The STM32F411RET6 microcontroller, powered by the Arm® Cortex®-M4 32-bit RISC core, excels in both performance and power efficiency, operating at speeds up to 100 MHz. This article explores its pin layout, features, and diverse applications, underlining its role in advancing technology across various industries. Learn more about how the STM32F411RET6 can enhance your projects.
Catalog
The STM32F411RET6 microcontrollers feature the Arm® Cortex®-M4 32-bit RISC core, capable of reaching speeds up to 100 MHz and equipped with a single-precision Floating Point Unit (FPU) that handles all Arm single-precision instructions and data types. These devices are part of the STM32 Active Efficiency™ series, aimed at enhancing performance and power efficiency. They include an innovative feature known as Batch Acquisition Mode (BAM), which helps to further reduce power consumption during data batching.
Feature/Parameter
|
Details
|
Efficiency Line with BAM
|
Batch
Acquisition Mode
|
Power
Supply
|
1.7 V to 3.6
V
|
Temperature
Range
|
-40°C to 85°C
/ 105°C / 125°C
|
Core
|
Arm® 32-bit
Cortex®-M4 CPU with FPU, ART Accelerator™, 0-wait state execution from Flash,
frequency up to 100 MHz, memory protection unit, 125 DMIPS/1.25 DMIPS/MHz
(Dhrystone 2.1), DSP instructions
|
Memories
|
Up to 512
Kbytes of Flash memory; 128 Kbytes of SRAM
|
Clock,
Reset, and Supply Management
|
- 1.7 V to
3.6 V application supply and I/Os
|
- POR, PDR,
PVD, and BOR
|
- 4-to-26 MHz
crystal oscillator
|
- Internal 16
MHz factory-trimmed RC
|
- 32 kHz
oscillator for RTC with calibration
|
- Internal 32
kHz RC with calibration
|
Power
Consumption
|
- Run: 100
µA/MHz (peripheral off)
|
- Stop (Flash
in Stop mode): 42 µA Typ @ 25°C, 65 µA Max @ 25°C
|
- Stop (Flash
in Deep power-down mode): 9 µA @ 25°C; 28 µA Max @ 25°C
|
- Standby:
1.8 µA @ 25°C without RTC, 11 µA @ 85°C
|
- VBAT supply
for RTC: 1 µA @ 25°C
|
A/D
Converter
|
1 × 12-bit,
2.4 MSPS, up to 16 channels
|
DMA
|
General-purpose
DMA with 16-stream DMA controllers, FIFOs, and burst support
|
Timers
|
Up to 11
timers: six 16-bit, two 32-bit timers up to 100 MHz; IC/OC/PWM, pulse
counter, quadrature encoder input; two watchdog timers (independent and
window); SysTick timer
|
Debug Mode
|
Serial wire
debug (SWD) and JTAG interfaces; Cortex®-M4 Embedded Trace Macrocell™
|
I/O Ports
|
Up to 81 I/O
ports with interrupt capability
|
Up to 78 fast
I/Os up to 100 MHz
|
Up to 77
5V-tolerant I/Os
|
Communication
Interfaces
|
- Up to 3 ×
I2C interfaces (SMBus/PMBus)
|
- Up to 3
USARTs (2 × 12.5 Mbit/s, 1 × 6.25 Mbit/s), ISO 7816, LIN, IrDA, modem control
|
- Up to 5
SPI/I2Ss (50 Mbit/s), SPI2 and SPI3 with muxed full-duplex I2S
|
- SDIO
interface (SD/MMC/eMMC)
|
- USB 2.0
full-speed device/host/OTG with on-chip PHY
|
Other
Features
|
CRC
calculation unit, 96-bit unique ID, RTC with subsecond accuracy and hardware
calendar
|
Packages
|
WLCSP49,
LQFP64/100, UFQFPN48, UFBGA100 (ECOPACK®2)
|
Technical specifications, attributes, parameters, and components of the STMicroelectronics STM32F411RET6TR:
Type
|
Parameter
|
Lifecycle
Status
|
ACTIVE (Last
Updated: 7 months ago)
|
Factory
Lead Time
|
12 Weeks
|
Mounting
Type
|
Surface Mount
|
Package /
Case
|
64-LQFP
|
Surface
Mount
|
YES
|
Data
Converters
|
A/D 16×12b
|
Number of
I/Os
|
50
|
ROM (word)
|
524288
|
Operating
Temperature
|
-40°C to 85°C
(TA)
|
Packaging
|
Tape &
Reel (TR)
|
Series
|
STM32F4
|
Part
Status
|
Active
|
Moisture
Sensitivity Level (MSL)
|
3 (168 Hours)
|
Number of
Terminations
|
64
|
ECCN Code
|
3A991.A.2
|
Terminal
Position
|
QUAD
|
Terminal
Form
|
GULL WING
|
Supply
Voltage
|
3.3V
|
Terminal
Pitch
|
0.5mm
|
Base Part
Number
|
STM32F411
|
JESD-30
Code
|
S-PQFP-G64
|
Supply
Voltage - Max (Vsup)
|
3.6V
|
Supply
Voltage - Min (Vsup)
|
1.7V
|
Oscillator
Type
|
Internal
|
Speed
|
100MHz
|
RAM Size
|
128K x 8
|
Voltage -
Supply (Vcc/Vdd)
|
1.7V to 3.6V
|
uPs/uCs/Peripheral
ICs Type
|
MICROCONTROLLER,
RISC
|
Core
Processor
|
ARM®
Cortex®-M4
|
Peripherals
|
Brown-out
