ATSAMD51G19A-MU

Product Overview

• Category: Microcontroller
• Use: Embedded systems, Internet of Things (IoT) devices, robotics, industrial automation
• Characteristics:
  • High-performance ARM Cortex-M4F microcontroller
  • Clock speed up to 120 MHz
  • 512 KB Flash memory and 192 KB SRAM
  • Low power consumption
  • Wide range of peripherals and interfaces
• Package: QFN-48
• Essence: The ATSAMD51G19A-MU is a powerful microcontroller designed for various applications that require high performance and low power consumption.
• Packaging/Quantity: Available in tape and reel packaging with a quantity of 2500 units per reel.

Specifications

• Microcontroller Core: ARM Cortex-M4F
• Clock Speed: Up to 120 MHz
• Flash Memory: 512 KB
• SRAM: 192 KB
• Operating Voltage: 1.62V to 3.63V
• Digital I/O Pins: 32
• Analog Input Pins: 8
• Serial Communication Interfaces: UART, SPI, I2C, USB
• PWM Channels: 6
• ADC Resolution: 12-bit
• Operating Temperature Range: -40°C to +85°C

Detailed Pin Configuration

The ATSAMD51G19A-MU microcontroller has a total of 48 pins. Here is the detailed pin configuration:

• Pin 1: VDDANA (Analog Power Supply)
• Pin 2: GND (Ground)
• Pin 3: PA00 (General Purpose I/O)
• Pin 4: PA01 (General Purpose I/O)
• ...
• Pin 48: PB31 (General Purpose I/O)

Functional Features

• High-performance ARM Cortex-M4F core for efficient processing
• Rich set of peripherals and interfaces for versatile applications
• Low power consumption for extended battery life
• Extensive memory options for storing program code and data
• Advanced analog-to-digital converter (ADC) for accurate sensor readings
• Flexible serial communication interfaces for seamless connectivity
• PWM channels for precise control of motors and actuators
• Secure boot and encryption features for enhanced system security

Advantages and Disadvantages

Advantages: - High-performance microcontroller suitable for demanding applications - Wide range of peripherals and interfaces for versatile designs - Low power consumption for energy-efficient operation - Ample memory options for storing program code and data - Secure boot and encryption features for enhanced system security

Disadvantages: - Limited number of digital I/O pins compared to some other microcontrollers - Relatively higher cost compared to entry-level microcontrollers

Working Principles

The ATSAMD51G19A-MU microcontroller operates based on the ARM Cortex-M4F architecture. It executes instructions stored in its Flash memory, processes data, and interacts with various peripherals and external devices. The microcontroller's clock speed determines the rate at which it performs these operations. It can communicate with other devices using different serial communication interfaces such as UART, SPI, I2C, and USB. The microcontroller's low power consumption allows it to be used in battery-powered applications.

Detailed Application Field Plans

The ATSAMD51G19A-MU microcontroller is widely used in various application fields, including:

1. Embedded Systems: Used in embedded systems for controlling and monitoring devices in industries, home automation, automotive, and consumer electronics.
2. Internet of Things (IoT) Devices: Enables connectivity and data processing in IoT devices such as smart home devices, wearables, and environmental monitoring systems.
3. Robotics: Used as the brain of robots for controlling their movements, sensors, and actuators.
4. Industrial Automation: Enables automation and control in industrial processes, including factory automation, process control, and machine monitoring.
5. Medical Devices: Used in medical devices for data acquisition, signal processing, and control applications.

Detailed and Complete Alternative Models

1. ATSAMD21G18A-MU: A lower-cost alternative with similar features but lower performance compared to ATSAMD51G19A-MU.
2. STM32F407VGT6: An alternative microcontroller from STMicroelectronics with a higher clock speed and more peripherals.
3. PIC32MZ2048EFH144: A microcontroller from Microchip with a similar clock speed and extensive peripheral options.

These alternative models provide different options based on cost, performance, and specific application requirements.

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