Manufacturer Part Number
PIC16LF1823-I/SL
Manufacturer
Microchip Technology
Introduction
The PIC16LF1823-I/SL is a low-power, high-performance microcontroller from Microchip Technology’s PIC® XLP™ 16F series, suitable for various embedded control applications.
Product Features and Performance
8-Bit Core Processor
Maximum speed of 32MHz
I2C, LINbus, SPI, UART/USART connectivity options
Features Brown-out Detect/Reset, Power On Reset (POR), Pulse Width Modulation (PWM), Watchdog Timer (WDT)
Basic program memory size of 3.5KB with FLASH type storage
256 x 8 EEPROM and 128 x 8 RAM
Internal Oscillator
Analog/Digital Converter with 8 channels at 10-bit resolution
Operating Temperature range from -40°C to 85°C
Product Advantages
Extensive connectivity features support increased flexibility in system design.
Low power usage enhances battery life in portable applications.
Operating temperature range makes it suitable for harsh environments.
Key Technical Parameters
Core Processor: PIC, 8-Bit
Speed: 32MHz
Program Memory: 3.5KB FLASH
EEPROM Size: 256 x 8
RAM Size: 128 x 8
Voltage Supply: 1.8V ~ 3.6V
Number of I/O: 12
Data Converters: 8 x 10bit A/D
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
Brown-out Detect/Reset and Power On Reset provide protection against power instability.
Watchdog Timer prevents system hang by resetting under error conditions.
Compatibility
Compatible with surface mount technology easing the assembly process on printed circuit boards.
Application Areas
Ideal for consumer electronics, automotive applications, industrial controls, and battery-powered devices.
Product Lifecycle
Currently active with no indication of discontinuation. Replacements or upgrades are readily available.
Several Key Reasons to Choose This Product
High integration of features saves additional component costs and space on PCB.
Low power consumption ideal for battery-operated devices.
Wide operating temperature range ensures reliability in varied environmental conditions.
Multiple connectivity options provide flexibility in function expansions and future upgrades.
High program memory capacity enables handling of complex software applications.