STM32L4R5ZIY6TR

Product Overview

Category: Microcontroller
Use: Embedded systems, Internet of Things (IoT) devices, consumer electronics
Characteristics: Low power consumption, high performance, rich peripherals, advanced security features
Package: LQFP64
Essence: ARM Cortex-M4 32-bit RISC core
Packaging/Quantity: Tape and reel, 2500 units per reel

Specifications

Core: ARM Cortex-M4
Clock Speed: Up to 120 MHz
Flash Memory: 2 MB
RAM: 640 KB
Operating Voltage: 1.71V to 3.6V
Digital I/O Pins: 51
Analog Input Pins: 16
Communication Interfaces: UART, SPI, I2C, USB, CAN, Ethernet
ADC Resolution: 12-bit
DMA Channels: 24
Timers: 14
Power Consumption: Ultra-low power mode with less than 10 µA current consumption

Pin Configuration

The STM32L4R5ZIY6TR microcontroller has a total of 64 pins. The pin configuration is as follows:

Pins 1-8: GPIO pins
Pins 9-16: Analog input pins
Pins 17-32: GPIO pins
Pins 33-40: Communication interface pins (UART, SPI, I2C)
Pins 41-48: GPIO pins
Pins 49-56: Power supply and ground pins
Pins 57-64: GPIO pins

Functional Features

High-performance ARM Cortex-M4 core for efficient processing
Low power consumption for extended battery life in portable devices
Rich set of peripherals for versatile application development
Advanced security features to protect sensitive data
Flexible communication interfaces for seamless connectivity
Extensive analog and digital I/O capabilities for sensor integration

Advantages and Disadvantages

Advantages: - High-performance processing capabilities - Low power consumption for energy-efficient designs - Advanced security features for secure applications - Versatile peripherals for diverse application requirements

Disadvantages: - Limited availability of alternative models - Higher cost compared to some other microcontrollers in the market

Working Principles

The STM32L4R5ZIY6TR microcontroller is based on the ARM Cortex-M4 core, which provides high-performance processing capabilities. It operates at a clock speed of up to 120 MHz and offers a wide range of peripherals for various application needs. The microcontroller is designed to operate at low power levels, making it suitable for battery-powered devices. It incorporates advanced security features to protect sensitive data and supports multiple communication interfaces for seamless connectivity. The microcontroller can be programmed using various development tools and software.

Detailed Application Field Plans

The STM32L4R5ZIY6TR microcontroller finds applications in various fields, including:

Internet of Things (IoT) devices: The low power consumption and rich set of peripherals make it ideal for IoT applications such as smart home devices, wearables, and environmental monitoring systems.
Consumer electronics: The microcontroller can be used in consumer electronics products like smartphones, tablets, gaming consoles, and multimedia devices.
Industrial automation: Its high-performance processing capabilities and extensive I/O capabilities make it suitable for industrial automation applications such as control systems, motor drives, and robotics.
Medical devices: The microcontroller's advanced security features and low power consumption make it suitable for medical devices like patient monitors, infusion pumps, and portable diagnostic equipment.

Alternative Models

While the STM32L4R5ZIY6TR microcontroller offers a comprehensive set of features, there are alternative models available in the market that can be considered based on specific requirements. Some alternative microcontrollers include:

STM32F4 series: Offers similar performance and peripherals but with different pin configurations and package options.
Atmel SAM4 series: Provides a range of ARM Cortex-M4 based microcontrollers with different memory sizes and peripheral options.
NXP LPC54000 series: Features ARM Cortex-M4 core with advanced security features and extensive peripheral options.

These alternative models can be evaluated based on specific project requirements to choose the most suitable microcontroller.

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Question: What is the maximum operating frequency of the STM32L4R5ZIY6TR?
Answer: The maximum operating frequency of the STM32L4R5ZIY6TR is 120 MHz.
Question: What are the key features of the STM32L4R5ZIY6TR?
Answer: The key features of the STM32L4R5ZIY6TR include ultra-low-power consumption, advanced peripherals, and security features.
Question: Can the STM32L4R5ZIY6TR be used for battery-powered applications?
Answer: Yes, the STM32L4R5ZIY6TR is suitable for battery-powered applications due to its ultra-low-power capabilities.
Question: What development tools are available for the STM32L4R5ZIY6TR?
Answer: Development tools such as STM32CubeMX, STM32CubeIDE, and various third-party IDEs and compilers are available for the STM32L4R5ZIY6TR.
Question: Does the STM32L4R5ZIY6TR support communication interfaces like UART, SPI, and I2C?
Answer: Yes, the STM32L4R5ZIY6TR supports UART, SPI, I2C, and other communication interfaces.
Question: What is the temperature range for the STM32L4R5ZIY6TR?
Answer: The STM32L4R5ZIY6TR has a temperature range of -40°C to 85°C.
Question: Can the STM32L4R5ZIY6TR be used in industrial control applications?
Answer: Yes, the STM32L4R5ZIY6TR is suitable for industrial control applications due to its robustness and reliability.
Question: Are there any integrated security features in the STM32L4R5ZIY6TR?
Answer: Yes, the STM32L4R5ZIY6TR includes hardware cryptographic and hash functions for enhanced security.
Question: What are the available memory options for the STM32L4R5ZIY6TR?
Answer: The STM32L4R5ZIY6TR offers various Flash and SRAM memory configurations to suit different application requirements.
Question: Is the STM32L4R5ZIY6TR compatible with low-power modes for energy-efficient operation?
Answer: Yes, the STM32L4R5ZIY6TR supports multiple low-power modes to optimize energy consumption in battery-operated devices.