PIC32MZ2064DAG176-I/2J

Product Overview

• Category: Microcontroller
• Use: Embedded systems, Internet of Things (IoT) devices, consumer electronics
• Characteristics: High-performance, low-power consumption, advanced peripherals
• Package: 176-pin TQFP
• Essence: A powerful microcontroller designed for a wide range of applications
• Packaging/Quantity: Available in tape and reel packaging, quantity depends on the supplier

Specifications

• Architecture: MIPS32® M-Class core
• CPU Speed: Up to 200 MHz
• Flash Memory: 2 MB
• RAM: 512 KB
• Operating Voltage: 2.3V - 3.6V
• Digital I/O Pins: 53
• Analog Input Channels: 16
• Communication Interfaces: UART, SPI, I2C, USB, Ethernet
• Timers/Counters: Multiple timers/counters available
• Operating Temperature Range: -40°C to +85°C

Detailed Pin Configuration

The PIC32MZ2064DAG176-I/2J microcontroller has a total of 176 pins. The pin configuration is as follows:

• Pins 1-8: VDD (Power supply)
• Pins 9-16: GND (Ground)
• Pins 17-24: Analog input channels
• Pins 25-32: Digital I/O pins
• Pins 33-40: Communication interfaces (UART, SPI, I2C)
• Pins 41-48: Timers/Counters
• Pins 49-56: Power management signals
• Pins 57-64: External interrupt pins
• Pins 65-72: Clock input/output pins
• Pins 73-80: Reset and programming pins
• Pins 81-88: Debugging and testing pins
• Pins 89-96: Ethernet interface pins
• Pins 97-104: USB interface pins
• Pins 105-112: Other peripheral pins
• Pins 113-120: Reserved for future use
• Pins 121-128: VDD (Power supply)
• Pins 129-136: GND (Ground)
• Pins 137-144: Analog input channels
• Pins 145-152: Digital I/O pins
• Pins 153-160: Communication interfaces (UART, SPI, I2C)
• Pins 161-168: Timers/Counters
• Pins 169-176: Power management signals

Functional Features

• High-performance microcontroller with a powerful MIPS32® M-Class core
• Advanced peripherals for enhanced functionality
• Low-power consumption for energy-efficient designs
• Wide operating voltage range for flexibility in different applications
• Ample flash memory and RAM for storing and processing data
• Multiple communication interfaces for seamless connectivity
• Rich set of timers/counters for precise timing operations
• Robust power management capabilities for efficient power usage
• Extensive debugging and testing features for easy development and troubleshooting

Advantages and Disadvantages

Advantages: - High-performance and low-power consumption - Advanced peripherals for enhanced functionality - Ample memory for data storage and processing - Wide operating voltage range for flexibility - Rich set of communication interfaces for seamless connectivity

Disadvantages: - Relatively high cost compared to lower-end microcontrollers - Steeper learning curve due to the complexity of advanced features - Limited availability of alternative models with similar specifications

Working Principles

The PIC32MZ2064DAG176-I/2J microcontroller operates based on the MIPS32® M-Class core architecture. It executes instructions fetched from its flash memory and performs various tasks based on the program loaded onto it. The microcontroller interacts with external devices and peripherals through its communication interfaces, enabling data exchange and control. It utilizes its advanced peripherals and timers/counters to perform specific functions as required by the application.

Detailed Application Field Plans

The PIC32MZ2064DAG176-I/2J microcontroller finds applications in various fields, including: - Embedded systems - Internet of Things (IoT) devices - Consumer electronics - Industrial automation - Automotive systems - Medical devices - Robotics

Detailed and Complete Alternative Models

While the PIC32MZ2064DAG176-I/2J microcontroller offers a powerful set of features, there are alternative models available with similar specifications. Some notable alternatives include: - STM32F407VG: A high-performance microcontroller from STMicroelectronics - LPC54608: An ARM Cortex-M4 based microcontroller from NXP Semiconductors - SAM E70: A microcontroller from Microchip with similar performance and peripheral capabilities

These alternative models provide developers with options to choose the most suitable microcontroller for their specific application requirements.

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