PIC24FJ64GA004-E/PT Microchip PIC24FJ64GA004-E/PT Microcontrollers PIC 8kB 35 I/Os 32MHz

Microchip PIC24FJ64GA004-E/PT Microcontrollers Overview

PIC series Microcontroller IC 16-Bit 32MHz 64KB (22K x 24) FLASH 44-TQFP (1×1)

Key Features of Microchip PIC24FJ64GA004-E/PT Microcontrollers

• Engineered to number of I/Os: 35, supporting dependable performance in real-world designs.
• Engineered to max Frequency: 32MHz, supporting dependable performance in real-world designs.
• Engineered to core Architecture: PIC, supporting dependable performance in real-world designs.
• Designed to rAM Size: 8kB, helping ensure consistent and reliable operation.

Microchip PIC24FJ64GA004-E/PT Microcontrollers Applications

Home Automation

• Often used in smart light bulbs adjusting brightness, color, and wireless commands with low-power control, where predictable behavior and reliability are important.
• Well-suited for carbon monoxide detectors sampling gas sensors and issuing alerts at threshold levels, helping designers meet typical integration requirements.
• Often used in smart HVAC vents controlling airflow using small motors and position feedback sensors, where predictable behavior and reliability are important.
• Often used in voice-controlled home hubs coordinating device commands and local status indicators, where predictable behavior and reliability are important.
• Often used in smart light switches scanning button presses, driving dimmers, and reporting state to hubs, where predictable behavior and reliability are important.

Robotics

• Well-suited for humanoid robots managing balance with IMU feedback and coordinated joint control, helping designers meet typical integration requirements.
• Well-suited for robotic camera gimbals stabilizing footage with IMU feedback and motor control, helping designers meet typical integration requirements.
• Often used in line-following robots processing reflectance sensors and adjusting motor PWM outputs, where predictable behavior and reliability are important.
• Often used in surgical robots controlling precise motion with strict safety constraints, where predictable behavior and reliability are important.
• Well-suited for robotic grippers controlling force using tactile sensors and closed-loop feedback, helping designers meet typical integration requirements.

Communication Devices

• Well-suited for wireless microphones managing channel hopping and battery monitoring, helping designers meet typical integration requirements.
• Often used in conference speakerphones managing echo cancellation control and UI state, where predictable behavior and reliability are important.
• Often used in zigbee devices managing mesh networking, routing, and join/leave operations, where predictable behavior and reliability are important.
• Well-suited for wireless routers controlling status LEDs, button events, and watchdog recovery logic, helping designers meet typical integration requirements.
• Often used in satellite communication terminals managing data transmission and antenna subsystem control, where predictable behavior and reliability are important.

Industrial Automation

• Often used in conveyor belt systems controlling speed, spacing logic, and object detection sensors, where predictable behavior and reliability are important.
• Well-suited for industrial alarms monitoring faults, driving stack lights, and enforcing interlocks, helping designers meet typical integration requirements.
• Commonly applied in safety controllers monitoring E-stops and light curtains to guarantee safe stop behavior, supporting stable and efficient system performance.
• Commonly applied in pneumatic controllers timing solenoids and monitoring air pressure for reliability, supporting stable and efficient system performance.
• Commonly applied in assembly line controllers synchronizing multiple machines and handling line stoppages, supporting stable and efficient system performance.

Medical Devices

• Commonly applied in patient monitoring systems collecting vitals and triggering alarms when thresholds are crossed, supporting stable and efficient system performance.
• Often used in rehabilitation devices controlling assisted movement with torque/position feedback loops, where predictable behavior and reliability are important.
• Well-suited for digital thermometers sampling sensors, filtering noise, and displaying stable temperature values, helping designers meet typical integration requirements.
• Often used in medical imaging control panels handling operator inputs and subsystem coordination, where predictable behavior and reliability are important.
• Well-suited for defibrillators managing charging control, energy delivery, and safe discharge sequencing, helping designers meet typical integration requirements.