Detect/Reset, DMA, I2S, POR, PWM, WDT
|
Clock
Frequency
|
26MHz
|
Program
Memory Type
|
FLASH
|
Core Size
|
32-Bit
|
Program
Memory Size
|
512KB
|
Connectivity
|
I2C, IrDA,
LINbus, MMC/SD/SDIO, SPI, UART/USART, USB OTG
|
Supply
Current - Max
|
34.5mA
|
Bit Size
|
32
|
Has ADC
|
YES
|
DMA
Channels
|
YES
|
PWM
Channels
|
YES
|
DAC
Channels
|
NO
|
On-Chip
Program ROM Width
|
8
|
CPU Family
|
Cortex-M4
|
Boundary
Scan
|
YES
|
Low Power
Mode
|
YES
|
Format
|
FLOATING-POINT
|
Integrated
Cache
|
NO
|
RAM
(words)
|
128,000
|
Number of
External Interrupts
|
16
|
On-Chip
Data RAM Width
|
8
|
Length
|
10mm
|
Height
Seated (Max)
|
1.6mm
|
Width
|
10mm
|
RoHS
Status
|
RoHS3
Compliant
|
STM32F411RET6 Application in Motor Drive and Application Control
The STM32F411RET6 microcontroller excels in motor drive and application control, providing precise and efficient management capabilities that optimize motor function performance.
STM32F411RET6 in Medical Equipment
This microcontroller plays a main role in medical equipment, where its reliability and accuracy are top for ensuring the effective operation of healthcare technologies.
Industrial Applications of STM32F411RET6
In industrial applications, including PLCs, inverters, and circuit breakers, the STM32F411RET6 offers robust control and seamless connectivity, making it a top choice for industrial systems.
STM32F411RET6 in Printers and Scanners
For printers and scanners, the STM32F411RET6 enhances functionality and efficiency, facilitating superior data processing and output management that improve device performance.
STM32F411RET6 in Alarm Systems, Video Intercom, and HVAC
The microcontroller is also structural to the operation of alarm systems, video intercoms, and HVAC units, where it supports advanced security and environmental management features.
STM32F411RET6 in Home Audio Appliances
In-home audio appliances, the STM32F411RET6 microcontroller enriches the audio quality and performance with its advanced sound processing capabilities and support for multi-channel audio systems.
STM32F411RET6 as a Mobile Phone Sensor Hub
As a mobile phone sensor hub, the STM32F411RET6 efficiently manages multiple sensor inputs, significantly enhancing the responsiveness and battery life of the device.
STMicroelectronics excels in semiconductor alteration, using its expertise in silicon processing to develop advanced System-on-Chip (SoC) solutions for industries like IoT, automotive, and smart home technology. Their collaborations with industry and academia alter and help meet emerging market needs. Among their products, the STM32F411RET6 microcontroller stands out, known for its strong performance in complex computations and control tasks across various applications.
Datasheet PDF
STM32F411RET6 Datasheets:
STM32F411RET6(1).pdf
STM32F411RET6(2).pdf
STM32F411RET6(3).pdf
STM32F411RET6 Details PDF
STM32F411RET6 Details PDF for FR.pdf
STM32F411RET6 Details PDF for KR.pdf
STM32F411RET6 Details PDF for IT.pdf
STM32F411RET6 Details PDF for ES.pdf
STM32F411RET6 Details PDF for DE.pdf
Frequently Asked Questions [FAQ]
1. What is the STM32F411RET6TR?
The STM32F411RET6TR utilizes the high-performance Arm® Cortex®-M4 32-bit RISC core, operating up to 100 MHz.
2. Can you describe the STM32F411RET6TR?
This microcontroller features a 32-bit RISC ARM Cortex®-M4 core at 100 MHz, includes a single precision FPU, supports DSP instructions, and has a memory protection unit for enhanced security.
3. Between Arduino and STM32, which should I choose?
Arduino suits simpler projects without advanced needs, while STM32 is best possible for more complex applications. Beginners might start with simpler microcontrollers like the 8051 or PIC to understand the basics before moving to more sophisticated boards like STM32 for advanced projects.
4. What are the operating conditions for the STM32F411xC/xE?
The STM32F411xC/xE operates in temperatures from -40 to +125 °C and requires a power supply of 1.7 to 3.6 V.
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