MSP430FR58721IRGCR

Product Overview

• Category: Microcontroller
• Use: Embedded systems, Internet of Things (IoT) devices
• Characteristics: Low power consumption, high performance, integrated peripherals
• Package: 64-pin VQFN package
• Essence: A microcontroller designed for low-power applications with integrated FRAM memory and various peripherals
• Packaging/Quantity: Available in reels of 2500 units

Specifications

• Architecture: 16-bit RISC
• CPU Speed: Up to 16 MHz
• Flash Memory: 256 KB
• RAM: 16 KB
• FRAM: 8 KB
• Operating Voltage Range: 1.8V to 3.6V
• Digital I/O Pins: 47
• Analog Input Channels: 24
• Communication Interfaces: UART, SPI, I2C, USB
• Timers: 4x 16-bit timers, 1x 32-bit timer
• ADC Resolution: 12-bit
• Temperature Sensor: Yes
• Operating Temperature Range: -40°C to +85°C

Pin Configuration

The MSP430FR58721IRGCR has a total of 64 pins. The pin configuration is as follows:

• P1.x: General-purpose I/O pins
• P2.x: General-purpose I/O pins
• P3.x: General-purpose I/O pins
• P4.x: General-purpose I/O pins
• P5.x: General-purpose I/O pins
• P6.x: General-purpose I/O pins
• P7.x: General-purpose I/O pins
• P8.x: General-purpose I/O pins
• P9.x: General-purpose I/O pins
• P10.x: General-purpose I/O pins
• AVSS: Analog ground
• AVCC: Analog power supply
• DVSS: Digital ground
• DVCC: Digital power supply
• RST/NMI: Reset and Non-Maskable Interrupt input
• TEST/SBWTCK: Test mode and Serial Boundary Scan Test Clock input
• TDI/TCLK: Test Data Input and Test Clock input
• TDO/TMS: Test Data Output and Test Mode Select input
• TCK/TDI: Test Clock and Test Data Input
• TMS/TDO: Test Mode Select and Test Data Output
• TCK/TRST#: Test Clock and Test Reset input
• XIN: Crystal oscillator input
• XOUT: Crystal oscillator output

Functional Features

• Low-power operation: The MSP430FR58721IRGCR is designed to consume minimal power, making it suitable for battery-powered applications.
• Integrated FRAM memory: The microcontroller features non-volatile Ferroelectric Random Access Memory (FRAM), which offers high endurance, fast write times, and low power consumption.
• Rich set of peripherals: It includes UART, SPI, I2C, and USB interfaces for communication, as well as timers, ADC, and temperature sensor for various application needs.
• High-performance CPU: The 16-bit RISC architecture provides efficient execution of instructions and enables fast response times.

Advantages and Disadvantages

Advantages: - Low power consumption extends battery life in portable devices. - Integrated FRAM memory eliminates the need for external storage and provides fast and reliable data storage. - Wide range of integrated peripherals simplifies system design and reduces component count. - High-performance CPU allows for efficient execution of complex tasks.

Disadvantages: - Limited flash memory size may restrict the complexity of applications that can be implemented. - Higher cost compared to some other microcontrollers with similar specifications. - Availability of alternative models with different pin configurations may limit compatibility with existing designs.

Working Principles

The MSP430FR58721IRGCR operates based on the von Neumann architecture, where program instructions and data are stored in the same memory space. It executes instructions fetched from the flash memory using its 16-bit RISC CPU. The microcontroller can communicate with external devices through its various communication interfaces and interact with the environment through its analog input channels.

Detailed Application Field Plans

The MSP430FR58721IRGCR is suitable for a wide range of applications, including but not limited to: - Portable medical devices - Smart home automation systems - Industrial control systems - Wearable devices - Sensor networks - Energy management systems

Detailed and Complete Alternative Models

• MSP430FR58671IRGCR: Similar specifications but with a different pin configuration.
• MSP430FR58871IRGCR: Similar specifications but with more flash memory.
• MSP430FR59941IRGCR: Similar specifications but with additional integrated peripherals.

These alternative models provide flexibility in choosing the most suitable microcontroller based on specific application requirements.

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