speed improvement

Release time:2022-11-25       Page View：585

Smartphones are known to have the ability to communicate online, play games, chase dramas, chat and read novels. They are true all-rounders in everyday life. But what most people don't know is that enabling these capabilities also requires something called baseband. Without it, the smartphone cannot connect to the internet.We will not repeat the pro...

Abandon 30 years of grudges! Japan and the United States jointly research 2nm, want to control the global semiconductor supply chain?

Release time:2022-11-25       Page View：506

According to recent news, Japan will establish a research base for a new generation of semiconductors, and jointly research 2nm semiconductor chips with the United States, which is expected to be widely used in artificial intelligence and other fields. Japanese Minister of Economy, Trade and Industry Hikaru Hagi said that the cooperation between J...

With the entry of new players, how can the dominant automotive CIS manufacturers maintain their leading position?

Release time:2022-11-25       Page View：480

In the past decade, CMOS image sensor (hereinafter referred to as CIS) is almost one of the fastest growing semiconductor products. Image sensor sales doubled from 2010 to 2019, according to ICInsights.In the CIS market, in recent years, the growth rate of the automotive application segment has been evident due to the increase in the number o...

Why is there a global chip shortage?

Release time:2022-11-25       Page View：586

With the development of 5g technology and artificial intelligence, as well as the trend of automobile intelligence, the demand for 5g radio frequency, PC, fingerprint recognition, car control, sensors and other chips is also growing rapidly. However, with the resumption of work, the rebound in car sales, and the increase in various demands, the pressure ...