PIC16F18855-I/SP Microchip PIC16F18855-I/SP Microcontrollers PIC 1kB 25 I/Os

Microchip PIC16F18855-I/SP Microcontrollers Overview

8-bit PIC MCU, 14 KB, 1024 Bytes, 32 MHz, 1.8 to 5.5V, SPDIP-28, RoHS

Key Features of Microchip PIC16F18855-I/SP Microcontrollers

• Optimized to rAM Size: 1kB, improving robustness in practical applications.
• Designed to number of I/Os: 25, helping ensure consistent and reliable operation.
• Optimized to core Architecture: PIC, improving robustness in practical applications.

Microchip PIC16F18855-I/SP Microcontrollers Applications

Education and Research

• Well-suited for development boards for teaching embedded systems, GPIO control, and peripheral interfacing, helping designers meet typical integration requirements.
• Commonly applied in research prototypes testing new control algorithms on real hardware platforms, supporting stable and efficient system performance.
• Commonly applied in university lab safety monitors reading gas/temperature sensors and triggering alarms, supporting stable and efficient system performance.
• Often used in oscilloscope front-end controllers managing sampling modes and UI interactions, where predictable behavior and reliability are important.
• Often used in biomedical teaching devices measuring EMG/ECG signals with basic filtering, where predictable behavior and reliability are important.

Wearable Devices

• Often used in smart glasses handling camera control, micro-displays, and touch/button inputs, where predictable behavior and reliability are important.
• Often used in smart insoles measuring pressure distribution and supporting gait analysis, where predictable behavior and reliability are important.
• Often used in posture trainers detecting orientation and providing corrective haptic feedback, where predictable behavior and reliability are important.
• Well-suited for sleep tracking devices analyzing motion and heart rate for sleep quality metrics, helping designers meet typical integration requirements.
• Often used in smart helmets monitoring impacts and logging safety events for review, where predictable behavior and reliability are important.

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 smart hospital beds adjusting position, monitoring occupancy, and preventing entrapment, where predictable behavior and reliability are important.
• Often used in rehabilitation devices controlling assisted movement with torque/position feedback loops, where predictable behavior and reliability are important.
• Commonly applied in blood glucose meters conditioning signals and computing concentration from test strips, supporting stable and efficient system performance.
• Commonly applied in wearable medical monitors logging long-term trends and syncing data securely, supporting stable and efficient system performance.

Experimental and Future Uses

• Often used in autonomous sensor pods for extreme environments managing heaters and survival power modes, where predictable behavior and reliability are important.
• Well-suited for smart textiles with embedded control managing distributed sensing and low-power communications, helping designers meet typical integration requirements.
• Commonly applied in smart materials experiments controlling heating/strain to observe phase changes, supporting stable and efficient system performance.
• Often used in edge federated learning nodes coordinating training cycles and secure updates, where predictable behavior and reliability are important.
• Well-suited for intelligent swarm sensors coordinating distributed sampling and adaptive duty cycling, helping designers meet typical integration requirements.

Communication Devices

• Well-suited for wireless routers controlling status LEDs, button events, and watchdog recovery logic, helping designers meet typical integration requirements.
• Well-suited for conference speakerphones managing echo cancellation control and UI state, helping designers meet typical integration requirements.
• Well-suited for paging transmitters controlling message encoding and timed broadcast slots, helping designers meet typical integration requirements.
• Well-suited for wireless microphones managing channel hopping and battery monitoring, helping designers meet typical integration requirements.
• Commonly applied in nFC readers polling tags and handling secure element interactions, supporting stable and efficient system performance.