PIC16C63A-04E/SO Microchip PIC16C63A-04E/SO Microcontrollers PIC 192B 22 I/Os 4MHz 5V

Microchip PIC16C63A-04E/SO Microcontrollers Overview

The Microchip PIC16C Series 8-bit microcontroller is a versatile and efficient solution designed for a wide range of embedded applications. With 7 KB of Flash memory and 192 B of RAM, this microcontroller provides ample resources for complex tasks while maintaining a compact footprint in a SOIC-28 package. Operating at a maximum frequency of 4 MHz, it supports various communication interfaces including I2C, SPI, UART, and USART, making it ideal for projects requiring robust connectivity. Its wide operating temperature range from -40°C to 125°C ensures reliable performance in demanding environments.

Key Features of Microchip PIC16C63A-04E/SO Microcontrollers

• Optimized to supports I2C, SPI, UART, and USART Interfaces, improving robustness in practical applications.
• Designed to 22 Programmable I/O Pins, helping ensure consistent and reliable operation.
• Built to integrated Watchdog Timer for Enhanced Reliability, making integration easier across a wide range of systems.
• Designed to 7 KB Flash Memory and 192 B RAM, helping ensure consistent and reliable operation.
• Engineered to max Operating Frequency of 4 MHz, supporting dependable performance in real-world designs.
• Engineered to roHS Compliant and Lead Free, supporting dependable performance in real-world designs.
• Engineered to wide Operating Temperature Range (-40°C to 125°C), supporting dependable performance in real-world designs.
• Optimized to 28-Pin SOIC Package for Surface Mount Applications, improving robustness in practical applications.

Microchip PIC16C63A-04E/SO Microcontrollers Applications

Medical Devices

• Well-suited for heart rate monitors collecting ECG/PPG signals and calculating beat-to-beat intervals, helping designers meet typical integration requirements.
• Often used in defibrillators managing charging control, energy delivery, and safe discharge sequencing, where predictable behavior and reliability are important.
• Often used in smart hospital beds adjusting position, monitoring occupancy, and preventing entrapment, where predictable behavior and reliability are important.
• Often used in wearable medical monitors logging long-term trends and syncing data securely, where predictable behavior and reliability are important.
• Often used in patient monitoring systems collecting vitals and triggering alarms when thresholds are crossed, where predictable behavior and reliability are important.

Education and Research

• Often used in microcontroller-based spectroscopy rigs controlling LEDs and photodiode sampling, where predictable behavior and reliability are important.
• Well-suited for embedded AI experiment platforms coordinating sensors and lightweight inference pipelines, helping designers meet typical integration requirements.
• Often used in oscilloscope front-end controllers managing sampling modes and UI interactions, where predictable behavior and reliability are important.
• Well-suited for signal generator controllers handling frequency synthesis and output amplitude control, helping designers meet typical integration requirements.
• Commonly applied in environmental research buoys logging sensor data and transmitting summaries periodically, supporting stable and efficient system performance.

Experimental and Future Uses

• Well-suited for neural stimulation research devices controlling pulse width, frequency, and safety limits, helping designers meet typical integration requirements.
• Commonly applied in space robotics subsystems managing joint control and radiation-tolerant watchdog logic, supporting stable and efficient system performance.
• Well-suited for edge federated learning nodes coordinating training cycles and secure updates, helping designers meet typical integration requirements.
• Well-suited for quantum experiment controllers managing precise timing pulses and instrument triggers, helping designers meet typical integration requirements.
• Often used in brain-computer interface prototypes processing biosignals and streaming features for research, where predictable behavior and reliability are important.

Entertainment and Media

• Commonly applied in wireless microphone receivers managing channel selection and RF status indicators, supporting stable and efficient system performance.
• Well-suited for interactive museum exhibits reading sensors and presenting multimedia responses, helping designers meet typical integration requirements.
• Well-suited for smart props for theater controlling servos, LEDs, and timed reveal mechanisms, helping designers meet typical integration requirements.
• Well-suited for audio mixers controlling signal routing, gain staging, and digital effects parameters, helping designers meet typical integration requirements.
• Well-suited for theme park ride controllers managing safety sensors, sequencing, and emergency stops, helping designers meet typical integration requirements.

Robotics

• Well-suited for competition robots executing timed routines and sensor-driven strategies, helping designers meet typical integration requirements.
• Often used in underwater robots managing thrusters, depth sensors, and stability control, where predictable behavior and reliability are important.
• Often used in swarm robots coordinating movement using short messages and distributed behaviors, where predictable behavior and reliability are important.
• Commonly applied in humanoid robots managing balance with IMU feedback and coordinated joint control, supporting stable and efficient system performance.
• Often used in robotic camera gimbals stabilizing footage with IMU feedback and motor control, where predictable behavior and reliability are important.